From 776b911365695a1836274867df4b41f6429d11a2 Mon Sep 17 00:00:00 2001 From: Nicolai Hähnle Date: Mon, 19 Nov 2018 18:53:09 +0100 Subject: amd/addrlib: update Mesa's copy of addrlib Update to the internal master as of 2018-11-15. This has a lot of gratuitous whitespace change, but on the plus side it's built using the same tooling that's used for AMDVLK, which should help going forward. --- src/amd/Makefile.addrlib.am | 11 +- src/amd/Makefile.sources | 57 +- src/amd/addrlib/addrinterface.cpp | 1743 --- src/amd/addrlib/addrinterface.h | 3717 ------- src/amd/addrlib/addrtypes.h | 749 -- src/amd/addrlib/amdgpu_asic_addr.h | 138 - src/amd/addrlib/core/addrcommon.h | 924 -- src/amd/addrlib/core/addrelemlib.cpp | 1843 ---- src/amd/addrlib/core/addrelemlib.h | 279 - src/amd/addrlib/core/addrlib.cpp | 644 -- src/amd/addrlib/core/addrlib.h | 413 - src/amd/addrlib/core/addrlib1.cpp | 4076 ------- src/amd/addrlib/core/addrlib1.h | 545 - src/amd/addrlib/core/addrlib2.cpp | 1891 ---- src/amd/addrlib/core/addrlib2.h | 793 -- src/amd/addrlib/core/addrobject.cpp | 233 - src/amd/addrlib/core/addrobject.h | 95 - src/amd/addrlib/gfx9/chip/gfx9_enum.h | 10535 ------------------- src/amd/addrlib/gfx9/coord.cpp | 707 -- src/amd/addrlib/gfx9/coord.h | 114 - src/amd/addrlib/gfx9/gfx9addrlib.cpp | 5016 --------- src/amd/addrlib/gfx9/gfx9addrlib.h | 454 - src/amd/addrlib/inc/addrinterface.h | 3715 +++++++ src/amd/addrlib/inc/addrtypes.h | 746 ++ src/amd/addrlib/inc/chip/gfx9/gfx9_gb_reg.h | 89 - src/amd/addrlib/inc/chip/r800/si_gb_reg.h | 163 - src/amd/addrlib/meson.build | 58 +- src/amd/addrlib/r800/chip/si_ci_vi_merged_enum.h | 40 - src/amd/addrlib/r800/ciaddrlib.cpp | 2341 ---- src/amd/addrlib/r800/ciaddrlib.h | 201 - src/amd/addrlib/r800/egbaddrlib.cpp | 4168 -------- src/amd/addrlib/r800/egbaddrlib.h | 430 - src/amd/addrlib/r800/siaddrlib.cpp | 3872 ------- src/amd/addrlib/r800/siaddrlib.h | 348 - src/amd/addrlib/src/addrinterface.cpp | 1740 +++ src/amd/addrlib/src/amdgpu_asic_addr.h | 137 + src/amd/addrlib/src/chip/gfx9/gfx9_gb_reg.h | 89 + src/amd/addrlib/src/chip/r800/si_gb_reg.h | 163 + src/amd/addrlib/src/core/addrcommon.h | 922 ++ src/amd/addrlib/src/core/addrelemlib.cpp | 1830 ++++ src/amd/addrlib/src/core/addrelemlib.h | 279 + src/amd/addrlib/src/core/addrlib.cpp | 655 ++ src/amd/addrlib/src/core/addrlib.h | 415 + src/amd/addrlib/src/core/addrlib1.cpp | 4061 +++++++ src/amd/addrlib/src/core/addrlib1.h | 544 + src/amd/addrlib/src/core/addrlib2.cpp | 1883 ++++ src/amd/addrlib/src/core/addrlib2.h | 836 ++ src/amd/addrlib/src/core/addrobject.cpp | 233 + src/amd/addrlib/src/core/addrobject.h | 95 + src/amd/addrlib/src/core/coord.cpp | 714 ++ src/amd/addrlib/src/core/coord.h | 122 + src/amd/addrlib/src/gfx9/gfx9addrlib.cpp | 4871 +++++++++ src/amd/addrlib/src/gfx9/gfx9addrlib.h | 629 ++ src/amd/addrlib/src/r800/ciaddrlib.cpp | 2339 ++++ src/amd/addrlib/src/r800/ciaddrlib.h | 201 + src/amd/addrlib/src/r800/egbaddrlib.cpp | 4156 ++++++++ src/amd/addrlib/src/r800/egbaddrlib.h | 430 + src/amd/addrlib/src/r800/siaddrlib.cpp | 3872 +++++++ src/amd/addrlib/src/r800/siaddrlib.h | 347 + src/amd/common/ac_surface.c | 4 +- src/amd/vulkan/winsys/amdgpu/radv_amdgpu_surface.c | 1 - src/amd/vulkan/winsys/amdgpu/radv_amdgpu_winsys.h | 2 +- src/gallium/winsys/amdgpu/drm/amdgpu_winsys.h | 2 +- 63 files changed, 36089 insertions(+), 46631 deletions(-) delete mode 100644 src/amd/addrlib/addrinterface.cpp delete mode 100644 src/amd/addrlib/addrinterface.h delete mode 100644 src/amd/addrlib/addrtypes.h delete mode 100644 src/amd/addrlib/amdgpu_asic_addr.h delete mode 100644 src/amd/addrlib/core/addrcommon.h delete mode 100644 src/amd/addrlib/core/addrelemlib.cpp delete mode 100644 src/amd/addrlib/core/addrelemlib.h delete mode 100644 src/amd/addrlib/core/addrlib.cpp delete mode 100644 src/amd/addrlib/core/addrlib.h delete mode 100644 src/amd/addrlib/core/addrlib1.cpp delete mode 100644 src/amd/addrlib/core/addrlib1.h delete mode 100644 src/amd/addrlib/core/addrlib2.cpp delete mode 100644 src/amd/addrlib/core/addrlib2.h delete mode 100644 src/amd/addrlib/core/addrobject.cpp delete mode 100644 src/amd/addrlib/core/addrobject.h delete mode 100644 src/amd/addrlib/gfx9/chip/gfx9_enum.h delete mode 100644 src/amd/addrlib/gfx9/coord.cpp delete mode 100644 src/amd/addrlib/gfx9/coord.h delete mode 100644 src/amd/addrlib/gfx9/gfx9addrlib.cpp delete mode 100644 src/amd/addrlib/gfx9/gfx9addrlib.h create mode 100644 src/amd/addrlib/inc/addrinterface.h create mode 100644 src/amd/addrlib/inc/addrtypes.h delete mode 100644 src/amd/addrlib/inc/chip/gfx9/gfx9_gb_reg.h delete mode 100644 src/amd/addrlib/inc/chip/r800/si_gb_reg.h delete mode 100644 src/amd/addrlib/r800/chip/si_ci_vi_merged_enum.h delete mode 100644 src/amd/addrlib/r800/ciaddrlib.cpp delete mode 100644 src/amd/addrlib/r800/ciaddrlib.h delete mode 100644 src/amd/addrlib/r800/egbaddrlib.cpp delete mode 100644 src/amd/addrlib/r800/egbaddrlib.h delete mode 100644 src/amd/addrlib/r800/siaddrlib.cpp delete mode 100644 src/amd/addrlib/r800/siaddrlib.h create mode 100644 src/amd/addrlib/src/addrinterface.cpp create mode 100644 src/amd/addrlib/src/amdgpu_asic_addr.h create mode 100644 src/amd/addrlib/src/chip/gfx9/gfx9_gb_reg.h create mode 100644 src/amd/addrlib/src/chip/r800/si_gb_reg.h create mode 100644 src/amd/addrlib/src/core/addrcommon.h create mode 100644 src/amd/addrlib/src/core/addrelemlib.cpp create mode 100644 src/amd/addrlib/src/core/addrelemlib.h create mode 100644 src/amd/addrlib/src/core/addrlib.cpp create mode 100644 src/amd/addrlib/src/core/addrlib.h create mode 100644 src/amd/addrlib/src/core/addrlib1.cpp create mode 100644 src/amd/addrlib/src/core/addrlib1.h create mode 100644 src/amd/addrlib/src/core/addrlib2.cpp create mode 100644 src/amd/addrlib/src/core/addrlib2.h create mode 100644 src/amd/addrlib/src/core/addrobject.cpp create mode 100644 src/amd/addrlib/src/core/addrobject.h create mode 100644 src/amd/addrlib/src/core/coord.cpp create mode 100644 src/amd/addrlib/src/core/coord.h create mode 100644 src/amd/addrlib/src/gfx9/gfx9addrlib.cpp create mode 100644 src/amd/addrlib/src/gfx9/gfx9addrlib.h create mode 100644 src/amd/addrlib/src/r800/ciaddrlib.cpp create mode 100644 src/amd/addrlib/src/r800/ciaddrlib.h create mode 100644 src/amd/addrlib/src/r800/egbaddrlib.cpp create mode 100644 src/amd/addrlib/src/r800/egbaddrlib.h create mode 100644 src/amd/addrlib/src/r800/siaddrlib.cpp create mode 100644 src/amd/addrlib/src/r800/siaddrlib.h (limited to 'src') diff --git a/src/amd/Makefile.addrlib.am b/src/amd/Makefile.addrlib.am index af0daf907d5..6de0e487f69 100644 --- a/src/amd/Makefile.addrlib.am +++ b/src/amd/Makefile.addrlib.am @@ -26,12 +26,11 @@ addrlib_libamdgpu_addrlib_la_CPPFLAGS = \ -I$(top_srcdir)/src/ \ -I$(top_srcdir)/include \ -I$(srcdir)/common \ - -I$(srcdir)/addrlib \ - -I$(srcdir)/addrlib/core \ - -I$(srcdir)/addrlib/inc/chip/gfx9 \ - -I$(srcdir)/addrlib/inc/chip/r800 \ - -I$(srcdir)/addrlib/gfx9/chip \ - -I$(srcdir)/addrlib/r800/chip + -I$(srcdir)/addrlib/inc \ + -I$(srcdir)/addrlib/src \ + -I$(srcdir)/addrlib/src/core \ + -I$(srcdir)/addrlib/src/chip/gfx9 \ + -I$(srcdir)/addrlib/src/chip/r800 addrlib_libamdgpu_addrlib_la_CXXFLAGS = \ $(VISIBILITY_CXXFLAGS) $(CXX11_CXXFLAGS) diff --git a/src/amd/Makefile.sources b/src/amd/Makefile.sources index 41334cb9818..49d1031874a 100644 --- a/src/amd/Makefile.sources +++ b/src/amd/Makefile.sources @@ -5,35 +5,34 @@ COMMON_HEADER_FILES = \ common/amd_kernel_code_t.h ADDRLIB_FILES = \ - addrlib/addrinterface.cpp \ - addrlib/addrinterface.h \ - addrlib/addrtypes.h \ - addrlib/amdgpu_asic_addr.h \ - addrlib/core/addrcommon.h \ - addrlib/core/addrelemlib.cpp \ - addrlib/core/addrelemlib.h \ - addrlib/core/addrlib.cpp \ - addrlib/core/addrlib.h \ - addrlib/core/addrlib1.cpp \ - addrlib/core/addrlib1.h \ - addrlib/core/addrlib2.cpp \ - addrlib/core/addrlib2.h \ - addrlib/core/addrobject.cpp \ - addrlib/core/addrobject.h \ - addrlib/gfx9/chip/gfx9_enum.h \ - addrlib/gfx9/coord.cpp \ - addrlib/gfx9/coord.h \ - addrlib/gfx9/gfx9addrlib.cpp \ - addrlib/gfx9/gfx9addrlib.h \ - addrlib/inc/chip/gfx9/gfx9_gb_reg.h \ - addrlib/inc/chip/r800/si_gb_reg.h \ - addrlib/r800/chip/si_ci_vi_merged_enum.h \ - addrlib/r800/ciaddrlib.cpp \ - addrlib/r800/ciaddrlib.h \ - addrlib/r800/egbaddrlib.cpp \ - addrlib/r800/egbaddrlib.h \ - addrlib/r800/siaddrlib.cpp \ - addrlib/r800/siaddrlib.h + addrlib/inc/addrinterface.h \ + addrlib/inc/addrtypes.h \ + addrlib/src/addrinterface.cpp \ + addrlib/src/amdgpu_asic_addr.h \ + addrlib/src/core/addrcommon.h \ + addrlib/src/core/addrelemlib.cpp \ + addrlib/src/core/addrelemlib.h \ + addrlib/src/core/addrlib.cpp \ + addrlib/src/core/addrlib.h \ + addrlib/src/core/addrlib1.cpp \ + addrlib/src/core/addrlib1.h \ + addrlib/src/core/addrlib2.cpp \ + addrlib/src/core/addrlib2.h \ + addrlib/src/core/addrobject.cpp \ + addrlib/src/core/addrobject.h \ + addrlib/src/core/coord.cpp \ + addrlib/src/core/coord.h \ + addrlib/src/gfx9/gfx9addrlib.cpp \ + addrlib/src/gfx9/gfx9addrlib.h \ + addrlib/src/chip/gfx9/gfx9_gb_reg.h \ + addrlib/src/chip/r800/si_gb_reg.h \ + addrlib/src/r800/chip/si_ci_vi_merged_enum.h \ + addrlib/src/r800/ciaddrlib.cpp \ + addrlib/src/r800/ciaddrlib.h \ + addrlib/src/r800/egbaddrlib.cpp \ + addrlib/src/r800/egbaddrlib.h \ + addrlib/src/r800/siaddrlib.cpp \ + addrlib/src/r800/siaddrlib.h AMD_COMPILER_FILES = \ common/ac_binary.c \ diff --git a/src/amd/addrlib/addrinterface.cpp b/src/amd/addrlib/addrinterface.cpp deleted file mode 100644 index 9cbeba41d97..00000000000 --- a/src/amd/addrlib/addrinterface.cpp +++ /dev/null @@ -1,1743 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrinterface.cpp -* @brief Contains the addrlib interface functions -**************************************************************************************************** -*/ -#include "addrinterface.h" -#include "addrlib1.h" -#include "addrlib2.h" - -#include "addrcommon.h" - -#include "util/macros.h" - -using namespace Addr; - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Create/Destroy/Config functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrCreate -* -* @brief -* Create address lib object -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrCreate( - const ADDR_CREATE_INPUT* pAddrCreateIn, ///< [in] infomation for creating address lib object - ADDR_CREATE_OUTPUT* pAddrCreateOut) ///< [out] address lib handle -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - returnCode = Lib::Create(pAddrCreateIn, pAddrCreateOut); - - return returnCode; -} - - - -/** -**************************************************************************************************** -* AddrDestroy -* -* @brief -* Destroy address lib object -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrDestroy( - ADDR_HANDLE hLib) ///< address lib handle -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (hLib) - { - Lib* pLib = Lib::GetLib(hLib); - pLib->Destroy(); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrComputeSurfaceInfo -* -* @brief -* Calculate surface width/height/depth/alignments and suitable tiling mode -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] surface information - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) ///< [out] surface parameters and alignments -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeSurfaceInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -/** -**************************************************************************************************** -* AddrComputeSurfaceAddrFromCoord -* -* @brief -* Compute surface address according to coordinates -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] surface info and coordinates - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] surface address -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeSurfaceAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeSurfaceCoordFromAddr -* -* @brief -* Compute coordinates according to surface address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] surface info and address - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) ///< [out] coordinates -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeSurfaceCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// HTile functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrComputeHtileInfo -* -* @brief -* Compute Htile pitch, height, base alignment and size in bytes -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeHtileInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] Htile information - ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut) ///< [out] Htile pitch, height and size in bytes -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeHtileInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeHtileAddrFromCoord -* -* @brief -* Compute Htile address according to coordinates (of depth buffer) -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeHtileAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] Htile info and coordinates - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Htile address -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeHtileAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeHtileCoordFromAddr -* -* @brief -* Compute coordinates within depth buffer (1st pixel of a micro tile) according to -* Htile address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeHtileCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] Htile info and address - ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] Htile coordinates -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeHtileCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// C-mask functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrComputeCmaskInfo -* -* @brief -* Compute Cmask pitch, height, base alignment and size in bytes from color buffer -* info -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] Cmask pitch and height - ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut) ///< [out] Cmask pitch, height and size in bytes -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeCmaskInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeCmaskAddrFromCoord -* -* @brief -* Compute Cmask address according to coordinates (of MSAA color buffer) -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Cmask info and coordinates - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Cmask address -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeCmaskAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeCmaskCoordFromAddr -* -* @brief -* Compute coordinates within color buffer (1st pixel of a micro tile) according to -* Cmask address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Cmask info and address - ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Cmask coordinates -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeCmaskCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// F-mask functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrComputeFmaskInfo -* -* @brief -* Compute Fmask pitch/height/depth/alignments and size in bytes -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] Fmask information - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut) ///< [out] Fmask pitch and height -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeFmaskInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeFmaskAddrFromCoord -* -* @brief -* Compute Fmask address according to coordinates (x,y,slice,sample,plane) -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Fmask info and coordinates - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Fmask address -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeFmaskAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeFmaskCoordFromAddr -* -* @brief -* Compute coordinates (x,y,slice,sample,plane) according to Fmask address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Fmask info and address - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Fmask coordinates -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeFmaskCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// DCC key functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrComputeDccInfo -* -* @brief -* Compute DCC key size, base alignment based on color surface size, tile info or tile index -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeDccInfo( - ADDR_HANDLE hLib, ///< handle of addrlib - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) ///< [out] output -{ - ADDR_E_RETURNCODE returnCode; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputeDccInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -/////////////////////////////////////////////////////////////////////////////// -// Below functions are element related or helper functions -/////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrGetVersion -* -* @brief -* Get AddrLib version number. Client may check this return value against ADDRLIB_VERSION -* defined in addrinterface.h to see if there is a mismatch. -**************************************************************************************************** -*/ -UINT_32 ADDR_API AddrGetVersion(ADDR_HANDLE hLib) -{ - UINT_32 version = 0; - - Addr::Lib* pLib = Lib::GetLib(hLib); - - ADDR_ASSERT(pLib != NULL); - - if (pLib) - { - version = pLib->GetVersion(); - } - - return version; -} - -/** -**************************************************************************************************** -* AddrUseTileIndex -* -* @brief -* Return TRUE if tileIndex is enabled in this address library -**************************************************************************************************** -*/ -BOOL_32 ADDR_API AddrUseTileIndex(ADDR_HANDLE hLib) -{ - BOOL_32 useTileIndex = FALSE; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_ASSERT(pLib != NULL); - - if (pLib) - { - useTileIndex = pLib->UseTileIndex(0); - } - - return useTileIndex; -} - -/** -**************************************************************************************************** -* AddrUseCombinedSwizzle -* -* @brief -* Return TRUE if combined swizzle is enabled in this address library -**************************************************************************************************** -*/ -BOOL_32 ADDR_API AddrUseCombinedSwizzle(ADDR_HANDLE hLib) -{ - BOOL_32 useCombinedSwizzle = FALSE; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_ASSERT(pLib != NULL); - - if (pLib) - { - useCombinedSwizzle = pLib->UseCombinedSwizzle(); - } - - return useCombinedSwizzle; -} - -/** -**************************************************************************************************** -* AddrExtractBankPipeSwizzle -* -* @brief -* Extract Bank and Pipe swizzle from base256b -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrExtractBankPipeSwizzle( - ADDR_HANDLE hLib, ///< addrlib handle - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ExtractBankPipeSwizzle(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrCombineBankPipeSwizzle -* -* @brief -* Combine Bank and Pipe swizzle -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrCombineBankPipeSwizzle( - ADDR_HANDLE hLib, - const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->CombineBankPipeSwizzle(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeSliceSwizzle -* -* @brief -* Compute a swizzle for slice from a base swizzle -* @return -* ADDR_OK if no error -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSliceSwizzle( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputeSliceTileSwizzle(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputeBaseSwizzle -* -* @brief -* Return a Combined Bank and Pipe swizzle base on surface based on surface type/index -* @return -* ADDR_OK if no error -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeBaseSwizzle( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputeBaseSwizzle(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* ElemFlt32ToDepthPixel -* -* @brief -* Convert a FLT_32 value to a depth/stencil pixel value -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API ElemFlt32ToDepthPixel( - ADDR_HANDLE hLib, ///< addrlib handle - const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, ///< [in] per-component value - ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut) ///< [out] final pixel value -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - Lib* pLib = Lib::GetLib(hLib); - - if (pLib != NULL) - { - pLib->Flt32ToDepthPixel(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* ElemFlt32ToColorPixel -* -* @brief -* Convert a FLT_32 value to a red/green/blue/alpha pixel value -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API ElemFlt32ToColorPixel( - ADDR_HANDLE hLib, ///< addrlib handle - const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, ///< [in] format, surface number and swap value - ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut) ///< [out] final pixel value -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - Lib* pLib = Lib::GetLib(hLib); - - if (pLib != NULL) - { - pLib->Flt32ToColorPixel(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* ElemGetExportNorm -* -* @brief -* Helper function to check one format can be EXPORT_NUM, -* which is a register CB_COLOR_INFO.SURFACE_FORMAT. -* FP16 can be reported as EXPORT_NORM for rv770 in r600 -* family -* -**************************************************************************************************** -*/ -BOOL_32 ADDR_API ElemGetExportNorm( - ADDR_HANDLE hLib, ///< addrlib handle - const ELEM_GETEXPORTNORM_INPUT* pIn) ///< [in] input structure -{ - Addr::Lib* pLib = Lib::GetLib(hLib); - BOOL_32 enabled = FALSE; - - MAYBE_UNUSED ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - enabled = pLib->GetExportNorm(pIn); - } - else - { - returnCode = ADDR_ERROR; - } - - ADDR_ASSERT(returnCode == ADDR_OK); - - return enabled; -} - -/** -**************************************************************************************************** -* AddrConvertTileInfoToHW -* -* @brief -* Convert tile info from real value to hardware register value -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrConvertTileInfoToHW( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] tile info with real value - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) ///< [out] tile info with HW register value -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ConvertTileInfoToHW(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrConvertTileIndex -* -* @brief -* Convert tile index to tile mode/type/info -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_CONVERT_TILEINDEX_INPUT* pIn, ///< [in] input - tile index - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) ///< [out] tile mode/type/info -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ConvertTileIndex(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrGetMacroModeIndex -* -* @brief -* Get macro mode index based on input parameters -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetMacroModeIndex( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_GET_MACROMODEINDEX_INPUT* pIn, ///< [in] input - ADDR_GET_MACROMODEINDEX_OUTPUT* pOut) ///< [out] macro mode index -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode; - - if (pLib != NULL) - { - returnCode = pLib->GetMacroModeIndex(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrConvertTileIndex1 -* -* @brief -* Convert tile index to tile mode/type/info -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex1( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, ///< [in] input - tile index - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) ///< [out] tile mode/type/info -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ConvertTileIndex1(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrGetTileIndex -* -* @brief -* Get tile index from tile mode/type/info -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -* -* @note -* Only meaningful for SI (and above) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetTileIndex( - ADDR_HANDLE hLib, - const ADDR_GET_TILEINDEX_INPUT* pIn, - ADDR_GET_TILEINDEX_OUTPUT* pOut) -{ - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->GetTileIndex(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrComputePrtInfo -* -* @brief -* Interface function for ComputePrtInfo -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputePrtInfo( - ADDR_HANDLE hLib, - const ADDR_PRT_INFO_INPUT* pIn, - ADDR_PRT_INFO_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - V1::Lib* pLib = V1::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputePrtInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrGetMaxAlignments -* -* @brief -* Convert maximum alignments -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetMaxAlignments( - ADDR_HANDLE hLib, ///< address lib handle - ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) ///< [out] output structure -{ - Addr::Lib* pLib = Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->GetMaxAlignments(pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* AddrGetMaxMetaAlignments -* -* @brief -* Convert maximum alignments for metadata -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetMaxMetaAlignments( - ADDR_HANDLE hLib, ///< address lib handle - ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) ///< [out] output structure -{ - Addr::Lib* pLib = Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->GetMaxMetaAlignments(pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface functions for Addr2 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Addr2ComputeSurfaceInfo -* -* @brief -* Calculate surface width/height/depth/alignments and suitable tiling mode -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] surface information - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) ///< [out] surface parameters and alignments -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeSurfaceInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeSurfaceAddrFromCoord -* -* @brief -* Compute surface address according to coordinates -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] surface info and coordinates - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] surface address -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeSurfaceAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeSurfaceCoordFromAddr -* -* @brief -* Compute coordinates according to surface address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] surface info and address - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) ///< [out] coordinates -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeSurfaceCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// HTile functions for Addr2 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Addr2ComputeHtileInfo -* -* @brief -* Compute Htile pitch, height, base alignment and size in bytes -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] Htile information - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) ///< [out] Htile pitch, height and size in bytes -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeHtileInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeHtileAddrFromCoord -* -* @brief -* Compute Htile address according to coordinates (of depth buffer) -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] Htile info and coordinates - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Htile address -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeHtileAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeHtileCoordFromAddr -* -* @brief -* Compute coordinates within depth buffer (1st pixel of a micro tile) according to -* Htile address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] Htile info and address - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] Htile coordinates -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeHtileCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// C-mask functions for Addr2 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Addr2ComputeCmaskInfo -* -* @brief -* Compute Cmask pitch, height, base alignment and size in bytes from color buffer -* info -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] Cmask pitch and height - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) ///< [out] Cmask pitch, height and size in bytes -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeCmaskInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeCmaskAddrFromCoord -* -* @brief -* Compute Cmask address according to coordinates (of MSAA color buffer) -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Cmask info and coordinates - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Cmask address -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeCmaskAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeCmaskCoordFromAddr -* -* @brief -* Compute coordinates within color buffer (1st pixel of a micro tile) according to -* Cmask address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Cmask info and address - ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Cmask coordinates -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeCmaskCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// F-mask functions for Addr2 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Addr2ComputeFmaskInfo -* -* @brief -* Compute Fmask pitch/height/depth/alignments and size in bytes -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskInfo( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] Fmask information - ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut) ///< [out] Fmask pitch and height -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeFmaskInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeFmaskAddrFromCoord -* -* @brief -* Compute Fmask address according to coordinates (x,y,slice,sample,plane) -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Fmask info and coordinates - ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Fmask address -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeFmaskAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Addr2ComputeFmaskCoordFromAddr -* -* @brief -* Compute coordinates (x,y,slice,sample,plane) according to Fmask address -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskCoordFromAddr( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Fmask info and address - ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Fmask coordinates -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeFmaskCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// DCC key functions for Addr2 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Addr2ComputeDccInfo -* -* @brief -* Compute DCC key size, base alignment based on color surface size, tile info or tile index -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccInfo( - ADDR_HANDLE hLib, ///< handle of addrlib - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) ///< [out] output -{ - ADDR_E_RETURNCODE returnCode; - - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputeDccInfo(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Addr2ComputeDccAddrFromCoord -* -* @brief -* Compute DCC key address according to coordinates -* -* @return -* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccAddrFromCoord( - ADDR_HANDLE hLib, ///< address lib handle - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, ///< [in] Dcc info and coordinates - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Dcc address -{ - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pLib != NULL) - { - returnCode = pLib->ComputeDccAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Addr2ComputePipeBankXor -* -* @brief -* Calculate a valid bank pipe xor value for client to use. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputePipeBankXor( - ADDR_HANDLE hLib, ///< handle of addrlib - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, ///< [in] input - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) ///< [out] output -{ - ADDR_E_RETURNCODE returnCode; - - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputePipeBankXor(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Addr2ComputeSlicePipeBankXor -* -* @brief -* Calculate slice pipe bank xor value based on base pipe bank xor and slice id. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSlicePipeBankXor( - ADDR_HANDLE hLib, ///< handle of addrlib - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, ///< [in] input - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) ///< [out] output -{ - ADDR_E_RETURNCODE returnCode; - - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputeSlicePipeBankXor(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Addr2ComputeSubResourceOffsetForSwizzlePattern -* -* @brief -* Calculate sub resource offset for swizzle pattern. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSubResourceOffsetForSwizzlePattern( - ADDR_HANDLE hLib, ///< handle of addrlib - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, ///< [in] input - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) ///< [out] output -{ - ADDR_E_RETURNCODE returnCode; - - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->ComputeSubResourceOffsetForSwizzlePattern(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Addr2GetPreferredSurfaceSetting -* -* @brief -* Suggest a preferred setting for client driver to program HW register -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2GetPreferredSurfaceSetting( - ADDR_HANDLE hLib, ///< handle of addrlib - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, ///< [in] input - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) ///< [out] output -{ - ADDR_E_RETURNCODE returnCode; - - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - if (pLib != NULL) - { - returnCode = pLib->Addr2GetPreferredSurfaceSetting(pIn, pOut); - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Addr2IsValidDisplaySwizzleMode -* -* @brief -* Return whether the swizzle mode is supported by DCE / DCN. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2IsValidDisplaySwizzleMode( - ADDR_HANDLE hLib, - AddrSwizzleMode swizzleMode, - UINT_32 bpp, - bool *result) -{ - ADDR_E_RETURNCODE returnCode; - - V2::Lib* pLib = V2::Lib::GetLib(hLib); - - if (pLib != NULL) - { - ADDR2_COMPUTE_SURFACE_INFO_INPUT in; - in.swizzleMode = swizzleMode; - in.bpp = bpp; - - *result = pLib->IsValidDisplaySwizzleMode(&in); - returnCode = ADDR_OK; - } - else - { - returnCode = ADDR_ERROR; - } - - return returnCode; -} diff --git a/src/amd/addrlib/addrinterface.h b/src/amd/addrlib/addrinterface.h deleted file mode 100644 index be9e5c2b81e..00000000000 --- a/src/amd/addrlib/addrinterface.h +++ /dev/null @@ -1,3717 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrinterface.h -* @brief Contains the addrlib interfaces declaration and parameter defines -**************************************************************************************************** -*/ -#ifndef __ADDR_INTERFACE_H__ -#define __ADDR_INTERFACE_H__ - -#include "addrtypes.h" - -#if defined(__cplusplus) -extern "C" -{ -#endif - -#define ADDRLIB_VERSION_MAJOR 6 -#define ADDRLIB_VERSION_MINOR 2 -#define ADDRLIB_VERSION ((ADDRLIB_VERSION_MAJOR << 16) | ADDRLIB_VERSION_MINOR) - -/// Virtually all interface functions need ADDR_HANDLE as first parameter -typedef VOID* ADDR_HANDLE; - -/// Client handle used in callbacks -typedef VOID* ADDR_CLIENT_HANDLE; - -/** -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // Callback functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* typedef VOID* (ADDR_API* ADDR_ALLOCSYSMEM)( -* const ADDR_ALLOCSYSMEM_INPUT* pInput); -* typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_FREESYSMEM)( -* VOID* pVirtAddr); -* typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_DEBUGPRINT)( -* const ADDR_DEBUGPRINT_INPUT* pInput); -* -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // Create/Destroy/Config functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* AddrCreate() -* AddrDestroy() -* -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // Surface functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* AddrComputeSurfaceInfo() -* AddrComputeSurfaceAddrFromCoord() -* AddrComputeSurfaceCoordFromAddr() -* -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // HTile functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* AddrComputeHtileInfo() -* AddrComputeHtileAddrFromCoord() -* AddrComputeHtileCoordFromAddr() -* -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // C-mask functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* AddrComputeCmaskInfo() -* AddrComputeCmaskAddrFromCoord() -* AddrComputeCmaskCoordFromAddr() -* -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // F-mask functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* AddrComputeFmaskInfo() -* AddrComputeFmaskAddrFromCoord() -* AddrComputeFmaskCoordFromAddr() -* -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* // Element/Utility functions -* ///////////////////////////////////////////////////////////////////////////////////////////////// -* ElemFlt32ToDepthPixel() -* ElemFlt32ToColorPixel() -* AddrExtractBankPipeSwizzle() -* AddrCombineBankPipeSwizzle() -* AddrComputeSliceSwizzle() -* AddrConvertTileInfoToHW() -* AddrConvertTileIndex() -* AddrConvertTileIndex1() -* AddrGetTileIndex() -* AddrComputeBaseSwizzle() -* AddrUseTileIndex() -* AddrUseCombinedSwizzle() -* -**/ - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Callback functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* @brief channel setting structure -**************************************************************************************************** -*/ -typedef union _ADDR_CHANNEL_SETTING -{ - struct - { - UINT_8 valid : 1; ///< Indicate whehter this channel setting is valid - UINT_8 channel : 2; ///< 0 for x channel, 1 for y channel, 2 for z channel - UINT_8 index : 5; ///< Channel index - }; - UINT_8 value; ///< Value -} ADDR_CHANNEL_SETTING; - -/** -**************************************************************************************************** -* @brief address equation key structure -**************************************************************************************************** -*/ -typedef union _ADDR_EQUATION_KEY -{ - struct - { - UINT_32 log2ElementBytes : 3; ///< Log2 of Bytes per pixel - UINT_32 tileMode : 5; ///< Tile mode - UINT_32 microTileType : 3; ///< Micro tile type - UINT_32 pipeConfig : 5; ///< pipe config - UINT_32 numBanksLog2 : 3; ///< Number of banks log2 - UINT_32 bankWidth : 4; ///< Bank width - UINT_32 bankHeight : 4; ///< Bank height - UINT_32 macroAspectRatio : 3; ///< Macro tile aspect ratio - UINT_32 prt : 1; ///< SI only, indicate whether this equation is for prt - UINT_32 reserved : 1; ///< Reserved bit - } fields; - UINT_32 value; -} ADDR_EQUATION_KEY; - -/** -**************************************************************************************************** -* @brief address equation structure -**************************************************************************************************** -*/ -#define ADDR_MAX_EQUATION_BIT 20u - -// Invalid equation index -#define ADDR_INVALID_EQUATION_INDEX 0xFFFFFFFF - -typedef struct _ADDR_EQUATION -{ - ADDR_CHANNEL_SETTING addr[ADDR_MAX_EQUATION_BIT]; ///< addr setting - ///< each bit is result of addr ^ xor ^ xor2 - ADDR_CHANNEL_SETTING xor1[ADDR_MAX_EQUATION_BIT]; ///< xor setting - ADDR_CHANNEL_SETTING xor2[ADDR_MAX_EQUATION_BIT]; ///< xor2 setting - UINT_32 numBits; ///< The number of bits in equation - BOOL_32 stackedDepthSlices; ///< TRUE if depth slices are treated as being - ///< stacked vertically prior to swizzling -} ADDR_EQUATION; - - -/** -**************************************************************************************************** -* @brief Alloc system memory flags. -* @note These flags are reserved for future use and if flags are added will minimize the impact -* of the client. -**************************************************************************************************** -*/ -typedef union _ADDR_ALLOCSYSMEM_FLAGS -{ - struct - { - UINT_32 reserved : 32; ///< Reserved for future use. - } fields; - UINT_32 value; - -} ADDR_ALLOCSYSMEM_FLAGS; - -/** -**************************************************************************************************** -* @brief Alloc system memory input structure -**************************************************************************************************** -*/ -typedef struct _ADDR_ALLOCSYSMEM_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR_ALLOCSYSMEM_FLAGS flags; ///< System memory flags. - UINT_32 sizeInBytes; ///< System memory allocation size in bytes. - ADDR_CLIENT_HANDLE hClient; ///< Client handle -} ADDR_ALLOCSYSMEM_INPUT; - -/** -**************************************************************************************************** -* ADDR_ALLOCSYSMEM -* @brief -* Allocate system memory callback function. Returns valid pointer on success. -**************************************************************************************************** -*/ -typedef VOID* (ADDR_API* ADDR_ALLOCSYSMEM)( - const ADDR_ALLOCSYSMEM_INPUT* pInput); - -/** -**************************************************************************************************** -* @brief Free system memory input structure -**************************************************************************************************** -*/ -typedef struct _ADDR_FREESYSMEM_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - VOID* pVirtAddr; ///< Virtual address - ADDR_CLIENT_HANDLE hClient; ///< Client handle -} ADDR_FREESYSMEM_INPUT; - -/** -**************************************************************************************************** -* ADDR_FREESYSMEM -* @brief -* Free system memory callback function. -* Returns ADDR_OK on success. -**************************************************************************************************** -*/ -typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_FREESYSMEM)( - const ADDR_FREESYSMEM_INPUT* pInput); - -/** -**************************************************************************************************** -* @brief Print debug message input structure -**************************************************************************************************** -*/ -typedef struct _ADDR_DEBUGPRINT_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - CHAR* pDebugString; ///< Debug print string - va_list ap; ///< Variable argument list - ADDR_CLIENT_HANDLE hClient; ///< Client handle -} ADDR_DEBUGPRINT_INPUT; - -/** -**************************************************************************************************** -* ADDR_DEBUGPRINT -* @brief -* Print debug message callback function. -* Returns ADDR_OK on success. -**************************************************************************************************** -*/ -typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_DEBUGPRINT)( - const ADDR_DEBUGPRINT_INPUT* pInput); - -/** -**************************************************************************************************** -* ADDR_CALLBACKS -* -* @brief -* Address Library needs client to provide system memory alloc/free routines. -**************************************************************************************************** -*/ -typedef struct _ADDR_CALLBACKS -{ - ADDR_ALLOCSYSMEM allocSysMem; ///< Routine to allocate system memory - ADDR_FREESYSMEM freeSysMem; ///< Routine to free system memory - ADDR_DEBUGPRINT debugPrint; ///< Routine to print debug message -} ADDR_CALLBACKS; - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Create/Destroy functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR_CREATE_FLAGS -* -* @brief -* This structure is used to pass some setup in creation of AddrLib -* @note -**************************************************************************************************** -*/ -typedef union _ADDR_CREATE_FLAGS -{ - struct - { - UINT_32 noCubeMipSlicesPad : 1; ///< Turn cubemap faces padding off - UINT_32 fillSizeFields : 1; ///< If clients fill size fields in all input and - /// output structure - UINT_32 useTileIndex : 1; ///< Make tileIndex field in input valid - UINT_32 useCombinedSwizzle : 1; ///< Use combined tile swizzle - UINT_32 checkLast2DLevel : 1; ///< Check the last 2D mip sub level - UINT_32 useHtileSliceAlign : 1; ///< Do htile single slice alignment - UINT_32 allowLargeThickTile : 1; ///< Allow 64*thickness*bytesPerPixel > rowSize - UINT_32 reserved : 25; ///< Reserved bits for future use - }; - - UINT_32 value; -} ADDR_CREATE_FLAGS; - -/** -**************************************************************************************************** -* ADDR_REGISTER_VALUE -* -* @brief -* Data from registers to setup AddrLib global data, used in AddrCreate -**************************************************************************************************** -*/ -typedef struct _ADDR_REGISTER_VALUE -{ - UINT_32 gbAddrConfig; ///< For R8xx, use GB_ADDR_CONFIG register value. - /// For R6xx/R7xx, use GB_TILING_CONFIG. - /// But they can be treated as the same. - /// if this value is 0, use chip to set default value - UINT_32 backendDisables; ///< 1 bit per backend, starting with LSB. 1=disabled,0=enabled. - /// Register value of CC_RB_BACKEND_DISABLE.BACKEND_DISABLE - - /// R800 registers----------------------------------------------- - UINT_32 noOfBanks; ///< Number of h/w ram banks - For r800: MC_ARB_RAMCFG.NOOFBANK - /// No enums for this value in h/w header files - /// 0: 4 - /// 1: 8 - /// 2: 16 - UINT_32 noOfRanks; /// MC_ARB_RAMCFG.NOOFRANK - /// 0: 1 - /// 1: 2 - /// SI (R1000) registers----------------------------------------- - const UINT_32* pTileConfig; ///< Global tile setting tables - UINT_32 noOfEntries; ///< Number of entries in pTileConfig - - ///< CI registers------------------------------------------------- - const UINT_32* pMacroTileConfig; ///< Global macro tile mode table - UINT_32 noOfMacroEntries; ///< Number of entries in pMacroTileConfig - - ///< GFX9 HW parameters - UINT_32 blockVarSizeLog2; ///< SW_VAR_* block size -} ADDR_REGISTER_VALUE; - -/** -**************************************************************************************************** -* ADDR_CREATE_INPUT -* -* @brief -* Parameters use to create an AddrLib Object. Caller must provide all fields. -* -**************************************************************************************************** -*/ -typedef struct _ADDR_CREATE_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 chipEngine; ///< Chip Engine - UINT_32 chipFamily; ///< Chip Family - UINT_32 chipRevision; ///< Chip Revision - ADDR_CALLBACKS callbacks; ///< Callbacks for sysmem alloc/free/print - ADDR_CREATE_FLAGS createFlags; ///< Flags to setup AddrLib - ADDR_REGISTER_VALUE regValue; ///< Data from registers to setup AddrLib global data - ADDR_CLIENT_HANDLE hClient; ///< Client handle - UINT_32 minPitchAlignPixels; ///< Minimum pitch alignment in pixels -} ADDR_CREATE_INPUT; - -/** -**************************************************************************************************** -* ADDR_CREATEINFO_OUTPUT -* -* @brief -* Return AddrLib handle to client driver -* -**************************************************************************************************** -*/ -typedef struct _ADDR_CREATE_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR_HANDLE hLib; ///< Address lib handle - - UINT_32 numEquations; ///< Number of equations in the table - const ADDR_EQUATION* pEquationTable; ///< Pointer to the equation table -} ADDR_CREATE_OUTPUT; - -/** -**************************************************************************************************** -* AddrCreate -* -* @brief -* Create AddrLib object, must be called before any interface calls -* -* @return -* ADDR_OK if successful -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrCreate( - const ADDR_CREATE_INPUT* pAddrCreateIn, - ADDR_CREATE_OUTPUT* pAddrCreateOut); - - - -/** -**************************************************************************************************** -* AddrDestroy -* -* @brief -* Destroy AddrLib object, must be called to free internally allocated resources. -* -* @return -* ADDR_OK if successful -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrDestroy( - ADDR_HANDLE hLib); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* @brief -* Bank/tiling parameters. On function input, these can be set as desired or -* left 0 for AddrLib to calculate/default. On function output, these are the actual -* parameters used. -* @note -* Valid bankWidth/bankHeight value: -* 1,2,4,8. They are factors instead of pixels or bytes. -* -* The bank number remains constant across each row of the -* macro tile as each pipe is selected, so the number of -* tiles in the x direction with the same bank number will -* be bank_width * num_pipes. -**************************************************************************************************** -*/ -typedef struct _ADDR_TILEINFO -{ - /// Any of these parameters can be set to 0 to use the HW default. - UINT_32 banks; ///< Number of banks, numerical value - UINT_32 bankWidth; ///< Number of tiles in the X direction in the same bank - UINT_32 bankHeight; ///< Number of tiles in the Y direction in the same bank - UINT_32 macroAspectRatio; ///< Macro tile aspect ratio. 1-1:1, 2-4:1, 4-16:1, 8-64:1 - UINT_32 tileSplitBytes; ///< Tile split size, in bytes - AddrPipeCfg pipeConfig; ///< Pipe Config = HW enum + 1 -} ADDR_TILEINFO; - -// Create a define to avoid client change. The removal of R800 is because we plan to implement SI -// within 800 HWL - An AddrPipeCfg is added in above data structure -typedef ADDR_TILEINFO ADDR_R800_TILEINFO; - -/** -**************************************************************************************************** -* @brief -* Information needed by quad buffer stereo support -**************************************************************************************************** -*/ -typedef struct _ADDR_QBSTEREOINFO -{ - UINT_32 eyeHeight; ///< Height (in pixel rows) to right eye - UINT_32 rightOffset; ///< Offset (in bytes) to right eye - UINT_32 rightSwizzle; ///< TileSwizzle for right eyes -} ADDR_QBSTEREOINFO; - -/** -**************************************************************************************************** -* ADDR_SURFACE_FLAGS -* -* @brief -* Surface flags -**************************************************************************************************** -*/ -typedef union _ADDR_SURFACE_FLAGS -{ - struct - { - UINT_32 color : 1; ///< Flag indicates this is a color buffer - UINT_32 depth : 1; ///< Flag indicates this is a depth/stencil buffer - UINT_32 stencil : 1; ///< Flag indicates this is a stencil buffer - UINT_32 texture : 1; ///< Flag indicates this is a texture - UINT_32 cube : 1; ///< Flag indicates this is a cubemap - UINT_32 volume : 1; ///< Flag indicates this is a volume texture - UINT_32 fmask : 1; ///< Flag indicates this is an fmask - UINT_32 cubeAsArray : 1; ///< Flag indicates if treat cubemap as arrays - UINT_32 compressZ : 1; ///< Flag indicates z buffer is compressed - UINT_32 overlay : 1; ///< Flag indicates this is an overlay surface - UINT_32 noStencil : 1; ///< Flag indicates this depth has no separate stencil - UINT_32 display : 1; ///< Flag indicates this should match display controller req. - UINT_32 opt4Space : 1; ///< Flag indicates this surface should be optimized for space - /// i.e. save some memory but may lose performance - UINT_32 prt : 1; ///< Flag for partially resident texture - UINT_32 qbStereo : 1; ///< Quad buffer stereo surface - UINT_32 pow2Pad : 1; ///< SI: Pad to pow2, must set for mipmap (include level0) - UINT_32 interleaved : 1; ///< Special flag for interleaved YUV surface padding - UINT_32 tcCompatible : 1; ///< Flag indicates surface needs to be shader readable - UINT_32 dispTileType : 1; ///< NI: force display Tiling for 128 bit shared resoruce - UINT_32 dccCompatible : 1; ///< VI: whether to make MSAA surface support dcc fast clear - UINT_32 dccPipeWorkaround : 1; ///< VI: whether to workaround the HW limit that - /// dcc can't be enabled if pipe config of tile mode - /// is different from that of ASIC, this flag - /// is address lib internal flag, client should ignore it - UINT_32 czDispCompatible : 1; ///< SI+: CZ family has a HW bug needs special alignment. - /// This flag indicates we need to follow the - /// alignment with CZ families or other ASICs under - /// PX configuration + CZ. - UINT_32 nonSplit : 1; ///< CI: depth texture should not be split - UINT_32 disableLinearOpt : 1; ///< Disable tile mode optimization to linear - UINT_32 needEquation : 1; ///< Make the surface tile setting equation compatible. - /// This flag indicates we need to override tile - /// mode to PRT_* tile mode to disable slice rotation, - /// which is needed by swizzle pattern equation. - UINT_32 skipIndicesOutput : 1; ///< Skipping indices in output. - UINT_32 rotateDisplay : 1; ///< Rotate micro tile type - UINT_32 minimizeAlignment : 1; ///< Minimize alignment - UINT_32 preferEquation : 1; ///< Return equation index without adjusting tile mode - UINT_32 matchStencilTileCfg : 1; ///< Select tile index of stencil as well as depth surface - /// to make sure they share same tile config parameters - UINT_32 disallowLargeThickDegrade : 1; ///< Disallow large thick tile degrade - UINT_32 reserved : 1; ///< Reserved bits - }; - - UINT_32 value; -} ADDR_SURFACE_FLAGS; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SURFACE_INFO_INPUT -* -* @brief -* Input structure for AddrComputeSurfaceInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SURFACE_INFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrTileMode tileMode; ///< Tile mode - AddrFormat format; ///< If format is set to valid one, bpp/width/height - /// might be overwritten - UINT_32 bpp; ///< Bits per pixel - UINT_32 numSamples; ///< Number of samples - UINT_32 width; ///< Width, in pixels - UINT_32 height; ///< Height, in pixels - UINT_32 numSlices; ///< Number of surface slices or depth - UINT_32 slice; ///< Slice index - UINT_32 mipLevel; ///< Current mipmap level - UINT_32 numMipLevels; ///< Number of mips in mip chain - ADDR_SURFACE_FLAGS flags; ///< Surface type flags - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - /// r800 and later HWL parameters - // Needed by 2D tiling, for linear and 1D tiling, just keep them 0's - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Set to 0 to default/calculate - AddrTileType tileType; ///< Micro tiling type, not needed when tileIndex != -1 - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - UINT_32 basePitch; ///< Base level pitch in pixels, 0 means ignored, is a - /// must for mip levels from SI+. - /// Don't use pitch in blocks for compressed formats! - UINT_32 maxBaseAlign; ///< Max base alignment request from client - UINT_32 pitchAlign; ///< Pitch alignment request from client - UINT_32 heightAlign; ///< Height alignment request from client -} ADDR_COMPUTE_SURFACE_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SURFACE_INFO_OUTPUT -* -* @brief -* Output structure for AddrComputeSurfInfo -* @note - Element: AddrLib unit for computing. e.g. BCn: 4x4 blocks; R32B32B32: 32bit with 3x pitch - Pixel: Original pixel -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SURFACE_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch in elements (in blocks for compressed formats) - UINT_32 height; ///< Height in elements (in blocks for compressed formats) - UINT_32 depth; ///< Number of slice/depth - UINT_64 surfSize; ///< Surface size in bytes - AddrTileMode tileMode; ///< Actual tile mode. May differ from that in input - UINT_32 baseAlign; ///< Base address alignment - UINT_32 pitchAlign; ///< Pitch alignment, in elements - UINT_32 heightAlign; ///< Height alignment, in elements - UINT_32 depthAlign; ///< Depth alignment, aligned to thickness, for 3d texture - UINT_32 bpp; ///< Bits per elements (e.g. blocks for BCn, 1/3 for 96bit) - UINT_32 pixelPitch; ///< Pitch in original pixels - UINT_32 pixelHeight; ///< Height in original pixels - UINT_32 pixelBits; ///< Original bits per pixel, passed from input - UINT_64 sliceSize; ///< Size of slice specified by input's slice - /// The result is controlled by surface flags & createFlags - /// By default this value equals to surfSize for volume - UINT_32 pitchTileMax; ///< PITCH_TILE_MAX value for h/w register - UINT_32 heightTileMax; ///< HEIGHT_TILE_MAX value for h/w register - UINT_32 sliceTileMax; ///< SLICE_TILE_MAX value for h/w register - - UINT_32 numSamples; ///< Pass the effective numSamples processed in this call - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< Tile parameters used. Filled in if 0 on input - AddrTileType tileType; ///< Micro tiling type, only valid when tileIndex != -1 - INT_32 tileIndex; ///< Tile index, MAY be "downgraded" - - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - /// Output flags - struct - { - /// Special information to work around SI mipmap swizzle bug UBTS #317508 - UINT_32 last2DLevel : 1; ///< TRUE if this is the last 2D(3D) tiled - ///< Only meaningful when create flag checkLast2DLevel is set - UINT_32 tcCompatible : 1; ///< If the surface can be shader compatible - UINT_32 dccUnsupport : 1; ///< If the surface can support DCC compressed rendering - UINT_32 prtTileIndex : 1; ///< SI only, indicate the returned tile index is for PRT - ///< If address lib return true for mip 0, client should set prt flag - ///< for child mips in subsequent compute surface info calls - UINT_32 reserved :28; ///< Reserved bits - }; - - UINT_32 equationIndex; ///< Equation index in the equation table; - - UINT_32 blockWidth; ///< Width in element inside one block(1D->Micro, 2D->Macro) - UINT_32 blockHeight; ///< Height in element inside one block(1D->Micro, 2D->Macro) - UINT_32 blockSlices; ///< Slice number inside one block(1D->Micro, 2D->Macro) - - /// Stereo info - ADDR_QBSTEREOINFO* pStereoInfo;///< Stereo information, needed when .qbStereo flag is TRUE - - INT_32 stencilTileIdx; ///< stencil tile index output when matchStencilTileCfg was set -} ADDR_COMPUTE_SURFACE_INFO_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeSurfaceInfo -* -* @brief -* Compute surface width/height/depth/alignments and suitable tiling mode -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceInfo( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for AddrComputeSurfaceAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index - UINT_32 sample; ///< Sample index, use fragment index for EQAA - - UINT_32 bpp; ///< Bits per pixel - UINT_32 pitch; ///< Surface pitch, in pixels - UINT_32 height; ///< Surface height, in pixels - UINT_32 numSlices; ///< Surface depth - UINT_32 numSamples; ///< Number of samples - - AddrTileMode tileMode; ///< Tile mode - BOOL_32 isDepth; ///< TRUE if the surface uses depth sample ordering within - /// micro tile. Textures can also choose depth sample order - UINT_32 tileBase; ///< Base offset (in bits) inside micro tile which handles - /// the case that components are stored separately - UINT_32 compBits; ///< The component bits actually needed(for planar surface) - - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - /// r800 and later HWL parameters - // Used for 1D tiling above - AddrTileType tileType; ///< See defintion of AddrTileType - struct - { - UINT_32 ignoreSE : 1; ///< TRUE if shader engines are ignored. This is texture - /// only flag. Only non-RT texture can set this to TRUE - UINT_32 reserved :31; ///< Reserved for future use. - }; - // 2D tiling needs following structure - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - union - { - struct - { - UINT_32 bankSwizzle; ///< Bank swizzle - UINT_32 pipeSwizzle; ///< Pipe swizzle - }; - UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE - }; -} ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for AddrComputeSurfaceAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Byte address - UINT_32 bitPosition; ///< Bit position within surfaceAddr, 0-7. - /// For surface bpp < 8, e.g. FMT_1. - UINT_32 prtBlockIndex; ///< Index of a PRT tile (64K block) -} ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeSurfaceAddrFromCoord -* -* @brief -* Compute surface address from a given coordinate. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT -* -* @brief -* Input structure for AddrComputeSurfaceCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address in bytes - UINT_32 bitPosition; ///< Bit position in addr. 0-7. for surface bpp < 8, - /// e.g. FMT_1; - UINT_32 bpp; ///< Bits per pixel - UINT_32 pitch; ///< Pitch, in pixels - UINT_32 height; ///< Height in pixels - UINT_32 numSlices; ///< Surface depth - UINT_32 numSamples; ///< Number of samples - - AddrTileMode tileMode; ///< Tile mode - BOOL_32 isDepth; ///< Surface uses depth sample ordering within micro tile. - /// Note: Textures can choose depth sample order as well. - UINT_32 tileBase; ///< Base offset (in bits) inside micro tile which handles - /// the case that components are stored separately - UINT_32 compBits; ///< The component bits actually needed(for planar surface) - - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - /// r800 and later HWL parameters - // Used for 1D tiling above - AddrTileType tileType; ///< See defintion of AddrTileType - struct - { - UINT_32 ignoreSE : 1; ///< TRUE if shader engines are ignored. This is texture - /// only flag. Only non-RT texture can set this to TRUE - UINT_32 reserved :31; ///< Reserved for future use. - }; - // 2D tiling needs following structure - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - union - { - struct - { - UINT_32 bankSwizzle; ///< Bank swizzle - UINT_32 pipeSwizzle; ///< Pipe swizzle - }; - UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE - }; -} ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for AddrComputeSurfaceCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - UINT_32 sample; ///< Index of samples, means fragment index for EQAA -} ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeSurfaceCoordFromAddr -* -* @brief -* Compute coordinate from a given surface address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut); - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// HTile functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR_HTILE_FLAGS -* -* @brief -* HTILE flags -**************************************************************************************************** -*/ -typedef union _ADDR_HTILE_FLAGS -{ - struct - { - UINT_32 tcCompatible : 1; ///< Flag indicates surface needs to be shader readable - UINT_32 skipTcCompatSizeAlign : 1; ///< Flag indicates that addrLib will not align htile - /// size to 256xBankxPipe when computing tc-compatible - /// htile info. - UINT_32 reserved : 30; ///< Reserved bits - }; - - UINT_32 value; -} ADDR_HTILE_FLAGS; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_HTILE_INFO_INPUT -* -* @brief -* Input structure of AddrComputeHtileInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_HTILE_INFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR_HTILE_FLAGS flags; ///< HTILE flags - UINT_32 pitch; ///< Surface pitch, in pixels - UINT_32 height; ///< Surface height, in pixels - UINT_32 numSlices; ///< Number of slices - BOOL_32 isLinear; ///< Linear or tiled HTILE layout - AddrHtileBlockSize blockWidth; ///< 4 or 8. EG above only support 8 - AddrHtileBlockSize blockHeight; ///< 4 or 8. EG above only support 8 - ADDR_TILEINFO* pTileInfo; ///< Tile info - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_HTILE_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_HTILE_INFO_OUTPUT -* -* @brief -* Output structure of AddrComputeHtileInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_HTILE_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch in pixels of depth buffer represented in this - /// HTile buffer. This might be larger than original depth - /// buffer pitch when called with an unaligned pitch. - UINT_32 height; ///< Height in pixels, as above - UINT_64 htileBytes; ///< Size of HTILE buffer, in bytes - UINT_32 baseAlign; ///< Base alignment - UINT_32 bpp; ///< Bits per pixel for HTILE is how many bits for an 8x8 block! - UINT_32 macroWidth; ///< Macro width in pixels, actually squared cache shape - UINT_32 macroHeight; ///< Macro height in pixels - UINT_64 sliceSize; ///< Slice size, in bytes. - BOOL_32 sliceInterleaved; ///< Flag to indicate if different slice's htile is interleaved - /// Compute engine clear can't be used if htile is interleaved - BOOL_32 nextMipLevelCompressible; ///< Flag to indicate whether HTILE can be enabled in - /// next mip level, it also indicates if memory set based - /// fast clear can be used for current mip level. -} ADDR_COMPUTE_HTILE_INFO_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeHtileInfo -* -* @brief -* Compute Htile pitch, height, base alignment and size in bytes -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeHtileInfo( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, - ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for AddrComputeHtileAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch, in pixels - UINT_32 height; ///< Height in pixels - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slice - UINT_32 numSlices; ///< Number of slices - BOOL_32 isLinear; ///< Linear or tiled HTILE layout - ADDR_HTILE_FLAGS flags; ///< htile flags - AddrHtileBlockSize blockWidth; ///< 4 or 8. 1 means 8, 0 means 4. EG above only support 8 - AddrHtileBlockSize blockHeight; ///< 4 or 8. 1 means 8, 0 means 4. EG above only support 8 - ADDR_TILEINFO* pTileInfo; ///< Tile info - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid - UINT_32 bpp; ///< depth/stencil buffer bit per pixel size - UINT_32 zStencilAddr; ///< tcCompatible Z/Stencil surface address -} ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for AddrComputeHtileAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address in bytes - UINT_32 bitPosition; ///< Bit position, 0 or 4. CMASK and HTILE shares some lib method. - /// So we keep bitPosition for HTILE as well -} ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeHtileAddrFromCoord -* -* @brief -* Compute Htile address according to coordinates (of depth buffer) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeHtileAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT -* -* @brief -* Input structure for AddrComputeHtileCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address - UINT_32 bitPosition; ///< Bit position 0 or 4. CMASK and HTILE share some methods - /// so we keep bitPosition for HTILE as well - UINT_32 pitch; ///< Pitch, in pixels - UINT_32 height; ///< Height, in pixels - UINT_32 numSlices; ///< Number of slices - BOOL_32 isLinear; ///< Linear or tiled HTILE layout - AddrHtileBlockSize blockWidth; ///< 4 or 8. 1 means 8, 0 means 4. R8xx/R9xx only support 8 - AddrHtileBlockSize blockHeight; ///< 4 or 8. 1 means 8, 0 means 4. R8xx/R9xx only support 8 - ADDR_TILEINFO* pTileInfo; ///< Tile info - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for AddrComputeHtileCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index -} ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeHtileCoordFromAddr -* -* @brief -* Compute coordinates within depth buffer (1st pixel of a micro tile) according to -* Htile address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeHtileCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// C-mask functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR_CMASK_FLAGS -* -* @brief -* CMASK flags -**************************************************************************************************** -*/ -typedef union _ADDR_CMASK_FLAGS -{ - struct - { - UINT_32 tcCompatible : 1; ///< Flag indicates surface needs to be shader readable - UINT_32 reserved :31; ///< Reserved bits - }; - - UINT_32 value; -} ADDR_CMASK_FLAGS; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_CMASK_INFO_INPUT -* -* @brief -* Input structure of AddrComputeCmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_CMASKINFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR_CMASK_FLAGS flags; ///< CMASK flags - UINT_32 pitch; ///< Pitch, in pixels, of color buffer - UINT_32 height; ///< Height, in pixels, of color buffer - UINT_32 numSlices; ///< Number of slices, of color buffer - BOOL_32 isLinear; ///< Linear or tiled layout, Only SI can be linear - ADDR_TILEINFO* pTileInfo; ///< Tile info - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_CMASK_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_CMASK_INFO_OUTPUT -* -* @brief -* Output structure of AddrComputeCmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_CMASK_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch in pixels of color buffer which - /// this Cmask matches. The size might be larger than - /// original color buffer pitch when called with - /// an unaligned pitch. - UINT_32 height; ///< Height in pixels, as above - UINT_64 cmaskBytes; ///< Size in bytes of CMask buffer - UINT_32 baseAlign; ///< Base alignment - UINT_32 blockMax; ///< Cmask block size. Need this to set CB_COLORn_MASK register - UINT_32 macroWidth; ///< Macro width in pixels, actually squared cache shape - UINT_32 macroHeight; ///< Macro height in pixels - UINT_64 sliceSize; ///< Slice size, in bytes. -} ADDR_COMPUTE_CMASK_INFO_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeCmaskInfo -* -* @brief -* Compute Cmask pitch, height, base alignment and size in bytes from color buffer -* info -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskInfo( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for AddrComputeCmaskAddrFromCoord -* -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_64 fmaskAddr; ///< Fmask addr for tc compatible Cmask - UINT_32 slice; ///< Slice index - UINT_32 pitch; ///< Pitch in pixels, of color buffer - UINT_32 height; ///< Height in pixels, of color buffer - UINT_32 numSlices; ///< Number of slices - UINT_32 bpp; - BOOL_32 isLinear; ///< Linear or tiled layout, Only SI can be linear - ADDR_CMASK_FLAGS flags; ///< CMASK flags - ADDR_TILEINFO* pTileInfo; ///< Tile info - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - ///< while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for AddrComputeCmaskAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< CMASK address in bytes - UINT_32 bitPosition; ///< Bit position within addr, 0-7. CMASK is 4 bpp, - /// so the address may be located in bit 0 (0) or 4 (4) -} ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeCmaskAddrFromCoord -* -* @brief -* Compute Cmask address according to coordinates (of MSAA color buffer) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT -* -* @brief -* Input structure for AddrComputeCmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< CMASK address in bytes - UINT_32 bitPosition; ///< Bit position within addr, 0-7. CMASK is 4 bpp, - /// so the address may be located in bit 0 (0) or 4 (4) - UINT_32 pitch; ///< Pitch, in pixels - UINT_32 height; ///< Height in pixels - UINT_32 numSlices; ///< Number of slices - BOOL_32 isLinear; ///< Linear or tiled layout, Only SI can be linear - ADDR_TILEINFO* pTileInfo; ///< Tile info - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for AddrComputeCmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index -} ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeCmaskCoordFromAddr -* -* @brief -* Compute coordinates within color buffer (1st pixel of a micro tile) according to -* Cmask address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// F-mask functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR_COMPUTE_FMASK_INFO_INPUT -* -* @brief -* Input structure for AddrComputeFmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_FMASK_INFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrTileMode tileMode; ///< Tile mode - UINT_32 pitch; ///< Surface pitch, in pixels - UINT_32 height; ///< Surface height, in pixels - UINT_32 numSlices; ///< Number of slice/depth - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - /// r800 and later HWL parameters - struct - { - UINT_32 resolved: 1; ///< TRUE if the surface is for resolved fmask, only used - /// by H/W clients. S/W should always set it to FALSE. - UINT_32 reserved: 31; ///< Reserved for future use. - }; - ADDR_TILEINFO* pTileInfo; ///< 2D tiling parameters. Clients must give valid data - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 -} ADDR_COMPUTE_FMASK_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_FMASK_INFO_OUTPUT -* -* @brief -* Output structure for AddrComputeFmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_FMASK_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch of fmask in pixels - UINT_32 height; ///< Height of fmask in pixels - UINT_32 numSlices; ///< Slices of fmask - UINT_64 fmaskBytes; ///< Size of fmask in bytes - UINT_32 baseAlign; ///< Base address alignment - UINT_32 pitchAlign; ///< Pitch alignment - UINT_32 heightAlign; ///< Height alignment - UINT_32 bpp; ///< Bits per pixel of FMASK is: number of bit planes - UINT_32 numSamples; ///< Number of samples, used for dump, export this since input - /// may be changed in 9xx and above - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< Tile parameters used. Fmask can have different - /// bank_height from color buffer - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - UINT_64 sliceSize; ///< Size of slice in bytes -} ADDR_COMPUTE_FMASK_INFO_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeFmaskInfo -* -* @brief -* Compute Fmask pitch/height/depth/alignments and size in bytes -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskInfo( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for AddrComputeFmaskAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index - UINT_32 plane; ///< Plane number - UINT_32 sample; ///< Sample index (fragment index for EQAA) - - UINT_32 pitch; ///< Surface pitch, in pixels - UINT_32 height; ///< Surface height, in pixels - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - - AddrTileMode tileMode; ///< Tile mode - union - { - struct - { - UINT_32 bankSwizzle; ///< Bank swizzle - UINT_32 pipeSwizzle; ///< Pipe swizzle - }; - UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE - }; - - /// r800 and later HWL parameters - struct - { - UINT_32 resolved: 1; ///< TRUE if this is a resolved fmask, used by H/W clients - UINT_32 ignoreSE: 1; ///< TRUE if shader engines are ignored. - UINT_32 reserved: 30; ///< Reserved for future use. - }; - ADDR_TILEINFO* pTileInfo; ///< 2D tiling parameters. Client must provide all data - -} ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for AddrComputeFmaskAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Fmask address - UINT_32 bitPosition; ///< Bit position within fmaskAddr, 0-7. -} ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeFmaskAddrFromCoord -* -* @brief -* Compute Fmask address according to coordinates (x,y,slice,sample,plane) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT -* -* @brief -* Input structure for AddrComputeFmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address - UINT_32 bitPosition; ///< Bit position within addr, 0-7. - - UINT_32 pitch; ///< Pitch, in pixels - UINT_32 height; ///< Height in pixels - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments - AddrTileMode tileMode; ///< Tile mode - union - { - struct - { - UINT_32 bankSwizzle; ///< Bank swizzle - UINT_32 pipeSwizzle; ///< Pipe swizzle - }; - UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE - }; - - /// r800 and later HWL parameters - struct - { - UINT_32 resolved: 1; ///< TRUE if this is a resolved fmask, used by HW components - UINT_32 ignoreSE: 1; ///< TRUE if shader engines are ignored. - UINT_32 reserved: 30; ///< Reserved for future use. - }; - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data - -} ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for AddrComputeFmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index - UINT_32 plane; ///< Plane number - UINT_32 sample; ///< Sample index (fragment index for EQAA) -} ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeFmaskCoordFromAddr -* -* @brief -* Compute FMASK coordinate from an given address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Element/utility functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrGetVersion -* -* @brief -* Get AddrLib version number -**************************************************************************************************** -*/ -UINT_32 ADDR_API AddrGetVersion(ADDR_HANDLE hLib); - -/** -**************************************************************************************************** -* AddrUseTileIndex -* -* @brief -* Return TRUE if tileIndex is enabled in this address library -**************************************************************************************************** -*/ -BOOL_32 ADDR_API AddrUseTileIndex(ADDR_HANDLE hLib); - -/** -**************************************************************************************************** -* AddrUseCombinedSwizzle -* -* @brief -* Return TRUE if combined swizzle is enabled in this address library -**************************************************************************************************** -*/ -BOOL_32 ADDR_API AddrUseCombinedSwizzle(ADDR_HANDLE hLib); - -/** -**************************************************************************************************** -* ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT -* -* @brief -* Input structure of AddrExtractBankPipeSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 base256b; ///< Base256b value - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT; - -/** -**************************************************************************************************** -* ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT -* -* @brief -* Output structure of AddrExtractBankPipeSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 bankSwizzle; ///< Bank swizzle - UINT_32 pipeSwizzle; ///< Pipe swizzle -} ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT; - -/** -**************************************************************************************************** -* AddrExtractBankPipeSwizzle -* -* @brief -* Extract Bank and Pipe swizzle from base256b -* @return -* ADDR_OK if no error -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrExtractBankPipeSwizzle( - ADDR_HANDLE hLib, - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut); - - -/** -**************************************************************************************************** -* ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT -* -* @brief -* Input structure of AddrCombineBankPipeSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 bankSwizzle; ///< Bank swizzle - UINT_32 pipeSwizzle; ///< Pipe swizzle - UINT_64 baseAddr; ///< Base address (leave it zero for driver clients) - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT -* -* @brief -* Output structure of AddrCombineBankPipeSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 tileSwizzle; ///< Combined swizzle -} ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT; - -/** -**************************************************************************************************** -* AddrCombineBankPipeSwizzle -* -* @brief -* Combine Bank and Pipe swizzle -* @return -* ADDR_OK if no error -* @note -* baseAddr here is full MCAddress instead of base256b -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrCombineBankPipeSwizzle( - ADDR_HANDLE hLib, - const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SLICESWIZZLE_INPUT -* -* @brief -* Input structure of AddrComputeSliceSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SLICESWIZZLE_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrTileMode tileMode; ///< Tile Mode - UINT_32 baseSwizzle; ///< Base tile swizzle - UINT_32 slice; ///< Slice index - UINT_64 baseAddr; ///< Base address, driver should leave it 0 in most cases - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Actually banks needed here! - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_SLICESWIZZLE_INPUT; - - - -/** -**************************************************************************************************** -* ADDR_COMPUTE_SLICESWIZZLE_OUTPUT -* -* @brief -* Output structure of AddrComputeSliceSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_SLICESWIZZLE_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 tileSwizzle; ///< Recalculated tileSwizzle value -} ADDR_COMPUTE_SLICESWIZZLE_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeSliceSwizzle -* -* @brief -* Extract Bank and Pipe swizzle from base256b -* @return -* ADDR_OK if no error -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeSliceSwizzle( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut); - - -/** -**************************************************************************************************** -* AddrSwizzleGenOption -* -* @brief -* Which swizzle generating options: legacy or linear -**************************************************************************************************** -*/ -typedef enum _AddrSwizzleGenOption -{ - ADDR_SWIZZLE_GEN_DEFAULT = 0, ///< As is in client driver implemention for swizzle - ADDR_SWIZZLE_GEN_LINEAR = 1, ///< Using a linear increment of swizzle -} AddrSwizzleGenOption; - -/** -**************************************************************************************************** -* AddrSwizzleOption -* -* @brief -* Controls how swizzle is generated -**************************************************************************************************** -*/ -typedef union _ADDR_SWIZZLE_OPTION -{ - struct - { - UINT_32 genOption : 1; ///< The way swizzle is generated, see AddrSwizzleGenOption - UINT_32 reduceBankBit : 1; ///< TRUE if we need reduce swizzle bits - UINT_32 reserved :30; ///< Reserved bits - }; - - UINT_32 value; - -} ADDR_SWIZZLE_OPTION; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_BASE_SWIZZLE_INPUT -* -* @brief -* Input structure of AddrComputeBaseSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_BASE_SWIZZLE_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR_SWIZZLE_OPTION option; ///< Swizzle option - UINT_32 surfIndex; ///< Index of this surface type - AddrTileMode tileMode; ///< Tile Mode - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Actually banks needed here! - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_BASE_SWIZZLE_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT -* -* @brief -* Output structure of AddrComputeBaseSwizzle -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 tileSwizzle; ///< Combined swizzle -} ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeBaseSwizzle -* -* @brief -* Return a Combined Bank and Pipe swizzle base on surface based on surface type/index -* @return -* ADDR_OK if no error -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeBaseSwizzle( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ELEM_GETEXPORTNORM_INPUT -* -* @brief -* Input structure for ElemGetExportNorm -* -**************************************************************************************************** -*/ -typedef struct _ELEM_GETEXPORTNORM_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrColorFormat format; ///< Color buffer format; Client should use ColorFormat - AddrSurfaceNumber num; ///< Surface number type; Client should use NumberType - AddrSurfaceSwap swap; ///< Surface swap byte swap; Client should use SurfaceSwap - UINT_32 numSamples; ///< Number of samples -} ELEM_GETEXPORTNORM_INPUT; - -/** -**************************************************************************************************** -* ElemGetExportNorm -* -* @brief -* Helper function to check one format can be EXPORT_NUM, which is a register -* CB_COLOR_INFO.SURFACE_FORMAT. FP16 can be reported as EXPORT_NORM for rv770 in r600 -* family -* @note -* The implementation is only for r600. -* 00 - EXPORT_FULL: PS exports are 4 pixels with 4 components with 32-bits-per-component. (two -* clocks per export) -* 01 - EXPORT_NORM: PS exports are 4 pixels with 4 components with 16-bits-per-component. (one -* clock per export) -* -**************************************************************************************************** -*/ -BOOL_32 ADDR_API ElemGetExportNorm( - ADDR_HANDLE hLib, - const ELEM_GETEXPORTNORM_INPUT* pIn); - - - -/** -**************************************************************************************************** -* ELEM_FLT32TODEPTHPIXEL_INPUT -* -* @brief -* Input structure for addrFlt32ToDepthPixel -* -**************************************************************************************************** -*/ -typedef struct _ELEM_FLT32TODEPTHPIXEL_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrDepthFormat format; ///< Depth buffer format - ADDR_FLT_32 comps[2]; ///< Component values (Z/stencil) -} ELEM_FLT32TODEPTHPIXEL_INPUT; - -/** -**************************************************************************************************** -* ELEM_FLT32TODEPTHPIXEL_INPUT -* -* @brief -* Output structure for ElemFlt32ToDepthPixel -* -**************************************************************************************************** -*/ -typedef struct _ELEM_FLT32TODEPTHPIXEL_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_8* pPixel; ///< Real depth value. Same data type as depth buffer. - /// Client must provide enough storage for this type. - UINT_32 depthBase; ///< Tile base in bits for depth bits - UINT_32 stencilBase; ///< Tile base in bits for stencil bits - UINT_32 depthBits; ///< Bits for depth - UINT_32 stencilBits; ///< Bits for stencil -} ELEM_FLT32TODEPTHPIXEL_OUTPUT; - -/** -**************************************************************************************************** -* ElemFlt32ToDepthPixel -* -* @brief -* Convert a FLT_32 value to a depth/stencil pixel value -* -* @return -* Return code -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API ElemFlt32ToDepthPixel( - ADDR_HANDLE hLib, - const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, - ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ELEM_FLT32TOCOLORPIXEL_INPUT -* -* @brief -* Input structure for addrFlt32ToColorPixel -* -**************************************************************************************************** -*/ -typedef struct _ELEM_FLT32TOCOLORPIXEL_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrColorFormat format; ///< Color buffer format - AddrSurfaceNumber surfNum; ///< Surface number - AddrSurfaceSwap surfSwap; ///< Surface swap - ADDR_FLT_32 comps[4]; ///< Component values (r/g/b/a) -} ELEM_FLT32TOCOLORPIXEL_INPUT; - -/** -**************************************************************************************************** -* ELEM_FLT32TOCOLORPIXEL_INPUT -* -* @brief -* Output structure for ElemFlt32ToColorPixel -* -**************************************************************************************************** -*/ -typedef struct _ELEM_FLT32TOCOLORPIXEL_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_8* pPixel; ///< Real color value. Same data type as color buffer. - /// Client must provide enough storage for this type. -} ELEM_FLT32TOCOLORPIXEL_OUTPUT; - -/** -**************************************************************************************************** -* ElemFlt32ToColorPixel -* -* @brief -* Convert a FLT_32 value to a red/green/blue/alpha pixel value -* -* @return -* Return code -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API ElemFlt32ToColorPixel( - ADDR_HANDLE hLib, - const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, - ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut); - - -/** -**************************************************************************************************** -* ADDR_CONVERT_TILEINFOTOHW_INPUT -* -* @brief -* Input structure for AddrConvertTileInfoToHW -* @note -* When reverse is TRUE, indices are igonred -**************************************************************************************************** -*/ -typedef struct _ADDR_CONVERT_TILEINFOTOHW_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - BOOL_32 reverse; ///< Convert control flag. - /// FALSE: convert from real value to HW value; - /// TRUE: convert from HW value to real value. - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< Tile parameters with real value - - INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it - /// while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid - UINT_32 bpp; ///< Bits per pixel -} ADDR_CONVERT_TILEINFOTOHW_INPUT; - -/** -**************************************************************************************************** -* ADDR_CONVERT_TILEINFOTOHW_OUTPUT -* -* @brief -* Output structure for AddrConvertTileInfoToHW -**************************************************************************************************** -*/ -typedef struct _ADDR_CONVERT_TILEINFOTOHW_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - /// r800 and later HWL parameters - ADDR_TILEINFO* pTileInfo; ///< Tile parameters with hardware register value - -} ADDR_CONVERT_TILEINFOTOHW_OUTPUT; - -/** -**************************************************************************************************** -* AddrConvertTileInfoToHW -* -* @brief -* Convert tile info from real value to hardware register value -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrConvertTileInfoToHW( - ADDR_HANDLE hLib, - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_CONVERT_TILEINDEX_INPUT -* -* @brief -* Input structure for AddrConvertTileIndex -**************************************************************************************************** -*/ -typedef struct _ADDR_CONVERT_TILEINDEX_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - INT_32 tileIndex; ///< Tile index - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - UINT_32 bpp; ///< Bits per pixel - BOOL_32 tileInfoHw; ///< Set to TRUE if client wants HW enum, otherwise actual -} ADDR_CONVERT_TILEINDEX_INPUT; - -/** -**************************************************************************************************** -* ADDR_CONVERT_TILEINDEX_OUTPUT -* -* @brief -* Output structure for AddrConvertTileIndex -**************************************************************************************************** -*/ -typedef struct _ADDR_CONVERT_TILEINDEX_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrTileMode tileMode; ///< Tile mode - AddrTileType tileType; ///< Tile type - ADDR_TILEINFO* pTileInfo; ///< Tile info - -} ADDR_CONVERT_TILEINDEX_OUTPUT; - -/** -**************************************************************************************************** -* AddrConvertTileIndex -* -* @brief -* Convert tile index to tile mode/type/info -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex( - ADDR_HANDLE hLib, - const ADDR_CONVERT_TILEINDEX_INPUT* pIn, - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut); - -/** -**************************************************************************************************** -* ADDR_GET_MACROMODEINDEX_INPUT -* -* @brief -* Input structure for AddrGetMacroModeIndex -**************************************************************************************************** -*/ -typedef struct _ADDR_GET_MACROMODEINDEX_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - ADDR_SURFACE_FLAGS flags; ///< Surface flag - INT_32 tileIndex; ///< Tile index - UINT_32 bpp; ///< Bits per pixel - UINT_32 numFrags; ///< Number of color fragments -} ADDR_GET_MACROMODEINDEX_INPUT; - -/** -**************************************************************************************************** -* ADDR_GET_MACROMODEINDEX_OUTPUT -* -* @brief -* Output structure for AddrGetMacroModeIndex -**************************************************************************************************** -*/ -typedef struct _ADDR_GET_MACROMODEINDEX_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) -} ADDR_GET_MACROMODEINDEX_OUTPUT; - -/** -**************************************************************************************************** -* AddrGetMacroModeIndex -* -* @brief -* Get macro mode index based on input parameters -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetMacroModeIndex( - ADDR_HANDLE hLib, - const ADDR_GET_MACROMODEINDEX_INPUT* pIn, - ADDR_GET_MACROMODEINDEX_OUTPUT* pOut); - -/** -**************************************************************************************************** -* ADDR_CONVERT_TILEINDEX1_INPUT -* -* @brief -* Input structure for AddrConvertTileIndex1 (without macro mode index) -**************************************************************************************************** -*/ -typedef struct _ADDR_CONVERT_TILEINDEX1_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - INT_32 tileIndex; ///< Tile index - UINT_32 bpp; ///< Bits per pixel - UINT_32 numSamples; ///< Number of samples - BOOL_32 tileInfoHw; ///< Set to TRUE if client wants HW enum, otherwise actual -} ADDR_CONVERT_TILEINDEX1_INPUT; - -/** -**************************************************************************************************** -* AddrConvertTileIndex1 -* -* @brief -* Convert tile index to tile mode/type/info -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex1( - ADDR_HANDLE hLib, - const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_GET_TILEINDEX_INPUT -* -* @brief -* Input structure for AddrGetTileIndex -**************************************************************************************************** -*/ -typedef struct _ADDR_GET_TILEINDEX_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrTileMode tileMode; ///< Tile mode - AddrTileType tileType; ///< Tile-type: disp/non-disp/... - ADDR_TILEINFO* pTileInfo; ///< Pointer to tile-info structure, can be NULL for linear/1D -} ADDR_GET_TILEINDEX_INPUT; - -/** -**************************************************************************************************** -* ADDR_GET_TILEINDEX_OUTPUT -* -* @brief -* Output structure for AddrGetTileIndex -**************************************************************************************************** -*/ -typedef struct _ADDR_GET_TILEINDEX_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - INT_32 index; ///< index in table -} ADDR_GET_TILEINDEX_OUTPUT; - -/** -**************************************************************************************************** -* AddrGetTileIndex -* -* @brief -* Get the tiling mode index in table -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetTileIndex( - ADDR_HANDLE hLib, - const ADDR_GET_TILEINDEX_INPUT* pIn, - ADDR_GET_TILEINDEX_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_PRT_INFO_INPUT -* -* @brief -* Input structure for AddrComputePrtInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_PRT_INFO_INPUT -{ - AddrFormat format; ///< Surface format - UINT_32 baseMipWidth; ///< Base mipmap width - UINT_32 baseMipHeight; ///< Base mipmap height - UINT_32 baseMipDepth; ///< Base mipmap depth - UINT_32 numFrags; ///< Number of fragments, -} ADDR_PRT_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR_PRT_INFO_OUTPUT -* -* @brief -* Input structure for AddrComputePrtInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_PRT_INFO_OUTPUT -{ - UINT_32 prtTileWidth; - UINT_32 prtTileHeight; -} ADDR_PRT_INFO_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputePrtInfo -* -* @brief -* Compute prt surface related information -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputePrtInfo( - ADDR_HANDLE hLib, - const ADDR_PRT_INFO_INPUT* pIn, - ADDR_PRT_INFO_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// DCC key functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* _ADDR_COMPUTE_DCCINFO_INPUT -* -* @brief -* Input structure of AddrComputeDccInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_DCCINFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 bpp; ///< BitPP of color surface - UINT_32 numSamples; ///< Sample number of color surface - UINT_64 colorSurfSize; ///< Size of color surface to which dcc key is bound - AddrTileMode tileMode; ///< Tile mode of color surface - ADDR_TILEINFO tileInfo; ///< Tile info of color surface - UINT_32 tileSwizzle; ///< Tile swizzle - INT_32 tileIndex; ///< Tile index of color surface, - ///< MUST be -1 if you don't want to use it - ///< while the global useTileIndex is set to 1 - INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) - ///< README: When tileIndex is not -1, this must be valid -} ADDR_COMPUTE_DCCINFO_INPUT; - -/** -**************************************************************************************************** -* ADDR_COMPUTE_DCCINFO_OUTPUT -* -* @brief -* Output structure of AddrComputeDccInfo -**************************************************************************************************** -*/ -typedef struct _ADDR_COMPUTE_DCCINFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 dccRamBaseAlign; ///< Base alignment of dcc key - UINT_64 dccRamSize; ///< Size of dcc key - UINT_64 dccFastClearSize; ///< Size of dcc key portion that can be fast cleared - BOOL_32 subLvlCompressible; ///< Whether sub resource is compressiable - BOOL_32 dccRamSizeAligned; ///< Whether the dcc key size is aligned -} ADDR_COMPUTE_DCCINFO_OUTPUT; - -/** -**************************************************************************************************** -* AddrComputeDccInfo -* -* @brief -* Compute DCC key size, base alignment -* info -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrComputeDccInfo( - ADDR_HANDLE hLib, - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR_GET_MAX_ALINGMENTS_OUTPUT -* -* @brief -* Output structure of AddrGetMaxAlignments -**************************************************************************************************** -*/ -typedef struct _ADDR_GET_MAX_ALINGMENTS_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 baseAlign; ///< Maximum base alignment in bytes -} ADDR_GET_MAX_ALINGMENTS_OUTPUT; - -/** -**************************************************************************************************** -* AddrGetMaxAlignments -* -* @brief -* Gets maximnum alignments -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetMaxAlignments( - ADDR_HANDLE hLib, - ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut); - -/** -**************************************************************************************************** -* AddrGetMaxMetaAlignments -* -* @brief -* Gets maximnum alignments for metadata -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API AddrGetMaxMetaAlignments( - ADDR_HANDLE hLib, - ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut); - -/** -**************************************************************************************************** -* Address library interface version 2 -* available from Gfx9 hardware -**************************************************************************************************** -* Addr2ComputeSurfaceInfo() -* Addr2ComputeSurfaceAddrFromCoord() -* Addr2ComputeSurfaceCoordFromAddr() - -* Addr2ComputeHtileInfo() -* Addr2ComputeHtileAddrFromCoord() -* Addr2ComputeHtileCoordFromAddr() -* -* Addr2ComputeCmaskInfo() -* Addr2ComputeCmaskAddrFromCoord() -* Addr2ComputeCmaskCoordFromAddr() -* -* Addr2ComputeFmaskInfo() -* Addr2ComputeFmaskAddrFromCoord() -* Addr2ComputeFmaskCoordFromAddr() -* -* Addr2ComputeDccInfo() -* -**/ - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface functions for Gfx9 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR2_SURFACE_FLAGS -* -* @brief -* Surface flags -**************************************************************************************************** -*/ -typedef union _ADDR2_SURFACE_FLAGS -{ - struct - { - UINT_32 color : 1; ///< This resource is a color buffer, can be used with RTV - UINT_32 depth : 1; ///< Thie resource is a depth buffer, can be used with DSV - UINT_32 stencil : 1; ///< Thie resource is a stencil buffer, can be used with DSV - UINT_32 fmask : 1; ///< This is an fmask surface - UINT_32 overlay : 1; ///< This is an overlay surface - UINT_32 display : 1; ///< This resource is displable, can be used with DRV - UINT_32 prt : 1; ///< This is a partially resident texture - UINT_32 qbStereo : 1; ///< This is a quad buffer stereo surface - UINT_32 interleaved : 1; ///< Special flag for interleaved YUV surface padding - UINT_32 texture : 1; ///< This resource can be used with SRV - UINT_32 unordered : 1; ///< This resource can be used with UAV - UINT_32 rotated : 1; ///< This resource is rotated and displable - UINT_32 needEquation : 1; ///< This resource needs equation to be generated if possible - UINT_32 opt4space : 1; ///< This resource should be optimized for space - UINT_32 minimizeAlign : 1; ///< This resource should use minimum alignment - UINT_32 noMetadata : 1; ///< This resource has no metadata - UINT_32 metaRbUnaligned : 1; ///< This resource has rb unaligned metadata - UINT_32 metaPipeUnaligned : 1; ///< This resource has pipe unaligned metadata - UINT_32 reserved : 14; ///< Reserved bits - }; - - UINT_32 value; -} ADDR2_SURFACE_FLAGS; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SURFACE_INFO_INPUT -* -* @brief -* Input structure for Addr2ComputeSurfaceInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SURFACE_INFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR2_SURFACE_FLAGS flags; ///< Surface flags - AddrSwizzleMode swizzleMode; ///< Swizzle Mode for Gfx9 - AddrResourceType resourceType; ///< Surface type - AddrFormat format; ///< Surface format - UINT_32 bpp; ///< bits per pixel - UINT_32 width; ///< Width (of mip0), in pixels - UINT_32 height; ///< Height (of mip0), in pixels - UINT_32 numSlices; ///< Number surface slice/depth (of mip0), - UINT_32 numMipLevels; ///< Total mipmap levels. - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - UINT_32 pitchInElement; ///< Pitch in elements (blocks for compressed formats) - UINT_32 sliceAlign; ///< Required slice size in bytes -} ADDR2_COMPUTE_SURFACE_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR2_MIP_INFO -* -* @brief -* Structure that contains information for mip level -* -**************************************************************************************************** -*/ -typedef struct _ADDR2_MIP_INFO -{ - UINT_32 pitch; ///< Pitch in elements - UINT_32 height; ///< Padded height in elements - UINT_32 depth; ///< Padded depth - UINT_32 pixelPitch; ///< Pitch in pixels - UINT_32 pixelHeight; ///< Padded height in pixels - UINT_32 equationIndex; ///< Equation index in the equation table - UINT_64 offset; ///< Offset in bytes from mip base, should only be used - ///< to setup vam surface descriptor, can't be used - ///< to setup swizzle pattern - UINT_64 macroBlockOffset; ///< macro block offset in bytes from mip base - UINT_32 mipTailOffset; ///< mip tail offset in bytes - UINT_32 mipTailCoordX; ///< mip tail coord x - UINT_32 mipTailCoordY; ///< mip tail coord y - UINT_32 mipTailCoordZ; ///< mip tail coord z -} ADDR2_MIP_INFO; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SURFACE_INFO_OUTPUT -* -* @brief -* Output structure for Addr2ComputeSurfInfo -* @note - Element: AddrLib unit for computing. e.g. BCn: 4x4 blocks; R32B32B32: 32bit with 3x pitch - Pixel: Original pixel -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SURFACE_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch in elements (blocks for compressed formats) - UINT_32 height; ///< Padded height (of mip0) in elements - UINT_32 numSlices; ///< Padded depth for 3d resource - ///< or padded number of slices for 2d array resource - UINT_32 mipChainPitch; ///< Pitch (of total mip chain) in elements - UINT_32 mipChainHeight; ///< Padded height (of total mip chain) in elements - UINT_32 mipChainSlice; ///< Padded depth (of total mip chain) - UINT_64 sliceSize; ///< Slice (total mip chain) size in bytes - UINT_64 surfSize; ///< Surface (total mip chain) size in bytes - UINT_32 baseAlign; ///< Base address alignment - UINT_32 bpp; ///< Bits per elements - /// (e.g. blocks for BCn, 1/3 for 96bit) - UINT_32 pixelMipChainPitch; ///< Mip chain pitch in original pixels - UINT_32 pixelMipChainHeight; ///< Mip chain height in original pixels - UINT_32 pixelPitch; ///< Pitch in original pixels - UINT_32 pixelHeight; ///< Height in original pixels - UINT_32 pixelBits; ///< Original bits per pixel, passed from input - - UINT_32 blockWidth; ///< Width in element inside one block - UINT_32 blockHeight; ///< Height in element inside one block - UINT_32 blockSlices; ///< Slice number inside one block - ///< Prt tile is one block, its width/height/slice - ///< equals to blcok width/height/slice - - BOOL_32 epitchIsHeight; ///< Whether to use height to program epitch register - /// Stereo info - ADDR_QBSTEREOINFO* pStereoInfo; ///< Stereo info, needed if qbStereo flag is TRUE - /// Mip info - ADDR2_MIP_INFO* pMipInfo; ///< Pointer to mip information array - /// if it is not NULL, the array is assumed to - /// contain numMipLevels entries - - UINT_32 equationIndex; ///< Equation index in the equation table of mip0 - BOOL_32 mipChainInTail; ///< If whole mipchain falls into mip tail block - UINT_32 firstMipIdInTail; ///< The id of first mip in tail, if there is no mip - /// in tail, it will be set to number of mip levels -} ADDR2_COMPUTE_SURFACE_INFO_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeSurfaceInfo -* -* @brief -* Compute surface width/height/slices/alignments and suitable tiling mode -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceInfo( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for Addr2ComputeSurfaceAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index - UINT_32 sample; ///< Sample index, use fragment index for EQAA - UINT_32 mipId; ///< the mip ID in mip chain - - AddrSwizzleMode swizzleMode; ///< Swizzle mode for Gfx9 - ADDR2_SURFACE_FLAGS flags; ///< Surface flags - AddrResourceType resourceType; ///< Surface type - UINT_32 bpp; ///< Bits per pixel - UINT_32 unalignedWidth; ///< Surface original width (of mip0) - UINT_32 unalignedHeight; ///< Surface original height (of mip0) - UINT_32 numSlices; ///< Surface original slices (of mip0) - UINT_32 numMipLevels; ///< Total mipmap levels - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - - UINT_32 pipeBankXor; ///< Combined swizzle used to do bank/pipe rotation - UINT_32 pitchInElement; ///< Pitch in elements (blocks for compressed formats) -} ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for Addr2ComputeSurfaceAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Byte address - UINT_32 bitPosition; ///< Bit position within surfaceAddr, 0-7. - /// For surface bpp < 8, e.g. FMT_1. - UINT_32 prtBlockIndex; ///< Index of a PRT tile (64K block) -} ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeSurfaceAddrFromCoord -* -* @brief -* Compute surface address from a given coordinate. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT -* -* @brief -* Input structure for Addr2ComputeSurfaceCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address in bytes - UINT_32 bitPosition; ///< Bit position in addr. 0-7. for surface bpp < 8, - /// e.g. FMT_1; - - AddrSwizzleMode swizzleMode; ///< Swizzle mode for Gfx9 - ADDR2_SURFACE_FLAGS flags; ///< Surface flags - AddrResourceType resourceType; ///< Surface type - UINT_32 bpp; ///< Bits per pixel - UINT_32 unalignedWidth; ///< Surface original width (of mip0) - UINT_32 unalignedHeight; ///< Surface original height (of mip0) - UINT_32 numSlices; ///< Surface original slices (of mip0) - UINT_32 numMipLevels; ///< Total mipmap levels. - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - - UINT_32 pipeBankXor; ///< Combined swizzle used to do bank/pipe rotation - UINT_32 pitchInElement; ///< Pitch in elements (blocks for compressed formats) -} ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for Addr2ComputeSurfaceCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - UINT_32 sample; ///< Index of samples, means fragment index for EQAA - UINT_32 mipId; ///< mipmap level id -} ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeSurfaceCoordFromAddr -* -* @brief -* Compute coordinate from a given surface address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// HTile functions for Gfx9 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR2_META_FLAGS -* -* @brief -* Metadata flags -**************************************************************************************************** -*/ -typedef union _ADDR2_META_FLAGS -{ - struct - { - UINT_32 pipeAligned : 1; ///< if Metadata being pipe aligned - UINT_32 rbAligned : 1; ///< if Metadata being RB aligned - UINT_32 linear : 1; ///< if Metadata linear, GFX9 does not suppord this! - UINT_32 reserved : 29; ///< Reserved bits - }; - - UINT_32 value; -} ADDR2_META_FLAGS; - -/** -**************************************************************************************************** -* ADDR2_META_MIP_INFO -* -* @brief -* Structure to store per mip metadata information -**************************************************************************************************** -*/ -typedef struct _ADDR2_META_MIP_INFO -{ - BOOL_32 inMiptail; - union - { - struct - { - UINT_32 startX; - UINT_32 startY; - UINT_32 startZ; - UINT_32 width; - UINT_32 height; - UINT_32 depth; - }; - - struct - { - UINT_32 offset; - UINT_32 sliceSize; - }; - }; -} ADDR2_META_MIP_INFO; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_HTILE_INFO_INPUT -* -* @brief -* Input structure of Addr2ComputeHtileInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_HTILE_INFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR2_META_FLAGS hTileFlags; ///< HTILE flags - ADDR2_SURFACE_FLAGS depthFlags; ///< Depth surface flags - AddrSwizzleMode swizzleMode; ///< Depth surface swizzle mode - UINT_32 unalignedWidth; ///< Depth surface original width (of mip0) - UINT_32 unalignedHeight; ///< Depth surface original height (of mip0) - UINT_32 numSlices; ///< Number of slices of depth surface (of mip0) - UINT_32 numMipLevels; ///< Total mipmap levels of color surface - UINT_32 firstMipIdInTail; -} ADDR2_COMPUTE_HTILE_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_HTILE_INFO_OUTPUT -* -* @brief -* Output structure of Addr2ComputeHtileInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_HTILE_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch in pixels of depth buffer represented in this - /// HTile buffer. This might be larger than original depth - /// buffer pitch when called with an unaligned pitch. - UINT_32 height; ///< Height in pixels, as above - UINT_32 baseAlign; ///< Base alignment - UINT_32 sliceSize; ///< Slice size, in bytes. - UINT_32 htileBytes; ///< Size of HTILE buffer, in bytes - UINT_32 metaBlkWidth; ///< Meta block width - UINT_32 metaBlkHeight; ///< Meta block height - UINT_32 metaBlkNumPerSlice; ///< Number of metablock within one slice - - ADDR2_META_MIP_INFO* pMipInfo; ///< HTILE mip information -} ADDR2_COMPUTE_HTILE_INFO_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeHtileInfo -* -* @brief -* Compute Htile pitch, height, base alignment and size in bytes -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileInfo( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for Addr2ComputeHtileAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - UINT_32 mipId; ///< mipmap level id - - ADDR2_META_FLAGS hTileFlags; ///< HTILE flags - ADDR2_SURFACE_FLAGS depthflags; ///< Depth surface flags - AddrSwizzleMode swizzleMode; ///< Depth surface swizzle mode - UINT_32 bpp; ///< Depth surface bits per pixel - UINT_32 unalignedWidth; ///< Depth surface original width (of mip0) - UINT_32 unalignedHeight; ///< Depth surface original height (of mip0) - UINT_32 numSlices; ///< Depth surface original depth (of mip0) - UINT_32 numMipLevels; ///< Depth surface total mipmap levels - UINT_32 numSamples; ///< Depth surface number of samples - UINT_32 pipeXor; ///< Pipe xor setting -} ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for Addr2ComputeHtileAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address in bytes -} ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeHtileAddrFromCoord -* -* @brief -* Compute Htile address according to coordinates (of depth buffer) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT -* -* @brief -* Input structure for Addr2ComputeHtileCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address - - ADDR2_META_FLAGS hTileFlags; ///< HTILE flags - ADDR2_SURFACE_FLAGS depthFlags; ///< Depth surface flags - AddrSwizzleMode swizzleMode; ///< Depth surface swizzle mode - UINT_32 bpp; ///< Depth surface bits per pixel - UINT_32 unalignedWidth; ///< Depth surface original width (of mip0) - UINT_32 unalignedHeight; ///< Depth surface original height (of mip0) - UINT_32 numSlices; ///< Depth surface original depth (of mip0) - UINT_32 numMipLevels; ///< Depth surface total mipmap levels - UINT_32 numSamples; ///< Depth surface number of samples - UINT_32 pipeXor; ///< Pipe xor setting -} ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for Addr2ComputeHtileCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - UINT_32 mipId; ///< mipmap level id -} ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeHtileCoordFromAddr -* -* @brief -* Compute coordinates within depth buffer (1st pixel of a micro tile) according to -* Htile address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// C-mask functions for Gfx9 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_CMASK_INFO_INPUT -* -* @brief -* Input structure of Addr2ComputeCmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_CMASKINFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR2_META_FLAGS cMaskFlags; ///< CMASK flags - ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags - AddrResourceType resourceType; ///< Color surface type - AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode - UINT_32 unalignedWidth; ///< Color surface original width - UINT_32 unalignedHeight; ///< Color surface original height - UINT_32 numSlices; ///< Number of slices of color buffer -} ADDR2_COMPUTE_CMASK_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_CMASK_INFO_OUTPUT -* -* @brief -* Output structure of Addr2ComputeCmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_CMASK_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch in pixels of color buffer which - /// this Cmask matches. The size might be larger than - /// original color buffer pitch when called with - /// an unaligned pitch. - UINT_32 height; ///< Height in pixels, as above - UINT_32 baseAlign; ///< Base alignment - UINT_32 sliceSize; ///< Slice size, in bytes. - UINT_32 cmaskBytes; ///< Size in bytes of CMask buffer - UINT_32 metaBlkWidth; ///< Meta block width - UINT_32 metaBlkHeight; ///< Meta block height - - UINT_32 metaBlkNumPerSlice; ///< Number of metablock within one slice -} ADDR2_COMPUTE_CMASK_INFO_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeCmaskInfo -* -* @brief -* Compute Cmask pitch, height, base alignment and size in bytes from color buffer -* info -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskInfo( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for Addr2ComputeCmaskAddrFromCoord -* -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - - ADDR2_META_FLAGS cMaskFlags; ///< CMASK flags - ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags - AddrResourceType resourceType; ///< Color surface type - AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode - - UINT_32 unalignedWidth; ///< Color surface original width (of mip0) - UINT_32 unalignedHeight; ///< Color surface original height (of mip0) - UINT_32 numSlices; ///< Color surface original slices (of mip0) - - UINT_32 numSamples; ///< Color surfae sample number - UINT_32 numFrags; ///< Color surface fragment number - - UINT_32 pipeXor; ///< pipe Xor setting -} ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for Addr2ComputeCmaskAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< CMASK address in bytes - UINT_32 bitPosition; ///< Bit position within addr, 0 or 4 -} ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeCmaskAddrFromCoord -* -* @brief -* Compute Cmask address according to coordinates (of MSAA color buffer) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT -* -* @brief -* Input structure for Addr2ComputeCmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< CMASK address in bytes - UINT_32 bitPosition; ///< Bit position within addr, 0 or 4 - - ADDR2_META_FLAGS cMaskFlags; ///< CMASK flags - ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags - AddrResourceType resourceType; ///< Color surface type - AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode - - UINT_32 unalignedWidth; ///< Color surface original width (of mip0) - UINT_32 unalignedHeight; ///< Color surface original height (of mip0) - UINT_32 numSlices; ///< Color surface original slices (of mip0) - UINT_32 numMipLevels; ///< Color surface total mipmap levels. -} ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for Addr2ComputeCmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - UINT_32 mipId; ///< mipmap level id -} ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeCmaskCoordFromAddr -* -* @brief -* Compute coordinates within color buffer (1st pixel of a micro tile) according to -* Cmask address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// F-mask functions for Gfx9 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR2_FMASK_FLAGS -* -* @brief -* FMASK flags -**************************************************************************************************** -*/ -typedef union _ADDR2_FMASK_FLAGS -{ - struct - { - UINT_32 resolved : 1; ///< TRUE if this is a resolved fmask, used by H/W clients - /// by H/W clients. S/W should always set it to FALSE. - UINT_32 reserved : 31; ///< Reserved for future use. - }; - - UINT_32 value; -} ADDR2_FMASK_FLAGS; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_FMASK_INFO_INPUT -* -* @brief -* Input structure for Addr2ComputeFmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_FMASK_INFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode - UINT_32 unalignedWidth; ///< Color surface original width - UINT_32 unalignedHeight; ///< Color surface original height - UINT_32 numSlices; ///< Number of slices/depth - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - ADDR2_FMASK_FLAGS fMaskFlags; ///< FMASK flags -} ADDR2_COMPUTE_FMASK_INFO_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_FMASK_INFO_OUTPUT -* -* @brief -* Output structure for Addr2ComputeFmaskInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_FMASK_INFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 pitch; ///< Pitch of fmask in pixels - UINT_32 height; ///< Height of fmask in pixels - UINT_32 baseAlign; ///< Base alignment - UINT_32 numSlices; ///< Slices of fmask - UINT_32 fmaskBytes; ///< Size of fmask in bytes - UINT_32 bpp; ///< Bits per pixel of FMASK is: number of bit planes - UINT_32 numSamples; ///< Number of samples - UINT_32 sliceSize; ///< Size of slice in bytes -} ADDR2_COMPUTE_FMASK_INFO_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeFmaskInfo -* -* @brief -* Compute Fmask pitch/height/slices/alignments and size in bytes -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskInfo( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for Addr2ComputeFmaskAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index - UINT_32 sample; ///< Sample index (fragment index for EQAA) - UINT_32 plane; ///< Plane number - - UINT_32 unalignedWidth; ///< Color surface original width - UINT_32 unalignedHeight; ///< Color surface original height - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - UINT_32 tileSwizzle; ///< Combined swizzle used to do bank/pipe rotation - - ADDR2_FMASK_FLAGS fMaskFlags; ///< FMASK flags -} ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for Addr2ComputeFmaskAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Fmask address - UINT_32 bitPosition; ///< Bit position within fmaskAddr, 0-7. -} ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeFmaskAddrFromCoord -* -* @brief -* Compute Fmask address according to coordinates (x,y,slice,sample,plane) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut); - - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT -* -* @brief -* Input structure for Addr2ComputeFmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< Address - UINT_32 bitPosition; ///< Bit position within addr, 0-7. - AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode - - UINT_32 unalignedWidth; ///< Color surface original width - UINT_32 unalignedHeight; ///< Color surface original height - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments - - UINT_32 tileSwizzle; ///< Combined swizzle used to do bank/pipe rotation - - ADDR2_FMASK_FLAGS fMaskFlags; ///< FMASK flags -} ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT -* -* @brief -* Output structure for Addr2ComputeFmaskCoordFromAddr -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Slice index - UINT_32 sample; ///< Sample index (fragment index for EQAA) - UINT_32 plane; ///< Plane number -} ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeFmaskCoordFromAddr -* -* @brief -* Compute FMASK coordinate from an given address -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskCoordFromAddr( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut); - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// DCC key functions for Gfx9 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* _ADDR2_COMPUTE_DCCINFO_INPUT -* -* @brief -* Input structure of Addr2ComputeDccInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_DCCINFO_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR2_META_FLAGS dccKeyFlags; ///< DCC key flags - ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags - AddrResourceType resourceType; ///< Color surface type - AddrSwizzleMode swizzleMode; ///< Color surface swizzle mode - UINT_32 bpp; ///< bits per pixel - UINT_32 unalignedWidth; ///< Color surface original width (of mip0) - UINT_32 unalignedHeight; ///< Color surface original height (of mip0) - UINT_32 numSlices; ///< Number of slices, of color surface (of mip0) - UINT_32 numFrags; ///< Fragment number of color surface - UINT_32 numMipLevels; ///< Total mipmap levels of color surface - UINT_32 dataSurfaceSize; ///< The padded size of all slices and mip levels - ///< useful in meta linear case - UINT_32 firstMipIdInTail; -} ADDR2_COMPUTE_DCCINFO_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_DCCINFO_OUTPUT -* -* @brief -* Output structure of Addr2ComputeDccInfo -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_DCCINFO_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 dccRamBaseAlign; ///< Base alignment of dcc key - UINT_32 dccRamSize; ///< Size of dcc key - - UINT_32 pitch; ///< DCC surface mip chain pitch - UINT_32 height; ///< DCC surface mip chain height - UINT_32 depth; ///< DCC surface mip chain depth - - UINT_32 compressBlkWidth; ///< DCC compress block width - UINT_32 compressBlkHeight; ///< DCC compress block height - UINT_32 compressBlkDepth; ///< DCC compress block depth - - UINT_32 metaBlkWidth; ///< DCC meta block width - UINT_32 metaBlkHeight; ///< DCC meta block height - UINT_32 metaBlkDepth; ///< DCC meta block depth - - UINT_32 metaBlkNumPerSlice; ///< Number of metablock within one slice - - union - { - UINT_32 fastClearSizePerSlice; ///< Size of DCC within a slice should be fast cleared - UINT_32 dccRamSliceSize; - }; - - ADDR2_META_MIP_INFO* pMipInfo; ///< DCC mip information -} ADDR2_COMPUTE_DCCINFO_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeDccInfo -* -* @brief -* Compute DCC key size, base alignment -* info -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccInfo( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut); - - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT -* -* @brief -* Input structure for Addr2ComputeDccAddrFromCoord -* -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_32 x; ///< X coordinate - UINT_32 y; ///< Y coordinate - UINT_32 slice; ///< Index of slices - UINT_32 sample; ///< Index of samples, means fragment index for EQAA - UINT_32 mipId; ///< mipmap level id - - ADDR2_META_FLAGS dccKeyFlags; ///< DCC flags - ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags - AddrResourceType resourceType; ///< Color surface type - AddrSwizzleMode swizzleMode; ///< Color surface swizzle mode - UINT_32 bpp; ///< Color surface bits per pixel - UINT_32 unalignedWidth; ///< Color surface original width (of mip0) - UINT_32 unalignedHeight; ///< Color surface original height (of mip0) - UINT_32 numSlices; ///< Color surface original slices (of mip0) - UINT_32 numMipLevels; ///< Color surface mipmap levels - UINT_32 numFrags; ///< Color surface fragment number - - UINT_32 pipeXor; ///< pipe Xor setting -} ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT -* -* @brief -* Output structure for Addr2ComputeDccAddrFromCoord -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - UINT_64 addr; ///< DCC address in bytes -} ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeDccAddrFromCoord -* -* @brief -* Compute DCC address according to coordinates (of MSAA color buffer) -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccAddrFromCoord( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut); - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Misc functions for Gfx9 -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_PIPEBANKXOR_INPUT -* -* @brief -* Input structure of Addr2ComputePipebankXor -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_PIPEBANKXOR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 surfIndex; ///< Input surface index - ADDR2_SURFACE_FLAGS flags; ///< Surface flag - AddrSwizzleMode swizzleMode; ///< Surface swizzle mode - AddrResourceType resourceType; ///< Surface resource type - AddrFormat format; ///< Surface format - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA -} ADDR2_COMPUTE_PIPEBANKXOR_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT -* -* @brief -* Output structure of Addr2ComputePipebankXor -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 pipeBankXor; ///< Pipe bank xor -} ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputePipeBankXor -* -* @brief -* Calculate a valid bank pipe xor value for client to use. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputePipeBankXor( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut); - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT -* -* @brief -* Input structure of Addr2ComputeSlicePipeBankXor -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - AddrSwizzleMode swizzleMode; ///< Surface swizzle mode - AddrResourceType resourceType; ///< Surface resource type - UINT_32 basePipeBankXor; ///< Base pipe bank xor - UINT_32 slice; ///< Slice id - UINT_32 numSamples; ///< Number of samples -} ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT -* -* @brief -* Output structure of Addr2ComputeSlicePipeBankXor -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_32 pipeBankXor; ///< Pipe bank xor -} ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeSlicePipeBankXor -* -* @brief -* Calculate slice pipe bank xor value based on base pipe bank xor and slice id. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSlicePipeBankXor( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut); - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT -* -* @brief -* Input structure of Addr2ComputeSubResourceOffsetForSwizzlePattern -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - AddrSwizzleMode swizzleMode; ///< Surface swizzle mode - AddrResourceType resourceType; ///< Surface resource type - UINT_32 pipeBankXor; ///< Per resource xor - UINT_32 slice; ///< Slice id - UINT_64 sliceSize; ///< Slice size of a mip chain - UINT_64 macroBlockOffset; ///< Macro block offset, returned in ADDR2_MIP_INFO - UINT_32 mipTailOffset; ///< Mip tail offset, returned in ADDR2_MIP_INFO -} ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT; - -/** -**************************************************************************************************** -* ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT -* -* @brief -* Output structure of Addr2ComputeSubResourceOffsetForSwizzlePattern -**************************************************************************************************** -*/ -typedef struct _ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - UINT_64 offset; ///< offset -} ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT; - -/** -**************************************************************************************************** -* Addr2ComputeSubResourceOffsetForSwizzlePattern -* -* @brief -* Calculate sub resource offset to support swizzle pattern. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2ComputeSubResourceOffsetForSwizzlePattern( - ADDR_HANDLE hLib, - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut); - -/** -**************************************************************************************************** -* ADDR2_BLOCK_SET -* -* @brief -* Bit field that defines block type -**************************************************************************************************** -*/ -typedef union _ADDR2_BLOCK_SET -{ - struct - { - UINT_32 micro : 1; // 256B block for 2D resource - UINT_32 macro4KB : 1; // 4KB for 2D/3D resource - UINT_32 macro64KB : 1; // 64KB for 2D/3D resource - UINT_32 var : 1; // VAR block - UINT_32 linear : 1; // Linear block - UINT_32 reserved : 27; - }; - - UINT_32 value; -} ADDR2_BLOCK_SET; - -/** -**************************************************************************************************** -* ADDR2_SWTYPE_SET -* -* @brief -* Bit field that defines swizzle type -**************************************************************************************************** -*/ -typedef union _ADDR2_SWTYPE_SET -{ - struct - { - UINT_32 sw_Z : 1; // SW_*_Z_* - UINT_32 sw_S : 1; // SW_*_S_* - UINT_32 sw_D : 1; // SW_*_D_* - UINT_32 sw_R : 1; // SW_*_R_* - UINT_32 reserved : 28; - }; - - UINT_32 value; -} ADDR2_SWTYPE_SET; - -/** -**************************************************************************************************** -* ADDR2_GET_PREFERRED_SURF_SETTING_INPUT -* -* @brief -* Input structure of Addr2GetPreferredSurfaceSetting -**************************************************************************************************** -*/ -typedef struct _ADDR2_GET_PREFERRED_SURF_SETTING_INPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - ADDR2_SURFACE_FLAGS flags; ///< Surface flags - AddrResourceType resourceType; ///< Surface type - AddrFormat format; ///< Surface format - AddrResrouceLocation resourceLoction; ///< Surface heap choice - ADDR2_BLOCK_SET forbiddenBlock; ///< Client can use it to disable some block setting - ///< such as linear for DXTn, tiled for YUV - ADDR2_SWTYPE_SET preferredSwSet; ///< Client can use it to specify sw type(s) wanted - BOOL_32 noXor; ///< Do not use xor mode for this resource - UINT_32 bpp; ///< bits per pixel - UINT_32 width; ///< Width (of mip0), in pixels - UINT_32 height; ///< Height (of mip0), in pixels - UINT_32 numSlices; ///< Number surface slice/depth (of mip0), - UINT_32 numMipLevels; ///< Total mipmap levels. - UINT_32 numSamples; ///< Number of samples - UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as - /// number of samples for normal AA; Set it to the - /// number of fragments for EQAA - UINT_32 maxAlign; ///< maximum base/size alignment requested by client - UINT_32 minSizeAlign; ///< memory allocated for surface in client driver will - /// be padded to multiple of this value (in bytes) -} ADDR2_GET_PREFERRED_SURF_SETTING_INPUT; - -/** -**************************************************************************************************** -* ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT -* -* @brief -* Output structure of Addr2GetPreferredSurfaceSetting -**************************************************************************************************** -*/ -typedef struct _ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT -{ - UINT_32 size; ///< Size of this structure in bytes - - AddrSwizzleMode swizzleMode; ///< Suggested swizzle mode to be used - AddrResourceType resourceType; ///< Suggested resource type to program HW - ADDR2_BLOCK_SET validBlockSet; ///< Valid block type bit conbination - BOOL_32 canXor; ///< If client can use xor on a valid macro block - /// type - ADDR2_SWTYPE_SET validSwTypeSet; ///< Valid swizzle type bit combination - ADDR2_SWTYPE_SET clientPreferredSwSet; ///< Client-preferred swizzle type bit combination -} ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT; - -/** -**************************************************************************************************** -* Addr2GetPreferredSurfaceSetting -* -* @brief -* Suggest a preferred setting for client driver to program HW register -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2GetPreferredSurfaceSetting( - ADDR_HANDLE hLib, - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut); - -/** -**************************************************************************************************** -* Addr2IsValidDisplaySwizzleMode -* -* @brief -* Return whether the swizzle mode is supported by DCE / DCN. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE ADDR_API Addr2IsValidDisplaySwizzleMode( - ADDR_HANDLE hLib, - AddrSwizzleMode swizzleMode, - UINT_32 bpp, - bool *result); - -#if defined(__cplusplus) -} -#endif - -#endif // __ADDR_INTERFACE_H__ diff --git a/src/amd/addrlib/addrtypes.h b/src/amd/addrlib/addrtypes.h deleted file mode 100644 index c63ad96ff97..00000000000 --- a/src/amd/addrlib/addrtypes.h +++ /dev/null @@ -1,749 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrtypes.h -* @brief Contains the helper function and constants -**************************************************************************************************** -*/ -#ifndef __ADDR_TYPES_H__ -#define __ADDR_TYPES_H__ - -#if defined(__APPLE__) && !defined(HAVE_TSERVER) -// External definitions header maintained by Apple driver team, but not for diag team under Mac. -// Helps address compilation issues & reduces code covered by NDA -#include "addrExtDef.h" - -#else - -// Windows and/or Linux -#if !defined(VOID) -typedef void VOID; -#endif - -#if !defined(FLOAT) -typedef float FLOAT; -#endif - -#if !defined(CHAR) -typedef char CHAR; -#endif - -#if !defined(INT) -typedef int INT; -#endif - -#include // va_list...etc need this header - -#endif // defined (__APPLE__) && !defined(HAVE_TSERVER) - -/** -**************************************************************************************************** -* Calling conventions -**************************************************************************************************** -*/ -#ifndef ADDR_CDECL - #if defined(__GNUC__) - #define ADDR_CDECL __attribute__((cdecl)) - #else - #define ADDR_CDECL __cdecl - #endif -#endif - -#ifndef ADDR_STDCALL - #if defined(__GNUC__) - #if defined(__amd64__) || defined(__x86_64__) - #define ADDR_STDCALL - #else - #define ADDR_STDCALL __attribute__((stdcall)) - #endif - #else - #define ADDR_STDCALL __stdcall - #endif -#endif - -#ifndef ADDR_FASTCALL - #if defined(BRAHMA_ARM) - #define ADDR_FASTCALL - #elif defined(__GNUC__) - #if defined(__i386__) - #define ADDR_FASTCALL __attribute__((regparm(0))) - #else - #define ADDR_FASTCALL - #endif - #else - #define ADDR_FASTCALL __fastcall - #endif -#endif - -#ifndef GC_CDECL - #define GC_CDECL ADDR_CDECL -#endif - -#ifndef GC_STDCALL - #define GC_STDCALL ADDR_STDCALL -#endif - -#ifndef GC_FASTCALL - #define GC_FASTCALL ADDR_FASTCALL -#endif - - -#if defined(__GNUC__) - #define ADDR_INLINE static inline // inline needs to be static to link -#else - // win32, win64, other platforms - #define ADDR_INLINE __inline -#endif // #if defined(__GNUC__) - -#define ADDR_API ADDR_FASTCALL //default call convention is fast call - -/** -**************************************************************************************************** -* Global defines used by other modules -**************************************************************************************************** -*/ -#if !defined(TILEINDEX_INVALID) -#define TILEINDEX_INVALID -1 -#endif - -#if !defined(TILEINDEX_LINEAR_GENERAL) -#define TILEINDEX_LINEAR_GENERAL -2 -#endif - -#if !defined(TILEINDEX_LINEAR_ALIGNED) -#define TILEINDEX_LINEAR_ALIGNED 8 -#endif - -/** -**************************************************************************************************** -* Return codes -**************************************************************************************************** -*/ -typedef enum _ADDR_E_RETURNCODE -{ - // General Return - ADDR_OK = 0, - ADDR_ERROR = 1, - - // Specific Errors - ADDR_OUTOFMEMORY, - ADDR_INVALIDPARAMS, - ADDR_NOTSUPPORTED, - ADDR_NOTIMPLEMENTED, - ADDR_PARAMSIZEMISMATCH, - ADDR_INVALIDGBREGVALUES, - -} ADDR_E_RETURNCODE; - -/** -**************************************************************************************************** -* @brief -* Neutral enums that define tile modes for all H/W -* @note -* R600/R800 tiling mode can be cast to hw enums directly but never cast into HW enum from -* ADDR_TM_2D_TILED_XTHICK -* -**************************************************************************************************** -*/ -typedef enum _AddrTileMode -{ - ADDR_TM_LINEAR_GENERAL = 0, ///< Least restrictions, pitch: multiple of 8 if not buffer - ADDR_TM_LINEAR_ALIGNED = 1, ///< Requests pitch or slice to be multiple of 64 pixels - ADDR_TM_1D_TILED_THIN1 = 2, ///< Linear array of 8x8 tiles - ADDR_TM_1D_TILED_THICK = 3, ///< Linear array of 8x8x4 tiles - ADDR_TM_2D_TILED_THIN1 = 4, ///< A set of macro tiles consist of 8x8 tiles - ADDR_TM_2D_TILED_THIN2 = 5, ///< 600 HWL only, macro tile ratio is 1:4 - ADDR_TM_2D_TILED_THIN4 = 6, ///< 600 HWL only, macro tile ratio is 1:16 - ADDR_TM_2D_TILED_THICK = 7, ///< A set of macro tiles consist of 8x8x4 tiles - ADDR_TM_2B_TILED_THIN1 = 8, ///< 600 HWL only, with bank swap - ADDR_TM_2B_TILED_THIN2 = 9, ///< 600 HWL only, with bank swap and ratio is 1:4 - ADDR_TM_2B_TILED_THIN4 = 10, ///< 600 HWL only, with bank swap and ratio is 1:16 - ADDR_TM_2B_TILED_THICK = 11, ///< 600 HWL only, with bank swap, consists of 8x8x4 tiles - ADDR_TM_3D_TILED_THIN1 = 12, ///< Macro tiling w/ pipe rotation between slices - ADDR_TM_3D_TILED_THICK = 13, ///< Macro tiling w/ pipe rotation bwtween slices, thick - ADDR_TM_3B_TILED_THIN1 = 14, ///< 600 HWL only, with bank swap - ADDR_TM_3B_TILED_THICK = 15, ///< 600 HWL only, with bank swap, thick - ADDR_TM_2D_TILED_XTHICK = 16, ///< Tile is 8x8x8, valid from NI - ADDR_TM_3D_TILED_XTHICK = 17, ///< Tile is 8x8x8, valid from NI - ADDR_TM_POWER_SAVE = 18, ///< Power save mode, only used by KMD on NI - ADDR_TM_PRT_TILED_THIN1 = 19, ///< No bank/pipe rotation or hashing beyond macrotile size - ADDR_TM_PRT_2D_TILED_THIN1 = 20, ///< Same as 2D_TILED_THIN1, PRT only - ADDR_TM_PRT_3D_TILED_THIN1 = 21, ///< Same as 3D_TILED_THIN1, PRT only - ADDR_TM_PRT_TILED_THICK = 22, ///< No bank/pipe rotation or hashing beyond macrotile size - ADDR_TM_PRT_2D_TILED_THICK = 23, ///< Same as 2D_TILED_THICK, PRT only - ADDR_TM_PRT_3D_TILED_THICK = 24, ///< Same as 3D_TILED_THICK, PRT only - ADDR_TM_UNKNOWN = 25, ///< Unkown tile mode, should be decided by address lib - ADDR_TM_COUNT = 26, ///< Must be the value of the last tile mode -} AddrTileMode; - -/** -**************************************************************************************************** -* @brief -* Neutral enums that define swizzle modes for Gfx9 ASIC -* @note -* -* ADDR_SW_LINEAR linear aligned addressing mode, for 1D/2D/3D resouce -* ADDR_SW_256B_* addressing block aligned size is 256B, for 2D/3D resouce -* ADDR_SW_4KB_* addressing block aligned size is 4KB, for 2D/3D resouce -* ADDR_SW_64KB_* addressing block aligned size is 64KB, for 2D/3D resouce -* ADDR_SW_VAR_* addressing block aligned size is ASIC specific, for 2D/3D resouce -* -* ADDR_SW_*_Z For 2D resouce, represents Z-order swizzle mode for depth/stencil/FMask - For 3D resouce, represents a swizzle mode similar to legacy thick tile mode -* ADDR_SW_*_S represents standard swizzle mode defined by MS -* ADDR_SW_*_D For 2D resouce, represents a swizzle mode for displayable resource -* For 3D resouce, represents a swizzle mode which places each slice in order & pixel - within slice is placed as 2D ADDR_SW_*_S. Don't use this combination if possible! -* ADDR_SW_*_R For 2D resouce only, represents a swizzle mode for rotated displayable resource -* -**************************************************************************************************** -*/ -typedef enum _AddrSwizzleMode -{ - ADDR_SW_LINEAR = 0, - ADDR_SW_256B_S = 1, - ADDR_SW_256B_D = 2, - ADDR_SW_256B_R = 3, - ADDR_SW_4KB_Z = 4, - ADDR_SW_4KB_S = 5, - ADDR_SW_4KB_D = 6, - ADDR_SW_4KB_R = 7, - ADDR_SW_64KB_Z = 8, - ADDR_SW_64KB_S = 9, - ADDR_SW_64KB_D = 10, - ADDR_SW_64KB_R = 11, - ADDR_SW_VAR_Z = 12, - ADDR_SW_VAR_S = 13, - ADDR_SW_VAR_D = 14, - ADDR_SW_VAR_R = 15, - ADDR_SW_64KB_Z_T = 16, - ADDR_SW_64KB_S_T = 17, - ADDR_SW_64KB_D_T = 18, - ADDR_SW_64KB_R_T = 19, - ADDR_SW_4KB_Z_X = 20, - ADDR_SW_4KB_S_X = 21, - ADDR_SW_4KB_D_X = 22, - ADDR_SW_4KB_R_X = 23, - ADDR_SW_64KB_Z_X = 24, - ADDR_SW_64KB_S_X = 25, - ADDR_SW_64KB_D_X = 26, - ADDR_SW_64KB_R_X = 27, - ADDR_SW_VAR_Z_X = 28, - ADDR_SW_VAR_S_X = 29, - ADDR_SW_VAR_D_X = 30, - ADDR_SW_VAR_R_X = 31, - ADDR_SW_LINEAR_GENERAL = 32, - ADDR_SW_MAX_TYPE = 33, - - // Used for represent block with identical size - ADDR_SW_256B = ADDR_SW_256B_S, - ADDR_SW_4KB = ADDR_SW_4KB_S_X, - ADDR_SW_64KB = ADDR_SW_64KB_S_X, - ADDR_SW_VAR = ADDR_SW_VAR_S_X, -} AddrSwizzleMode; - -/** -**************************************************************************************************** -* @brief -* Neutral enums that define image type -* @note -* this is new for address library interface version 2 -* -**************************************************************************************************** -*/ -typedef enum _AddrResourceType -{ - ADDR_RSRC_TEX_1D = 0, - ADDR_RSRC_TEX_2D = 1, - ADDR_RSRC_TEX_3D = 2, - ADDR_RSRC_MAX_TYPE = 3, -} AddrResourceType; - -/** -**************************************************************************************************** -* @brief -* Neutral enums that define resource heap location -* @note -* this is new for address library interface version 2 -* -**************************************************************************************************** -*/ -typedef enum _AddrResrouceLocation -{ - ADDR_RSRC_LOC_UNDEF = 0, // Resource heap is undefined/unknown - ADDR_RSRC_LOC_LOCAL = 1, // CPU visable and CPU invisable local heap - ADDR_RSRC_LOC_USWC = 2, // CPU write-combined non-cached nonlocal heap - ADDR_RSRC_LOC_CACHED = 3, // CPU cached nonlocal heap - ADDR_RSRC_LOC_INVIS = 4, // CPU invisable local heap only - ADDR_RSRC_LOC_MAX_TYPE = 5, -} AddrResrouceLocation; - -/** -**************************************************************************************************** -* @brief -* Neutral enums that define resource basic swizzle mode -* @note -* this is new for address library interface version 2 -* -**************************************************************************************************** -*/ -typedef enum _AddrSwType -{ - ADDR_SW_Z = 0, // Resource basic swizzle mode is ZOrder - ADDR_SW_S = 1, // Resource basic swizzle mode is Standard - ADDR_SW_D = 2, // Resource basic swizzle mode is Display - ADDR_SW_R = 3, // Resource basic swizzle mode is Rotated -} AddrSwType; - -/** -**************************************************************************************************** -* @brief -* Neutral enums that define mipmap major mode -* @note -* this is new for address library interface version 2 -* -**************************************************************************************************** -*/ -typedef enum _AddrMajorMode -{ - ADDR_MAJOR_X = 0, - ADDR_MAJOR_Y = 1, - ADDR_MAJOR_Z = 2, - ADDR_MAJOR_MAX_TYPE = 3, -} AddrMajorMode; - -/** -**************************************************************************************************** -* AddrFormat -* -* @brief -* Neutral enum for SurfaceFormat -* -**************************************************************************************************** -*/ -typedef enum _AddrFormat { - ADDR_FMT_INVALID = 0x00000000, - ADDR_FMT_8 = 0x00000001, - ADDR_FMT_4_4 = 0x00000002, - ADDR_FMT_3_3_2 = 0x00000003, - ADDR_FMT_RESERVED_4 = 0x00000004, - ADDR_FMT_16 = 0x00000005, - ADDR_FMT_16_FLOAT = 0x00000006, - ADDR_FMT_8_8 = 0x00000007, - ADDR_FMT_5_6_5 = 0x00000008, - ADDR_FMT_6_5_5 = 0x00000009, - ADDR_FMT_1_5_5_5 = 0x0000000a, - ADDR_FMT_4_4_4_4 = 0x0000000b, - ADDR_FMT_5_5_5_1 = 0x0000000c, - ADDR_FMT_32 = 0x0000000d, - ADDR_FMT_32_FLOAT = 0x0000000e, - ADDR_FMT_16_16 = 0x0000000f, - ADDR_FMT_16_16_FLOAT = 0x00000010, - ADDR_FMT_8_24 = 0x00000011, - ADDR_FMT_8_24_FLOAT = 0x00000012, - ADDR_FMT_24_8 = 0x00000013, - ADDR_FMT_24_8_FLOAT = 0x00000014, - ADDR_FMT_10_11_11 = 0x00000015, - ADDR_FMT_10_11_11_FLOAT = 0x00000016, - ADDR_FMT_11_11_10 = 0x00000017, - ADDR_FMT_11_11_10_FLOAT = 0x00000018, - ADDR_FMT_2_10_10_10 = 0x00000019, - ADDR_FMT_8_8_8_8 = 0x0000001a, - ADDR_FMT_10_10_10_2 = 0x0000001b, - ADDR_FMT_X24_8_32_FLOAT = 0x0000001c, - ADDR_FMT_32_32 = 0x0000001d, - ADDR_FMT_32_32_FLOAT = 0x0000001e, - ADDR_FMT_16_16_16_16 = 0x0000001f, - ADDR_FMT_16_16_16_16_FLOAT = 0x00000020, - ADDR_FMT_RESERVED_33 = 0x00000021, - ADDR_FMT_32_32_32_32 = 0x00000022, - ADDR_FMT_32_32_32_32_FLOAT = 0x00000023, - ADDR_FMT_RESERVED_36 = 0x00000024, - ADDR_FMT_1 = 0x00000025, - ADDR_FMT_1_REVERSED = 0x00000026, - ADDR_FMT_GB_GR = 0x00000027, - ADDR_FMT_BG_RG = 0x00000028, - ADDR_FMT_32_AS_8 = 0x00000029, - ADDR_FMT_32_AS_8_8 = 0x0000002a, - ADDR_FMT_5_9_9_9_SHAREDEXP = 0x0000002b, - ADDR_FMT_8_8_8 = 0x0000002c, - ADDR_FMT_16_16_16 = 0x0000002d, - ADDR_FMT_16_16_16_FLOAT = 0x0000002e, - ADDR_FMT_32_32_32 = 0x0000002f, - ADDR_FMT_32_32_32_FLOAT = 0x00000030, - ADDR_FMT_BC1 = 0x00000031, - ADDR_FMT_BC2 = 0x00000032, - ADDR_FMT_BC3 = 0x00000033, - ADDR_FMT_BC4 = 0x00000034, - ADDR_FMT_BC5 = 0x00000035, - ADDR_FMT_BC6 = 0x00000036, - ADDR_FMT_BC7 = 0x00000037, - ADDR_FMT_32_AS_32_32_32_32 = 0x00000038, - ADDR_FMT_APC3 = 0x00000039, - ADDR_FMT_APC4 = 0x0000003a, - ADDR_FMT_APC5 = 0x0000003b, - ADDR_FMT_APC6 = 0x0000003c, - ADDR_FMT_APC7 = 0x0000003d, - ADDR_FMT_CTX1 = 0x0000003e, - ADDR_FMT_RESERVED_63 = 0x0000003f, - ADDR_FMT_ASTC_4x4 = 0x00000040, - ADDR_FMT_ASTC_5x4 = 0x00000041, - ADDR_FMT_ASTC_5x5 = 0x00000042, - ADDR_FMT_ASTC_6x5 = 0x00000043, - ADDR_FMT_ASTC_6x6 = 0x00000044, - ADDR_FMT_ASTC_8x5 = 0x00000045, - ADDR_FMT_ASTC_8x6 = 0x00000046, - ADDR_FMT_ASTC_8x8 = 0x00000047, - ADDR_FMT_ASTC_10x5 = 0x00000048, - ADDR_FMT_ASTC_10x6 = 0x00000049, - ADDR_FMT_ASTC_10x8 = 0x0000004a, - ADDR_FMT_ASTC_10x10 = 0x0000004b, - ADDR_FMT_ASTC_12x10 = 0x0000004c, - ADDR_FMT_ASTC_12x12 = 0x0000004d, - ADDR_FMT_ETC2_64BPP = 0x0000004e, - ADDR_FMT_ETC2_128BPP = 0x0000004f, -} AddrFormat; - -/** -**************************************************************************************************** -* AddrDepthFormat -* -* @brief -* Neutral enum for addrFlt32ToDepthPixel -* -**************************************************************************************************** -*/ -typedef enum _AddrDepthFormat -{ - ADDR_DEPTH_INVALID = 0x00000000, - ADDR_DEPTH_16 = 0x00000001, - ADDR_DEPTH_X8_24 = 0x00000002, - ADDR_DEPTH_8_24 = 0x00000003, - ADDR_DEPTH_X8_24_FLOAT = 0x00000004, - ADDR_DEPTH_8_24_FLOAT = 0x00000005, - ADDR_DEPTH_32_FLOAT = 0x00000006, - ADDR_DEPTH_X24_8_32_FLOAT = 0x00000007, - -} AddrDepthFormat; - -/** -**************************************************************************************************** -* AddrColorFormat -* -* @brief -* Neutral enum for ColorFormat -* -**************************************************************************************************** -*/ -typedef enum _AddrColorFormat -{ - ADDR_COLOR_INVALID = 0x00000000, - ADDR_COLOR_8 = 0x00000001, - ADDR_COLOR_4_4 = 0x00000002, - ADDR_COLOR_3_3_2 = 0x00000003, - ADDR_COLOR_RESERVED_4 = 0x00000004, - ADDR_COLOR_16 = 0x00000005, - ADDR_COLOR_16_FLOAT = 0x00000006, - ADDR_COLOR_8_8 = 0x00000007, - ADDR_COLOR_5_6_5 = 0x00000008, - ADDR_COLOR_6_5_5 = 0x00000009, - ADDR_COLOR_1_5_5_5 = 0x0000000a, - ADDR_COLOR_4_4_4_4 = 0x0000000b, - ADDR_COLOR_5_5_5_1 = 0x0000000c, - ADDR_COLOR_32 = 0x0000000d, - ADDR_COLOR_32_FLOAT = 0x0000000e, - ADDR_COLOR_16_16 = 0x0000000f, - ADDR_COLOR_16_16_FLOAT = 0x00000010, - ADDR_COLOR_8_24 = 0x00000011, - ADDR_COLOR_8_24_FLOAT = 0x00000012, - ADDR_COLOR_24_8 = 0x00000013, - ADDR_COLOR_24_8_FLOAT = 0x00000014, - ADDR_COLOR_10_11_11 = 0x00000015, - ADDR_COLOR_10_11_11_FLOAT = 0x00000016, - ADDR_COLOR_11_11_10 = 0x00000017, - ADDR_COLOR_11_11_10_FLOAT = 0x00000018, - ADDR_COLOR_2_10_10_10 = 0x00000019, - ADDR_COLOR_8_8_8_8 = 0x0000001a, - ADDR_COLOR_10_10_10_2 = 0x0000001b, - ADDR_COLOR_X24_8_32_FLOAT = 0x0000001c, - ADDR_COLOR_32_32 = 0x0000001d, - ADDR_COLOR_32_32_FLOAT = 0x0000001e, - ADDR_COLOR_16_16_16_16 = 0x0000001f, - ADDR_COLOR_16_16_16_16_FLOAT = 0x00000020, - ADDR_COLOR_RESERVED_33 = 0x00000021, - ADDR_COLOR_32_32_32_32 = 0x00000022, - ADDR_COLOR_32_32_32_32_FLOAT = 0x00000023, -} AddrColorFormat; - -/** -**************************************************************************************************** -* AddrSurfaceNumber -* -* @brief -* Neutral enum for SurfaceNumber -* -**************************************************************************************************** -*/ -typedef enum _AddrSurfaceNumber { - ADDR_NUMBER_UNORM = 0x00000000, - ADDR_NUMBER_SNORM = 0x00000001, - ADDR_NUMBER_USCALED = 0x00000002, - ADDR_NUMBER_SSCALED = 0x00000003, - ADDR_NUMBER_UINT = 0x00000004, - ADDR_NUMBER_SINT = 0x00000005, - ADDR_NUMBER_SRGB = 0x00000006, - ADDR_NUMBER_FLOAT = 0x00000007, -} AddrSurfaceNumber; - -/** -**************************************************************************************************** -* AddrSurfaceSwap -* -* @brief -* Neutral enum for SurfaceSwap -* -**************************************************************************************************** -*/ -typedef enum _AddrSurfaceSwap { - ADDR_SWAP_STD = 0x00000000, - ADDR_SWAP_ALT = 0x00000001, - ADDR_SWAP_STD_REV = 0x00000002, - ADDR_SWAP_ALT_REV = 0x00000003, -} AddrSurfaceSwap; - -/** -**************************************************************************************************** -* AddrHtileBlockSize -* -* @brief -* Size of HTILE blocks, valid values are 4 or 8 for now -**************************************************************************************************** -*/ -typedef enum _AddrHtileBlockSize -{ - ADDR_HTILE_BLOCKSIZE_4 = 4, - ADDR_HTILE_BLOCKSIZE_8 = 8, -} AddrHtileBlockSize; - - -/** -**************************************************************************************************** -* AddrPipeCfg -* -* @brief -* The pipe configuration field specifies both the number of pipes and -* how pipes are interleaved on the surface. -* The expression of number of pipes, the shader engine tile size, and packer tile size -* is encoded in a PIPE_CONFIG register field. -* In general the number of pipes usually matches the number of memory channels of the -* hardware configuration. -* For hw configurations w/ non-pow2 memory number of memory channels, it usually matches -* the number of ROP units(? TODO: which registers??) -* The enum value = hw enum + 1 which is to reserve 0 for requesting default. -**************************************************************************************************** -*/ -typedef enum _AddrPipeCfg -{ - ADDR_PIPECFG_INVALID = 0, - ADDR_PIPECFG_P2 = 1, /// 2 pipes, - ADDR_PIPECFG_P4_8x16 = 5, /// 4 pipes, - ADDR_PIPECFG_P4_16x16 = 6, - ADDR_PIPECFG_P4_16x32 = 7, - ADDR_PIPECFG_P4_32x32 = 8, - ADDR_PIPECFG_P8_16x16_8x16 = 9, /// 8 pipes - ADDR_PIPECFG_P8_16x32_8x16 = 10, - ADDR_PIPECFG_P8_32x32_8x16 = 11, - ADDR_PIPECFG_P8_16x32_16x16 = 12, - ADDR_PIPECFG_P8_32x32_16x16 = 13, - ADDR_PIPECFG_P8_32x32_16x32 = 14, - ADDR_PIPECFG_P8_32x64_32x32 = 15, - ADDR_PIPECFG_P16_32x32_8x16 = 17, /// 16 pipes - ADDR_PIPECFG_P16_32x32_16x16 = 18, - ADDR_PIPECFG_MAX = 19, -} AddrPipeCfg; - -/** -**************************************************************************************************** -* AddrTileType -* -* @brief -* Neutral enums that specifies micro tile type (MICRO_TILE_MODE) -**************************************************************************************************** -*/ -typedef enum _AddrTileType -{ - ADDR_DISPLAYABLE = 0, ///< Displayable tiling - ADDR_NON_DISPLAYABLE = 1, ///< Non-displayable tiling, a.k.a thin micro tiling - ADDR_DEPTH_SAMPLE_ORDER = 2, ///< Same as non-displayable plus depth-sample-order - ADDR_ROTATED = 3, ///< Rotated displayable tiling - ADDR_THICK = 4, ///< Thick micro-tiling, only valid for THICK and XTHICK -} AddrTileType; - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// -// Type definitions: short system-independent names for address library types -// -//////////////////////////////////////////////////////////////////////////////////////////////////// - -#if !defined(__APPLE__) || defined(HAVE_TSERVER) - -#ifndef BOOL_32 // no bool type in C -/// @brief Boolean type, since none is defined in C -/// @ingroup type -#define BOOL_32 int -#endif - -#ifndef INT_32 -#define INT_32 int -#endif - -#ifndef UINT_32 -#define UINT_32 unsigned int -#endif - -#ifndef INT_16 -#define INT_16 short -#endif - -#ifndef UINT_16 -#define UINT_16 unsigned short -#endif - -#ifndef INT_8 -#define INT_8 char -#endif - -#ifndef UINT_8 -#define UINT_8 unsigned char -#endif - -#ifndef NULL -#define NULL 0 -#endif - -#ifndef TRUE -#define TRUE 1 -#endif - -#ifndef FALSE -#define FALSE 0 -#endif - -// -// 64-bit integer types depend on the compiler -// -#if defined( __GNUC__ ) || defined( __WATCOMC__ ) -#define INT_64 long long -#define UINT_64 unsigned long long - -#elif defined( _WIN32 ) -#define INT_64 __int64 -#define UINT_64 unsigned __int64 - -#else -#error Unsupported compiler and/or operating system for 64-bit integers - -/// @brief 64-bit signed integer type (compiler dependent) -/// @ingroup type -/// -/// The addrlib defines a 64-bit signed integer type for either -/// Gnu/Watcom compilers (which use the first syntax) or for -/// the Windows VCC compiler (which uses the second syntax). -#define INT_64 long long OR __int64 - -/// @brief 64-bit unsigned integer type (compiler dependent) -/// @ingroup type -/// -/// The addrlib defines a 64-bit unsigned integer type for either -/// Gnu/Watcom compilers (which use the first syntax) or for -/// the Windows VCC compiler (which uses the second syntax). -/// -#define UINT_64 unsigned long long OR unsigned __int64 -#endif - -#endif // #if !defined(__APPLE__) || defined(HAVE_TSERVER) - -// ADDR64X is used to print addresses in hex form on both Windows and Linux -// -#if defined( __GNUC__ ) || defined( __WATCOMC__ ) -#define ADDR64X "llx" -#define ADDR64D "lld" - -#elif defined( _WIN32 ) -#define ADDR64X "I64x" -#define ADDR64D "I64d" - -#else -#error Unsupported compiler and/or operating system for 64-bit integers - -/// @brief Addrlib device address 64-bit printf tag (compiler dependent) -/// @ingroup type -/// -/// This allows printf to display an ADDR_64 for either the Windows VCC compiler -/// (which used this value) or the Gnu/Watcom compilers (which use "llx". -/// An example of use is printf("addr 0x%"ADDR64X"\n", address); -/// -#define ADDR64X "llx" OR "I64x" -#define ADDR64D "lld" OR "I64d" -#endif - - -/// @brief Union for storing a 32-bit float or 32-bit integer -/// @ingroup type -/// -/// This union provides a simple way to convert between a 32-bit float -/// and a 32-bit integer. It also prevents the compiler from producing -/// code that alters NaN values when assiging or coying floats. -/// Therefore, all address library routines that pass or return 32-bit -/// floating point data do so by passing or returning a FLT_32. -/// -typedef union { - INT_32 i; - UINT_32 u; - float f; -} ADDR_FLT_32; - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// -// Macros for controlling linking and building on multiple systems -// -//////////////////////////////////////////////////////////////////////////////////////////////////// -#if defined(_MSC_VER) -#if defined(va_copy) -#undef va_copy //redefine va_copy to support VC2013 -#endif -#endif - -#if !defined(va_copy) -#define va_copy(dst, src) \ - ((void) memcpy(&(dst), &(src), sizeof(va_list))) -#endif - -#endif // __ADDR_TYPES_H__ - diff --git a/src/amd/addrlib/amdgpu_asic_addr.h b/src/amd/addrlib/amdgpu_asic_addr.h deleted file mode 100644 index 7436c5493e1..00000000000 --- a/src/amd/addrlib/amdgpu_asic_addr.h +++ /dev/null @@ -1,138 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -#ifndef _AMDGPU_ASIC_ADDR_H -#define _AMDGPU_ASIC_ADDR_H - -#define ATI_VENDOR_ID 0x1002 -#define AMD_VENDOR_ID 0x1022 - -// AMDGPU_VENDOR_IS_AMD(vendorId) -#define AMDGPU_VENDOR_IS_AMD(v) ((v == ATI_VENDOR_ID) || (v == AMD_VENDOR_ID)) - -#define FAMILY_UNKNOWN 0x00 -#define FAMILY_TN 0x69 -#define FAMILY_SI 0x6E -#define FAMILY_CI 0x78 -#define FAMILY_KV 0x7D -#define FAMILY_VI 0x82 -#define FAMILY_POLARIS 0x82 -#define FAMILY_CZ 0x87 -#define FAMILY_AI 0x8D -#define FAMILY_RV 0x8E - -// AMDGPU_FAMILY_IS(familyId, familyName) -#define FAMILY_IS(f, fn) (f == FAMILY_##fn) -#define FAMILY_IS_TN(f) FAMILY_IS(f, TN) -#define FAMILY_IS_SI(f) FAMILY_IS(f, SI) -#define FAMILY_IS_CI(f) FAMILY_IS(f, CI) -#define FAMILY_IS_KV(f) FAMILY_IS(f, KV) -#define FAMILY_IS_VI(f) FAMILY_IS(f, VI) -#define FAMILY_IS_POLARIS(f) FAMILY_IS(f, POLARIS) -#define FAMILY_IS_CZ(f) FAMILY_IS(f, CZ) -#define FAMILY_IS_AI(f) FAMILY_IS(f, AI) -#define FAMILY_IS_RV(f) FAMILY_IS(f, RV) - -#define AMDGPU_UNKNOWN 0xFF - -#define AMDGPU_TAHITI_RANGE 0x05, 0x14 -#define AMDGPU_PITCAIRN_RANGE 0x15, 0x28 -#define AMDGPU_CAPEVERDE_RANGE 0x29, 0x3C -#define AMDGPU_OLAND_RANGE 0x3C, 0x46 -#define AMDGPU_HAINAN_RANGE 0x46, 0xFF - -#define AMDGPU_BONAIRE_RANGE 0x14, 0x28 -#define AMDGPU_HAWAII_RANGE 0x28, 0x3C - -#define AMDGPU_SPECTRE_RANGE 0x01, 0x41 -#define AMDGPU_SPOOKY_RANGE 0x41, 0x81 -#define AMDGPU_KALINDI_RANGE 0x81, 0xA1 -#define AMDGPU_GODAVARI_RANGE 0xA1, 0xFF - -#define AMDGPU_ICELAND_RANGE 0x01, 0x14 -#define AMDGPU_TONGA_RANGE 0x14, 0x28 -#define AMDGPU_FIJI_RANGE 0x3C, 0x50 - -#define AMDGPU_POLARIS10_RANGE 0x50, 0x5A -#define AMDGPU_POLARIS11_RANGE 0x5A, 0x64 -#define AMDGPU_POLARIS12_RANGE 0x64, 0x6E -#define AMDGPU_VEGAM_RANGE 0x6E, 0xFF - -#define AMDGPU_CARRIZO_RANGE 0x01, 0x21 -#define AMDGPU_BRISTOL_RANGE 0x10, 0x21 -#define AMDGPU_STONEY_RANGE 0x61, 0xFF - -#define AMDGPU_VEGA10_RANGE 0x01, 0x14 -#define AMDGPU_VEGA12_RANGE 0x14, 0x28 -#define AMDGPU_VEGA20_RANGE 0x28, 0xFF - -#define AMDGPU_RAVEN_RANGE 0x01, 0x81 -#define AMDGPU_RAVEN2_RANGE 0x81, 0xFF - -#define AMDGPU_EXPAND_FIX(x) x -#define AMDGPU_RANGE_HELPER(val, min, max) ((val >= min) && (val < max)) -#define AMDGPU_IN_RANGE(val, ...) AMDGPU_EXPAND_FIX(AMDGPU_RANGE_HELPER(val, __VA_ARGS__)) - - -// ASICREV_IS(eRevisionId, revisionName) -#define ASICREV_IS(r, rn) AMDGPU_IN_RANGE(r, AMDGPU_##rn##_RANGE) -#define ASICREV_IS_TAHITI_P(r) ASICREV_IS(r, TAHITI) -#define ASICREV_IS_PITCAIRN_PM(r) ASICREV_IS(r, PITCAIRN) -#define ASICREV_IS_CAPEVERDE_M(r) ASICREV_IS(r, CAPEVERDE) -#define ASICREV_IS_OLAND_M(r) ASICREV_IS(r, OLAND) -#define ASICREV_IS_HAINAN_V(r) ASICREV_IS(r, HAINAN) - -#define ASICREV_IS_BONAIRE_M(r) ASICREV_IS(r, BONAIRE) -#define ASICREV_IS_HAWAII_P(r) ASICREV_IS(r, HAWAII) - -#define ASICREV_IS_SPECTRE(r) ASICREV_IS(r, SPECTRE) -#define ASICREV_IS_SPOOKY(r) ASICREV_IS(r, SPOOKY) -#define ASICREV_IS_KALINDI(r) ASICREV_IS(r, KALINDI) -#define ASICREV_IS_KALINDI_GODAVARI(r) ASICREV_IS(r, GODAVARI) - -#define ASICREV_IS_ICELAND_M(r) ASICREV_IS(r, ICELAND) -#define ASICREV_IS_TONGA_P(r) ASICREV_IS(r, TONGA) -#define ASICREV_IS_FIJI_P(r) ASICREV_IS(r, FIJI) - -#define ASICREV_IS_POLARIS10_P(r) ASICREV_IS(r, POLARIS10) -#define ASICREV_IS_POLARIS11_M(r) ASICREV_IS(r, POLARIS11) -#define ASICREV_IS_POLARIS12_V(r) ASICREV_IS(r, POLARIS12) -#define ASICREV_IS_VEGAM_P(r) ASICREV_IS(r, VEGAM) - -#define ASICREV_IS_CARRIZO(r) ASICREV_IS(r, CARRIZO) -#define ASICREV_IS_CARRIZO_BRISTOL(r) ASICREV_IS(r, BRISTOL) -#define ASICREV_IS_STONEY(r) ASICREV_IS(r, STONEY) - -#define ASICREV_IS_VEGA10_M(r) ASICREV_IS(r, VEGA10) -#define ASICREV_IS_VEGA10_P(r) ASICREV_IS(r, VEGA10) -#define ASICREV_IS_VEGA12_P(r) ASICREV_IS(r, VEGA12) -#define ASICREV_IS_VEGA12_p(r) ASICREV_IS(r, VEGA12) -#define ASICREV_IS_VEGA20_P(r) ASICREV_IS(r, VEGA20) - -#define ASICREV_IS_RAVEN(r) ASICREV_IS(r, RAVEN) -#define ASICREV_IS_RAVEN2(r) ASICREV_IS(r, RAVEN2) - -#endif // _AMDGPU_ASIC_ADDR_H diff --git a/src/amd/addrlib/core/addrcommon.h b/src/amd/addrlib/core/addrcommon.h deleted file mode 100644 index 99bb62e77f4..00000000000 --- a/src/amd/addrlib/core/addrcommon.h +++ /dev/null @@ -1,924 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrcommon.h -* @brief Contains the helper function and constants. -**************************************************************************************************** -*/ - -#ifndef __ADDR_COMMON_H__ -#define __ADDR_COMMON_H__ - -#include "addrinterface.h" - -#include -#include -#include - -#if !defined(DEBUG) -#ifdef NDEBUG -#define DEBUG 0 -#else -#define DEBUG 1 -#endif -#endif - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Platform specific debug break defines -//////////////////////////////////////////////////////////////////////////////////////////////////// -#if DEBUG - #if defined(__GNUC__) - #define ADDR_DBG_BREAK() assert(false) - #elif defined(__APPLE__) - #define ADDR_DBG_BREAK() { IOPanic("");} - #else - #define ADDR_DBG_BREAK() { __debugbreak(); } - #endif -#else - #define ADDR_DBG_BREAK() -#endif -//////////////////////////////////////////////////////////////////////////////////////////////////// - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Debug assertions used in AddrLib -//////////////////////////////////////////////////////////////////////////////////////////////////// -#if defined(_WIN32) && (_MSC_VER >= 1400) - #define ADDR_ANALYSIS_ASSUME(expr) __analysis_assume(expr) -#else - #define ADDR_ANALYSIS_ASSUME(expr) do { (void)(expr); } while (0) -#endif - -#define ADDR_ASSERT(__e) assert(__e) -#define ADDR_ASSERT_ALWAYS() ADDR_DBG_BREAK() -#define ADDR_UNHANDLED_CASE() ADDR_ASSERT(!"Unhandled case") -#define ADDR_NOT_IMPLEMENTED() ADDR_ASSERT(!"Not implemented"); -//////////////////////////////////////////////////////////////////////////////////////////////////// - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Debug print macro from legacy address library -//////////////////////////////////////////////////////////////////////////////////////////////////// -#if DEBUG - -#define ADDR_PRNT(a) Object::DebugPrint a - -/// @brief Macro for reporting informational messages -/// @ingroup util -/// -/// This macro optionally prints an informational message to stdout. -/// The first parameter is a condition -- if it is true, nothing is done. -/// The second pararmeter MUST be a parenthesis-enclosed list of arguments, -/// starting with a string. This is passed to printf() or an equivalent -/// in order to format the informational message. For example, -/// ADDR_INFO(0, ("test %d",3) ); prints out "test 3". -/// -#define ADDR_INFO(cond, a) \ -{ if (!(cond)) { ADDR_PRNT(a); } } - - -/// @brief Macro for reporting error warning messages -/// @ingroup util -/// -/// This macro optionally prints an error warning message to stdout, -/// followed by the file name and line number where the macro was called. -/// The first parameter is a condition -- if it is true, nothing is done. -/// The second pararmeter MUST be a parenthesis-enclosed list of arguments, -/// starting with a string. This is passed to printf() or an equivalent -/// in order to format the informational message. For example, -/// ADDR_WARN(0, ("test %d",3) ); prints out "test 3" followed by -/// a second line with the file name and line number. -/// -#define ADDR_WARN(cond, a) \ -{ if (!(cond)) \ - { ADDR_PRNT(a); \ - ADDR_PRNT((" WARNING in file %s, line %d\n", __FILE__, __LINE__)); \ -} } - - -/// @brief Macro for reporting fatal error conditions -/// @ingroup util -/// -/// This macro optionally stops execution of the current routine -/// after printing an error warning message to stdout, -/// followed by the file name and line number where the macro was called. -/// The first parameter is a condition -- if it is true, nothing is done. -/// The second pararmeter MUST be a parenthesis-enclosed list of arguments, -/// starting with a string. This is passed to printf() or an equivalent -/// in order to format the informational message. For example, -/// ADDR_EXIT(0, ("test %d",3) ); prints out "test 3" followed by -/// a second line with the file name and line number, then stops execution. -/// -#define ADDR_EXIT(cond, a) \ -{ if (!(cond)) \ - { ADDR_PRNT(a); ADDR_DBG_BREAK();\ -} } - -#else // DEBUG - -#define ADDRDPF 1 ? (void)0 : (void) - -#define ADDR_PRNT(a) - -#define ADDR_DBG_BREAK() - -#define ADDR_INFO(cond, a) - -#define ADDR_WARN(cond, a) - -#define ADDR_EXIT(cond, a) - -#endif // DEBUG -//////////////////////////////////////////////////////////////////////////////////////////////////// - -#define ADDR_C_ASSERT(__e) typedef char __ADDR_C_ASSERT__[(__e) ? 1 : -1] - -namespace Addr -{ - -namespace V1 -{ -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Common constants -//////////////////////////////////////////////////////////////////////////////////////////////////// -static const UINT_32 MicroTileWidth = 8; ///< Micro tile width, for 1D and 2D tiling -static const UINT_32 MicroTileHeight = 8; ///< Micro tile height, for 1D and 2D tiling -static const UINT_32 ThickTileThickness = 4; ///< Micro tile thickness, for THICK modes -static const UINT_32 XThickTileThickness = 8; ///< Extra thick tiling thickness -static const UINT_32 PowerSaveTileBytes = 64; ///< Nuber of bytes per tile for power save 64 -static const UINT_32 CmaskCacheBits = 1024; ///< Number of bits for CMASK cache -static const UINT_32 CmaskElemBits = 4; ///< Number of bits for CMASK element -static const UINT_32 HtileCacheBits = 16384; ///< Number of bits for HTILE cache 512*32 - -static const UINT_32 MicroTilePixels = MicroTileWidth * MicroTileHeight; - -static const INT_32 TileIndexInvalid = TILEINDEX_INVALID; -static const INT_32 TileIndexLinearGeneral = TILEINDEX_LINEAR_GENERAL; -static const INT_32 TileIndexNoMacroIndex = -3; - -} // V1 - -namespace V2 -{ -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Common constants -//////////////////////////////////////////////////////////////////////////////////////////////////// -static const UINT_32 MaxSurfaceHeight = 16384; - -} // V2 - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Common macros -//////////////////////////////////////////////////////////////////////////////////////////////////// -#define BITS_PER_BYTE 8 -#define BITS_TO_BYTES(x) ( ((x) + (BITS_PER_BYTE-1)) / BITS_PER_BYTE ) -#define BYTES_TO_BITS(x) ( (x) * BITS_PER_BYTE ) - -/// Helper macros to select a single bit from an int (undefined later in section) -#define _BIT(v,b) (((v) >> (b) ) & 1) - -/** -**************************************************************************************************** -* @brief Enums to identify AddrLib type -**************************************************************************************************** -*/ -enum LibClass -{ - BASE_ADDRLIB = 0x0, - R600_ADDRLIB = 0x6, - R800_ADDRLIB = 0x8, - SI_ADDRLIB = 0xa, - CI_ADDRLIB = 0xb, - AI_ADDRLIB = 0xd, -}; - -/** -**************************************************************************************************** -* ChipFamily -* -* @brief -* Neutral enums that specifies chip family. -* -**************************************************************************************************** -*/ -enum ChipFamily -{ - ADDR_CHIP_FAMILY_IVLD, ///< Invalid family - ADDR_CHIP_FAMILY_R6XX, - ADDR_CHIP_FAMILY_R7XX, - ADDR_CHIP_FAMILY_R8XX, - ADDR_CHIP_FAMILY_NI, - ADDR_CHIP_FAMILY_SI, - ADDR_CHIP_FAMILY_CI, - ADDR_CHIP_FAMILY_VI, - ADDR_CHIP_FAMILY_AI, -}; - -/** -**************************************************************************************************** -* ConfigFlags -* -* @brief -* This structure is used to set configuration flags. -**************************************************************************************************** -*/ -union ConfigFlags -{ - struct - { - /// These flags are set up internally thru AddrLib::Create() based on ADDR_CREATE_FLAGS - UINT_32 optimalBankSwap : 1; ///< New bank tiling for RV770 only - UINT_32 noCubeMipSlicesPad : 1; ///< Disables faces padding for cubemap mipmaps - UINT_32 fillSizeFields : 1; ///< If clients fill size fields in all input and - /// output structure - UINT_32 ignoreTileInfo : 1; ///< Don't use tile info structure - UINT_32 useTileIndex : 1; ///< Make tileIndex field in input valid - UINT_32 useCombinedSwizzle : 1; ///< Use combined swizzle - UINT_32 checkLast2DLevel : 1; ///< Check the last 2D mip sub level - UINT_32 useHtileSliceAlign : 1; ///< Do htile single slice alignment - UINT_32 allowLargeThickTile : 1; ///< Allow 64*thickness*bytesPerPixel > rowSize - UINT_32 disableLinearOpt : 1; ///< Disallow tile modes to be optimized to linear - UINT_32 reserved : 22; ///< Reserved bits for future use - }; - - UINT_32 value; -}; - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Misc helper functions -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* AddrXorReduce -* -* @brief -* Xor the right-side numberOfBits bits of x. -**************************************************************************************************** -*/ -static inline UINT_32 XorReduce( - UINT_32 x, - UINT_32 numberOfBits) -{ - UINT_32 i; - UINT_32 result = x & 1; - - for (i=1; i>i) & 1); - } - - return result; -} - -/** -**************************************************************************************************** -* IsPow2 -* -* @brief -* Check if the size (UINT_32) is pow 2 -**************************************************************************************************** -*/ -static inline UINT_32 IsPow2( - UINT_32 dim) ///< [in] dimension of miplevel -{ - ADDR_ASSERT(dim > 0); - return !(dim & (dim - 1)); -} - -/** -**************************************************************************************************** -* IsPow2 -* -* @brief -* Check if the size (UINT_64) is pow 2 -**************************************************************************************************** -*/ -static inline UINT_64 IsPow2( - UINT_64 dim) ///< [in] dimension of miplevel -{ - ADDR_ASSERT(dim > 0); - return !(dim & (dim - 1)); -} - -/** -**************************************************************************************************** -* ByteAlign -* -* @brief -* Align UINT_32 "x" to "align" alignment, "align" should be power of 2 -**************************************************************************************************** -*/ -static inline UINT_32 PowTwoAlign( - UINT_32 x, - UINT_32 align) -{ - // - // Assert that x is a power of two. - // - ADDR_ASSERT(IsPow2(align)); - return (x + (align - 1)) & (~(align - 1)); -} - -/** -**************************************************************************************************** -* ByteAlign -* -* @brief -* Align UINT_64 "x" to "align" alignment, "align" should be power of 2 -**************************************************************************************************** -*/ -static inline UINT_64 PowTwoAlign( - UINT_64 x, - UINT_64 align) -{ - // - // Assert that x is a power of two. - // - ADDR_ASSERT(IsPow2(align)); - return (x + (align - 1)) & (~(align - 1)); -} - -/** -**************************************************************************************************** -* Min -* -* @brief -* Get the min value between two unsigned values -**************************************************************************************************** -*/ -static inline UINT_32 Min( - UINT_32 value1, - UINT_32 value2) -{ - return ((value1 < (value2)) ? (value1) : value2); -} - -/** -**************************************************************************************************** -* Min -* -* @brief -* Get the min value between two signed values -**************************************************************************************************** -*/ -static inline INT_32 Min( - INT_32 value1, - INT_32 value2) -{ - return ((value1 < (value2)) ? (value1) : value2); -} - -/** -**************************************************************************************************** -* Max -* -* @brief -* Get the max value between two unsigned values -**************************************************************************************************** -*/ -static inline UINT_32 Max( - UINT_32 value1, - UINT_32 value2) -{ - return ((value1 > (value2)) ? (value1) : value2); -} - -/** -**************************************************************************************************** -* Max -* -* @brief -* Get the max value between two signed values -**************************************************************************************************** -*/ -static inline INT_32 Max( - INT_32 value1, - INT_32 value2) -{ - return ((value1 > (value2)) ? (value1) : value2); -} - -/** -**************************************************************************************************** -* NextPow2 -* -* @brief -* Compute the mipmap's next level dim size -**************************************************************************************************** -*/ -static inline UINT_32 NextPow2( - UINT_32 dim) ///< [in] dimension of miplevel -{ - UINT_32 newDim = 1; - - if (dim > 0x7fffffff) - { - ADDR_ASSERT_ALWAYS(); - newDim = 0x80000000; - } - else - { - while (newDim < dim) - { - newDim <<= 1; - } - } - - return newDim; -} - -/** -**************************************************************************************************** -* Log2NonPow2 -* -* @brief -* Compute log of base 2 no matter the target is power of 2 or not -**************************************************************************************************** -*/ -static inline UINT_32 Log2NonPow2( - UINT_32 x) ///< [in] the value should calculate log based 2 -{ - UINT_32 y; - - y = 0; - while (x > 1) - { - x >>= 1; - y++; - } - - return y; -} - -/** -**************************************************************************************************** -* Log2 -* -* @brief -* Compute log of base 2 -**************************************************************************************************** -*/ -static inline UINT_32 Log2( - UINT_32 x) ///< [in] the value should calculate log based 2 -{ - // Assert that x is a power of two. - ADDR_ASSERT(IsPow2(x)); - - return Log2NonPow2(x); -} - -/** -**************************************************************************************************** -* QLog2 -* -* @brief -* Compute log of base 2 quickly (<= 16) -**************************************************************************************************** -*/ -static inline UINT_32 QLog2( - UINT_32 x) ///< [in] the value should calculate log based 2 -{ - ADDR_ASSERT(x <= 16); - - UINT_32 y = 0; - - switch (x) - { - case 1: - y = 0; - break; - case 2: - y = 1; - break; - case 4: - y = 2; - break; - case 8: - y = 3; - break; - case 16: - y = 4; - break; - default: - ADDR_ASSERT_ALWAYS(); - } - - return y; -} - -/** -**************************************************************************************************** -* SafeAssign -* -* @brief -* NULL pointer safe assignment -**************************************************************************************************** -*/ -static inline VOID SafeAssign( - UINT_32* pLVal, ///< [in] Pointer to left val - UINT_32 rVal) ///< [in] Right value -{ - if (pLVal) - { - *pLVal = rVal; - } -} - -/** -**************************************************************************************************** -* SafeAssign -* -* @brief -* NULL pointer safe assignment for 64bit values -**************************************************************************************************** -*/ -static inline VOID SafeAssign( - UINT_64* pLVal, ///< [in] Pointer to left val - UINT_64 rVal) ///< [in] Right value -{ - if (pLVal) - { - *pLVal = rVal; - } -} - -/** -**************************************************************************************************** -* SafeAssign -* -* @brief -* NULL pointer safe assignment for AddrTileMode -**************************************************************************************************** -*/ -static inline VOID SafeAssign( - AddrTileMode* pLVal, ///< [in] Pointer to left val - AddrTileMode rVal) ///< [in] Right value -{ - if (pLVal) - { - *pLVal = rVal; - } -} - -/** -**************************************************************************************************** -* RoundHalf -* -* @brief -* return (x + 1) / 2 -**************************************************************************************************** -*/ -static inline UINT_32 RoundHalf( - UINT_32 x) ///< [in] input value -{ - ADDR_ASSERT(x != 0); - -#if 1 - return (x >> 1) + (x & 1); -#else - return (x + 1) >> 1; -#endif -} - -/** -**************************************************************************************************** -* SumGeo -* -* @brief -* Calculate sum of a geometric progression whose ratio is 1/2 -**************************************************************************************************** -*/ -static inline UINT_32 SumGeo( - UINT_32 base, ///< [in] First term in the geometric progression - UINT_32 num) ///< [in] Number of terms to be added into sum -{ - ADDR_ASSERT(base > 0); - - UINT_32 sum = 0; - UINT_32 i = 0; - for (; (i < num) && (base > 1); i++) - { - sum += base; - base = RoundHalf(base); - } - sum += num - i; - - return sum; -} - -/** -**************************************************************************************************** -* GetBit -* -* @brief -* Extract bit N value (0 or 1) of a UINT32 value. -**************************************************************************************************** -*/ -static inline UINT_32 GetBit( - UINT_32 u32, ///< [in] UINT32 value - UINT_32 pos) ///< [in] bit position from LSB, valid range is [0..31] -{ - ADDR_ASSERT(pos <= 31); - - return (u32 >> pos) & 0x1; -} - -/** -**************************************************************************************************** -* GetBits -* -* @brief -* Copy 'bitsNum' bits from src start from srcStartPos into destination from dstStartPos -* srcStartPos: 0~31 for UINT_32 -* bitsNum : 1~32 for UINT_32 -* srcStartPos: 0~31 for UINT_32 -* src start position -* | -* src : b[31] b[30] b[29] ... ... ... ... ... ... ... ... b[end]..b[beg] ... b[1] b[0] -* || Bits num || copy length || Bits num || -* dst : b[31] b[30] b[29] ... b[end]..b[beg] ... ... ... ... ... ... ... ... b[1] b[0] -* | -* dst start position -**************************************************************************************************** -*/ -static inline UINT_32 GetBits( - UINT_32 src, - UINT_32 srcStartPos, - UINT_32 bitsNum, - UINT_32 dstStartPos) -{ - ADDR_ASSERT((srcStartPos < 32) && (dstStartPos < 32) && (bitsNum > 0)); - ADDR_ASSERT((bitsNum + dstStartPos <= 32) && (bitsNum + srcStartPos <= 32)); - - return ((src >> srcStartPos) << (32 - bitsNum)) >> (32 - bitsNum - dstStartPos); -} - -/** -**************************************************************************************************** -* MortonGen2d -* -* @brief -* Generate 2D Morton interleave code with num lowest bits in each channel -**************************************************************************************************** -*/ -static inline UINT_32 MortonGen2d( - UINT_32 x, ///< [in] First channel - UINT_32 y, ///< [in] Second channel - UINT_32 num) ///< [in] Number of bits extracted from each channel -{ - UINT_32 mort = 0; - - for (UINT_32 i = 0; i < num; i++) - { - mort |= (GetBit(y, i) << (2 * i)); - mort |= (GetBit(x, i) << (2 * i + 1)); - } - - return mort; -} - -/** -**************************************************************************************************** -* MortonGen3d -* -* @brief -* Generate 3D Morton interleave code with num lowest bits in each channel -**************************************************************************************************** -*/ -static inline UINT_32 MortonGen3d( - UINT_32 x, ///< [in] First channel - UINT_32 y, ///< [in] Second channel - UINT_32 z, ///< [in] Third channel - UINT_32 num) ///< [in] Number of bits extracted from each channel -{ - UINT_32 mort = 0; - - for (UINT_32 i = 0; i < num; i++) - { - mort |= (GetBit(z, i) << (3 * i)); - mort |= (GetBit(y, i) << (3 * i + 1)); - mort |= (GetBit(x, i) << (3 * i + 2)); - } - - return mort; -} - -/** -**************************************************************************************************** -* ReverseBitVector -* -* @brief -* Return reversed lowest num bits of v: v[0]v[1]...v[num-2]v[num-1] -**************************************************************************************************** -*/ -static inline UINT_32 ReverseBitVector( - UINT_32 v, ///< [in] Reverse operation base value - UINT_32 num) ///< [in] Number of bits used in reverse operation -{ - UINT_32 reverse = 0; - - for (UINT_32 i = 0; i < num; i++) - { - reverse |= (GetBit(v, num - 1 - i) << i); - } - - return reverse; -} - -/** -**************************************************************************************************** -* FoldXor2d -* -* @brief -* Xor bit vector v[num-1]v[num-2]...v[1]v[0] with v[num]v[num+1]...v[2*num-2]v[2*num-1] -**************************************************************************************************** -*/ -static inline UINT_32 FoldXor2d( - UINT_32 v, ///< [in] Xor operation base value - UINT_32 num) ///< [in] Number of bits used in fold xor operation -{ - return (v & ((1 << num) - 1)) ^ ReverseBitVector(v >> num, num); -} - -/** -**************************************************************************************************** -* DeMort -* -* @brief -* Return v[0] | v[2] | v[4] | v[6]... | v[2*num - 2] -**************************************************************************************************** -*/ -static inline UINT_32 DeMort( - UINT_32 v, ///< [in] DeMort operation base value - UINT_32 num) ///< [in] Number of bits used in fold DeMort operation -{ - UINT_32 d = 0; - - for (UINT_32 i = 0; i < num; i++) - { - d |= ((v & (1 << (i << 1))) >> i); - } - - return d; -} - -/** -**************************************************************************************************** -* FoldXor3d -* -* @brief -* v[0]...v[num-1] ^ v[3*num-1]v[3*num-3]...v[num+2]v[num] ^ v[3*num-2]...v[num+1]v[num-1] -**************************************************************************************************** -*/ -static inline UINT_32 FoldXor3d( - UINT_32 v, ///< [in] Xor operation base value - UINT_32 num) ///< [in] Number of bits used in fold xor operation -{ - UINT_32 t = v & ((1 << num) - 1); - t ^= ReverseBitVector(DeMort(v >> num, num), num); - t ^= ReverseBitVector(DeMort(v >> (num + 1), num), num); - - return t; -} - -/** -**************************************************************************************************** -* InitChannel -* -* @brief -* Set channel initialization value via a return value -**************************************************************************************************** -*/ -static inline ADDR_CHANNEL_SETTING InitChannel( - UINT_32 valid, ///< [in] valid setting - UINT_32 channel, ///< [in] channel setting - UINT_32 index) ///< [in] index setting -{ - ADDR_CHANNEL_SETTING t; - t.valid = valid; - t.channel = channel; - t.index = index; - - return t; -} - -/** -**************************************************************************************************** -* InitChannel -* -* @brief -* Set channel initialization value via channel pointer -**************************************************************************************************** -*/ -static inline VOID InitChannel( - UINT_32 valid, ///< [in] valid setting - UINT_32 channel, ///< [in] channel setting - UINT_32 index, ///< [in] index setting - ADDR_CHANNEL_SETTING *pChanSet) ///< [out] channel setting to be initialized -{ - pChanSet->valid = valid; - pChanSet->channel = channel; - pChanSet->index = index; -} - - -/** -**************************************************************************************************** -* InitChannel -* -* @brief -* Set channel initialization value via another channel -**************************************************************************************************** -*/ -static inline VOID InitChannel( - ADDR_CHANNEL_SETTING *pChanDst, ///< [in] channel setting to be copied from - ADDR_CHANNEL_SETTING *pChanSrc) ///< [out] channel setting to be initialized -{ - pChanDst->valid = pChanSrc->valid; - pChanDst->channel = pChanSrc->channel; - pChanDst->index = pChanSrc->index; -} - -/** -**************************************************************************************************** -* GetMaxValidChannelIndex -* -* @brief -* Get max valid index for a specific channel -**************************************************************************************************** -*/ -static inline UINT_32 GetMaxValidChannelIndex( - const ADDR_CHANNEL_SETTING *pChanSet, ///< [in] channel setting to be initialized - UINT_32 searchCount,///< [in] number of channel setting to be searched - UINT_32 channel) ///< [in] channel to be searched -{ - UINT_32 index = 0; - - for (UINT_32 i = 0; i < searchCount; i++) - { - if (pChanSet[i].valid && (pChanSet[i].channel == channel)) - { - index = Max(index, static_cast(pChanSet[i].index)); - } - } - - return index; -} - -/** -**************************************************************************************************** -* GetCoordActiveMask -* -* @brief -* Get bit mask which indicates which positions in the equation match the target coord -**************************************************************************************************** -*/ -static inline UINT_32 GetCoordActiveMask( - const ADDR_CHANNEL_SETTING *pChanSet, ///< [in] channel setting to be initialized - UINT_32 searchCount,///< [in] number of channel setting to be searched - UINT_32 channel, ///< [in] channel to be searched - UINT_32 index) ///< [in] index to be searched -{ - UINT_32 mask = 0; - - for (UINT_32 i = 0; i < searchCount; i++) - { - if ((pChanSet[i].valid == TRUE) && - (pChanSet[i].channel == channel) && - (pChanSet[i].index == index)) - { - mask |= (1 << i); - } - } - - return mask; -} - -} // Addr - -#endif // __ADDR_COMMON_H__ - diff --git a/src/amd/addrlib/core/addrelemlib.cpp b/src/amd/addrlib/core/addrelemlib.cpp deleted file mode 100644 index c9e6da4729a..00000000000 --- a/src/amd/addrlib/core/addrelemlib.cpp +++ /dev/null @@ -1,1843 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrelemlib.cpp -* @brief Contains the class implementation for element/pixel related functions. -**************************************************************************************************** -*/ - -#include "addrelemlib.h" -#include "addrlib.h" - -namespace Addr -{ - -/** -**************************************************************************************************** -* ElemLib::ElemLib -* -* @brief -* constructor -* -* @return -* N/A -**************************************************************************************************** -*/ -ElemLib::ElemLib( - Lib* pAddrLib) ///< [in] Parent addrlib instance pointer - : - Object(pAddrLib->GetClient()), - m_pAddrLib(pAddrLib) -{ - switch (m_pAddrLib->GetChipFamily()) - { - case ADDR_CHIP_FAMILY_R6XX: - m_depthPlanarType = ADDR_DEPTH_PLANAR_R600; - m_fp16ExportNorm = 0; - break; - case ADDR_CHIP_FAMILY_R7XX: - m_depthPlanarType = ADDR_DEPTH_PLANAR_R600; - m_fp16ExportNorm = 1; - break; - case ADDR_CHIP_FAMILY_R8XX: - case ADDR_CHIP_FAMILY_NI: // Same as 8xx - m_depthPlanarType = ADDR_DEPTH_PLANAR_R800; - m_fp16ExportNorm = 1; - break; - default: - m_fp16ExportNorm = 1; - m_depthPlanarType = ADDR_DEPTH_PLANAR_R800; - } - - m_configFlags.value = 0; -} - -/** -**************************************************************************************************** -* ElemLib::~ElemLib -* -* @brief -* destructor -* -* @return -* N/A -**************************************************************************************************** -*/ -ElemLib::~ElemLib() -{ -} - -/** -**************************************************************************************************** -* ElemLib::Create -* -* @brief -* Creates and initializes AddrLib object. -* -* @return -* Returns point to ADDR_CREATEINFO if successful. -**************************************************************************************************** -*/ -ElemLib* ElemLib::Create( - const Lib* pAddrLib) ///< [in] Pointer of parent AddrLib instance -{ - ElemLib* pElemLib = NULL; - - if (pAddrLib) - { - VOID* pObj = Object::ClientAlloc(sizeof(ElemLib), pAddrLib->GetClient()); - if (pObj) - { - pElemLib = new(pObj) ElemLib(const_cast(pAddrLib)); - } - } - - return pElemLib; -} - -/************************************************************************************************** -* ElemLib::Flt32sToInt32s -* -* @brief -* Convert a ADDR_FLT_32 value to Int32 value -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::Flt32sToInt32s( - ADDR_FLT_32 value, ///< [in] ADDR_FLT_32 value - UINT_32 bits, ///< [in] nubmer of bits in value - NumberType numberType, ///< [in] the type of number - UINT_32* pResult) ///< [out] Int32 value -{ - UINT_8 round = 128; //ADDR_ROUND_BY_HALF - UINT_32 uscale; - UINT_32 sign; - - //convert each component to an INT_32 - switch ( numberType ) - { - case ADDR_NO_NUMBER: //fall through - case ADDR_ZERO: //fall through - case ADDR_ONE: //fall through - case ADDR_EPSILON: //fall through - return; // these are zero-bit components, so don't set result - - case ADDR_UINT_BITS: // unsigned integer bit field, clamped to range - uscale = (1< uscale)) - { - *pResult = uscale; - } - else - { - *pResult = value.i; - } - return; - } - - // The algorithm used in the DB and TX differs at one value for 24-bit unorms - case ADDR_UNORM_R6XXDB: // unsigned repeating fraction - if ((bits==24) && (value.i == 0x33000000)) - { - *pResult = 1; - return; - } // Else treat like ADDR_UNORM_R6XX - - case ADDR_UNORM_R6XX: // unsigned repeating fraction - if (value.f <= 0) - { - *pResult = 0; // first clamp to [0..1] - } - else - { - if (value.f >= 1) - { - *pResult = (1<(f + (round/256.0f)); - } - #endif - else - { - ADDR_FLT_32 scaled; - ADDR_FLT_32 shifted; - UINT_64 truncated, rounded; - UINT_32 altShift; - UINT_32 mask = (1 << bits) - 1; - UINT_32 half = 1 << (bits - 1); - UINT_32 mant24 = (value.i & 0x7FFFFF) + 0x800000; - UINT_64 temp = mant24 - (mant24>>bits) - - static_cast((mant24 & mask) > half); - UINT_32 exp8 = value.i >> 23; - UINT_32 shift = 126 - exp8 + 24 - bits; - UINT_64 final; - - if (shift >= 32) // This is zero, even with maximum dither add - { - final = 0; - } - else - { - final = ((temp<<8) + (static_cast(round)<> (shift+8); - } - //ADDR_EXIT( *pResult == final, - // ("Float %x converted to %d-bit Unorm %x != bitwise %x", - // value.u, bits, (UINT_32)*pResult, (UINT_32)final) ); - if (final > mask) - { - final = mask; - } - - scaled.f = value.f * ((1<>23)&0xFF); - truncated = (altShift > 60) ? 0 : truncated >> altShift; - rounded = static_cast((round + truncated) >> 8); - //if (rounded > ((1<(rounded); //(INT_32)final; - } - } - } - - return; - - case ADDR_S8FLOAT32: // 32-bit IEEE float, passes through NaN values - *pResult = value.i; - return; - - // @@ FIX ROUNDING in this code, fix the denorm case - case ADDR_U4FLOATC: // Unsigned float, 4-bit exponent. bias 15, clamped [0..1] - sign = (value.i >> 31) & 1; - if ((value.i&0x7F800000) == 0x7F800000) // If NaN or INF: - { - if ((value.i&0x007FFFFF) != 0) // then if NaN - { - *pResult = 0; // return 0 - } - else - { - *pResult = (sign)?0:0xF00000; // else +INF->+1, -INF->0 - } - return; - } - if (value.f <= 0) - { - *pResult = 0; - } - else - { - if (value.f>=1) - { - *pResult = 0xF << (bits-4); - } - else - { - if ((value.i>>23) > 112 ) - { - // 24-bit float: normalized - // value.i += 1 << (22-bits+4); - // round the IEEE mantissa to mantissa size - // @@ NOTE: add code to support rounding - value.u &= 0x7FFFFFF; // mask off high 4 exponent bits - *pResult = value.i >> (23-bits+4);// shift off unused mantissa bits - } - else - { - // 24-bit float: denormalized - value.f = value.f / (1<<28) / (1<<28); - value.f = value.f / (1<<28) / (1<<28); // convert to IEEE denorm - // value.i += 1 << (22-bits+4); - // round the IEEE mantissa to mantissa size - // @@ NOTE: add code to support rounding - *pResult = value.i >> (23-bits+4); // shift off unused mantissa bits - } - } - } - - return; - - default: // invalid number mode - //ADDR_EXIT(0, ("Invalid AddrNumber %d", numberType) ); - break; - - } -} - -/** -**************************************************************************************************** -* ElemLib::Int32sToPixel -* -* @brief -* Pack 32-bit integer values into an uncompressed pixel, -* in the proper order -* -* @return -* N/A -* -* @note -* This entry point packes four 32-bit integer values into -* an uncompressed pixel. The pixel values are specifies in -* standard order, e.g. depth/stencil. This routine asserts -* if called on compressed pixel. -**************************************************************************************************** -*/ -VOID ElemLib::Int32sToPixel( - UINT_32 numComps, ///< [in] number of components - UINT_32* pComps, ///< [in] compnents - UINT_32* pCompBits, ///< [in] total bits in each component - UINT_32* pCompStart, ///< [in] the first bit position of each component - ComponentFlags properties, ///< [in] properties about byteAligned, exportNorm - UINT_32 resultBits, ///< [in] result bits: total bpp after decompression - UINT_8* pPixel) ///< [out] a depth/stencil pixel value -{ - UINT_32 i; - UINT_32 j; - UINT_32 start; - UINT_32 size; - UINT_32 byte; - UINT_32 value = 0; - UINT_32 compMask; - UINT_32 elemMask=0; - UINT_32 elementXor = 0; // address xor when reading bytes from elements - - - // @@ NOTE: assert if called on a compressed format! - - if (properties.byteAligned) // Components are all byte-sized - { - for (i = 0; i < numComps; i++) // Then for each component - { - // Copy the bytes of the component into the element - start = pCompStart[i] / 8; - size = pCompBits[i] / 8; - for (j = 0; j < size; j++) - { - pPixel[(j+start)^elementXor] = static_cast(pComps[i] >> (8*j)); - } - } - } - else // Element is 32-bits or less, components are bit fields - { - // First, extract each component in turn and combine it into a 32-bit value - for (i = 0; i < numComps; i++) - { - compMask = (1 << pCompBits[i]) - 1; - elemMask |= compMask << pCompStart[i]; - value |= (pComps[i] & compMask) << pCompStart[i]; - } - - // Mext, copy the masked value into the element - size = (resultBits + 7) / 8; - for (i = 0; i < size; i++) - { - byte = pPixel[i^elementXor] & ~(elemMask >> (8*i)); - pPixel[i^elementXor] = static_cast(byte | ((elemMask & value) >> (8*i))); - } - } -} - -/** -**************************************************************************************************** -* Flt32ToDepthPixel -* -* @brief -* Convert a FLT_32 value to a depth/stencil pixel value -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::Flt32ToDepthPixel( - AddrDepthFormat format, ///< [in] Depth format - const ADDR_FLT_32 comps[2], ///< [in] two components of depth - UINT_8* pPixel ///< [out] depth pixel value - ) const -{ - UINT_32 i; - UINT_32 values[2]; - ComponentFlags properties; // byteAligned, exportNorm - UINT_32 resultBits = 0; // result bits: total bits per pixel after decompression - - PixelFormatInfo fmt; - - // get type for each component - PixGetDepthCompInfo(format, &fmt); - - //initialize properties - properties.byteAligned = TRUE; - properties.exportNorm = TRUE; - properties.floatComp = FALSE; - - //set properties and result bits - for (i = 0; i < 2; i++) - { - if ((fmt.compBit[i] & 7) || (fmt.compStart[i] & 7)) - { - properties.byteAligned = FALSE; - } - - if (resultBits < fmt.compStart[i] + fmt.compBit[i]) - { - resultBits = fmt.compStart[i] + fmt.compBit[i]; - } - - // Clear ADDR_EXPORT_NORM if can't be represented as 11-bit or smaller [-1..+1] format - if (fmt.compBit[i] > 11 || fmt.numType[i] >= ADDR_USCALED) - { - properties.exportNorm = FALSE; - } - - // Mark if there are any floating point components - if ((fmt.numType[i] == ADDR_U4FLOATC) || (fmt.numType[i] >= ADDR_S8FLOAT) ) - { - properties.floatComp = TRUE; - } - } - - // Convert the two input floats to integer values - for (i = 0; i < 2; i++) - { - Flt32sToInt32s(comps[i], fmt.compBit[i], fmt.numType[i], &values[i]); - } - - // Then pack the two integer components, in the proper order - Int32sToPixel(2, values, fmt.compBit, fmt.compStart, properties, resultBits, pPixel ); - -} - -/** -**************************************************************************************************** -* Flt32ToColorPixel -* -* @brief -* Convert a FLT_32 value to a red/green/blue/alpha pixel value -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::Flt32ToColorPixel( - AddrColorFormat format, ///< [in] Color format - AddrSurfaceNumber surfNum, ///< [in] Surface number - AddrSurfaceSwap surfSwap, ///< [in] Surface swap - const ADDR_FLT_32 comps[4], ///< [in] four components of color - UINT_8* pPixel ///< [out] a red/green/blue/alpha pixel value - ) const -{ - PixelFormatInfo pixelInfo; - - UINT_32 i; - UINT_32 values[4]; - ComponentFlags properties; // byteAligned, exportNorm - UINT_32 resultBits = 0; // result bits: total bits per pixel after decompression - - memset(&pixelInfo, 0, sizeof(PixelFormatInfo)); - - PixGetColorCompInfo(format, surfNum, surfSwap, &pixelInfo); - - //initialize properties - properties.byteAligned = TRUE; - properties.exportNorm = TRUE; - properties.floatComp = FALSE; - - //set properties and result bits - for (i = 0; i < 4; i++) - { - if ( (pixelInfo.compBit[i] & 7) || (pixelInfo.compStart[i] & 7) ) - { - properties.byteAligned = FALSE; - } - - if (resultBits < pixelInfo.compStart[i] + pixelInfo.compBit[i]) - { - resultBits = pixelInfo.compStart[i] + pixelInfo.compBit[i]; - } - - if (m_fp16ExportNorm) - { - // Clear ADDR_EXPORT_NORM if can't be represented as 11-bit or smaller [-1..+1] format - // or if it's not FP and <=16 bits - if (((pixelInfo.compBit[i] > 11) || (pixelInfo.numType[i] >= ADDR_USCALED)) - && (pixelInfo.numType[i] !=ADDR_U4FLOATC)) - { - properties.exportNorm = FALSE; - } - } - else - { - // Clear ADDR_EXPORT_NORM if can't be represented as 11-bit or smaller [-1..+1] format - if (pixelInfo.compBit[i] > 11 || pixelInfo.numType[i] >= ADDR_USCALED) - { - properties.exportNorm = FALSE; - } - } - - // Mark if there are any floating point components - if ( (pixelInfo.numType[i] == ADDR_U4FLOATC) || - (pixelInfo.numType[i] >= ADDR_S8FLOAT) ) - { - properties.floatComp = TRUE; - } - } - - // Convert the four input floats to integer values - for (i = 0; i < 4; i++) - { - Flt32sToInt32s(comps[i], pixelInfo.compBit[i], pixelInfo.numType[i], &values[i]); - } - - // Then pack the four integer components, in the proper order - Int32sToPixel(4, values, &pixelInfo.compBit[0], &pixelInfo.compStart[0], - properties, resultBits, pPixel); -} - -/** -**************************************************************************************************** -* ElemLib::GetCompType -* -* @brief -* Fill per component info -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID ElemLib::GetCompType( - AddrColorFormat format, ///< [in] surface format - AddrSurfaceNumber numType, ///< [in] number type - PixelFormatInfo* pInfo) ///< [in][out] per component info out -{ - BOOL_32 handled = FALSE; - - // Floating point formats override the number format - switch (format) - { - case ADDR_COLOR_16_FLOAT: // fall through for all pure floating point format - case ADDR_COLOR_16_16_FLOAT: - case ADDR_COLOR_16_16_16_16_FLOAT: - case ADDR_COLOR_32_FLOAT: - case ADDR_COLOR_32_32_FLOAT: - case ADDR_COLOR_32_32_32_32_FLOAT: - case ADDR_COLOR_10_11_11_FLOAT: - case ADDR_COLOR_11_11_10_FLOAT: - numType = ADDR_NUMBER_FLOAT; - break; - // Special handling for the depth formats - case ADDR_COLOR_8_24: // fall through for these 2 similar format - case ADDR_COLOR_24_8: - for (UINT_32 c = 0; c < 4; c++) - { - if (pInfo->compBit[c] == 8) - { - pInfo->numType[c] = ADDR_UINT_BITS; - } - else if (pInfo->compBit[c] == 24) - { - pInfo->numType[c] = ADDR_UNORM_R6XX; - } - else - { - pInfo->numType[c] = ADDR_NO_NUMBER; - } - } - handled = TRUE; - break; - case ADDR_COLOR_8_24_FLOAT: // fall through for these 3 similar format - case ADDR_COLOR_24_8_FLOAT: - case ADDR_COLOR_X24_8_32_FLOAT: - for (UINT_32 c = 0; c < 4; c++) - { - if (pInfo->compBit[c] == 8) - { - pInfo->numType[c] = ADDR_UINT_BITS; - } - else if (pInfo->compBit[c] == 24) - { - pInfo->numType[c] = ADDR_U4FLOATC; - } - else if (pInfo->compBit[c] == 32) - { - pInfo->numType[c] = ADDR_S8FLOAT32; - } - else - { - pInfo->numType[c] = ADDR_NO_NUMBER; - } - } - handled = TRUE; - break; - default: - break; - } - - if (!handled) - { - for (UINT_32 c = 0; c < 4; c++) - { - // Assign a number type for each component - AddrSurfaceNumber cnum; - - // First handle default component values - if (pInfo->compBit[c] == 0) - { - if (c < 3) - { - pInfo->numType[c] = ADDR_ZERO; // Default is zero for RGB - } - else if (numType == ADDR_NUMBER_UINT || numType == ADDR_NUMBER_SINT) - { - pInfo->numType[c] = ADDR_EPSILON; // Alpha INT_32 bits default is 0x01 - } - else - { - pInfo->numType[c] = ADDR_ONE; // Alpha normal default is float 1.0 - } - continue; - } - // Now handle small components - else if (pInfo->compBit[c] == 1) - { - if (numType == ADDR_NUMBER_UINT || numType == ADDR_NUMBER_SINT) - { - cnum = ADDR_NUMBER_UINT; - } - else - { - cnum = ADDR_NUMBER_UNORM; - } - } - else - { - cnum = numType; - } - - // If no default, set the number type fom num, compbits, and architecture - switch (cnum) - { - case ADDR_NUMBER_SRGB: - pInfo->numType[c] = (c < 3) ? ADDR_GAMMA8_R6XX : ADDR_UNORM_R6XX; - break; - case ADDR_NUMBER_UNORM: - pInfo->numType[c] = ADDR_UNORM_R6XX; - break; - case ADDR_NUMBER_SNORM: - pInfo->numType[c] = ADDR_SNORM_R6XX; - break; - case ADDR_NUMBER_USCALED: - pInfo->numType[c] = ADDR_USCALED; // @@ Do we need separate Pele routine? - break; - case ADDR_NUMBER_SSCALED: - pInfo->numType[c] = ADDR_SSCALED; // @@ Do we need separate Pele routine? - break; - case ADDR_NUMBER_FLOAT: - if (pInfo->compBit[c] == 32) - { - pInfo->numType[c] = ADDR_S8FLOAT32; - } - else if (pInfo->compBit[c] == 16) - { - pInfo->numType[c] = ADDR_S5FLOAT; - } - else if (pInfo->compBit[c] >= 10) - { - pInfo->numType[c] = ADDR_U5FLOAT; - } - else - { - ADDR_ASSERT_ALWAYS(); - } - break; - case ADDR_NUMBER_SINT: - pInfo->numType[c] = ADDR_SINT_BITS; - break; - case ADDR_NUMBER_UINT: - pInfo->numType[c] = ADDR_UINT_BITS; - break; - - default: - ADDR_ASSERT(!"Invalid number type"); - pInfo->numType[c] = ADDR_NO_NUMBER; - break; - } - } - } -} - -/** -**************************************************************************************************** -* ElemLib::GetCompSwap -* -* @brief -* Get components swapped for color surface -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID ElemLib::GetCompSwap( - AddrSurfaceSwap swap, ///< [in] swap mode - PixelFormatInfo* pInfo) ///< [in,out] output per component info -{ - switch (pInfo->comps) - { - case 4: - switch (swap) - { - case ADDR_SWAP_ALT: - SwapComps( 0, 2, pInfo ); - break; // BGRA - case ADDR_SWAP_STD_REV: - SwapComps( 0, 3, pInfo ); - SwapComps( 1, 2, pInfo ); - break; // ABGR - case ADDR_SWAP_ALT_REV: - SwapComps( 0, 3, pInfo ); - SwapComps( 0, 2, pInfo ); - SwapComps( 0, 1, pInfo ); - break; // ARGB - default: - break; - } - break; - case 3: - switch (swap) - { - case ADDR_SWAP_ALT_REV: - SwapComps( 0, 3, pInfo ); - SwapComps( 0, 2, pInfo ); - break; // AGR - case ADDR_SWAP_STD_REV: - SwapComps( 0, 2, pInfo ); - break; // BGR - case ADDR_SWAP_ALT: - SwapComps( 2, 3, pInfo ); - break; // RGA - default: - break; // RGB - } - break; - case 2: - switch (swap) - { - case ADDR_SWAP_ALT_REV: - SwapComps( 0, 1, pInfo ); - SwapComps( 1, 3, pInfo ); - break; // AR - case ADDR_SWAP_STD_REV: - SwapComps( 0, 1, pInfo ); - break; // GR - case ADDR_SWAP_ALT: - SwapComps( 1, 3, pInfo ); - break; // RA - default: - break; // RG - } - break; - case 1: - switch (swap) - { - case ADDR_SWAP_ALT_REV: - SwapComps( 0, 3, pInfo ); - break; // A - case ADDR_SWAP_STD_REV: - SwapComps( 0, 2, pInfo ); - break; // B - case ADDR_SWAP_ALT: - SwapComps( 0, 1, pInfo ); - break; // G - default: - break; // R - } - break; - } -} - -/** -**************************************************************************************************** -* ElemLib::GetCompSwap -* -* @brief -* Get components swapped for color surface -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID ElemLib::SwapComps( - UINT_32 c0, ///< [in] component index 0 - UINT_32 c1, ///< [in] component index 1 - PixelFormatInfo* pInfo) ///< [in,out] output per component info -{ - UINT_32 start; - UINT_32 bits; - - start = pInfo->compStart[c0]; - pInfo->compStart[c0] = pInfo->compStart[c1]; - pInfo->compStart[c1] = start; - - bits = pInfo->compBit[c0]; - pInfo->compBit[c0] = pInfo->compBit[c1]; - pInfo->compBit[c1] = bits; -} - -/** -**************************************************************************************************** -* ElemLib::PixGetColorCompInfo -* -* @brief -* Get per component info for color surface -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID ElemLib::PixGetColorCompInfo( - AddrColorFormat format, ///< [in] surface format, read from register - AddrSurfaceNumber number, ///< [in] pixel number type - AddrSurfaceSwap swap, ///< [in] component swap mode - PixelFormatInfo* pInfo ///< [out] output per component info - ) const -{ - // 1. Get componet bits - switch (format) - { - case ADDR_COLOR_8: - GetCompBits(8, 0, 0, 0, pInfo); - break; - case ADDR_COLOR_1_5_5_5: - GetCompBits(5, 5, 5, 1, pInfo); - break; - case ADDR_COLOR_5_6_5: - GetCompBits(8, 6, 5, 0, pInfo); - break; - case ADDR_COLOR_6_5_5: - GetCompBits(5, 5, 6, 0, pInfo); - break; - case ADDR_COLOR_8_8: - GetCompBits(8, 8, 0, 0, pInfo); - break; - case ADDR_COLOR_4_4_4_4: - GetCompBits(4, 4, 4, 4, pInfo); - break; - case ADDR_COLOR_16: - GetCompBits(16, 0, 0, 0, pInfo); - break; - case ADDR_COLOR_8_8_8_8: - GetCompBits(8, 8, 8, 8, pInfo); - break; - case ADDR_COLOR_2_10_10_10: - GetCompBits(10, 10, 10, 2, pInfo); - break; - case ADDR_COLOR_10_11_11: - GetCompBits(11, 11, 10, 0, pInfo); - break; - case ADDR_COLOR_11_11_10: - GetCompBits(10, 11, 11, 0, pInfo); - break; - case ADDR_COLOR_16_16: - GetCompBits(16, 16, 0, 0, pInfo); - break; - case ADDR_COLOR_16_16_16_16: - GetCompBits(16, 16, 16, 16, pInfo); - break; - case ADDR_COLOR_16_FLOAT: - GetCompBits(16, 0, 0, 0, pInfo); - break; - case ADDR_COLOR_16_16_FLOAT: - GetCompBits(16, 16, 0, 0, pInfo); - break; - case ADDR_COLOR_32_FLOAT: - GetCompBits(32, 0, 0, 0, pInfo); - break; - case ADDR_COLOR_32_32_FLOAT: - GetCompBits(32, 32, 0, 0, pInfo); - break; - case ADDR_COLOR_16_16_16_16_FLOAT: - GetCompBits(16, 16, 16, 16, pInfo); - break; - case ADDR_COLOR_32_32_32_32_FLOAT: - GetCompBits(32, 32, 32, 32, pInfo); - break; - - case ADDR_COLOR_32: - GetCompBits(32, 0, 0, 0, pInfo); - break; - case ADDR_COLOR_32_32: - GetCompBits(32, 32, 0, 0, pInfo); - break; - case ADDR_COLOR_32_32_32_32: - GetCompBits(32, 32, 32, 32, pInfo); - break; - case ADDR_COLOR_10_10_10_2: - GetCompBits(2, 10, 10, 10, pInfo); - break; - case ADDR_COLOR_10_11_11_FLOAT: - GetCompBits(11, 11, 10, 0, pInfo); - break; - case ADDR_COLOR_11_11_10_FLOAT: - GetCompBits(10, 11, 11, 0, pInfo); - break; - case ADDR_COLOR_5_5_5_1: - GetCompBits(1, 5, 5, 5, pInfo); - break; - case ADDR_COLOR_3_3_2: - GetCompBits(2, 3, 3, 0, pInfo); - break; - case ADDR_COLOR_4_4: - GetCompBits(4, 4, 0, 0, pInfo); - break; - case ADDR_COLOR_8_24: - case ADDR_COLOR_8_24_FLOAT: // same bit count, fall through - GetCompBits(24, 8, 0, 0, pInfo); - break; - case ADDR_COLOR_24_8: - case ADDR_COLOR_24_8_FLOAT: // same bit count, fall through - GetCompBits(8, 24, 0, 0, pInfo); - break; - case ADDR_COLOR_X24_8_32_FLOAT: - GetCompBits(32, 8, 0, 0, pInfo); - break; - - case ADDR_COLOR_INVALID: - GetCompBits(0, 0, 0, 0, pInfo); - break; - default: - ADDR_ASSERT(0); - GetCompBits(0, 0, 0, 0, pInfo); - break; - } - - // 2. Get component number type - - GetCompType(format, number, pInfo); - - // 3. Swap components if needed - - GetCompSwap(swap, pInfo); -} - -/** -**************************************************************************************************** -* ElemLib::PixGetDepthCompInfo -* -* @brief -* Get per component info for depth surface -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID ElemLib::PixGetDepthCompInfo( - AddrDepthFormat format, ///< [in] surface format, read from register - PixelFormatInfo* pInfo ///< [out] output per component bits and type - ) const -{ - if (m_depthPlanarType == ADDR_DEPTH_PLANAR_R800) - { - if (format == ADDR_DEPTH_8_24_FLOAT) - { - format = ADDR_DEPTH_X24_8_32_FLOAT; // Use this format to represent R800's D24FS8 - } - - if (format == ADDR_DEPTH_X8_24_FLOAT) - { - format = ADDR_DEPTH_32_FLOAT; - } - } - - switch (format) - { - case ADDR_DEPTH_16: - GetCompBits(16, 0, 0, 0, pInfo); - break; - case ADDR_DEPTH_8_24: - case ADDR_DEPTH_8_24_FLOAT: // similar format, fall through - GetCompBits(24, 8, 0, 0, pInfo); - break; - case ADDR_DEPTH_X8_24: - case ADDR_DEPTH_X8_24_FLOAT: // similar format, fall through - GetCompBits(24, 0, 0, 0, pInfo); - break; - case ADDR_DEPTH_32_FLOAT: - GetCompBits(32, 0, 0, 0, pInfo); - break; - case ADDR_DEPTH_X24_8_32_FLOAT: - GetCompBits(32, 8, 0, 0, pInfo); - break; - case ADDR_DEPTH_INVALID: - GetCompBits(0, 0, 0, 0, pInfo); - break; - default: - ADDR_ASSERT(0); - GetCompBits(0, 0, 0, 0, pInfo); - break; - } - - switch (format) - { - case ADDR_DEPTH_16: - pInfo->numType [0] = ADDR_UNORM_R6XX; - pInfo->numType [1] = ADDR_ZERO; - break; - case ADDR_DEPTH_8_24: - pInfo->numType [0] = ADDR_UNORM_R6XXDB; - pInfo->numType [1] = ADDR_UINT_BITS; - break; - case ADDR_DEPTH_8_24_FLOAT: - pInfo->numType [0] = ADDR_U4FLOATC; - pInfo->numType [1] = ADDR_UINT_BITS; - break; - case ADDR_DEPTH_X8_24: - pInfo->numType [0] = ADDR_UNORM_R6XXDB; - pInfo->numType [1] = ADDR_ZERO; - break; - case ADDR_DEPTH_X8_24_FLOAT: - pInfo->numType [0] = ADDR_U4FLOATC; - pInfo->numType [1] = ADDR_ZERO; - break; - case ADDR_DEPTH_32_FLOAT: - pInfo->numType [0] = ADDR_S8FLOAT32; - pInfo->numType [1] = ADDR_ZERO; - break; - case ADDR_DEPTH_X24_8_32_FLOAT: - pInfo->numType [0] = ADDR_S8FLOAT32; - pInfo->numType [1] = ADDR_UINT_BITS; - break; - default: - pInfo->numType [0] = ADDR_NO_NUMBER; - pInfo->numType [1] = ADDR_NO_NUMBER; - break; - } - - pInfo->numType [2] = ADDR_NO_NUMBER; - pInfo->numType [3] = ADDR_NO_NUMBER; -} - -/** -**************************************************************************************************** -* ElemLib::PixGetExportNorm -* -* @brief -* Check if fp16 export norm can be enabled. -* -* @return -* TRUE if this can be enabled. -* -**************************************************************************************************** -*/ -BOOL_32 ElemLib::PixGetExportNorm( - AddrColorFormat colorFmt, ///< [in] surface format, read from register - AddrSurfaceNumber numberFmt, ///< [in] pixel number type - AddrSurfaceSwap swap ///< [in] components swap type - ) const -{ - BOOL_32 enabled = TRUE; - - PixelFormatInfo formatInfo; - - PixGetColorCompInfo(colorFmt, numberFmt, swap, &formatInfo); - - for (UINT_32 c = 0; c < 4; c++) - { - if (m_fp16ExportNorm) - { - if (((formatInfo.compBit[c] > 11) || (formatInfo.numType[c] > ADDR_USCALED)) && - (formatInfo.numType[c] != ADDR_U4FLOATC) && - (formatInfo.numType[c] != ADDR_S5FLOAT) && - (formatInfo.numType[c] != ADDR_S5FLOATM) && - (formatInfo.numType[c] != ADDR_U5FLOAT) && - (formatInfo.numType[c] != ADDR_U3FLOATM)) - { - enabled = FALSE; - break; - } - } - else - { - if ((formatInfo.compBit[c] > 11) || (formatInfo.numType[c] > ADDR_USCALED)) - { - enabled = FALSE; - break; - } - } - } - - return enabled; -} - -/** -**************************************************************************************************** -* ElemLib::AdjustSurfaceInfo -* -* @brief -* Adjust bpp/base pitch/width/height according to elemMode and expandX/Y -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::AdjustSurfaceInfo( - ElemMode elemMode, ///< [in] element mode - UINT_32 expandX, ///< [in] decompression expansion factor in X - UINT_32 expandY, ///< [in] decompression expansion factor in Y - UINT_32* pBpp, ///< [in,out] bpp - UINT_32* pBasePitch, ///< [in,out] base pitch - UINT_32* pWidth, ///< [in,out] width - UINT_32* pHeight) ///< [in,out] height -{ - UINT_32 packedBits; - UINT_32 basePitch; - UINT_32 width; - UINT_32 height; - UINT_32 bpp; - BOOL_32 bBCnFormat = FALSE; - - ADDR_ASSERT(pBpp != NULL); - ADDR_ASSERT(pWidth != NULL && pHeight != NULL && pBasePitch != NULL); - - if (pBpp) - { - bpp = *pBpp; - - switch (elemMode) - { - case ADDR_EXPANDED: - packedBits = bpp / expandX / expandY; - break; - case ADDR_PACKED_STD: // Different bit order - case ADDR_PACKED_REV: - packedBits = bpp * expandX * expandY; - break; - case ADDR_PACKED_GBGR: - case ADDR_PACKED_BGRG: - packedBits = bpp; // 32-bit packed ==> 2 32-bit result - break; - case ADDR_PACKED_BC1: // Fall through - case ADDR_PACKED_BC4: - packedBits = 64; - bBCnFormat = TRUE; - break; - case ADDR_PACKED_BC2: // Fall through - case ADDR_PACKED_BC3: // Fall through - case ADDR_PACKED_BC5: // Fall through - bBCnFormat = TRUE; - // fall through - case ADDR_PACKED_ASTC: - case ADDR_PACKED_ETC2_128BPP: - packedBits = 128; - break; - case ADDR_PACKED_ETC2_64BPP: - packedBits = 64; - break; - case ADDR_ROUND_BY_HALF: // Fall through - case ADDR_ROUND_TRUNCATE: // Fall through - case ADDR_ROUND_DITHER: // Fall through - case ADDR_UNCOMPRESSED: - packedBits = bpp; - break; - default: - packedBits = bpp; - ADDR_ASSERT_ALWAYS(); - break; - } - - *pBpp = packedBits; - } - - if (pWidth && pHeight && pBasePitch) - { - basePitch = *pBasePitch; - width = *pWidth; - height = *pHeight; - - if ((expandX > 1) || (expandY > 1)) - { - if (elemMode == ADDR_EXPANDED) - { - basePitch *= expandX; - width *= expandX; - height *= expandY; - } - else - { - // Evergreen family workaround - if (bBCnFormat && (m_pAddrLib->GetChipFamily() == ADDR_CHIP_FAMILY_R8XX)) - { - // For BCn we now pad it to POW2 at the beginning so it is safe to - // divide by 4 directly - basePitch = basePitch / expandX; - width = width / expandX; - height = height / expandY; -#if DEBUG - width = (width == 0) ? 1 : width; - height = (height == 0) ? 1 : height; - - if ((*pWidth > PowTwoAlign(width, 8) * expandX) || - (*pHeight > PowTwoAlign(height, 8) * expandY)) // 8 is 1D tiling alignment - { - // if this assertion is hit we may have issues if app samples - // rightmost/bottommost pixels - ADDR_ASSERT_ALWAYS(); - } -#endif - } - else // Not BCn format we still keep old way (FMT_1? No real test yet) - { - basePitch = (basePitch + expandX - 1) / expandX; - width = (width + expandX - 1) / expandX; - height = (height + expandY - 1) / expandY; - } - } - - *pBasePitch = basePitch; // 0 is legal value for base pitch. - *pWidth = (width == 0) ? 1 : width; - *pHeight = (height == 0) ? 1 : height; - } //if (pWidth && pHeight && pBasePitch) - } -} - -/** -**************************************************************************************************** -* ElemLib::RestoreSurfaceInfo -* -* @brief -* Reverse operation of AdjustSurfaceInfo -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::RestoreSurfaceInfo( - ElemMode elemMode, ///< [in] element mode - UINT_32 expandX, ///< [in] decompression expansion factor in X - UINT_32 expandY, ///< [out] decompression expansion factor in Y - UINT_32* pBpp, ///< [in,out] bpp - UINT_32* pWidth, ///< [in,out] width - UINT_32* pHeight) ///< [in,out] height -{ - UINT_32 originalBits; - UINT_32 width; - UINT_32 height; - UINT_32 bpp; - - BOOL_32 bBCnFormat = FALSE; - (void)bBCnFormat; - - ADDR_ASSERT(pBpp != NULL); - ADDR_ASSERT(pWidth != NULL && pHeight != NULL); - - if (pBpp) - { - bpp = *pBpp; - - switch (elemMode) - { - case ADDR_EXPANDED: - originalBits = bpp * expandX * expandY; - break; - case ADDR_PACKED_STD: // Different bit order - case ADDR_PACKED_REV: - originalBits = bpp / expandX / expandY; - break; - case ADDR_PACKED_GBGR: - case ADDR_PACKED_BGRG: - originalBits = bpp; // 32-bit packed ==> 2 32-bit result - break; - case ADDR_PACKED_BC1: // Fall through - case ADDR_PACKED_BC4: - originalBits = 64; - bBCnFormat = TRUE; - break; - case ADDR_PACKED_BC2: // Fall through - case ADDR_PACKED_BC3: // Fall through - case ADDR_PACKED_BC5: - bBCnFormat = TRUE; - // fall through - case ADDR_PACKED_ASTC: - case ADDR_PACKED_ETC2_128BPP: - originalBits = 128; - break; - case ADDR_PACKED_ETC2_64BPP: - originalBits = 64; - break; - case ADDR_ROUND_BY_HALF: // Fall through - case ADDR_ROUND_TRUNCATE: // Fall through - case ADDR_ROUND_DITHER: // Fall through - case ADDR_UNCOMPRESSED: - originalBits = bpp; - break; - default: - originalBits = bpp; - ADDR_ASSERT_ALWAYS(); - break; - } - - *pBpp = originalBits; - } - - if (pWidth && pHeight) - { - width = *pWidth; - height = *pHeight; - - if ((expandX > 1) || (expandY > 1)) - { - if (elemMode == ADDR_EXPANDED) - { - width /= expandX; - height /= expandY; - } - else - { - width *= expandX; - height *= expandY; - } - } - - *pWidth = (width == 0) ? 1 : width; - *pHeight = (height == 0) ? 1 : height; - } -} - -/** -**************************************************************************************************** -* ElemLib::GetBitsPerPixel -* -* @brief -* Compute the total bits per element according to a format -* code. For compressed formats, this is not the same as -* the number of bits per decompressed element. -* -* @return -* Bits per pixel -**************************************************************************************************** -*/ -UINT_32 ElemLib::GetBitsPerPixel( - AddrFormat format, ///< [in] surface format code - ElemMode* pElemMode, ///< [out] element mode - UINT_32* pExpandX, ///< [out] decompression expansion factor in X - UINT_32* pExpandY, ///< [out] decompression expansion factor in Y - UINT_32* pUnusedBits) ///< [out] bits unused -{ - UINT_32 bpp; - UINT_32 expandX = 1; - UINT_32 expandY = 1; - UINT_32 bitUnused = 0; - ElemMode elemMode = ADDR_UNCOMPRESSED; // default value - - switch (format) - { - case ADDR_FMT_8: - bpp = 8; - break; - case ADDR_FMT_1_5_5_5: - case ADDR_FMT_5_6_5: - case ADDR_FMT_6_5_5: - case ADDR_FMT_8_8: - case ADDR_FMT_4_4_4_4: - case ADDR_FMT_16: - case ADDR_FMT_16_FLOAT: - bpp = 16; - break; - case ADDR_FMT_GB_GR: // treat as FMT_8_8 - elemMode = ADDR_PACKED_GBGR; - bpp = 16; - break; - case ADDR_FMT_BG_RG: // treat as FMT_8_8 - elemMode = ADDR_PACKED_BGRG; - bpp = 16; - break; - case ADDR_FMT_8_8_8_8: - case ADDR_FMT_2_10_10_10: - case ADDR_FMT_10_11_11: - case ADDR_FMT_11_11_10: - case ADDR_FMT_16_16: - case ADDR_FMT_16_16_FLOAT: - case ADDR_FMT_32: - case ADDR_FMT_32_FLOAT: - case ADDR_FMT_24_8: - case ADDR_FMT_24_8_FLOAT: - bpp = 32; - break; - case ADDR_FMT_16_16_16_16: - case ADDR_FMT_16_16_16_16_FLOAT: - case ADDR_FMT_32_32: - case ADDR_FMT_32_32_FLOAT: - case ADDR_FMT_CTX1: - bpp = 64; - break; - case ADDR_FMT_32_32_32_32: - case ADDR_FMT_32_32_32_32_FLOAT: - bpp = 128; - break; - case ADDR_FMT_INVALID: - bpp = 0; - break; - case ADDR_FMT_1_REVERSED: - elemMode = ADDR_PACKED_REV; - expandX = 8; - bpp = 1; - break; - case ADDR_FMT_1: - elemMode = ADDR_PACKED_STD; - expandX = 8; - bpp = 1; - break; - case ADDR_FMT_4_4: - case ADDR_FMT_3_3_2: - bpp = 8; - break; - case ADDR_FMT_5_5_5_1: - bpp = 16; - break; - case ADDR_FMT_32_AS_8: - case ADDR_FMT_32_AS_8_8: - case ADDR_FMT_8_24: - case ADDR_FMT_8_24_FLOAT: - case ADDR_FMT_10_10_10_2: - case ADDR_FMT_10_11_11_FLOAT: - case ADDR_FMT_11_11_10_FLOAT: - case ADDR_FMT_5_9_9_9_SHAREDEXP: - bpp = 32; - break; - case ADDR_FMT_X24_8_32_FLOAT: - bpp = 64; - bitUnused = 24; - break; - case ADDR_FMT_8_8_8: - elemMode = ADDR_EXPANDED; - bpp = 24;//@@ 8; // read 3 elements per pixel - expandX = 3; - break; - case ADDR_FMT_16_16_16: - case ADDR_FMT_16_16_16_FLOAT: - elemMode = ADDR_EXPANDED; - bpp = 48;//@@ 16; // read 3 elements per pixel - expandX = 3; - break; - case ADDR_FMT_32_32_32_FLOAT: - case ADDR_FMT_32_32_32: - elemMode = ADDR_EXPANDED; - expandX = 3; - bpp = 96;//@@ 32; // read 3 elements per pixel - break; - case ADDR_FMT_BC1: - elemMode = ADDR_PACKED_BC1; - expandX = 4; - expandY = 4; - bpp = 64; - break; - case ADDR_FMT_BC4: - elemMode = ADDR_PACKED_BC4; - expandX = 4; - expandY = 4; - bpp = 64; - break; - case ADDR_FMT_BC2: - elemMode = ADDR_PACKED_BC2; - expandX = 4; - expandY = 4; - bpp = 128; - break; - case ADDR_FMT_BC3: - elemMode = ADDR_PACKED_BC3; - expandX = 4; - expandY = 4; - bpp = 128; - break; - case ADDR_FMT_BC5: - case ADDR_FMT_BC6: // reuse ADDR_PACKED_BC5 - case ADDR_FMT_BC7: // reuse ADDR_PACKED_BC5 - elemMode = ADDR_PACKED_BC5; - expandX = 4; - expandY = 4; - bpp = 128; - break; - - case ADDR_FMT_ETC2_64BPP: - elemMode = ADDR_PACKED_ETC2_64BPP; - expandX = 4; - expandY = 4; - bpp = 64; - break; - - case ADDR_FMT_ETC2_128BPP: - elemMode = ADDR_PACKED_ETC2_128BPP; - expandX = 4; - expandY = 4; - bpp = 128; - break; - - case ADDR_FMT_ASTC_4x4: - elemMode = ADDR_PACKED_ASTC; - expandX = 4; - expandY = 4; - bpp = 128; - break; - - case ADDR_FMT_ASTC_5x4: - elemMode = ADDR_PACKED_ASTC; - expandX = 5; - expandY = 4; - bpp = 128; - break; - - case ADDR_FMT_ASTC_5x5: - elemMode = ADDR_PACKED_ASTC; - expandX = 5; - expandY = 5; - bpp = 128; - break; - - case ADDR_FMT_ASTC_6x5: - elemMode = ADDR_PACKED_ASTC; - expandX = 6; - expandY = 5; - bpp = 128; - break; - - case ADDR_FMT_ASTC_6x6: - elemMode = ADDR_PACKED_ASTC; - expandX = 6; - expandY = 6; - bpp = 128; - break; - - case ADDR_FMT_ASTC_8x5: - elemMode = ADDR_PACKED_ASTC; - expandX = 8; - expandY = 5; - bpp = 128; - break; - - case ADDR_FMT_ASTC_8x6: - elemMode = ADDR_PACKED_ASTC; - expandX = 8; - expandY = 6; - bpp = 128; - break; - - case ADDR_FMT_ASTC_8x8: - elemMode = ADDR_PACKED_ASTC; - expandX = 8; - expandY = 8; - bpp = 128; - break; - - case ADDR_FMT_ASTC_10x5: - elemMode = ADDR_PACKED_ASTC; - expandX = 10; - expandY = 5; - bpp = 128; - break; - - case ADDR_FMT_ASTC_10x6: - elemMode = ADDR_PACKED_ASTC; - expandX = 10; - expandY = 6; - bpp = 128; - break; - - case ADDR_FMT_ASTC_10x8: - elemMode = ADDR_PACKED_ASTC; - expandX = 10; - expandY = 8; - bpp = 128; - break; - - case ADDR_FMT_ASTC_10x10: - elemMode = ADDR_PACKED_ASTC; - expandX = 10; - expandY = 10; - bpp = 128; - break; - - case ADDR_FMT_ASTC_12x10: - elemMode = ADDR_PACKED_ASTC; - expandX = 12; - expandY = 10; - bpp = 128; - break; - - case ADDR_FMT_ASTC_12x12: - elemMode = ADDR_PACKED_ASTC; - expandX = 12; - expandY = 12; - bpp = 128; - break; - - default: - bpp = 0; - ADDR_ASSERT_ALWAYS(); - break; - // @@ or should this be an error? - } - - SafeAssign(pExpandX, expandX); - SafeAssign(pExpandY, expandY); - SafeAssign(pUnusedBits, bitUnused); - SafeAssign(reinterpret_cast(pElemMode), elemMode); - - return bpp; -} - -/** -**************************************************************************************************** -* ElemLib::GetCompBits -* -* @brief -* Set each component's bit size and bit start. And set element mode and number type -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::GetCompBits( - UINT_32 c0, ///< [in] bits of component 0 - UINT_32 c1, ///< [in] bits of component 1 - UINT_32 c2, ///< [in] bits of component 2 - UINT_32 c3, ///< [in] bits of component 3 - PixelFormatInfo* pInfo, ///< [out] per component info out - ElemMode elemMode) ///< [in] element mode -{ - pInfo->comps = 0; - - pInfo->compBit[0] = c0; - pInfo->compBit[1] = c1; - pInfo->compBit[2] = c2; - pInfo->compBit[3] = c3; - - pInfo->compStart[0] = 0; - pInfo->compStart[1] = c0; - pInfo->compStart[2] = c0+c1; - pInfo->compStart[3] = c0+c1+c2; - - pInfo->elemMode = elemMode; - // still needed since component swap may depend on number of components - for (INT i=0; i<4; i++) - { - if (pInfo->compBit[i] == 0) - { - pInfo->compStart[i] = 0; // all null components start at bit 0 - pInfo->numType[i] = ADDR_NO_NUMBER; // and have no number type - } - else - { - pInfo->comps++; - } - } -} - -/** -**************************************************************************************************** -* ElemLib::GetCompBits -* -* @brief -* Set the clear color (or clear depth/stencil) for a surface -* -* @note -* If clearColor is zero, a default clear value is used in place of comps[4]. -* If float32 is set, full precision is used, else the mantissa is reduced to 12-bits -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID ElemLib::SetClearComps( - ADDR_FLT_32 comps[4], ///< [in,out] components - BOOL_32 clearColor, ///< [in] TRUE if clear color is set (CLEAR_COLOR) - BOOL_32 float32) ///< [in] TRUE if float32 component (BLEND_FLOAT32) -{ - INT_32 i; - - // Use default clearvalues if clearColor is disabled - if (clearColor == FALSE) - { - for (i=0; i<3; i++) - { - comps[i].f = 0.0; - } - comps[3].f = 1.0; - } - - // Otherwise use the (modified) clear value - else - { - for (i=0; i<4; i++) - { // If full precision, use clear value unchanged - if (float32) - { - // Do nothing - //comps[i] = comps[i]; - } - // Else if it is a NaN, use the standard NaN value - else if ((comps[i].u & 0x7FFFFFFF) > 0x7F800000) - { - comps[i].u = 0xFFC00000; - } - // Else reduce the mantissa precision - else - { - comps[i].u = comps[i].u & 0xFFFFF000; - } - } - } -} - -/** -**************************************************************************************************** -* ElemLib::IsBlockCompressed -* -* @brief -* TRUE if this is block compressed format -* -* @note -* -* @return -* BOOL_32 -**************************************************************************************************** -*/ -BOOL_32 ElemLib::IsBlockCompressed( - AddrFormat format) ///< [in] Format -{ - return (((format >= ADDR_FMT_BC1) && (format <= ADDR_FMT_BC7)) || - ((format >= ADDR_FMT_ASTC_4x4) && (format <= ADDR_FMT_ETC2_128BPP))); -} - - -/** -**************************************************************************************************** -* ElemLib::IsCompressed -* -* @brief -* TRUE if this is block compressed format or 1 bit format -* -* @note -* -* @return -* BOOL_32 -**************************************************************************************************** -*/ -BOOL_32 ElemLib::IsCompressed( - AddrFormat format) ///< [in] Format -{ - return IsBlockCompressed(format) || format == ADDR_FMT_BC1 || format == ADDR_FMT_BC7; -} - -/** -**************************************************************************************************** -* ElemLib::IsExpand3x -* -* @brief -* TRUE if this is 3x expand format -* -* @note -* -* @return -* BOOL_32 -**************************************************************************************************** -*/ -BOOL_32 ElemLib::IsExpand3x( - AddrFormat format) ///< [in] Format -{ - BOOL_32 is3x = FALSE; - - switch (format) - { - case ADDR_FMT_8_8_8: - case ADDR_FMT_16_16_16: - case ADDR_FMT_16_16_16_FLOAT: - case ADDR_FMT_32_32_32: - case ADDR_FMT_32_32_32_FLOAT: - is3x = TRUE; - break; - default: - break; - } - - return is3x; -} - -/** -**************************************************************************************************** -* ElemLib::IsMacroPixelPacked -* -* @brief -* TRUE if this is a macro-pixel-packed format. -* -* @note -* -* @return -* BOOL_32 -**************************************************************************************************** -*/ -BOOL_32 ElemLib::IsMacroPixelPacked( - AddrFormat format) ///< [in] Format -{ - BOOL_32 isMacroPixelPacked = FALSE; - - switch (format) - { - case ADDR_FMT_BG_RG: - case ADDR_FMT_GB_GR: - isMacroPixelPacked = TRUE; - break; - default: - break; - } - - return isMacroPixelPacked; -} - -} diff --git a/src/amd/addrlib/core/addrelemlib.h b/src/amd/addrlib/core/addrelemlib.h deleted file mode 100644 index 88755dbf368..00000000000 --- a/src/amd/addrlib/core/addrelemlib.h +++ /dev/null @@ -1,279 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrelemlib.h -* @brief Contains the class for element/pixel related functions. -**************************************************************************************************** -*/ - -#ifndef __ELEM_LIB_H__ -#define __ELEM_LIB_H__ - -#include "addrinterface.h" -#include "addrobject.h" -#include "addrcommon.h" - -namespace Addr -{ - -class Lib; - -// The masks for property bits within the Properties INT_32 -union ComponentFlags -{ - struct - { - UINT_32 byteAligned : 1; ///< all components are byte aligned - UINT_32 exportNorm : 1; ///< components support R6xx NORM compression - UINT_32 floatComp : 1; ///< there is at least one floating point component - }; - - UINT_32 value; -}; - -// Copy from legacy lib's NumberType -enum NumberType -{ - // The following number types have the range [-1..1] - ADDR_NO_NUMBER, // This component doesn't exist and has no default value - ADDR_EPSILON, // Force component value to integer 0x00000001 - ADDR_ZERO, // Force component value to integer 0x00000000 - ADDR_ONE, // Force component value to floating point 1.0 - // Above values don't have any bits per component (keep ADDR_ONE the last of these) - - ADDR_UNORM, // Unsigned normalized (repeating fraction) full precision - ADDR_SNORM, // Signed normalized (repeating fraction) full precision - ADDR_GAMMA, // Gamma-corrected, full precision - - ADDR_UNORM_R5XXRB, // Unsigned normalized (repeating fraction) for r5xx RB - ADDR_SNORM_R5XXRB, // Signed normalized (repeating fraction) for r5xx RB - ADDR_GAMMA_R5XXRB, // Gamma-corrected for r5xx RB (note: unnormalized value) - ADDR_UNORM_R5XXBC, // Unsigned normalized (repeating fraction) for r5xx BC - ADDR_SNORM_R5XXBC, // Signed normalized (repeating fraction) for r5xx BC - ADDR_GAMMA_R5XXBC, // Gamma-corrected for r5xx BC (note: unnormalized value) - - ADDR_UNORM_R6XX, // Unsigned normalized (repeating fraction) for R6xx - ADDR_UNORM_R6XXDB, // Unorms for 24-bit depth: one value differs from ADDR_UNORM_R6XX - ADDR_SNORM_R6XX, // Signed normalized (repeating fraction) for R6xx - ADDR_GAMMA8_R6XX, // Gamma-corrected for r6xx - ADDR_GAMMA8_R7XX_TP, // Gamma-corrected for r7xx TP 12bit unorm 8.4. - - ADDR_U4FLOATC, // Unsigned float: 4-bit exponent, bias=15, no NaN, clamp [0..1] - ADDR_GAMMA_4SEG, // Gamma-corrected, four segment approximation - ADDR_U0FIXED, // Unsigned 0.N-bit fixed point - - // The following number types have large ranges (LEAVE ADDR_USCALED first or fix Finish routine) - ADDR_USCALED, // Unsigned integer converted to/from floating point - ADDR_SSCALED, // Signed integer converted to/from floating point - ADDR_USCALED_R5XXRB, // Unsigned integer to/from floating point for r5xx RB - ADDR_SSCALED_R5XXRB, // Signed integer to/from floating point for r5xx RB - ADDR_UINT_BITS, // Keep in unsigned integer form, clamped to specified range - ADDR_SINT_BITS, // Keep in signed integer form, clamped to specified range - ADDR_UINTBITS, // @@ remove Keep in unsigned integer form, use modulus to reduce bits - ADDR_SINTBITS, // @@ remove Keep in signed integer form, use modulus to reduce bits - - // The following number types and ADDR_U4FLOATC have exponents - // (LEAVE ADDR_S8FLOAT first or fix Finish routine) - ADDR_S8FLOAT, // Signed floating point with 8-bit exponent, bias=127 - ADDR_S8FLOAT32, // 32-bit IEEE float, passes through NaN values - ADDR_S5FLOAT, // Signed floating point with 5-bit exponent, bias=15 - ADDR_S5FLOATM, // Signed floating point with 5-bit exponent, bias=15, no NaN/Inf - ADDR_U5FLOAT, // Signed floating point with 5-bit exponent, bias=15 - ADDR_U3FLOATM, // Unsigned floating point with 3-bit exponent, bias=3 - - ADDR_S5FIXED, // Signed 5.N-bit fixed point, with rounding - - ADDR_END_NUMBER // Used for range comparisons -}; - -// Copy from legacy lib's AddrElement -enum ElemMode -{ - // These formats allow both packing an unpacking - ADDR_ROUND_BY_HALF, // add 1/2 and truncate when packing this element - ADDR_ROUND_TRUNCATE, // truncate toward 0 for sign/mag, else toward neg - ADDR_ROUND_DITHER, // Pack by dithering -- requires (x,y) position - - // These formats only allow unpacking, no packing - ADDR_UNCOMPRESSED, // Elements are not compressed: one data element per pixel/texel - ADDR_EXPANDED, // Elements are split up and stored in multiple data elements - ADDR_PACKED_STD, // Elements are compressed into ExpandX by ExpandY data elements - ADDR_PACKED_REV, // Like ADDR_PACKED, but X order of pixels is reverved - ADDR_PACKED_GBGR, // Elements are compressed 4:2:2 in G1B_G0R order (high to low) - ADDR_PACKED_BGRG, // Elements are compressed 4:2:2 in BG1_RG0 order (high to low) - ADDR_PACKED_BC1, // Each data element is uncompressed to a 4x4 pixel/texel array - ADDR_PACKED_BC2, // Each data element is uncompressed to a 4x4 pixel/texel array - ADDR_PACKED_BC3, // Each data element is uncompressed to a 4x4 pixel/texel array - ADDR_PACKED_BC4, // Each data element is uncompressed to a 4x4 pixel/texel array - ADDR_PACKED_BC5, // Each data element is uncompressed to a 4x4 pixel/texel array - ADDR_PACKED_ETC2_64BPP, // ETC2 formats that use 64bpp to represent each 4x4 block - ADDR_PACKED_ETC2_128BPP, // ETC2 formats that use 128bpp to represent each 4x4 block - ADDR_PACKED_ASTC, // Various ASTC formats, all are 128bpp with varying block sizes - - // These formats provide various kinds of compression - ADDR_ZPLANE_R5XX, // Compressed Zplane using r5xx architecture format - ADDR_ZPLANE_R6XX, // Compressed Zplane using r6xx architecture format - //@@ Fill in the compression modes - - ADDR_END_ELEMENT // Used for range comparisons -}; - -enum DepthPlanarType -{ - ADDR_DEPTH_PLANAR_NONE = 0, // No plane z/stencl - ADDR_DEPTH_PLANAR_R600 = 1, // R600 z and stencil planes are store within a tile - ADDR_DEPTH_PLANAR_R800 = 2, // R800 has separate z and stencil planes -}; - -/** -**************************************************************************************************** -* PixelFormatInfo -* -* @brief -* Per component info -* -**************************************************************************************************** -*/ -struct PixelFormatInfo -{ - UINT_32 compBit[4]; - NumberType numType[4]; - UINT_32 compStart[4]; - ElemMode elemMode; - UINT_32 comps; ///< Number of components -}; - -/** -**************************************************************************************************** -* @brief This class contains asic indepentent element related attributes and operations -**************************************************************************************************** -*/ -class ElemLib : public Object -{ -protected: - ElemLib(Lib* pAddrLib); - -public: - - /// Makes this class virtual - virtual ~ElemLib(); - - static ElemLib* Create( - const Lib* pAddrLib); - - /// The implementation is only for R6xx/R7xx, so make it virtual in case we need for R8xx - BOOL_32 PixGetExportNorm( - AddrColorFormat colorFmt, - AddrSurfaceNumber numberFmt, AddrSurfaceSwap swap) const; - - /// Below method are asic independent, so make them just static. - /// Remove static if we need different operation in hwl. - - VOID Flt32ToDepthPixel( - AddrDepthFormat format, const ADDR_FLT_32 comps[2], UINT_8 *pPixel) const; - - VOID Flt32ToColorPixel( - AddrColorFormat format, AddrSurfaceNumber surfNum, AddrSurfaceSwap surfSwap, - const ADDR_FLT_32 comps[4], UINT_8 *pPixel) const; - - static VOID Flt32sToInt32s( - ADDR_FLT_32 value, UINT_32 bits, NumberType numberType, UINT_32* pResult); - - static VOID Int32sToPixel( - UINT_32 numComps, UINT_32* pComps, UINT_32* pCompBits, UINT_32* pCompStart, - ComponentFlags properties, UINT_32 resultBits, UINT_8* pPixel); - - VOID PixGetColorCompInfo( - AddrColorFormat format, AddrSurfaceNumber number, AddrSurfaceSwap swap, - PixelFormatInfo* pInfo) const; - - VOID PixGetDepthCompInfo( - AddrDepthFormat format, PixelFormatInfo* pInfo) const; - - UINT_32 GetBitsPerPixel( - AddrFormat format, ElemMode* pElemMode = NULL, - UINT_32* pExpandX = NULL, UINT_32* pExpandY = NULL, UINT_32* pBitsUnused = NULL); - - static VOID SetClearComps( - ADDR_FLT_32 comps[4], BOOL_32 clearColor, BOOL_32 float32); - - VOID AdjustSurfaceInfo( - ElemMode elemMode, UINT_32 expandX, UINT_32 expandY, - UINT_32* pBpp, UINT_32* pBasePitch, UINT_32* pWidth, UINT_32* pHeight); - - VOID RestoreSurfaceInfo( - ElemMode elemMode, UINT_32 expandX, UINT_32 expandY, - UINT_32* pBpp, UINT_32* pWidth, UINT_32* pHeight); - - /// Checks if depth and stencil are planar inside a tile - BOOL_32 IsDepthStencilTilePlanar() - { - return (m_depthPlanarType == ADDR_DEPTH_PLANAR_R600) ? TRUE : FALSE; - } - - /// Sets m_configFlags, copied from AddrLib - VOID SetConfigFlags(ConfigFlags flags) - { - m_configFlags = flags; - } - - static BOOL_32 IsCompressed(AddrFormat format); - static BOOL_32 IsBlockCompressed(AddrFormat format); - static BOOL_32 IsExpand3x(AddrFormat format); - static BOOL_32 IsMacroPixelPacked(AddrFormat format); - -protected: - - static VOID GetCompBits( - UINT_32 c0, UINT_32 c1, UINT_32 c2, UINT_32 c3, - PixelFormatInfo* pInfo, - ElemMode elemMode = ADDR_ROUND_BY_HALF); - - static VOID GetCompType( - AddrColorFormat format, AddrSurfaceNumber numType, - PixelFormatInfo* pInfo); - - static VOID GetCompSwap( - AddrSurfaceSwap swap, PixelFormatInfo* pInfo); - - static VOID SwapComps( - UINT_32 c0, UINT_32 c1, PixelFormatInfo* pInfo); - -private: - - UINT_32 m_fp16ExportNorm; ///< If allow FP16 to be reported as EXPORT_NORM - DepthPlanarType m_depthPlanarType; - - ConfigFlags m_configFlags; ///< Copy of AddrLib's configFlags - Addr::Lib* const m_pAddrLib; ///< Pointer to parent addrlib instance -}; - -} //Addr - -#endif - diff --git a/src/amd/addrlib/core/addrlib.cpp b/src/amd/addrlib/core/addrlib.cpp deleted file mode 100644 index 5af6dd1e339..00000000000 --- a/src/amd/addrlib/core/addrlib.cpp +++ /dev/null @@ -1,644 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrlib.cpp -* @brief Contains the implementation for the Addr::Lib class. -**************************************************************************************************** -*/ - -#include "addrinterface.h" -#include "addrlib.h" -#include "addrcommon.h" - -#if defined(__APPLE__) - -UINT_32 div64_32(UINT_64 n, UINT_32 base) -{ - UINT_64 rem = n; - UINT_64 b = base; - UINT_64 res, d = 1; - UINT_32 high = rem >> 32; - - res = 0; - if (high >= base) - { - high /= base; - res = (UINT_64) high << 32; - rem -= (UINT_64) (high * base) << 32; - } - - while (((INT_64)b > 0) && (b < rem)) - { - b = b + b; - d = d + d; - } - - do - { - if (rem >= b) - { - rem -= b; - res += d; - } - b >>= 1; - d >>= 1; - } while (d); - - n = res; - return rem; -} - -extern "C" -UINT_32 __umoddi3(UINT_64 n, UINT_32 base) -{ - return div64_32(n, base); -} - -#endif // __APPLE__ - -namespace Addr -{ - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Constructor/Destructor -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Lib::Lib -* -* @brief -* Constructor for the AddrLib class -* -**************************************************************************************************** -*/ -Lib::Lib() : - m_class(BASE_ADDRLIB), - m_chipFamily(ADDR_CHIP_FAMILY_IVLD), - m_chipRevision(0), - m_version(ADDRLIB_VERSION), - m_pipes(0), - m_banks(0), - m_pipeInterleaveBytes(0), - m_rowSize(0), - m_minPitchAlignPixels(1), - m_maxSamples(8), - m_pElemLib(NULL) -{ - m_configFlags.value = 0; -} - -/** -**************************************************************************************************** -* Lib::Lib -* -* @brief -* Constructor for the AddrLib class with hClient as parameter -* -**************************************************************************************************** -*/ -Lib::Lib(const Client* pClient) : - Object(pClient), - m_class(BASE_ADDRLIB), - m_chipFamily(ADDR_CHIP_FAMILY_IVLD), - m_chipRevision(0), - m_version(ADDRLIB_VERSION), - m_pipes(0), - m_banks(0), - m_pipeInterleaveBytes(0), - m_rowSize(0), - m_minPitchAlignPixels(1), - m_maxSamples(8), - m_pElemLib(NULL) -{ - m_configFlags.value = 0; -} - -/** -**************************************************************************************************** -* Lib::~AddrLib -* -* @brief -* Destructor for the AddrLib class -* -**************************************************************************************************** -*/ -Lib::~Lib() -{ - if (m_pElemLib) - { - delete m_pElemLib; - m_pElemLib = NULL; - } -} - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Initialization/Helper -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Lib::Create -* -* @brief -* Creates and initializes AddrLib object. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::Create( - const ADDR_CREATE_INPUT* pCreateIn, ///< [in] pointer to ADDR_CREATE_INPUT - ADDR_CREATE_OUTPUT* pCreateOut) ///< [out] pointer to ADDR_CREATE_OUTPUT -{ - Lib* pLib = NULL; - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pCreateIn->createFlags.fillSizeFields == TRUE) - { - if ((pCreateIn->size != sizeof(ADDR_CREATE_INPUT)) || - (pCreateOut->size != sizeof(ADDR_CREATE_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if ((returnCode == ADDR_OK) && - (pCreateIn->callbacks.allocSysMem != NULL) && - (pCreateIn->callbacks.freeSysMem != NULL)) - { - Client client = { - pCreateIn->hClient, - pCreateIn->callbacks - }; - - switch (pCreateIn->chipEngine) - { - case CIASICIDGFXENGINE_SOUTHERNISLAND: - switch (pCreateIn->chipFamily) - { - case FAMILY_SI: - pLib = SiHwlInit(&client); - break; - case FAMILY_VI: - case FAMILY_CZ: // VI based fusion(carrizo) - case FAMILY_CI: - case FAMILY_KV: // CI based fusion - pLib = CiHwlInit(&client); - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - break; - case CIASICIDGFXENGINE_ARCTICISLAND: - switch (pCreateIn->chipFamily) - { - case FAMILY_AI: - case FAMILY_RV: - pLib = Gfx9HwlInit(&client); - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - - if (pLib != NULL) - { - BOOL_32 initValid; - - // Pass createFlags to configFlags first since these flags may be overwritten - pLib->m_configFlags.noCubeMipSlicesPad = pCreateIn->createFlags.noCubeMipSlicesPad; - pLib->m_configFlags.fillSizeFields = pCreateIn->createFlags.fillSizeFields; - pLib->m_configFlags.useTileIndex = pCreateIn->createFlags.useTileIndex; - pLib->m_configFlags.useCombinedSwizzle = pCreateIn->createFlags.useCombinedSwizzle; - pLib->m_configFlags.checkLast2DLevel = pCreateIn->createFlags.checkLast2DLevel; - pLib->m_configFlags.useHtileSliceAlign = pCreateIn->createFlags.useHtileSliceAlign; - pLib->m_configFlags.allowLargeThickTile = pCreateIn->createFlags.allowLargeThickTile; - pLib->m_configFlags.disableLinearOpt = FALSE; - - pLib->SetChipFamily(pCreateIn->chipFamily, pCreateIn->chipRevision); - - pLib->SetMinPitchAlignPixels(pCreateIn->minPitchAlignPixels); - - // Global parameters initialized and remaining configFlags bits are set as well - initValid = pLib->HwlInitGlobalParams(pCreateIn); - - if (initValid) - { - pLib->m_pElemLib = ElemLib::Create(pLib); - } - else - { - pLib->m_pElemLib = NULL; // Don't go on allocating element lib - returnCode = ADDR_INVALIDGBREGVALUES; - } - - if (pLib->m_pElemLib == NULL) - { - delete pLib; - pLib = NULL; - ADDR_ASSERT_ALWAYS(); - } - else - { - pLib->m_pElemLib->SetConfigFlags(pLib->m_configFlags); - } - } - - pCreateOut->hLib = pLib; - - if ((pLib != NULL) && - (returnCode == ADDR_OK)) - { - pCreateOut->numEquations = - pLib->HwlGetEquationTableInfo(&pCreateOut->pEquationTable); - - pLib->SetMaxAlignments(); - - } - else if ((pLib == NULL) && - (returnCode == ADDR_OK)) - { - // Unknown failures, we return the general error code - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::SetChipFamily -* -* @brief -* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::SetChipFamily( - UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h - UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h -{ - ChipFamily family = HwlConvertChipFamily(uChipFamily, uChipRevision); - - ADDR_ASSERT(family != ADDR_CHIP_FAMILY_IVLD); - - m_chipFamily = family; - m_chipRevision = uChipRevision; -} - -/** -**************************************************************************************************** -* Lib::SetMinPitchAlignPixels -* -* @brief -* Set m_minPitchAlignPixels with input param -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::SetMinPitchAlignPixels( - UINT_32 minPitchAlignPixels) ///< [in] minmum pitch alignment in pixels -{ - m_minPitchAlignPixels = (minPitchAlignPixels == 0) ? 1 : minPitchAlignPixels; -} - -/** -**************************************************************************************************** -* Lib::SetMaxAlignments -* -* @brief -* Set max alignments -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::SetMaxAlignments() -{ - m_maxBaseAlign = HwlComputeMaxBaseAlignments(); - m_maxMetaBaseAlign = HwlComputeMaxMetaBaseAlignments(); -} - -/** -**************************************************************************************************** -* Lib::GetLib -* -* @brief -* Get AddrLib pointer -* -* @return -* An AddrLib class pointer -**************************************************************************************************** -*/ -Lib* Lib::GetLib( - ADDR_HANDLE hLib) ///< [in] handle of ADDR_HANDLE -{ - return static_cast(hLib); -} - -/** -**************************************************************************************************** -* Lib::GetMaxAlignments -* -* @brief -* Gets maximum alignments for data surface (include FMask) -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::GetMaxAlignments( - ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if (pOut->size != sizeof(ADDR_GET_MAX_ALINGMENTS_OUTPUT)) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - if (m_maxBaseAlign != 0) - { - pOut->baseAlign = m_maxBaseAlign; - } - else - { - returnCode = ADDR_NOTIMPLEMENTED; - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::GetMaxMetaAlignments -* -* @brief -* Gets maximum alignments for metadata (CMask, DCC and HTile) -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::GetMaxMetaAlignments( - ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if (pOut->size != sizeof(ADDR_GET_MAX_ALINGMENTS_OUTPUT)) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - if (m_maxMetaBaseAlign != 0) - { - pOut->baseAlign = m_maxMetaBaseAlign; - } - else - { - returnCode = ADDR_NOTIMPLEMENTED; - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::Bits2Number -* -* @brief -* Cat a array of binary bit to a number -* -* @return -* The number combined with the array of bits -**************************************************************************************************** -*/ -UINT_32 Lib::Bits2Number( - UINT_32 bitNum, ///< [in] how many bits - ...) ///< [in] varaible bits value starting from MSB -{ - UINT_32 number = 0; - UINT_32 i; - va_list bits_ptr; - - va_start(bits_ptr, bitNum); - - for(i = 0; i < bitNum; i++) - { - number |= va_arg(bits_ptr, UINT_32); - number <<= 1; - } - - number >>= 1; - - va_end(bits_ptr); - - return number; -} - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Element lib -//////////////////////////////////////////////////////////////////////////////////////////////////// - - -/** -**************************************************************************************************** -* Lib::Flt32ToColorPixel -* -* @brief -* Convert a FLT_32 value to a depth/stencil pixel value -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::Flt32ToDepthPixel( - const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, - ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ELEM_FLT32TODEPTHPIXEL_INPUT)) || - (pOut->size != sizeof(ELEM_FLT32TODEPTHPIXEL_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - GetElemLib()->Flt32ToDepthPixel(pIn->format, pIn->comps, pOut->pPixel); - - UINT_32 depthBase = 0; - UINT_32 stencilBase = 0; - UINT_32 depthBits = 0; - UINT_32 stencilBits = 0; - - switch (pIn->format) - { - case ADDR_DEPTH_16: - depthBits = 16; - break; - case ADDR_DEPTH_X8_24: - case ADDR_DEPTH_8_24: - case ADDR_DEPTH_X8_24_FLOAT: - case ADDR_DEPTH_8_24_FLOAT: - depthBase = 8; - depthBits = 24; - stencilBits = 8; - break; - case ADDR_DEPTH_32_FLOAT: - depthBits = 32; - break; - case ADDR_DEPTH_X24_8_32_FLOAT: - depthBase = 8; - depthBits = 32; - stencilBits = 8; - break; - default: - break; - } - - // Overwrite base since R800 has no "tileBase" - if (GetElemLib()->IsDepthStencilTilePlanar() == FALSE) - { - depthBase = 0; - stencilBase = 0; - } - - depthBase *= 64; - stencilBase *= 64; - - pOut->stencilBase = stencilBase; - pOut->depthBase = depthBase; - pOut->depthBits = depthBits; - pOut->stencilBits = stencilBits; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::Flt32ToColorPixel -* -* @brief -* Convert a FLT_32 value to a red/green/blue/alpha pixel value -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::Flt32ToColorPixel( - const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, - ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ELEM_FLT32TOCOLORPIXEL_INPUT)) || - (pOut->size != sizeof(ELEM_FLT32TOCOLORPIXEL_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - GetElemLib()->Flt32ToColorPixel(pIn->format, - pIn->surfNum, - pIn->surfSwap, - pIn->comps, - pOut->pPixel); - } - - return returnCode; -} - - -/** -**************************************************************************************************** -* Lib::GetExportNorm -* -* @brief -* Check one format can be EXPORT_NUM -* @return -* TRUE if EXPORT_NORM can be used -**************************************************************************************************** -*/ -BOOL_32 Lib::GetExportNorm( - const ELEM_GETEXPORTNORM_INPUT* pIn) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - BOOL_32 enabled = FALSE; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if (pIn->size != sizeof(ELEM_GETEXPORTNORM_INPUT)) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - enabled = GetElemLib()->PixGetExportNorm(pIn->format, pIn->num, pIn->swap); - } - - return enabled; -} - -} // Addr diff --git a/src/amd/addrlib/core/addrlib.h b/src/amd/addrlib/core/addrlib.h deleted file mode 100644 index 0cbb4e0186f..00000000000 --- a/src/amd/addrlib/core/addrlib.h +++ /dev/null @@ -1,413 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrlib.h -* @brief Contains the Addr::Lib base class definition. -**************************************************************************************************** -*/ - -#ifndef __ADDR_LIB_H__ -#define __ADDR_LIB_H__ - -#include "addrinterface.h" -#include "addrobject.h" -#include "addrelemlib.h" - -#include "amdgpu_asic_addr.h" - -#ifndef CIASICIDGFXENGINE_R600 -#define CIASICIDGFXENGINE_R600 0x00000006 -#endif - -#ifndef CIASICIDGFXENGINE_R800 -#define CIASICIDGFXENGINE_R800 0x00000008 -#endif - -#ifndef CIASICIDGFXENGINE_SOUTHERNISLAND -#define CIASICIDGFXENGINE_SOUTHERNISLAND 0x0000000A -#endif - -#ifndef CIASICIDGFXENGINE_ARCTICISLAND -#define CIASICIDGFXENGINE_ARCTICISLAND 0x0000000D -#endif - -namespace Addr -{ - -/** -**************************************************************************************************** -* @brief Neutral enums that define pipeinterleave -**************************************************************************************************** -*/ -enum PipeInterleave -{ - ADDR_PIPEINTERLEAVE_256B = 256, - ADDR_PIPEINTERLEAVE_512B = 512, - ADDR_PIPEINTERLEAVE_1KB = 1024, - ADDR_PIPEINTERLEAVE_2KB = 2048, -}; - -/** -**************************************************************************************************** -* @brief Neutral enums that define DRAM row size -**************************************************************************************************** -*/ -enum RowSize -{ - ADDR_ROWSIZE_1KB = 1024, - ADDR_ROWSIZE_2KB = 2048, - ADDR_ROWSIZE_4KB = 4096, - ADDR_ROWSIZE_8KB = 8192, -}; - -/** -**************************************************************************************************** -* @brief Neutral enums that define bank interleave -**************************************************************************************************** -*/ -enum BankInterleave -{ - ADDR_BANKINTERLEAVE_1 = 1, - ADDR_BANKINTERLEAVE_2 = 2, - ADDR_BANKINTERLEAVE_4 = 4, - ADDR_BANKINTERLEAVE_8 = 8, -}; - -/** -**************************************************************************************************** -* @brief Neutral enums that define shader engine tile size -**************************************************************************************************** -*/ -enum ShaderEngineTileSize -{ - ADDR_SE_TILESIZE_16 = 16, - ADDR_SE_TILESIZE_32 = 32, -}; - -/** -**************************************************************************************************** -* @brief Neutral enums that define bank swap size -**************************************************************************************************** -*/ -enum BankSwapSize -{ - ADDR_BANKSWAP_128B = 128, - ADDR_BANKSWAP_256B = 256, - ADDR_BANKSWAP_512B = 512, - ADDR_BANKSWAP_1KB = 1024, -}; - -/** -**************************************************************************************************** -* @brief Enums that define max compressed fragments config -**************************************************************************************************** -*/ -enum NumMaxCompressedFragmentsConfig -{ - ADDR_CONFIG_1_MAX_COMPRESSED_FRAGMENTS = 0x00000000, - ADDR_CONFIG_2_MAX_COMPRESSED_FRAGMENTS = 0x00000001, - ADDR_CONFIG_4_MAX_COMPRESSED_FRAGMENTS = 0x00000002, - ADDR_CONFIG_8_MAX_COMPRESSED_FRAGMENTS = 0x00000003, -}; - -/** -**************************************************************************************************** -* @brief Enums that define num pipes config -**************************************************************************************************** -*/ -enum NumPipesConfig -{ - ADDR_CONFIG_1_PIPE = 0x00000000, - ADDR_CONFIG_2_PIPE = 0x00000001, - ADDR_CONFIG_4_PIPE = 0x00000002, - ADDR_CONFIG_8_PIPE = 0x00000003, - ADDR_CONFIG_16_PIPE = 0x00000004, - ADDR_CONFIG_32_PIPE = 0x00000005, - ADDR_CONFIG_64_PIPE = 0x00000006, -}; - -/** -**************************************************************************************************** -* @brief Enums that define num banks config -**************************************************************************************************** -*/ -enum NumBanksConfig -{ - ADDR_CONFIG_1_BANK = 0x00000000, - ADDR_CONFIG_2_BANK = 0x00000001, - ADDR_CONFIG_4_BANK = 0x00000002, - ADDR_CONFIG_8_BANK = 0x00000003, - ADDR_CONFIG_16_BANK = 0x00000004, -}; - -/** -**************************************************************************************************** -* @brief Enums that define num rb per shader engine config -**************************************************************************************************** -*/ -enum NumRbPerShaderEngineConfig -{ - ADDR_CONFIG_1_RB_PER_SHADER_ENGINE = 0x00000000, - ADDR_CONFIG_2_RB_PER_SHADER_ENGINE = 0x00000001, - ADDR_CONFIG_4_RB_PER_SHADER_ENGINE = 0x00000002, -}; - -/** -**************************************************************************************************** -* @brief Enums that define num shader engines config -**************************************************************************************************** -*/ -enum NumShaderEnginesConfig -{ - ADDR_CONFIG_1_SHADER_ENGINE = 0x00000000, - ADDR_CONFIG_2_SHADER_ENGINE = 0x00000001, - ADDR_CONFIG_4_SHADER_ENGINE = 0x00000002, - ADDR_CONFIG_8_SHADER_ENGINE = 0x00000003, -}; - -/** -**************************************************************************************************** -* @brief Enums that define pipe interleave size config -**************************************************************************************************** -*/ -enum PipeInterleaveSizeConfig -{ - ADDR_CONFIG_PIPE_INTERLEAVE_256B = 0x00000000, - ADDR_CONFIG_PIPE_INTERLEAVE_512B = 0x00000001, - ADDR_CONFIG_PIPE_INTERLEAVE_1KB = 0x00000002, - ADDR_CONFIG_PIPE_INTERLEAVE_2KB = 0x00000003, -}; - -/** -**************************************************************************************************** -* @brief Enums that define row size config -**************************************************************************************************** -*/ -enum RowSizeConfig -{ - ADDR_CONFIG_1KB_ROW = 0x00000000, - ADDR_CONFIG_2KB_ROW = 0x00000001, - ADDR_CONFIG_4KB_ROW = 0x00000002, -}; - -/** -**************************************************************************************************** -* @brief Enums that define bank interleave size config -**************************************************************************************************** -*/ -enum BankInterleaveSizeConfig -{ - ADDR_CONFIG_BANK_INTERLEAVE_1 = 0x00000000, - ADDR_CONFIG_BANK_INTERLEAVE_2 = 0x00000001, - ADDR_CONFIG_BANK_INTERLEAVE_4 = 0x00000002, - ADDR_CONFIG_BANK_INTERLEAVE_8 = 0x00000003, -}; - -/** -**************************************************************************************************** -* @brief Enums that define engine tile size config -**************************************************************************************************** -*/ -enum ShaderEngineTileSizeConfig -{ - ADDR_CONFIG_SE_TILE_16 = 0x00000000, - ADDR_CONFIG_SE_TILE_32 = 0x00000001, -}; - -/** -**************************************************************************************************** -* @brief This class contains asic independent address lib functionalities -**************************************************************************************************** -*/ -class Lib : public Object -{ -public: - virtual ~Lib(); - - static ADDR_E_RETURNCODE Create( - const ADDR_CREATE_INPUT* pCreateInfo, ADDR_CREATE_OUTPUT* pCreateOut); - - /// Pair of Create - VOID Destroy() - { - delete this; - } - - static Lib* GetLib(ADDR_HANDLE hLib); - - /// Returns AddrLib version (from compiled binary instead include file) - UINT_32 GetVersion() - { - return m_version; - } - - /// Returns asic chip family name defined by AddrLib - ChipFamily GetChipFamily() - { - return m_chipFamily; - } - - ADDR_E_RETURNCODE Flt32ToDepthPixel( - const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, - ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE Flt32ToColorPixel( - const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, - ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut) const; - - BOOL_32 GetExportNorm(const ELEM_GETEXPORTNORM_INPUT* pIn) const; - - ADDR_E_RETURNCODE GetMaxAlignments(ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE GetMaxMetaAlignments(ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) const; - -protected: - Lib(); // Constructor is protected - Lib(const Client* pClient); - - /// Pure virtual function to get max base alignments - virtual UINT_32 HwlComputeMaxBaseAlignments() const = 0; - - /// Gets maximum alignements for metadata - virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const - { - ADDR_NOT_IMPLEMENTED(); - - return 0; - } - - VOID ValidBaseAlignments(UINT_32 alignment) const - { -#if DEBUG - ADDR_ASSERT(alignment <= m_maxBaseAlign); -#endif - } - - VOID ValidMetaBaseAlignments(UINT_32 metaAlignment) const - { -#if DEBUG - ADDR_ASSERT(metaAlignment <= m_maxMetaBaseAlign); -#endif - } - - // - // Initialization - // - /// Pure Virtual function for Hwl computing internal global parameters from h/w registers - virtual BOOL_32 HwlInitGlobalParams(const ADDR_CREATE_INPUT* pCreateIn) = 0; - - /// Pure Virtual function for Hwl converting chip family - virtual ChipFamily HwlConvertChipFamily(UINT_32 uChipFamily, UINT_32 uChipRevision) = 0; - - /// Get equation table pointer and number of equations - virtual UINT_32 HwlGetEquationTableInfo(const ADDR_EQUATION** ppEquationTable) const - { - *ppEquationTable = NULL; - - return 0; - } - - // - // Misc helper - // - static UINT_32 Bits2Number(UINT_32 bitNum, ...); - - static UINT_32 GetNumFragments(UINT_32 numSamples, UINT_32 numFrags) - { - return (numFrags != 0) ? numFrags : Max(1u, numSamples); - } - - /// Returns pointer of ElemLib - ElemLib* GetElemLib() const - { - return m_pElemLib; - } - - /// Returns fillSizeFields flag - UINT_32 GetFillSizeFieldsFlags() const - { - return m_configFlags.fillSizeFields; - } - -private: - // Disallow the copy constructor - Lib(const Lib& a); - - // Disallow the assignment operator - Lib& operator=(const Lib& a); - - VOID SetChipFamily(UINT_32 uChipFamily, UINT_32 uChipRevision); - - VOID SetMinPitchAlignPixels(UINT_32 minPitchAlignPixels); - - VOID SetMaxAlignments(); - -protected: - LibClass m_class; ///< Store class type (HWL type) - - ChipFamily m_chipFamily; ///< Chip family translated from the one in atiid.h - - UINT_32 m_chipRevision; ///< Revision id from xxx_id.h - - UINT_32 m_version; ///< Current version - - // - // Global parameters - // - ConfigFlags m_configFlags; ///< Global configuration flags. Note this is setup by - /// AddrLib instead of Client except forceLinearAligned - - UINT_32 m_pipes; ///< Number of pipes - UINT_32 m_banks; ///< Number of banks - /// For r800 this is MC_ARB_RAMCFG.NOOFBANK - /// Keep it here to do default parameter calculation - - UINT_32 m_pipeInterleaveBytes; - ///< Specifies the size of contiguous address space - /// within each tiling pipe when making linear - /// accesses. (Formerly Group Size) - - UINT_32 m_rowSize; ///< DRAM row size, in bytes - - UINT_32 m_minPitchAlignPixels; ///< Minimum pitch alignment in pixels - UINT_32 m_maxSamples; ///< Max numSamples - - UINT_32 m_maxBaseAlign; ///< Max base alignment for data surface - UINT_32 m_maxMetaBaseAlign; ///< Max base alignment for metadata - -private: - ElemLib* m_pElemLib; ///< Element Lib pointer -}; - -Lib* SiHwlInit (const Client* pClient); -Lib* CiHwlInit (const Client* pClient); -Lib* Gfx9HwlInit (const Client* pClient); - -} // Addr - -#endif diff --git a/src/amd/addrlib/core/addrlib1.cpp b/src/amd/addrlib/core/addrlib1.cpp deleted file mode 100644 index 9c1d84289b3..00000000000 --- a/src/amd/addrlib/core/addrlib1.cpp +++ /dev/null @@ -1,4076 +0,0 @@ -/* - * Copyright © 2016 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addr1lib.cpp -* @brief Contains the implementation for the Addr::V1::Lib base class. -**************************************************************************************************** -*/ - -#include "addrinterface.h" -#include "addrlib1.h" -#include "addrcommon.h" - -namespace Addr -{ -namespace V1 -{ - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Static Const Member -//////////////////////////////////////////////////////////////////////////////////////////////////// - -const TileModeFlags Lib::ModeFlags[ADDR_TM_COUNT] = -{// T L 1 2 3 P Pr B - {1, 1, 0, 0, 0, 0, 0, 0}, // ADDR_TM_LINEAR_GENERAL - {1, 1, 0, 0, 0, 0, 0, 0}, // ADDR_TM_LINEAR_ALIGNED - {1, 0, 1, 0, 0, 0, 0, 0}, // ADDR_TM_1D_TILED_THIN1 - {4, 0, 1, 0, 0, 0, 0, 0}, // ADDR_TM_1D_TILED_THICK - {1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THIN1 - {1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THIN2 - {1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THIN4 - {4, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THICK - {1, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THIN1 - {1, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THIN2 - {1, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THIN4 - {4, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THICK - {1, 0, 0, 1, 1, 0, 0, 0}, // ADDR_TM_3D_TILED_THIN1 - {4, 0, 0, 1, 1, 0, 0, 0}, // ADDR_TM_3D_TILED_THICK - {1, 0, 0, 1, 1, 0, 0, 1}, // ADDR_TM_3B_TILED_THIN1 - {4, 0, 0, 1, 1, 0, 0, 1}, // ADDR_TM_3B_TILED_THICK - {8, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_XTHICK - {8, 0, 0, 1, 1, 0, 0, 0}, // ADDR_TM_3D_TILED_XTHICK - {1, 0, 0, 0, 0, 0, 0, 0}, // ADDR_TM_POWER_SAVE - {1, 0, 0, 1, 0, 1, 1, 0}, // ADDR_TM_PRT_TILED_THIN1 - {1, 0, 0, 1, 0, 1, 0, 0}, // ADDR_TM_PRT_2D_TILED_THIN1 - {1, 0, 0, 1, 1, 1, 0, 0}, // ADDR_TM_PRT_3D_TILED_THIN1 - {4, 0, 0, 1, 0, 1, 1, 0}, // ADDR_TM_PRT_TILED_THICK - {4, 0, 0, 1, 0, 1, 0, 0}, // ADDR_TM_PRT_2D_TILED_THICK - {4, 0, 0, 1, 1, 1, 0, 0}, // ADDR_TM_PRT_3D_TILED_THICK - {0, 0, 0, 0, 0, 0, 0, 0}, // ADDR_TM_UNKNOWN -}; - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Constructor/Destructor -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Lib::AddrLib1 -* -* @brief -* Constructor for the AddrLib1 class -* -**************************************************************************************************** -*/ -Lib::Lib() - : - Addr::Lib() -{ -} - -/** -**************************************************************************************************** -* Lib::Lib -* -* @brief -* Constructor for the Addr::V1::Lib class with hClient as parameter -* -**************************************************************************************************** -*/ -Lib::Lib(const Client* pClient) - : - Addr::Lib(pClient) -{ -} - -/** -**************************************************************************************************** -* Lib::~AddrLib1 -* -* @brief -* Destructor for the AddrLib1 class -* -**************************************************************************************************** -*/ -Lib::~Lib() -{ -} - -/** -**************************************************************************************************** -* Lib::GetLib -* -* @brief -* Get AddrLib1 pointer -* -* @return -* An Addr::V1::Lib class pointer -**************************************************************************************************** -*/ -Lib* Lib::GetLib( - ADDR_HANDLE hLib) ///< [in] handle of ADDR_HANDLE -{ - Addr::Lib* pAddrLib = Addr::Lib::GetLib(hLib); - if ((pAddrLib != NULL) && - ((pAddrLib->GetChipFamily() == ADDR_CHIP_FAMILY_IVLD) || - (pAddrLib->GetChipFamily() > ADDR_CHIP_FAMILY_VI))) - { - // only valid and pre-VI AISC can use AddrLib1 function. - ADDR_ASSERT_ALWAYS(); - hLib = NULL; - } - return static_cast(hLib); -} - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface Methods -//////////////////////////////////////////////////////////////////////////////////////////////////// - - -/** -**************************************************************************************************** -* Lib::ComputeSurfaceInfo -* -* @brief -* Interface function stub of AddrComputeSurfaceInfo. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_SURFACE_INFO_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_SURFACE_INFO_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - // We suggest client do sanity check but a check here is also good - if (pIn->bpp > 128) - { - returnCode = ADDR_INVALIDPARAMS; - } - - if ((pIn->tileMode == ADDR_TM_UNKNOWN) && (pIn->mipLevel > 0)) - { - returnCode = ADDR_INVALIDPARAMS; - } - - // Thick modes don't support multisample - if ((Thickness(pIn->tileMode) > 1) && (pIn->numSamples > 1)) - { - returnCode = ADDR_INVALIDPARAMS; - } - - if (returnCode == ADDR_OK) - { - // Get a local copy of input structure and only reference pIn for unadjusted values - ADDR_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; - ADDR_TILEINFO tileInfoNull = {0}; - - if (UseTileInfo()) - { - // If the original input has a valid ADDR_TILEINFO pointer then copy its contents. - // Otherwise the default 0's in tileInfoNull are used. - if (pIn->pTileInfo) - { - tileInfoNull = *pIn->pTileInfo; - } - localIn.pTileInfo = &tileInfoNull; - } - - localIn.numSamples = (pIn->numSamples == 0) ? 1 : pIn->numSamples; - - // Do mipmap check first - // If format is BCn, pre-pad dimension to power-of-two according to HWL - ComputeMipLevel(&localIn); - - if (m_configFlags.checkLast2DLevel) - { - // Save this level's original height in pixels - pOut->height = pIn->height; - } - - UINT_32 expandX = 1; - UINT_32 expandY = 1; - ElemMode elemMode; - - // Save outputs that may not go through HWL - pOut->pixelBits = localIn.bpp; - pOut->numSamples = localIn.numSamples; - pOut->last2DLevel = FALSE; - pOut->tcCompatible = FALSE; - -#if !ALT_TEST - if (localIn.numSamples > 1) - { - ADDR_ASSERT(localIn.mipLevel == 0); - } -#endif - - if (localIn.format != ADDR_FMT_INVALID) // Set format to INVALID will skip this conversion - { - // Get compression/expansion factors and element mode - // (which indicates compression/expansion - localIn.bpp = GetElemLib()->GetBitsPerPixel(localIn.format, - &elemMode, - &expandX, - &expandY); - - // Special flag for 96 bit surface. 96 (or 48 if we support) bit surface's width is - // pre-multiplied by 3 and bpp is divided by 3. So pitch alignment for linear- - // aligned does not meet 64-pixel in real. We keep special handling in hwl since hw - // restrictions are different. - // Also Mip 1+ needs an element pitch of 32 bits so we do not need this workaround - // but we use this flag to skip RestoreSurfaceInfo below - - if ((elemMode == ADDR_EXPANDED) && (expandX > 1)) - { - ADDR_ASSERT(IsLinear(localIn.tileMode)); - } - - GetElemLib()->AdjustSurfaceInfo(elemMode, - expandX, - expandY, - &localIn.bpp, - &localIn.basePitch, - &localIn.width, - &localIn.height); - - // Overwrite these parameters if we have a valid format - } - else if (localIn.bpp != 0) - { - localIn.width = (localIn.width != 0) ? localIn.width : 1; - localIn.height = (localIn.height != 0) ? localIn.height : 1; - } - else // Rule out some invalid parameters - { - ADDR_ASSERT_ALWAYS(); - - returnCode = ADDR_INVALIDPARAMS; - } - - // Check mipmap after surface expansion - if (returnCode == ADDR_OK) - { - returnCode = PostComputeMipLevel(&localIn, pOut); - } - - if (returnCode == ADDR_OK) - { - if (UseTileIndex(localIn.tileIndex)) - { - // Make sure pTileInfo is not NULL - ADDR_ASSERT(localIn.pTileInfo); - - UINT_32 numSamples = GetNumFragments(localIn.numSamples, localIn.numFrags); - - INT_32 macroModeIndex = TileIndexNoMacroIndex; - - if (localIn.tileIndex != TileIndexLinearGeneral) - { - // Try finding a macroModeIndex - macroModeIndex = HwlComputeMacroModeIndex(localIn.tileIndex, - localIn.flags, - localIn.bpp, - numSamples, - localIn.pTileInfo, - &localIn.tileMode, - &localIn.tileType); - } - - // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info - if (macroModeIndex == TileIndexNoMacroIndex) - { - returnCode = HwlSetupTileCfg(localIn.bpp, - localIn.tileIndex, macroModeIndex, - localIn.pTileInfo, - &localIn.tileMode, &localIn.tileType); - } - // If macroModeIndex is invalid, then assert this is not macro tiled - else if (macroModeIndex == TileIndexInvalid) - { - ADDR_ASSERT(!IsMacroTiled(localIn.tileMode)); - } - - pOut->macroModeIndex = macroModeIndex; - } - } - - if (returnCode == ADDR_OK) - { - localIn.flags.dccPipeWorkaround = localIn.flags.dccCompatible; - - if (localIn.tileMode == ADDR_TM_UNKNOWN) - { - // HWL layer may override tile mode if necessary - HwlSelectTileMode(&localIn); - } - else - { - // HWL layer may override tile mode if necessary - HwlOverrideTileMode(&localIn); - - // Optimize tile mode if possible - OptimizeTileMode(&localIn); - } - } - - // Call main function to compute surface info - if (returnCode == ADDR_OK) - { - returnCode = HwlComputeSurfaceInfo(&localIn, pOut); - } - - if (returnCode == ADDR_OK) - { - // Since bpp might be changed we just pass it through - pOut->bpp = localIn.bpp; - - // Also original width/height/bpp - pOut->pixelPitch = pOut->pitch; - pOut->pixelHeight = pOut->height; - -#if DEBUG - if (localIn.flags.display) - { - ADDR_ASSERT((pOut->pitchAlign % 32) == 0); - } -#endif //DEBUG - - if (localIn.format != ADDR_FMT_INVALID) - { - // - // Note: For 96 bit surface, the pixelPitch returned might be an odd number, but it - // is okay to program texture pitch as HW's mip calculator would multiply 3 first, - // then do the appropriate paddings (linear alignment requirement and possible the - // nearest power-of-two for mipmaps), which results in the original pitch. - // - GetElemLib()->RestoreSurfaceInfo(elemMode, - expandX, - expandY, - &localIn.bpp, - &pOut->pixelPitch, - &pOut->pixelHeight); - } - - if (localIn.flags.qbStereo) - { - if (pOut->pStereoInfo) - { - ComputeQbStereoInfo(pOut); - } - } - - if (localIn.flags.volume) // For volume sliceSize equals to all z-slices - { - pOut->sliceSize = pOut->surfSize; - } - else // For array: sliceSize is likely to have slice-padding (the last one) - { - pOut->sliceSize = pOut->surfSize / pOut->depth; - - // array or cubemap - if (pIn->numSlices > 1) - { - // If this is the last slice then add the padding size to this slice - if (pIn->slice == (pIn->numSlices - 1)) - { - pOut->sliceSize += pOut->sliceSize * (pOut->depth - pIn->numSlices); - } - else if (m_configFlags.checkLast2DLevel) - { - // Reset last2DLevel flag if this is not the last array slice - pOut->last2DLevel = FALSE; - } - } - } - - pOut->pitchTileMax = pOut->pitch / 8 - 1; - pOut->heightTileMax = pOut->height / 8 - 1; - pOut->sliceTileMax = pOut->pitch * pOut->height / 64 - 1; - } - } - - ValidBaseAlignments(pOut->baseAlign); - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeSurfaceInfo -* -* @brief -* Interface function stub of AddrComputeSurfaceInfo. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - const ADDR_SURFACE_FLAGS flags = {{0}}; - UINT_32 numSamples = GetNumFragments(pIn->numSamples, pIn->numFrags); - - // Try finding a macroModeIndex - INT_32 macroModeIndex = HwlComputeMacroModeIndex(input.tileIndex, - flags, - input.bpp, - numSamples, - input.pTileInfo, - &input.tileMode, - &input.tileType); - - // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info - if (macroModeIndex == TileIndexNoMacroIndex) - { - returnCode = HwlSetupTileCfg(input.bpp, input.tileIndex, macroModeIndex, - input.pTileInfo, &input.tileMode, &input.tileType); - } - // If macroModeIndex is invalid, then assert this is not macro tiled - else if (macroModeIndex == TileIndexInvalid) - { - ADDR_ASSERT(!IsMacroTiled(input.tileMode)); - } - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlComputeSurfaceAddrFromCoord(pIn, pOut); - - if (returnCode == ADDR_OK) - { - pOut->prtBlockIndex = static_cast(pOut->addr / (64 * 1024)); - } - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeSurfaceCoordFromAddr -* -* @brief -* Interface function stub of ComputeSurfaceCoordFromAddr. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - const ADDR_SURFACE_FLAGS flags = {{0}}; - UINT_32 numSamples = GetNumFragments(pIn->numSamples, pIn->numFrags); - - // Try finding a macroModeIndex - INT_32 macroModeIndex = HwlComputeMacroModeIndex(input.tileIndex, - flags, - input.bpp, - numSamples, - input.pTileInfo, - &input.tileMode, - &input.tileType); - - // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info - if (macroModeIndex == TileIndexNoMacroIndex) - { - returnCode = HwlSetupTileCfg(input.bpp, input.tileIndex, macroModeIndex, - input.pTileInfo, &input.tileMode, &input.tileType); - } - // If macroModeIndex is invalid, then assert this is not macro tiled - else if (macroModeIndex == TileIndexInvalid) - { - ADDR_ASSERT(!IsMacroTiled(input.tileMode)); - } - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlComputeSurfaceCoordFromAddr(pIn, pOut); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeSliceTileSwizzle -* -* @brief -* Interface function stub of ComputeSliceTileSwizzle. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeSliceTileSwizzle( - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_SLICESWIZZLE_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_SLICESWIZZLE_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_SLICESWIZZLE_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, - input.pTileInfo, &input.tileMode); - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlComputeSliceTileSwizzle(pIn, pOut); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ExtractBankPipeSwizzle -* -* @brief -* Interface function stub of AddrExtractBankPipeSwizzle. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ExtractBankPipeSwizzle( - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT)) || - (pOut->size != sizeof(ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlExtractBankPipeSwizzle(pIn, pOut); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::CombineBankPipeSwizzle -* -* @brief -* Interface function stub of AddrCombineBankPipeSwizzle. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::CombineBankPipeSwizzle( - const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure - ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_INFO_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_FMASK_INFO_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlCombineBankPipeSwizzle(pIn->bankSwizzle, - pIn->pipeSwizzle, - pIn->pTileInfo, - pIn->baseAddr, - &pOut->tileSwizzle); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeBaseSwizzle -* -* @brief -* Interface function stub of AddrCompueBaseSwizzle. -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeBaseSwizzle( - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_BASE_SWIZZLE_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_BASE_SWIZZLE_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - if (IsMacroTiled(pIn->tileMode)) - { - returnCode = HwlComputeBaseSwizzle(pIn, pOut); - } - else - { - pOut->tileSwizzle = 0; - } - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeFmaskInfo -* -* @brief -* Interface function stub of ComputeFmaskInfo. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_INFO_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_FMASK_INFO_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - // No thick MSAA - if (Thickness(pIn->tileMode) > 1) - { - returnCode = ADDR_INVALIDPARAMS; - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_FMASK_INFO_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - - if (pOut->pTileInfo) - { - // Use temp tile info for calcalation - input.pTileInfo = pOut->pTileInfo; - } - else - { - input.pTileInfo = &tileInfoNull; - } - - ADDR_SURFACE_FLAGS flags = {{0}}; - flags.fmask = 1; - - // Try finding a macroModeIndex - INT_32 macroModeIndex = HwlComputeMacroModeIndex(pIn->tileIndex, - flags, - HwlComputeFmaskBits(pIn, NULL), - pIn->numSamples, - input.pTileInfo, - &input.tileMode); - - // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info - if (macroModeIndex == TileIndexNoMacroIndex) - { - returnCode = HwlSetupTileCfg(0, input.tileIndex, macroModeIndex, - input.pTileInfo, &input.tileMode); - } - - ADDR_ASSERT(macroModeIndex != TileIndexInvalid); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - if (pIn->numSamples > 1) - { - returnCode = HwlComputeFmaskInfo(pIn, pOut); - } - else - { - memset(pOut, 0, sizeof(ADDR_COMPUTE_FMASK_INFO_OUTPUT)); - - returnCode = ADDR_INVALIDPARAMS; - } - } - } - - ValidBaseAlignments(pOut->baseAlign); - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeFmaskAddrFromCoord -* -* @brief -* Interface function stub of ComputeFmaskAddrFromCoord. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeFmaskAddrFromCoord( - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_ASSERT(pIn->numSamples > 1); - - if (pIn->numSamples > 1) - { - returnCode = HwlComputeFmaskAddrFromCoord(pIn, pOut); - } - else - { - returnCode = ADDR_INVALIDPARAMS; - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeFmaskCoordFromAddr -* -* @brief -* Interface function stub of ComputeFmaskAddrFromCoord. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeFmaskCoordFromAddr( - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_ASSERT(pIn->numSamples > 1); - - if (pIn->numSamples > 1) - { - returnCode = HwlComputeFmaskCoordFromAddr(pIn, pOut); - } - else - { - returnCode = ADDR_INVALIDPARAMS; - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ConvertTileInfoToHW -* -* @brief -* Convert tile info from real value to HW register value in HW layer -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] input structure - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_CONVERT_TILEINFOTOHW_INPUT)) || - (pOut->size != sizeof(ADDR_CONVERT_TILEINFOTOHW_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_CONVERT_TILEINFOTOHW_INPUT input; - // if pIn->reverse is TRUE, indices are ignored - if (pIn->reverse == FALSE && UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(input.bpp, input.tileIndex, - input.macroModeIndex, input.pTileInfo); - - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlConvertTileInfoToHW(pIn, pOut); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ConvertTileIndex -* -* @brief -* Convert tile index to tile mode/type/info -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ConvertTileIndex( - const ADDR_CONVERT_TILEINDEX_INPUT* pIn, ///< [in] input structure - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_CONVERT_TILEINDEX_INPUT)) || - (pOut->size != sizeof(ADDR_CONVERT_TILEINDEX_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - - returnCode = HwlSetupTileCfg(pIn->bpp, pIn->tileIndex, pIn->macroModeIndex, - pOut->pTileInfo, &pOut->tileMode, &pOut->tileType); - - if (returnCode == ADDR_OK && pIn->tileInfoHw) - { - ADDR_CONVERT_TILEINFOTOHW_INPUT hwInput = {0}; - ADDR_CONVERT_TILEINFOTOHW_OUTPUT hwOutput = {0}; - - hwInput.pTileInfo = pOut->pTileInfo; - hwInput.tileIndex = -1; - hwOutput.pTileInfo = pOut->pTileInfo; - - returnCode = HwlConvertTileInfoToHW(&hwInput, &hwOutput); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::GetMacroModeIndex -* -* @brief -* Get macro mode index based on input info -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::GetMacroModeIndex( - const ADDR_GET_MACROMODEINDEX_INPUT* pIn, ///< [in] input structure - ADDR_GET_MACROMODEINDEX_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags()) - { - if ((pIn->size != sizeof(ADDR_GET_MACROMODEINDEX_INPUT)) || - (pOut->size != sizeof(ADDR_GET_MACROMODEINDEX_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfo = {0}; - pOut->macroModeIndex = HwlComputeMacroModeIndex(pIn->tileIndex, pIn->flags, pIn->bpp, - pIn->numFrags, &tileInfo); - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ConvertTileIndex1 -* -* @brief -* Convert tile index to tile mode/type/info -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ConvertTileIndex1( - const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, ///< [in] input structure - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_CONVERT_TILEINDEX1_INPUT)) || - (pOut->size != sizeof(ADDR_CONVERT_TILEINDEX_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_SURFACE_FLAGS flags = {{0}}; - - HwlComputeMacroModeIndex(pIn->tileIndex, flags, pIn->bpp, pIn->numSamples, - pOut->pTileInfo, &pOut->tileMode, &pOut->tileType); - - if (pIn->tileInfoHw) - { - ADDR_CONVERT_TILEINFOTOHW_INPUT hwInput = {0}; - ADDR_CONVERT_TILEINFOTOHW_OUTPUT hwOutput = {0}; - - hwInput.pTileInfo = pOut->pTileInfo; - hwInput.tileIndex = -1; - hwOutput.pTileInfo = pOut->pTileInfo; - - returnCode = HwlConvertTileInfoToHW(&hwInput, &hwOutput); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::GetTileIndex -* -* @brief -* Get tile index from tile mode/type/info -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::GetTileIndex( - const ADDR_GET_TILEINDEX_INPUT* pIn, ///< [in] input structure - ADDR_GET_TILEINDEX_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_GET_TILEINDEX_INPUT)) || - (pOut->size != sizeof(ADDR_GET_TILEINDEX_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - returnCode = HwlGetTileIndex(pIn, pOut); - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::Thickness -* -* @brief -* Get tile mode thickness -* -* @return -* Tile mode thickness -**************************************************************************************************** -*/ -UINT_32 Lib::Thickness( - AddrTileMode tileMode) ///< [in] tile mode -{ - return ModeFlags[tileMode].thickness; -} - - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// CMASK/HTILE -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Lib::ComputeHtileInfo -* -* @brief -* Interface function stub of AddrComputeHtilenfo -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeHtileInfo( - const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - BOOL_32 isWidth8 = (pIn->blockWidth == 8) ? TRUE : FALSE; - BOOL_32 isHeight8 = (pIn->blockHeight == 8) ? TRUE : FALSE; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_HTILE_INFO_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_HTILE_INFO_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_HTILE_INFO_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - if (pIn->flags.tcCompatible) - { - const UINT_32 sliceSize = pIn->pitch * pIn->height * 4 / (8 * 8); - const UINT_32 align = HwlGetPipes(pIn->pTileInfo) * pIn->pTileInfo->banks * m_pipeInterleaveBytes; - - if (pIn->numSlices > 1) - { - const UINT_32 surfBytes = (sliceSize * pIn->numSlices); - - pOut->sliceSize = sliceSize; - pOut->htileBytes = pIn->flags.skipTcCompatSizeAlign ? - surfBytes : PowTwoAlign(surfBytes, align); - pOut->sliceInterleaved = ((sliceSize % align) != 0) ? TRUE : FALSE; - } - else - { - pOut->sliceSize = pIn->flags.skipTcCompatSizeAlign ? - sliceSize : PowTwoAlign(sliceSize, align); - pOut->htileBytes = pOut->sliceSize; - pOut->sliceInterleaved = FALSE; - } - - pOut->nextMipLevelCompressible = ((sliceSize % align) == 0) ? TRUE : FALSE; - - pOut->pitch = pIn->pitch; - pOut->height = pIn->height; - pOut->baseAlign = align; - pOut->macroWidth = 0; - pOut->macroHeight = 0; - pOut->bpp = 32; - } - else - { - pOut->bpp = ComputeHtileInfo(pIn->flags, - pIn->pitch, - pIn->height, - pIn->numSlices, - pIn->isLinear, - isWidth8, - isHeight8, - pIn->pTileInfo, - &pOut->pitch, - &pOut->height, - &pOut->htileBytes, - &pOut->macroWidth, - &pOut->macroHeight, - &pOut->sliceSize, - &pOut->baseAlign); - } - } - } - - ValidMetaBaseAlignments(pOut->baseAlign); - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeCmaskInfo -* -* @brief -* Interface function stub of AddrComputeCmaskInfo -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskInfo( - const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_CMASK_INFO_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_CMASK_INFO_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_CMASK_INFO_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - returnCode = ComputeCmaskInfo(pIn->flags, - pIn->pitch, - pIn->height, - pIn->numSlices, - pIn->isLinear, - pIn->pTileInfo, - &pOut->pitch, - &pOut->height, - &pOut->cmaskBytes, - &pOut->macroWidth, - &pOut->macroHeight, - &pOut->sliceSize, - &pOut->baseAlign, - &pOut->blockMax); - } - } - - ValidMetaBaseAlignments(pOut->baseAlign); - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeDccInfo -* -* @brief -* Interface function to compute DCC key info -* -* @return -* return code of HwlComputeDccInfo -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeDccInfo( - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE ret = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_DCCINFO_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_DCCINFO_OUTPUT))) - { - ret = ADDR_PARAMSIZEMISMATCH; - } - } - - if (ret == ADDR_OK) - { - ADDR_COMPUTE_DCCINFO_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - - ret = HwlSetupTileCfg(input.bpp, input.tileIndex, input.macroModeIndex, - &input.tileInfo, &input.tileMode); - - pIn = &input; - } - - if (ret == ADDR_OK) - { - ret = HwlComputeDccInfo(pIn, pOut); - - ValidMetaBaseAlignments(pOut->dccRamBaseAlign); - } - } - - return ret; -} - -/** -**************************************************************************************************** -* Lib::ComputeHtileAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeHtileAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeHtileAddrFromCoord( - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - BOOL_32 isWidth8 = (pIn->blockWidth == 8) ? TRUE : FALSE; - BOOL_32 isHeight8 = (pIn->blockHeight == 8) ? TRUE : FALSE; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - if (pIn->flags.tcCompatible) - { - HwlComputeHtileAddrFromCoord(pIn, pOut); - } - else - { - pOut->addr = HwlComputeXmaskAddrFromCoord(pIn->pitch, - pIn->height, - pIn->x, - pIn->y, - pIn->slice, - pIn->numSlices, - 1, - pIn->isLinear, - isWidth8, - isHeight8, - pIn->pTileInfo, - &pOut->bitPosition); - } - } - } - - return returnCode; - -} - -/** -**************************************************************************************************** -* Lib::ComputeHtileCoordFromAddr -* -* @brief -* Interface function stub of AddrComputeHtileCoordFromAddr -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeHtileCoordFromAddr( - const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - BOOL_32 isWidth8 = (pIn->blockWidth == 8) ? TRUE : FALSE; - BOOL_32 isHeight8 = (pIn->blockHeight == 8) ? TRUE : FALSE; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - HwlComputeXmaskCoordFromAddr(pIn->addr, - pIn->bitPosition, - pIn->pitch, - pIn->height, - pIn->numSlices, - 1, - pIn->isLinear, - isWidth8, - isHeight8, - pIn->pTileInfo, - &pOut->x, - &pOut->y, - &pOut->slice); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeCmaskAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeCmaskAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskAddrFromCoord( - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - if (pIn->flags.tcCompatible == TRUE) - { - returnCode = HwlComputeCmaskAddrFromCoord(pIn, pOut); - } - else - { - pOut->addr = HwlComputeXmaskAddrFromCoord(pIn->pitch, - pIn->height, - pIn->x, - pIn->y, - pIn->slice, - pIn->numSlices, - 2, - pIn->isLinear, - FALSE, //this is cmask, isWidth8 is not needed - FALSE, //this is cmask, isHeight8 is not needed - pIn->pTileInfo, - &pOut->bitPosition); - } - - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeCmaskCoordFromAddr -* -* @brief -* Interface function stub of AddrComputeCmaskCoordFromAddr -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskCoordFromAddr( - const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT)) || - (pOut->size != sizeof(ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if (returnCode == ADDR_OK) - { - ADDR_TILEINFO tileInfoNull; - ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT input; - - if (UseTileIndex(pIn->tileIndex)) - { - input = *pIn; - // Use temp tile info for calcalation - input.pTileInfo = &tileInfoNull; - - returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); - - // Change the input structure - pIn = &input; - } - - if (returnCode == ADDR_OK) - { - HwlComputeXmaskCoordFromAddr(pIn->addr, - pIn->bitPosition, - pIn->pitch, - pIn->height, - pIn->numSlices, - 2, - pIn->isLinear, - FALSE, - FALSE, - pIn->pTileInfo, - &pOut->x, - &pOut->y, - &pOut->slice); - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeTileDataWidthAndHeight -* -* @brief -* Compute the squared cache shape for per-tile data (CMASK and HTILE) -* -* @return -* N/A -* -* @note -* MacroWidth and macroHeight are measured in pixels -**************************************************************************************************** -*/ -VOID Lib::ComputeTileDataWidthAndHeight( - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 cacheBits, ///< [in] bits of cache - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pMacroWidth, ///< [out] macro tile width - UINT_32* pMacroHeight ///< [out] macro tile height - ) const -{ - UINT_32 height = 1; - UINT_32 width = cacheBits / bpp; - UINT_32 pipes = HwlGetPipes(pTileInfo); - - // Double height until the macro-tile is close to square - // Height can only be doubled if width is even - - while ((width > height * 2 * pipes) && !(width & 1)) - { - width /= 2; - height *= 2; - } - - *pMacroWidth = 8 * width; - *pMacroHeight = 8 * height * pipes; - - // Note: The above iterative comptuation is equivalent to the following - // - //int log2_height = ((log2(cacheBits)-log2(bpp)-log2(pipes))/2); - //int macroHeight = pow2( 3+log2(pipes)+log2_height ); -} - -/** -**************************************************************************************************** -* Lib::HwlComputeTileDataWidthAndHeightLinear -* -* @brief -* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout -* -* @return -* N/A -* -* @note -* MacroWidth and macroHeight are measured in pixels -**************************************************************************************************** -*/ -VOID Lib::HwlComputeTileDataWidthAndHeightLinear( - UINT_32* pMacroWidth, ///< [out] macro tile width - UINT_32* pMacroHeight, ///< [out] macro tile height - UINT_32 bpp, ///< [in] bits per pixel - ADDR_TILEINFO* pTileInfo ///< [in] tile info - ) const -{ - ADDR_ASSERT(bpp != 4); // Cmask does not support linear layout prior to SI - *pMacroWidth = 8 * 512 / bpp; // Align width to 512-bit memory accesses - *pMacroHeight = 8 * m_pipes; // Align height to number of pipes -} - -/** -**************************************************************************************************** -* Lib::ComputeHtileInfo -* -* @brief -* Compute htile pitch,width, bytes per 2D slice -* -* @return -* Htile bpp i.e. How many bits for an 8x8 tile -* Also returns by output parameters: -* *Htile pitch, height, total size in bytes, macro-tile dimensions and slice size* -**************************************************************************************************** -*/ -UINT_32 Lib::ComputeHtileInfo( - ADDR_HTILE_FLAGS flags, ///< [in] htile flags - UINT_32 pitchIn, ///< [in] pitch input - UINT_32 heightIn, ///< [in] height input - UINT_32 numSlices, ///< [in] number of slices - BOOL_32 isLinear, ///< [in] if it is linear mode - BOOL_32 isWidth8, ///< [in] if htile block width is 8 - BOOL_32 isHeight8, ///< [in] if htile block height is 8 - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pPitchOut, ///< [out] pitch output - UINT_32* pHeightOut, ///< [out] height output - UINT_64* pHtileBytes, ///< [out] bytes per 2D slice - UINT_32* pMacroWidth, ///< [out] macro-tile width in pixels - UINT_32* pMacroHeight, ///< [out] macro-tile width in pixels - UINT_64* pSliceSize, ///< [out] slice size in bytes - UINT_32* pBaseAlign ///< [out] base alignment - ) const -{ - - UINT_32 macroWidth; - UINT_32 macroHeight; - UINT_32 baseAlign; - UINT_64 surfBytes; - UINT_64 sliceBytes; - - numSlices = Max(1u, numSlices); - - const UINT_32 bpp = HwlComputeHtileBpp(isWidth8, isHeight8); - const UINT_32 cacheBits = HtileCacheBits; - - if (isLinear) - { - HwlComputeTileDataWidthAndHeightLinear(¯oWidth, - ¯oHeight, - bpp, - pTileInfo); - } - else - { - ComputeTileDataWidthAndHeight(bpp, - cacheBits, - pTileInfo, - ¯oWidth, - ¯oHeight); - } - - *pPitchOut = PowTwoAlign(pitchIn, macroWidth); - *pHeightOut = PowTwoAlign(heightIn, macroHeight); - - baseAlign = HwlComputeHtileBaseAlign(flags.tcCompatible, isLinear, pTileInfo); - - surfBytes = HwlComputeHtileBytes(*pPitchOut, - *pHeightOut, - bpp, - isLinear, - numSlices, - &sliceBytes, - baseAlign); - - *pHtileBytes = surfBytes; - - // - // Use SafeAssign since they are optional - // - SafeAssign(pMacroWidth, macroWidth); - - SafeAssign(pMacroHeight, macroHeight); - - SafeAssign(pSliceSize, sliceBytes); - - SafeAssign(pBaseAlign, baseAlign); - - return bpp; -} - -/** -**************************************************************************************************** -* Lib::ComputeCmaskBaseAlign -* -* @brief -* Compute cmask base alignment -* -* @return -* Cmask base alignment -**************************************************************************************************** -*/ -UINT_32 Lib::ComputeCmaskBaseAlign( - ADDR_CMASK_FLAGS flags, ///< [in] Cmask flags - ADDR_TILEINFO* pTileInfo ///< [in] Tile info - ) const -{ - UINT_32 baseAlign = m_pipeInterleaveBytes * HwlGetPipes(pTileInfo); - - if (flags.tcCompatible) - { - ADDR_ASSERT(pTileInfo != NULL); - if (pTileInfo) - { - baseAlign *= pTileInfo->banks; - } - } - - return baseAlign; -} - -/** -**************************************************************************************************** -* Lib::ComputeCmaskBytes -* -* @brief -* Compute cmask size in bytes -* -* @return -* Cmask size in bytes -**************************************************************************************************** -*/ -UINT_64 Lib::ComputeCmaskBytes( - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 numSlices ///< [in] number of slices - ) const -{ - return BITS_TO_BYTES(static_cast(pitch) * height * numSlices * CmaskElemBits) / - MicroTilePixels; -} - -/** -**************************************************************************************************** -* Lib::ComputeCmaskInfo -* -* @brief -* Compute cmask pitch,width, bytes per 2D slice -* -* @return -* BlockMax. Also by output parameters: Cmask pitch,height, total size in bytes, -* macro-tile dimensions -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskInfo( - ADDR_CMASK_FLAGS flags, ///< [in] cmask flags - UINT_32 pitchIn, ///< [in] pitch input - UINT_32 heightIn, ///< [in] height input - UINT_32 numSlices, ///< [in] number of slices - BOOL_32 isLinear, ///< [in] is linear mode - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pPitchOut, ///< [out] pitch output - UINT_32* pHeightOut, ///< [out] height output - UINT_64* pCmaskBytes, ///< [out] bytes per 2D slice - UINT_32* pMacroWidth, ///< [out] macro-tile width in pixels - UINT_32* pMacroHeight, ///< [out] macro-tile width in pixels - UINT_64* pSliceSize, ///< [out] slice size in bytes - UINT_32* pBaseAlign, ///< [out] base alignment - UINT_32* pBlockMax ///< [out] block max == slice / 128 / 128 - 1 - ) const -{ - UINT_32 macroWidth; - UINT_32 macroHeight; - UINT_32 baseAlign; - UINT_64 surfBytes; - UINT_64 sliceBytes; - - numSlices = Max(1u, numSlices); - - const UINT_32 bpp = CmaskElemBits; - const UINT_32 cacheBits = CmaskCacheBits; - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (isLinear) - { - HwlComputeTileDataWidthAndHeightLinear(¯oWidth, - ¯oHeight, - bpp, - pTileInfo); - } - else - { - ComputeTileDataWidthAndHeight(bpp, - cacheBits, - pTileInfo, - ¯oWidth, - ¯oHeight); - } - - *pPitchOut = (pitchIn + macroWidth - 1) & ~(macroWidth - 1); - *pHeightOut = (heightIn + macroHeight - 1) & ~(macroHeight - 1); - - - sliceBytes = ComputeCmaskBytes(*pPitchOut, - *pHeightOut, - 1); - - baseAlign = ComputeCmaskBaseAlign(flags, pTileInfo); - - while (sliceBytes % baseAlign) - { - *pHeightOut += macroHeight; - - sliceBytes = ComputeCmaskBytes(*pPitchOut, - *pHeightOut, - 1); - } - - surfBytes = sliceBytes * numSlices; - - *pCmaskBytes = surfBytes; - - // - // Use SafeAssign since they are optional - // - SafeAssign(pMacroWidth, macroWidth); - - SafeAssign(pMacroHeight, macroHeight); - - SafeAssign(pBaseAlign, baseAlign); - - SafeAssign(pSliceSize, sliceBytes); - - UINT_32 slice = (*pPitchOut) * (*pHeightOut); - UINT_32 blockMax = slice / 128 / 128 - 1; - -#if DEBUG - if (slice % (64*256) != 0) - { - ADDR_ASSERT_ALWAYS(); - } -#endif //DEBUG - - UINT_32 maxBlockMax = HwlGetMaxCmaskBlockMax(); - - if (blockMax > maxBlockMax) - { - blockMax = maxBlockMax; - returnCode = ADDR_INVALIDPARAMS; - } - - SafeAssign(pBlockMax, blockMax); - - return returnCode; -} - -/** -**************************************************************************************************** -* Lib::ComputeXmaskCoordYFromPipe -* -* @brief -* Compute the Y coord from pipe number for cmask/htile -* -* @return -* Y coordinate -* -**************************************************************************************************** -*/ -UINT_32 Lib::ComputeXmaskCoordYFromPipe( - UINT_32 pipe, ///< [in] pipe number - UINT_32 x ///< [in] x coordinate - ) const -{ - UINT_32 pipeBit0; - UINT_32 pipeBit1; - UINT_32 xBit0; - UINT_32 xBit1; - UINT_32 yBit0; - UINT_32 yBit1; - - UINT_32 y = 0; - - UINT_32 numPipes = m_pipes; // SI has its implementation - // - // Convert pipe + x to y coordinate. - // - switch (numPipes) - { - case 1: - // - // 1 pipe - // - // p0 = 0 - // - y = 0; - break; - case 2: - // - // 2 pipes - // - // p0 = x0 ^ y0 - // - // y0 = p0 ^ x0 - // - pipeBit0 = pipe & 0x1; - - xBit0 = x & 0x1; - - yBit0 = pipeBit0 ^ xBit0; - - y = yBit0; - break; - case 4: - // - // 4 pipes - // - // p0 = x1 ^ y0 - // p1 = x0 ^ y1 - // - // y0 = p0 ^ x1 - // y1 = p1 ^ x0 - // - pipeBit0 = pipe & 0x1; - pipeBit1 = (pipe & 0x2) >> 1; - - xBit0 = x & 0x1; - xBit1 = (x & 0x2) >> 1; - - yBit0 = pipeBit0 ^ xBit1; - yBit1 = pipeBit1 ^ xBit0; - - y = (yBit0 | - (yBit1 << 1)); - break; - case 8: - // - // 8 pipes - // - // r600 and r800 have different method - // - y = HwlComputeXmaskCoordYFrom8Pipe(pipe, x); - break; - default: - break; - } - return y; -} - -/** -**************************************************************************************************** -* Lib::HwlComputeXmaskCoordFromAddr -* -* @brief -* Compute the coord from an address of a cmask/htile -* -* @return -* N/A -* -* @note -* This method is reused by htile, so rename to Xmask -**************************************************************************************************** -*/ -VOID Lib::HwlComputeXmaskCoordFromAddr( - UINT_64 addr, ///< [in] address - UINT_32 bitPosition, ///< [in] bitPosition in a byte - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 numSlices, ///< [in] number of slices - UINT_32 factor, ///< [in] factor that indicates cmask or htile - BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout - BOOL_32 isWidth8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value - BOOL_32 isHeight8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pX, ///< [out] x coord - UINT_32* pY, ///< [out] y coord - UINT_32* pSlice ///< [out] slice index - ) const -{ - UINT_32 pipe; - UINT_32 numPipes; - UINT_32 numGroupBits; - (void)numGroupBits; - UINT_32 numPipeBits; - UINT_32 macroTilePitch; - UINT_32 macroTileHeight; - - UINT_64 bitAddr; - - UINT_32 microTileCoordY; - - UINT_32 elemBits; - - UINT_32 pitchAligned = pitch; - UINT_32 heightAligned = height; - UINT_64 totalBytes; - - UINT_64 elemOffset; - - UINT_64 macroIndex; - UINT_32 microIndex; - - UINT_64 macroNumber; - UINT_32 microNumber; - - UINT_32 macroX; - UINT_32 macroY; - UINT_32 macroZ; - - UINT_32 microX; - UINT_32 microY; - - UINT_32 tilesPerMacro; - UINT_32 macrosPerPitch; - UINT_32 macrosPerSlice; - - // - // Extract pipe. - // - numPipes = HwlGetPipes(pTileInfo); - pipe = ComputePipeFromAddr(addr, numPipes); - - // - // Compute the number of group and pipe bits. - // - numGroupBits = Log2(m_pipeInterleaveBytes); - numPipeBits = Log2(numPipes); - - UINT_32 groupBits = 8 * m_pipeInterleaveBytes; - UINT_32 pipes = numPipes; - - - // - // Compute the micro tile size, in bits. And macro tile pitch and height. - // - if (factor == 2) //CMASK - { - ADDR_CMASK_FLAGS flags = {{0}}; - - elemBits = CmaskElemBits; - - ComputeCmaskInfo(flags, - pitch, - height, - numSlices, - isLinear, - pTileInfo, - &pitchAligned, - &heightAligned, - &totalBytes, - ¯oTilePitch, - ¯oTileHeight); - } - else //HTILE - { - ADDR_HTILE_FLAGS flags = {{0}}; - - if (factor != 1) - { - factor = 1; - } - - elemBits = HwlComputeHtileBpp(isWidth8, isHeight8); - - ComputeHtileInfo(flags, - pitch, - height, - numSlices, - isLinear, - isWidth8, - isHeight8, - pTileInfo, - &pitchAligned, - &heightAligned, - &totalBytes, - ¯oTilePitch, - ¯oTileHeight); - } - - // Should use aligned dims - // - pitch = pitchAligned; - height = heightAligned; - - - // - // Convert byte address to bit address. - // - bitAddr = BYTES_TO_BITS(addr) + bitPosition; - - - // - // Remove pipe bits from address. - // - - bitAddr = (bitAddr % groupBits) + ((bitAddr/groupBits/pipes)*groupBits); - - - elemOffset = bitAddr / elemBits; - - tilesPerMacro = (macroTilePitch/factor) * macroTileHeight / MicroTilePixels >> numPipeBits; - - macrosPerPitch = pitch / (macroTilePitch/factor); - macrosPerSlice = macrosPerPitch * height / macroTileHeight; - - macroIndex = elemOffset / factor / tilesPerMacro; - microIndex = static_cast(elemOffset % (tilesPerMacro * factor)); - - macroNumber = macroIndex * factor + microIndex % factor; - microNumber = microIndex / factor; - - macroX = static_cast((macroNumber % macrosPerPitch)); - macroY = static_cast((macroNumber % macrosPerSlice) / macrosPerPitch); - macroZ = static_cast((macroNumber / macrosPerSlice)); - - - microX = microNumber % (macroTilePitch / factor / MicroTileWidth); - microY = (microNumber / (macroTilePitch / factor / MicroTileHeight)); - - *pX = macroX * (macroTilePitch/factor) + microX * MicroTileWidth; - *pY = macroY * macroTileHeight + (microY * MicroTileHeight << numPipeBits); - *pSlice = macroZ; - - microTileCoordY = ComputeXmaskCoordYFromPipe(pipe, - *pX/MicroTileWidth); - - - // - // Assemble final coordinates. - // - *pY += microTileCoordY * MicroTileHeight; - -} - -/** -**************************************************************************************************** -* Lib::HwlComputeXmaskAddrFromCoord -* -* @brief -* Compute the address from an address of cmask (prior to si) -* -* @return -* Address in bytes -* -**************************************************************************************************** -*/ -UINT_64 Lib::HwlComputeXmaskAddrFromCoord( - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 x, ///< [in] x coord - UINT_32 y, ///< [in] y coord - UINT_32 slice, ///< [in] slice/depth index - UINT_32 numSlices, ///< [in] number of slices - UINT_32 factor, ///< [in] factor that indicates cmask(2) or htile(1) - BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout - BOOL_32 isWidth8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value - BOOL_32 isHeight8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pBitPosition ///< [out] bit position inside a byte - ) const -{ - UINT_64 addr; - UINT_32 numGroupBits; - UINT_32 numPipeBits; - UINT_32 newPitch = 0; - UINT_32 newHeight = 0; - UINT_64 sliceBytes = 0; - UINT_64 totalBytes = 0; - UINT_64 sliceOffset; - UINT_32 pipe; - UINT_32 macroTileWidth; - UINT_32 macroTileHeight; - UINT_32 macroTilesPerRow; - UINT_32 macroTileBytes; - UINT_32 macroTileIndexX; - UINT_32 macroTileIndexY; - UINT_64 macroTileOffset; - UINT_32 pixelBytesPerRow; - UINT_32 pixelOffsetX; - UINT_32 pixelOffsetY; - UINT_32 pixelOffset; - UINT_64 totalOffset; - UINT_64 offsetLo; - UINT_64 offsetHi; - UINT_64 groupMask; - - - UINT_32 elemBits = 0; - - UINT_32 numPipes = m_pipes; // This function is accessed prior to si only - - if (factor == 2) //CMASK - { - elemBits = CmaskElemBits; - - // For asics before SI, cmask is always tiled - isLinear = FALSE; - } - else //HTILE - { - if (factor != 1) // Fix compile warning - { - factor = 1; - } - - elemBits = HwlComputeHtileBpp(isWidth8, isHeight8); - } - - // - // Compute the number of group bits and pipe bits. - // - numGroupBits = Log2(m_pipeInterleaveBytes); - numPipeBits = Log2(numPipes); - - // - // Compute macro tile dimensions. - // - if (factor == 2) // CMASK - { - ADDR_CMASK_FLAGS flags = {{0}}; - - ComputeCmaskInfo(flags, - pitch, - height, - numSlices, - isLinear, - pTileInfo, - &newPitch, - &newHeight, - &totalBytes, - ¯oTileWidth, - ¯oTileHeight); - - sliceBytes = totalBytes / numSlices; - } - else // HTILE - { - ADDR_HTILE_FLAGS flags = {{0}}; - - ComputeHtileInfo(flags, - pitch, - height, - numSlices, - isLinear, - isWidth8, - isHeight8, - pTileInfo, - &newPitch, - &newHeight, - &totalBytes, - ¯oTileWidth, - ¯oTileHeight, - &sliceBytes); - } - - sliceOffset = slice * sliceBytes; - - // - // Get the pipe. Note that neither slice rotation nor pipe swizzling apply for CMASK. - // - pipe = ComputePipeFromCoord(x, - y, - 0, - ADDR_TM_2D_TILED_THIN1, - 0, - FALSE, - pTileInfo); - - // - // Compute the number of macro tiles per row. - // - macroTilesPerRow = newPitch / macroTileWidth; - - // - // Compute the number of bytes per macro tile. - // - macroTileBytes = BITS_TO_BYTES((macroTileWidth * macroTileHeight * elemBits) / MicroTilePixels); - - // - // Compute the offset to the macro tile containing the specified coordinate. - // - macroTileIndexX = x / macroTileWidth; - macroTileIndexY = y / macroTileHeight; - macroTileOffset = ((macroTileIndexY * macroTilesPerRow) + macroTileIndexX) * macroTileBytes; - - // - // Compute the pixel offset within the macro tile. - // - pixelBytesPerRow = BITS_TO_BYTES(macroTileWidth * elemBits) / MicroTileWidth; - - // - // The nibbles are interleaved (see below), so the part of the offset relative to the x - // coordinate repeats halfway across the row. (Not for HTILE) - // - if (factor == 2) - { - pixelOffsetX = (x % (macroTileWidth / 2)) / MicroTileWidth; - } - else - { - pixelOffsetX = (x % (macroTileWidth)) / MicroTileWidth * BITS_TO_BYTES(elemBits); - } - - // - // Compute the y offset within the macro tile. - // - pixelOffsetY = (((y % macroTileHeight) / MicroTileHeight) / numPipes) * pixelBytesPerRow; - - pixelOffset = pixelOffsetX + pixelOffsetY; - - // - // Combine the slice offset and macro tile offset with the pixel offset, accounting for the - // pipe bits in the middle of the address. - // - totalOffset = ((sliceOffset + macroTileOffset) >> numPipeBits) + pixelOffset; - - // - // Split the offset to put some bits below the pipe bits and some above. - // - groupMask = (1 << numGroupBits) - 1; - offsetLo = totalOffset & groupMask; - offsetHi = (totalOffset & ~groupMask) << numPipeBits; - - // - // Assemble the address from its components. - // - addr = offsetLo; - addr |= offsetHi; - // This is to remove warning with /analyze option - UINT_32 pipeBits = pipe << numGroupBits; - addr |= pipeBits; - - // - // Compute the bit position. The lower nibble is used when the x coordinate within the macro - // tile is less than half of the macro tile width, and the upper nibble is used when the x - // coordinate within the macro tile is greater than or equal to half the macro tile width. - // - *pBitPosition = ((x % macroTileWidth) < (macroTileWidth / factor)) ? 0 : 4; - - return addr; -} - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface Addressing Shared -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -**************************************************************************************************** -* Lib::ComputeSurfaceAddrFromCoordLinear -* -* @brief -* Compute address from coord for linear surface -* -* @return -* Address in bytes -* -**************************************************************************************************** -*/ -UINT_64 Lib::ComputeSurfaceAddrFromCoordLinear( - UINT_32 x, ///< [in] x coord - UINT_32 y, ///< [in] y coord - UINT_32 slice, ///< [in] slice/depth index - UINT_32 sample, ///< [in] sample index - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 numSlices, ///< [in] number of slices - UINT_32* pBitPosition ///< [out] bit position inside a byte - ) const -{ - const UINT_64 sliceSize = static_cast(pitch) * height; - - UINT_64 sliceOffset = (slice + sample * numSlices)* sliceSize; - UINT_64 rowOffset = static_cast(y) * pitch; - UINT_64 pixOffset = x; - - UINT_64 addr = (sliceOffset + rowOffset + pixOffset) * bpp; - - *pBitPosition = static_cast(addr % 8); - addr /= 8; - - return addr; -} - -/** -**************************************************************************************************** -* Lib::ComputeSurfaceCoordFromAddrLinear -* -* @brief -* Compute the coord from an address of a linear surface -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::ComputeSurfaceCoordFromAddrLinear( - UINT_64 addr, ///< [in] address - UINT_32 bitPosition, ///< [in] bitPosition in a byte - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 numSlices, ///< [in] number of slices - UINT_32* pX, ///< [out] x coord - UINT_32* pY, ///< [out] y coord - UINT_32* pSlice, ///< [out] slice/depth index - UINT_32* pSample ///< [out] sample index - ) const -{ - const UINT_64 sliceSize = static_cast(pitch) * height; - const UINT_64 linearOffset = (BYTES_TO_BITS(addr) + bitPosition) / bpp; - - *pX = static_cast((linearOffset % sliceSize) % pitch); - *pY = static_cast((linearOffset % sliceSize) / pitch % height); - *pSlice = static_cast((linearOffset / sliceSize) % numSlices); - *pSample = static_cast((linearOffset / sliceSize) / numSlices); -} - -/** -**************************************************************************************************** -* Lib::ComputeSurfaceCoordFromAddrMicroTiled -* -* @brief -* Compute the coord from an address of a micro tiled surface -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::ComputeSurfaceCoordFromAddrMicroTiled( - UINT_64 addr, ///< [in] address - UINT_32 bitPosition, ///< [in] bitPosition in a byte - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 numSamples, ///< [in] number of samples - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 tileBase, ///< [in] base offset within a tile - UINT_32 compBits, ///< [in] component bits actually needed(for planar surface) - UINT_32* pX, ///< [out] x coord - UINT_32* pY, ///< [out] y coord - UINT_32* pSlice, ///< [out] slice/depth index - UINT_32* pSample, ///< [out] sample index, - AddrTileType microTileType, ///< [in] micro tiling order - BOOL_32 isDepthSampleOrder ///< [in] TRUE if in depth sample order - ) const -{ - UINT_64 bitAddr; - UINT_32 microTileThickness; - UINT_32 microTileBits; - UINT_64 sliceBits; - UINT_64 rowBits; - UINT_32 sliceIndex; - UINT_32 microTileCoordX; - UINT_32 microTileCoordY; - UINT_32 pixelOffset; - UINT_32 pixelCoordX = 0; - UINT_32 pixelCoordY = 0; - UINT_32 pixelCoordZ = 0; - UINT_32 pixelCoordS = 0; - - // - // Convert byte address to bit address. - // - bitAddr = BYTES_TO_BITS(addr) + bitPosition; - - // - // Compute the micro tile size, in bits. - // - switch (tileMode) - { - case ADDR_TM_1D_TILED_THICK: - microTileThickness = ThickTileThickness; - break; - default: - microTileThickness = 1; - break; - } - - microTileBits = MicroTilePixels * microTileThickness * bpp * numSamples; - - // - // Compute number of bits per slice and number of bits per row of micro tiles. - // - sliceBits = static_cast(pitch) * height * microTileThickness * bpp * numSamples; - - rowBits = (pitch / MicroTileWidth) * microTileBits; - - // - // Extract the slice index. - // - sliceIndex = static_cast(bitAddr / sliceBits); - bitAddr -= sliceIndex * sliceBits; - - // - // Extract the y coordinate of the micro tile. - // - microTileCoordY = static_cast(bitAddr / rowBits) * MicroTileHeight; - bitAddr -= (microTileCoordY / MicroTileHeight) * rowBits; - - // - // Extract the x coordinate of the micro tile. - // - microTileCoordX = static_cast(bitAddr / microTileBits) * MicroTileWidth; - - // - // Compute the pixel offset within the micro tile. - // - pixelOffset = static_cast(bitAddr % microTileBits); - - // - // Extract pixel coordinates from the offset. - // - HwlComputePixelCoordFromOffset(pixelOffset, - bpp, - numSamples, - tileMode, - tileBase, - compBits, - &pixelCoordX, - &pixelCoordY, - &pixelCoordZ, - &pixelCoordS, - microTileType, - isDepthSampleOrder); - - // - // Assemble final coordinates. - // - *pX = microTileCoordX + pixelCoordX; - *pY = microTileCoordY + pixelCoordY; - *pSlice = (sliceIndex * microTileThickness) + pixelCoordZ; - *pSample = pixelCoordS; - - if (microTileThickness > 1) - { - *pSample = 0; - } -} - -/** -**************************************************************************************************** -* Lib::ComputePipeFromAddr -* -* @brief -* Compute the pipe number from an address -* -* @return -* Pipe number -* -**************************************************************************************************** -*/ -UINT_32 Lib::ComputePipeFromAddr( - UINT_64 addr, ///< [in] address - UINT_32 numPipes ///< [in] number of banks - ) const -{ - UINT_32 pipe; - - UINT_32 groupBytes = m_pipeInterleaveBytes; //just different terms - - // R600 - // The LSBs of the address are arranged as follows: - // bank | pipe | group - // - // To get the pipe number, shift off the group bits and mask the pipe bits. - // - - // R800 - // The LSBs of the address are arranged as follows: - // bank | bankInterleave | pipe | pipeInterleave - // - // To get the pipe number, shift off the pipe interleave bits and mask the pipe bits. - // - - pipe = static_cast(addr >> Log2(groupBytes)) & (numPipes - 1); - - return pipe; -} - -/** -**************************************************************************************************** -* Lib::ComputeMicroTileEquation -* -* @brief -* Compute micro tile equation -* -* @return -* If equation can be computed -* -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputeMicroTileEquation( - UINT_32 log2BytesPP, ///< [in] log2 of bytes per pixel - AddrTileMode tileMode, ///< [in] tile mode - AddrTileType microTileType, ///< [in] pixel order in display/non-display mode - ADDR_EQUATION* pEquation ///< [out] equation - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - for (UINT_32 i = 0; i < log2BytesPP; i++) - { - pEquation->addr[i].valid = 1; - pEquation->addr[i].channel = 0; - pEquation->addr[i].index = i; - } - - ADDR_CHANNEL_SETTING* pixelBit = &pEquation->addr[log2BytesPP]; - - ADDR_CHANNEL_SETTING x0 = InitChannel(1, 0, log2BytesPP + 0); - ADDR_CHANNEL_SETTING x1 = InitChannel(1, 0, log2BytesPP + 1); - ADDR_CHANNEL_SETTING x2 = InitChannel(1, 0, log2BytesPP + 2); - ADDR_CHANNEL_SETTING y0 = InitChannel(1, 1, 0); - ADDR_CHANNEL_SETTING y1 = InitChannel(1, 1, 1); - ADDR_CHANNEL_SETTING y2 = InitChannel(1, 1, 2); - ADDR_CHANNEL_SETTING z0 = InitChannel(1, 2, 0); - ADDR_CHANNEL_SETTING z1 = InitChannel(1, 2, 1); - ADDR_CHANNEL_SETTING z2 = InitChannel(1, 2, 2); - - UINT_32 thickness = Thickness(tileMode); - UINT_32 bpp = 1 << (log2BytesPP + 3); - - if (microTileType != ADDR_THICK) - { - if (microTileType == ADDR_DISPLAYABLE) - { - switch (bpp) - { - case 8: - pixelBit[0] = x0; - pixelBit[1] = x1; - pixelBit[2] = x2; - pixelBit[3] = y1; - pixelBit[4] = y0; - pixelBit[5] = y2; - break; - case 16: - pixelBit[0] = x0; - pixelBit[1] = x1; - pixelBit[2] = x2; - pixelBit[3] = y0; - pixelBit[4] = y1; - pixelBit[5] = y2; - break; - case 32: - pixelBit[0] = x0; - pixelBit[1] = x1; - pixelBit[2] = y0; - pixelBit[3] = x2; - pixelBit[4] = y1; - pixelBit[5] = y2; - break; - case 64: - pixelBit[0] = x0; - pixelBit[1] = y0; - pixelBit[2] = x1; - pixelBit[3] = x2; - pixelBit[4] = y1; - pixelBit[5] = y2; - break; - case 128: - pixelBit[0] = y0; - pixelBit[1] = x0; - pixelBit[2] = x1; - pixelBit[3] = x2; - pixelBit[4] = y1; - pixelBit[5] = y2; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - else if (microTileType == ADDR_NON_DISPLAYABLE || microTileType == ADDR_DEPTH_SAMPLE_ORDER) - { - pixelBit[0] = x0; - pixelBit[1] = y0; - pixelBit[2] = x1; - pixelBit[3] = y1; - pixelBit[4] = x2; - pixelBit[5] = y2; - } - else if (microTileType == ADDR_ROTATED) - { - ADDR_ASSERT(thickness == 1); - - switch (bpp) - { - case 8: - pixelBit[0] = y0; - pixelBit[1] = y1; - pixelBit[2] = y2; - pixelBit[3] = x1; - pixelBit[4] = x0; - pixelBit[5] = x2; - break; - case 16: - pixelBit[0] = y0; - pixelBit[1] = y1; - pixelBit[2] = y2; - pixelBit[3] = x0; - pixelBit[4] = x1; - pixelBit[5] = x2; - break; - case 32: - pixelBit[0] = y0; - pixelBit[1] = y1; - pixelBit[2] = x0; - pixelBit[3] = y2; - pixelBit[4] = x1; - pixelBit[5] = x2; - break; - case 64: - pixelBit[0] = y0; - pixelBit[1] = x0; - pixelBit[2] = y1; - pixelBit[3] = x1; - pixelBit[4] = x2; - pixelBit[5] = y2; - break; - default: - retCode = ADDR_NOTSUPPORTED; - break; - } - } - - if (thickness > 1) - { - pixelBit[6] = z0; - pixelBit[7] = z1; - pEquation->numBits = 8 + log2BytesPP; - } - else - { - pEquation->numBits = 6 + log2BytesPP; - } - } - else // ADDR_THICK - { - ADDR_ASSERT(thickness > 1); - - switch (bpp) - { - case 8: - case 16: - pixelBit[0] = x0; - pixelBit[1] = y0; - pixelBit[2] = x1; - pixelBit[3] = y1; - pixelBit[4] = z0; - pixelBit[5] = z1; - break; - case 32: - pixelBit[0] = x0; - pixelBit[1] = y0; - pixelBit[2] = x1; - pixelBit[3] = z0; - pixelBit[4] = y1; - pixelBit[5] = z1; - break; - case 64: - case 128: - pixelBit[0] = x0; - pixelBit[1] = y0; - pixelBit[2] = z0; - pixelBit[3] = x1; - pixelBit[4] = y1; - pixelBit[5] = z1; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - pixelBit[6] = x2; - pixelBit[7] = y2; - pEquation->numBits = 8 + log2BytesPP; - } - - if (thickness == 8) - { - pixelBit[8] = z2; - pEquation->numBits = 9 + log2BytesPP; - } - - // stackedDepthSlices is used for addressing mode that a tile block contains multiple slices, - // which is not supported by our address lib - pEquation->stackedDepthSlices = FALSE; - - return retCode; -} - -/** -**************************************************************************************************** -* Lib::ComputePixelIndexWithinMicroTile -* -* @brief -* Compute the pixel index inside a micro tile of surface -* -* @return -* Pixel index -* -**************************************************************************************************** -*/ -UINT_32 Lib::ComputePixelIndexWithinMicroTile( - UINT_32 x, ///< [in] x coord - UINT_32 y, ///< [in] y coord - UINT_32 z, ///< [in] slice/depth index - UINT_32 bpp, ///< [in] bits per pixel - AddrTileMode tileMode, ///< [in] tile mode - AddrTileType microTileType ///< [in] pixel order in display/non-display mode - ) const -{ - UINT_32 pixelBit0 = 0; - UINT_32 pixelBit1 = 0; - UINT_32 pixelBit2 = 0; - UINT_32 pixelBit3 = 0; - UINT_32 pixelBit4 = 0; - UINT_32 pixelBit5 = 0; - UINT_32 pixelBit6 = 0; - UINT_32 pixelBit7 = 0; - UINT_32 pixelBit8 = 0; - UINT_32 pixelNumber; - - UINT_32 x0 = _BIT(x, 0); - UINT_32 x1 = _BIT(x, 1); - UINT_32 x2 = _BIT(x, 2); - UINT_32 y0 = _BIT(y, 0); - UINT_32 y1 = _BIT(y, 1); - UINT_32 y2 = _BIT(y, 2); - UINT_32 z0 = _BIT(z, 0); - UINT_32 z1 = _BIT(z, 1); - UINT_32 z2 = _BIT(z, 2); - - UINT_32 thickness = Thickness(tileMode); - - // Compute the pixel number within the micro tile. - - if (microTileType != ADDR_THICK) - { - if (microTileType == ADDR_DISPLAYABLE) - { - switch (bpp) - { - case 8: - pixelBit0 = x0; - pixelBit1 = x1; - pixelBit2 = x2; - pixelBit3 = y1; - pixelBit4 = y0; - pixelBit5 = y2; - break; - case 16: - pixelBit0 = x0; - pixelBit1 = x1; - pixelBit2 = x2; - pixelBit3 = y0; - pixelBit4 = y1; - pixelBit5 = y2; - break; - case 32: - pixelBit0 = x0; - pixelBit1 = x1; - pixelBit2 = y0; - pixelBit3 = x2; - pixelBit4 = y1; - pixelBit5 = y2; - break; - case 64: - pixelBit0 = x0; - pixelBit1 = y0; - pixelBit2 = x1; - pixelBit3 = x2; - pixelBit4 = y1; - pixelBit5 = y2; - break; - case 128: - pixelBit0 = y0; - pixelBit1 = x0; - pixelBit2 = x1; - pixelBit3 = x2; - pixelBit4 = y1; - pixelBit5 = y2; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - else if (microTileType == ADDR_NON_DISPLAYABLE || microTileType == ADDR_DEPTH_SAMPLE_ORDER) - { - pixelBit0 = x0; - pixelBit1 = y0; - pixelBit2 = x1; - pixelBit3 = y1; - pixelBit4 = x2; - pixelBit5 = y2; - } - else if (microTileType == ADDR_ROTATED) - { - ADDR_ASSERT(thickness == 1); - - switch (bpp) - { - case 8: - pixelBit0 = y0; - pixelBit1 = y1; - pixelBit2 = y2; - pixelBit3 = x1; - pixelBit4 = x0; - pixelBit5 = x2; - break; - case 16: - pixelBit0 = y0; - pixelBit1 = y1; - pixelBit2 = y2; - pixelBit3 = x0; - pixelBit4 = x1; - pixelBit5 = x2; - break; - case 32: - pixelBit0 = y0; - pixelBit1 = y1; - pixelBit2 = x0; - pixelBit3 = y2; - pixelBit4 = x1; - pixelBit5 = x2; - break; - case 64: - pixelBit0 = y0; - pixelBit1 = x0; - pixelBit2 = y1; - pixelBit3 = x1; - pixelBit4 = x2; - pixelBit5 = y2; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - - if (thickness > 1) - { - pixelBit6 = z0; - pixelBit7 = z1; - } - } - else // ADDR_THICK - { - ADDR_ASSERT(thickness > 1); - - switch (bpp) - { - case 8: - case 16: - pixelBit0 = x0; - pixelBit1 = y0; - pixelBit2 = x1; - pixelBit3 = y1; - pixelBit4 = z0; - pixelBit5 = z1; - break; - case 32: - pixelBit0 = x0; - pixelBit1 = y0; - pixelBit2 = x1; - pixelBit3 = z0; - pixelBit4 = y1; - pixelBit5 = z1; - break; - case 64: - case 128: - pixelBit0 = x0; - pixelBit1 = y0; - pixelBit2 = z0; - pixelBit3 = x1; - pixelBit4 = y1; - pixelBit5 = z1; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - pixelBit6 = x2; - pixelBit7 = y2; - } - - if (thickness == 8) - { - pixelBit8 = z2; - } - - pixelNumber = ((pixelBit0 ) | - (pixelBit1 << 1) | - (pixelBit2 << 2) | - (pixelBit3 << 3) | - (pixelBit4 << 4) | - (pixelBit5 << 5) | - (pixelBit6 << 6) | - (pixelBit7 << 7) | - (pixelBit8 << 8)); - - return pixelNumber; -} - -/** -**************************************************************************************************** -* Lib::AdjustPitchAlignment -* -* @brief -* Adjusts pitch alignment for flipping surface -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID Lib::AdjustPitchAlignment( - ADDR_SURFACE_FLAGS flags, ///< [in] Surface flags - UINT_32* pPitchAlign ///< [out] Pointer to pitch alignment - ) const -{ - // Display engine hardwires lower 5 bit of GRPH_PITCH to ZERO which means 32 pixel alignment - // Maybe it will be fixed in future but let's make it general for now. - if (flags.display || flags.overlay) - { - *pPitchAlign = PowTwoAlign(*pPitchAlign, 32); - - if(flags.display) - { - *pPitchAlign = Max(m_minPitchAlignPixels, *pPitchAlign); - } - } -} - -/** -**************************************************************************************************** -* Lib::PadDimensions -* -* @brief -* Helper function to pad dimensions -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID Lib::PadDimensions( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples, ///< [in] number of samples - ADDR_TILEINFO* pTileInfo, ///< [in,out] bank structure. - UINT_32 padDims, ///< [in] Dimensions to pad valid value 1,2,3 - UINT_32 mipLevel, ///< [in] MipLevel - UINT_32* pPitch, ///< [in,out] pitch in pixels - UINT_32* pPitchAlign, ///< [in,out] pitch align could be changed in HwlPadDimensions - UINT_32* pHeight, ///< [in,out] height in pixels - UINT_32 heightAlign, ///< [in] height alignment - UINT_32* pSlices, ///< [in,out] number of slices - UINT_32 sliceAlign ///< [in] number of slice alignment - ) const -{ - UINT_32 pitchAlign = *pPitchAlign; - UINT_32 thickness = Thickness(tileMode); - - ADDR_ASSERT(padDims <= 3); - - // - // Override padding for mip levels - // - if (mipLevel > 0) - { - if (flags.cube) - { - // for cubemap, we only pad when client call with 6 faces as an identity - if (*pSlices > 1) - { - padDims = 3; // we should pad cubemap sub levels when we treat it as 3d texture - } - else - { - padDims = 2; - } - } - } - - // Any possibilities that padDims is 0? - if (padDims == 0) - { - padDims = 3; - } - - if (IsPow2(pitchAlign)) - { - *pPitch = PowTwoAlign((*pPitch), pitchAlign); - } - else // add this code to pass unit test, r600 linear mode is not align bpp to pow2 for linear - { - *pPitch += pitchAlign - 1; - *pPitch /= pitchAlign; - *pPitch *= pitchAlign; - } - - if (padDims > 1) - { - if (IsPow2(heightAlign)) - { - *pHeight = PowTwoAlign((*pHeight), heightAlign); - } - else - { - *pHeight += heightAlign - 1; - *pHeight /= heightAlign; - *pHeight *= heightAlign; - } - } - - if (padDims > 2 || thickness > 1) - { - // for cubemap single face, we do not pad slices. - // if we pad it, the slice number should be set to 6 and current mip level > 1 - if (flags.cube && (!m_configFlags.noCubeMipSlicesPad || flags.cubeAsArray)) - { - *pSlices = NextPow2(*pSlices); - } - - // normal 3D texture or arrays or cubemap has a thick mode? (Just pass unit test) - if (thickness > 1) - { - *pSlices = PowTwoAlign((*pSlices), sliceAlign); - } - - } - - HwlPadDimensions(tileMode, - bpp, - flags, - numSamples, - pTileInfo, - mipLevel, - pPitch, - pPitchAlign, - *pHeight, - heightAlign); -} - - -/** -**************************************************************************************************** -* Lib::HwlPreHandleBaseLvl3xPitch -* -* @brief -* Pre-handler of 3x pitch (96 bit) adjustment -* -* @return -* Expected pitch -**************************************************************************************************** -*/ -UINT_32 Lib::HwlPreHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input - UINT_32 expPitch ///< [in] pitch - ) const -{ - ADDR_ASSERT(pIn->width == expPitch); - // - // If pitch is pre-multiplied by 3, we retrieve original one here to get correct miplevel size - // - if (ElemLib::IsExpand3x(pIn->format) && - pIn->mipLevel == 0 && - pIn->tileMode == ADDR_TM_LINEAR_ALIGNED) - { - expPitch /= 3; - expPitch = NextPow2(expPitch); - } - - return expPitch; -} - -/** -**************************************************************************************************** -* Lib::HwlPostHandleBaseLvl3xPitch -* -* @brief -* Post-handler of 3x pitch adjustment -* -* @return -* Expected pitch -**************************************************************************************************** -*/ -UINT_32 Lib::HwlPostHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input - UINT_32 expPitch ///< [in] pitch - ) const -{ - // - // 96 bits surface of sub levels require element pitch of 32 bits instead - // So we just return pitch in 32 bit pixels without timing 3 - // - if (ElemLib::IsExpand3x(pIn->format) && - pIn->mipLevel == 0 && - pIn->tileMode == ADDR_TM_LINEAR_ALIGNED) - { - expPitch *= 3; - } - - return expPitch; -} - - -/** -**************************************************************************************************** -* Lib::IsMacroTiled -* -* @brief -* Check if the tile mode is macro tiled -* -* @return -* TRUE if it is macro tiled (2D/2B/3D/3B) -**************************************************************************************************** -*/ -BOOL_32 Lib::IsMacroTiled( - AddrTileMode tileMode) ///< [in] tile mode -{ - return ModeFlags[tileMode].isMacro; -} - -/** -**************************************************************************************************** -* Lib::IsMacro3dTiled -* -* @brief -* Check if the tile mode is 3D macro tiled -* -* @return -* TRUE if it is 3D macro tiled -**************************************************************************************************** -*/ -BOOL_32 Lib::IsMacro3dTiled( - AddrTileMode tileMode) ///< [in] tile mode -{ - return ModeFlags[tileMode].isMacro3d; -} - -/** -**************************************************************************************************** -* Lib::IsMicroTiled -* -* @brief -* Check if the tile mode is micro tiled -* -* @return -* TRUE if micro tiled -**************************************************************************************************** -*/ -BOOL_32 Lib::IsMicroTiled( - AddrTileMode tileMode) ///< [in] tile mode -{ - return ModeFlags[tileMode].isMicro; -} - -/** -**************************************************************************************************** -* Lib::IsLinear -* -* @brief -* Check if the tile mode is linear -* -* @return -* TRUE if linear -**************************************************************************************************** -*/ -BOOL_32 Lib::IsLinear( - AddrTileMode tileMode) ///< [in] tile mode -{ - return ModeFlags[tileMode].isLinear; -} - -/** -**************************************************************************************************** -* Lib::IsPrtNoRotationTileMode -* -* @brief -* Return TRUE if it is prt tile without rotation -* @note -* This function just used by CI -**************************************************************************************************** -*/ -BOOL_32 Lib::IsPrtNoRotationTileMode( - AddrTileMode tileMode) -{ - return ModeFlags[tileMode].isPrtNoRotation; -} - -/** -**************************************************************************************************** -* Lib::IsPrtTileMode -* -* @brief -* Return TRUE if it is prt tile -* @note -* This function just used by CI -**************************************************************************************************** -*/ -BOOL_32 Lib::IsPrtTileMode( - AddrTileMode tileMode) -{ - return ModeFlags[tileMode].isPrt; -} - -/** -**************************************************************************************************** -* Lib::ComputeMipLevel -* -* @brief -* Compute mipmap level width/height/slices -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::ComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn ///< [in,out] Input structure - ) const -{ - // Check if HWL has handled - BOOL_32 hwlHandled = FALSE; - (void)hwlHandled; - - if (ElemLib::IsBlockCompressed(pIn->format)) - { - if (pIn->mipLevel == 0) - { - // DXTn's level 0 must be multiple of 4 - // But there are exceptions: - // 1. Internal surface creation in hostblt/vsblt/etc... - // 2. Runtime doesn't reject ATI1/ATI2 whose width/height are not multiple of 4 - pIn->width = PowTwoAlign(pIn->width, 4); - pIn->height = PowTwoAlign(pIn->height, 4); - } - } - - hwlHandled = HwlComputeMipLevel(pIn); -} - -/** -**************************************************************************************************** -* Lib::DegradeTo1D -* -* @brief -* Check if surface can be degraded to 1D -* @return -* TRUE if degraded -**************************************************************************************************** -*/ -BOOL_32 Lib::DegradeTo1D( - UINT_32 width, ///< surface width - UINT_32 height, ///< surface height - UINT_32 macroTilePitchAlign, ///< macro tile pitch align - UINT_32 macroTileHeightAlign ///< macro tile height align - ) -{ - BOOL_32 degrade = ((width < macroTilePitchAlign) || (height < macroTileHeightAlign)); - - // Check whether 2D tiling still has too much footprint - if (degrade == FALSE) - { - // Only check width and height as slices are aligned to thickness - UINT_64 unalignedSize = width * height; - - UINT_32 alignedPitch = PowTwoAlign(width, macroTilePitchAlign); - UINT_32 alignedHeight = PowTwoAlign(height, macroTileHeightAlign); - UINT_64 alignedSize = alignedPitch * alignedHeight; - - // alignedSize > 1.5 * unalignedSize - if (2 * alignedSize > 3 * unalignedSize) - { - degrade = TRUE; - } - } - - return degrade; -} - -/** -**************************************************************************************************** -* Lib::OptimizeTileMode -* -* @brief -* Check if base level's tile mode can be optimized (degraded) -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::OptimizeTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in, out] structure for surface info - ) const -{ - AddrTileMode tileMode = pInOut->tileMode; - - BOOL_32 doOpt = (pInOut->flags.opt4Space == TRUE) || - (pInOut->flags.minimizeAlignment == TRUE) || - (pInOut->maxBaseAlign != 0); - - BOOL_32 convertToPrt = FALSE; - - // Optimization can only be done on level 0 and samples <= 1 - if ((doOpt == TRUE) && - (pInOut->mipLevel == 0) && - (IsPrtTileMode(tileMode) == FALSE) && - (pInOut->flags.prt == FALSE)) - { - UINT_32 width = pInOut->width; - UINT_32 height = pInOut->height; - UINT_32 thickness = Thickness(tileMode); - BOOL_32 macroTiledOK = TRUE; - UINT_32 macroWidthAlign = 0; - UINT_32 macroHeightAlign = 0; - UINT_32 macroSizeAlign = 0; - - if (IsMacroTiled(tileMode)) - { - macroTiledOK = HwlGetAlignmentInfoMacroTiled(pInOut, - ¯oWidthAlign, - ¯oHeightAlign, - ¯oSizeAlign); - } - - if (macroTiledOK) - { - if ((pInOut->flags.display == FALSE) && - (pInOut->flags.opt4Space == TRUE) && - (pInOut->numSamples <= 1)) - { - // Check if linear mode is optimal - if ((pInOut->height == 1) && - (IsLinear(tileMode) == FALSE) && - (ElemLib::IsBlockCompressed(pInOut->format) == FALSE) && - (pInOut->flags.depth == FALSE) && - (pInOut->flags.stencil == FALSE) && - (m_configFlags.disableLinearOpt == FALSE) && - (pInOut->flags.disableLinearOpt == FALSE)) - { - tileMode = ADDR_TM_LINEAR_ALIGNED; - } - else if (IsMacroTiled(tileMode) && (pInOut->flags.tcCompatible == FALSE)) - { - if (DegradeTo1D(width, height, macroWidthAlign, macroHeightAlign)) - { - tileMode = (thickness == 1) ? - ADDR_TM_1D_TILED_THIN1 : ADDR_TM_1D_TILED_THICK; - } - else if ((thickness > 1) && (pInOut->flags.disallowLargeThickDegrade == 0)) - { - // As in the following HwlComputeSurfaceInfo, thick modes may be degraded to - // thinner modes, we should re-evaluate whether the corresponding - // thinner modes should be degraded. If so, we choose 1D thick mode instead. - tileMode = DegradeLargeThickTile(pInOut->tileMode, pInOut->bpp); - - if (tileMode != pInOut->tileMode) - { - // Get thickness again after large thick degrade - thickness = Thickness(tileMode); - - ADDR_COMPUTE_SURFACE_INFO_INPUT input = *pInOut; - input.tileMode = tileMode; - - macroTiledOK = HwlGetAlignmentInfoMacroTiled(&input, - ¯oWidthAlign, - ¯oHeightAlign, - ¯oSizeAlign); - - if (macroTiledOK && - DegradeTo1D(width, height, macroWidthAlign, macroHeightAlign)) - { - tileMode = ADDR_TM_1D_TILED_THICK; - } - } - } - } - } - - if (macroTiledOK) - { - if ((pInOut->flags.minimizeAlignment == TRUE) && - (pInOut->numSamples <= 1) && - (IsMacroTiled(tileMode) == TRUE)) - { - UINT_32 macroSize = PowTwoAlign(width, macroWidthAlign) * - PowTwoAlign(height, macroHeightAlign); - UINT_32 microSize = PowTwoAlign(width, MicroTileWidth) * - PowTwoAlign(height, MicroTileHeight); - - if (macroSize > microSize) - { - tileMode = (thickness == 1) ? - ADDR_TM_1D_TILED_THIN1 : ADDR_TM_1D_TILED_THICK; - } - } - - if ((pInOut->maxBaseAlign != 0) && - (IsMacroTiled(tileMode) == TRUE)) - { - if (macroSizeAlign > pInOut->maxBaseAlign) - { - if (pInOut->numSamples > 1) - { - ADDR_ASSERT(pInOut->maxBaseAlign >= Block64K); - - convertToPrt = TRUE; - } - else if (pInOut->maxBaseAlign < Block64K) - { - tileMode = (thickness == 1) ? - ADDR_TM_1D_TILED_THIN1 : ADDR_TM_1D_TILED_THICK; - } - else - { - convertToPrt = TRUE; - } - } - } - } - } - } - - if (convertToPrt) - { - if ((pInOut->flags.matchStencilTileCfg == TRUE) && (pInOut->numSamples <= 1)) - { - pInOut->tileMode = ADDR_TM_1D_TILED_THIN1; - } - else - { - HwlSetPrtTileMode(pInOut); - } - } - else if (tileMode != pInOut->tileMode) - { - pInOut->tileMode = tileMode; - } - - HwlOptimizeTileMode(pInOut); -} - -/** -**************************************************************************************************** -* Lib::DegradeLargeThickTile -* -* @brief -* Check if the thickness needs to be reduced if a tile is too large -* @return -* The degraded tile mode (unchanged if not degraded) -**************************************************************************************************** -*/ -AddrTileMode Lib::DegradeLargeThickTile( - AddrTileMode tileMode, - UINT_32 bpp) const -{ - // Override tilemode - // When tile_width (8) * tile_height (8) * thickness * element_bytes is > row_size, - // it is better to just use THIN mode in this case - UINT_32 thickness = Thickness(tileMode); - - if (thickness > 1 && m_configFlags.allowLargeThickTile == 0) - { - UINT_32 tileSize = MicroTilePixels * thickness * (bpp >> 3); - - if (tileSize > m_rowSize) - { - switch (tileMode) - { - case ADDR_TM_2D_TILED_XTHICK: - if ((tileSize >> 1) <= m_rowSize) - { - tileMode = ADDR_TM_2D_TILED_THICK; - break; - } - // else fall through - case ADDR_TM_2D_TILED_THICK: - tileMode = ADDR_TM_2D_TILED_THIN1; - break; - - case ADDR_TM_3D_TILED_XTHICK: - if ((tileSize >> 1) <= m_rowSize) - { - tileMode = ADDR_TM_3D_TILED_THICK; - break; - } - // else fall through - case ADDR_TM_3D_TILED_THICK: - tileMode = ADDR_TM_3D_TILED_THIN1; - break; - - case ADDR_TM_PRT_TILED_THICK: - tileMode = ADDR_TM_PRT_TILED_THIN1; - break; - - case ADDR_TM_PRT_2D_TILED_THICK: - tileMode = ADDR_TM_PRT_2D_TILED_THIN1; - break; - - case ADDR_TM_PRT_3D_TILED_THICK: - tileMode = ADDR_TM_PRT_3D_TILED_THIN1; - break; - - default: - break; - } - } - } - - return tileMode; -} - -/** -**************************************************************************************************** -* Lib::PostComputeMipLevel -* @brief -* Compute MipLevel info (including level 0) after surface adjustment -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::PostComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in,out] Input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output structure - ) const -{ - // Mipmap including level 0 must be pow2 padded since either SI hw expects so or it is - // required by CFX for Hw Compatibility between NI and SI. Otherwise it is only needed for - // mipLevel > 0. Any h/w has different requirement should implement its own virtual function - - if (pIn->flags.pow2Pad) - { - pIn->width = NextPow2(pIn->width); - pIn->height = NextPow2(pIn->height); - pIn->numSlices = NextPow2(pIn->numSlices); - } - else if (pIn->mipLevel > 0) - { - pIn->width = NextPow2(pIn->width); - pIn->height = NextPow2(pIn->height); - - if (!pIn->flags.cube) - { - pIn->numSlices = NextPow2(pIn->numSlices); - } - - // for cubemap, we keep its value at first - } - - return ADDR_OK; -} - -/** -**************************************************************************************************** -* Lib::HwlSetupTileCfg -* -* @brief -* Map tile index to tile setting. -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::HwlSetupTileCfg( - UINT_32 bpp, ///< Bits per pixel - INT_32 index, ///< [in] Tile index - INT_32 macroModeIndex, ///< [in] Index in macro tile mode table(CI) - ADDR_TILEINFO* pInfo, ///< [out] Tile Info - AddrTileMode* pMode, ///< [out] Tile mode - AddrTileType* pType ///< [out] Tile type - ) const -{ - return ADDR_NOTSUPPORTED; -} - -/** -**************************************************************************************************** -* Lib::HwlGetPipes -* -* @brief -* Get number pipes -* @return -* num pipes -**************************************************************************************************** -*/ -UINT_32 Lib::HwlGetPipes( - const ADDR_TILEINFO* pTileInfo ///< [in] Tile info - ) const -{ - //pTileInfo can be NULL when asic is 6xx and 8xx. - return m_pipes; -} - -/** -**************************************************************************************************** -* Lib::ComputeQbStereoInfo -* -* @brief -* Get quad buffer stereo information -* @return -* N/A -**************************************************************************************************** -*/ -VOID Lib::ComputeQbStereoInfo( - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] updated pOut+pStereoInfo - ) const -{ - ADDR_ASSERT(pOut->bpp >= 8); - ADDR_ASSERT((pOut->surfSize % pOut->baseAlign) == 0); - - // Save original height - pOut->pStereoInfo->eyeHeight = pOut->height; - - // Right offset - pOut->pStereoInfo->rightOffset = static_cast(pOut->surfSize); - - pOut->pStereoInfo->rightSwizzle = HwlComputeQbStereoRightSwizzle(pOut); - // Double height - pOut->height <<= 1; - pOut->pixelHeight <<= 1; - - // Double size - pOut->surfSize <<= 1; - - // Right start address meets the base align since it is guaranteed by AddrLib1 - - // 1D surface on SI may break this rule, but we can force it to meet by checking .qbStereo. -} - - -/** -**************************************************************************************************** -* Lib::ComputePrtInfo -* -* @brief -* Compute prt surface related info -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE Lib::ComputePrtInfo( - const ADDR_PRT_INFO_INPUT* pIn, - ADDR_PRT_INFO_OUTPUT* pOut) const -{ - ADDR_ASSERT(pOut != NULL); - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - UINT_32 expandX = 1; - UINT_32 expandY = 1; - ElemMode elemMode; - - UINT_32 bpp = GetElemLib()->GetBitsPerPixel(pIn->format, - &elemMode, - &expandX, - &expandY); - - if (bpp <8 || bpp == 24 || bpp == 48 || bpp == 96) - { - returnCode = ADDR_INVALIDPARAMS; - } - - UINT_32 numFrags = pIn->numFrags; - ADDR_ASSERT(numFrags <= 8); - - UINT_32 tileWidth = 0; - UINT_32 tileHeight = 0; - if (returnCode == ADDR_OK) - { - // 3D texture without depth or 2d texture - if (pIn->baseMipDepth > 1 || pIn->baseMipHeight > 1) - { - if (bpp == 8) - { - tileWidth = 256; - tileHeight = 256; - } - else if (bpp == 16) - { - tileWidth = 256; - tileHeight = 128; - } - else if (bpp == 32) - { - tileWidth = 128; - tileHeight = 128; - } - else if (bpp == 64) - { - // assume it is BC1/4 - tileWidth = 512; - tileHeight = 256; - - if (elemMode == ADDR_UNCOMPRESSED) - { - tileWidth = 128; - tileHeight = 64; - } - } - else if (bpp == 128) - { - // assume it is BC2/3/5/6H/7 - tileWidth = 256; - tileHeight = 256; - - if (elemMode == ADDR_UNCOMPRESSED) - { - tileWidth = 64; - tileHeight = 64; - } - } - - if (numFrags == 2) - { - tileWidth = tileWidth / 2; - } - else if (numFrags == 4) - { - tileWidth = tileWidth / 2; - tileHeight = tileHeight / 2; - } - else if (numFrags == 8) - { - tileWidth = tileWidth / 4; - tileHeight = tileHeight / 2; - } - } - else // 1d - { - tileHeight = 1; - if (bpp == 8) - { - tileWidth = 65536; - } - else if (bpp == 16) - { - tileWidth = 32768; - } - else if (bpp == 32) - { - tileWidth = 16384; - } - else if (bpp == 64) - { - tileWidth = 8192; - } - else if (bpp == 128) - { - tileWidth = 4096; - } - } - } - - pOut->prtTileWidth = tileWidth; - pOut->prtTileHeight = tileHeight; - - return returnCode; -} - -} // V1 -} // Addr diff --git a/src/amd/addrlib/core/addrlib1.h b/src/amd/addrlib/core/addrlib1.h deleted file mode 100644 index d6642aaaf74..00000000000 --- a/src/amd/addrlib/core/addrlib1.h +++ /dev/null @@ -1,545 +0,0 @@ -/* - * Copyright © 2016 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrlib1.h -* @brief Contains the Addr::V1::Lib class definition. -**************************************************************************************************** -*/ - -#ifndef __ADDR_LIB1_H__ -#define __ADDR_LIB1_H__ - -#include "addrlib.h" - -namespace Addr -{ -namespace V1 -{ - -/** -**************************************************************************************************** -* @brief Neutral enums that define bank swap size -**************************************************************************************************** -*/ -enum SampleSplitSize -{ - ADDR_SAMPLESPLIT_1KB = 1024, - ADDR_SAMPLESPLIT_2KB = 2048, - ADDR_SAMPLESPLIT_4KB = 4096, - ADDR_SAMPLESPLIT_8KB = 8192, -}; - -/** -**************************************************************************************************** -* @brief Flags for AddrTileMode -**************************************************************************************************** -*/ -struct TileModeFlags -{ - UINT_32 thickness : 4; - UINT_32 isLinear : 1; - UINT_32 isMicro : 1; - UINT_32 isMacro : 1; - UINT_32 isMacro3d : 1; - UINT_32 isPrt : 1; - UINT_32 isPrtNoRotation : 1; - UINT_32 isBankSwapped : 1; -}; - -static const UINT_32 Block64K = 0x10000; -static const UINT_32 PrtTileSize = Block64K; - -/** -**************************************************************************************************** -* @brief This class contains asic independent address lib functionalities -**************************************************************************************************** -*/ -class Lib : public Addr::Lib -{ -public: - virtual ~Lib(); - - static Lib* GetLib( - ADDR_HANDLE hLib); - - /// Returns tileIndex support - BOOL_32 UseTileIndex(INT_32 index) const - { - return m_configFlags.useTileIndex && (index != TileIndexInvalid); - } - - /// Returns combined swizzle support - BOOL_32 UseCombinedSwizzle() const - { - return m_configFlags.useCombinedSwizzle; - } - - // - // Interface stubs - // - ADDR_E_RETURNCODE ComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSliceTileSwizzle( - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ExtractBankPipeSwizzle( - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE CombineBankPipeSwizzle( - const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeBaseSwizzle( - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); - - ADDR_E_RETURNCODE ComputeFmaskAddrFromCoord( - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeFmaskCoordFromAddr( - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ConvertTileIndex( - const ADDR_CONVERT_TILEINDEX_INPUT* pIn, - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE GetMacroModeIndex( - const ADDR_GET_MACROMODEINDEX_INPUT* pIn, - ADDR_GET_MACROMODEINDEX_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ConvertTileIndex1( - const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, - ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE GetTileIndex( - const ADDR_GET_TILEINDEX_INPUT* pIn, - ADDR_GET_TILEINDEX_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeHtileInfo( - const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, - ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeCmaskInfo( - const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeDccInfo( - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeHtileAddrFromCoord( - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeCmaskAddrFromCoord( - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeHtileCoordFromAddr( - const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeCmaskCoordFromAddr( - const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputePrtInfo( - const ADDR_PRT_INFO_INPUT* pIn, - ADDR_PRT_INFO_OUTPUT* pOut) const; -protected: - Lib(); // Constructor is protected - Lib(const Client* pClient); - - /// Pure Virtual function for Hwl computing surface info - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl computing surface address from coord - virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl computing surface coord from address - virtual ADDR_E_RETURNCODE HwlComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl computing surface tile swizzle - virtual ADDR_E_RETURNCODE HwlComputeSliceTileSwizzle( - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl extracting bank/pipe swizzle from base256b - virtual ADDR_E_RETURNCODE HwlExtractBankPipeSwizzle( - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl combining bank/pipe swizzle - virtual ADDR_E_RETURNCODE HwlCombineBankPipeSwizzle( - UINT_32 bankSwizzle, UINT_32 pipeSwizzle, ADDR_TILEINFO* pTileInfo, - UINT_64 baseAddr, UINT_32* pTileSwizzle) const = 0; - - /// Pure Virtual function for Hwl computing base swizzle - virtual ADDR_E_RETURNCODE HwlComputeBaseSwizzle( - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl computing HTILE base align - virtual UINT_32 HwlComputeHtileBaseAlign( - BOOL_32 isTcCompatible, BOOL_32 isLinear, ADDR_TILEINFO* pTileInfo) const = 0; - - /// Pure Virtual function for Hwl computing HTILE bpp - virtual UINT_32 HwlComputeHtileBpp( - BOOL_32 isWidth8, BOOL_32 isHeight8) const = 0; - - /// Pure Virtual function for Hwl computing HTILE bytes - virtual UINT_64 HwlComputeHtileBytes( - UINT_32 pitch, UINT_32 height, UINT_32 bpp, - BOOL_32 isLinear, UINT_32 numSlices, UINT_64* pSliceBytes, UINT_32 baseAlign) const = 0; - - /// Pure Virtual function for Hwl computing FMASK info - virtual ADDR_E_RETURNCODE HwlComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut) = 0; - - /// Pure Virtual function for Hwl FMASK address from coord - virtual ADDR_E_RETURNCODE HwlComputeFmaskAddrFromCoord( - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl FMASK coord from address - virtual ADDR_E_RETURNCODE HwlComputeFmaskCoordFromAddr( - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl convert tile info from real value to HW value - virtual ADDR_E_RETURNCODE HwlConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const = 0; - - /// Pure Virtual function for Hwl compute mipmap info - virtual BOOL_32 HwlComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn) const = 0; - - /// Pure Virtual function for Hwl compute max cmask blockMax value - virtual BOOL_32 HwlGetMaxCmaskBlockMax() const = 0; - - /// Pure Virtual function for Hwl compute fmask bits - virtual UINT_32 HwlComputeFmaskBits( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - UINT_32* pNumSamples) const = 0; - - /// Virtual function to get index (not pure then no need to implement this in all hwls - virtual ADDR_E_RETURNCODE HwlGetTileIndex( - const ADDR_GET_TILEINDEX_INPUT* pIn, - ADDR_GET_TILEINDEX_OUTPUT* pOut) const - { - return ADDR_NOTSUPPORTED; - } - - /// Virtual function for Hwl to compute Dcc info - virtual ADDR_E_RETURNCODE HwlComputeDccInfo( - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const - { - return ADDR_NOTSUPPORTED; - } - - /// Virtual function to get cmask address for tc compatible cmask - virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) const - { - return ADDR_NOTSUPPORTED; - } - - /// Virtual function to get htile address for tc compatible htile - virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) const - { - return ADDR_NOTSUPPORTED; - } - - // Compute attributes - - // HTILE - UINT_32 ComputeHtileInfo( - ADDR_HTILE_FLAGS flags, - UINT_32 pitchIn, UINT_32 heightIn, UINT_32 numSlices, - BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, - ADDR_TILEINFO* pTileInfo, - UINT_32* pPitchOut, UINT_32* pHeightOut, UINT_64* pHtileBytes, - UINT_32* pMacroWidth = NULL, UINT_32* pMacroHeight = NULL, - UINT_64* pSliceSize = NULL, UINT_32* pBaseAlign = NULL) const; - - // CMASK - ADDR_E_RETURNCODE ComputeCmaskInfo( - ADDR_CMASK_FLAGS flags, - UINT_32 pitchIn, UINT_32 heightIn, UINT_32 numSlices, BOOL_32 isLinear, - ADDR_TILEINFO* pTileInfo, UINT_32* pPitchOut, UINT_32* pHeightOut, UINT_64* pCmaskBytes, - UINT_32* pMacroWidth, UINT_32* pMacroHeight, UINT_64* pSliceSize = NULL, - UINT_32* pBaseAlign = NULL, UINT_32* pBlockMax = NULL) const; - - virtual VOID HwlComputeTileDataWidthAndHeightLinear( - UINT_32* pMacroWidth, UINT_32* pMacroHeight, - UINT_32 bpp, ADDR_TILEINFO* pTileInfo) const; - - // CMASK & HTILE addressing - virtual UINT_64 HwlComputeXmaskAddrFromCoord( - UINT_32 pitch, UINT_32 height, UINT_32 x, UINT_32 y, UINT_32 slice, - UINT_32 numSlices, UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, - BOOL_32 isHeight8, ADDR_TILEINFO* pTileInfo, - UINT_32* bitPosition) const; - - virtual VOID HwlComputeXmaskCoordFromAddr( - UINT_64 addr, UINT_32 bitPosition, UINT_32 pitch, UINT_32 height, UINT_32 numSlices, - UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, - ADDR_TILEINFO* pTileInfo, UINT_32* pX, UINT_32* pY, UINT_32* pSlice) const; - - // Surface mipmap - VOID ComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn) const; - - /// Pure Virtual function for Hwl to get macro tiled alignment info - virtual BOOL_32 HwlGetAlignmentInfoMacroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - UINT_32* pPitchAlign, UINT_32* pHeightAlign, UINT_32* pSizeAlign) const = 0; - - - virtual VOID HwlOverrideTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const - { - // not supported in hwl layer - } - - virtual VOID HwlOptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const - { - // not supported in hwl layer - } - - virtual VOID HwlSelectTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const - { - // not supported in hwl layer - } - - AddrTileMode DegradeLargeThickTile(AddrTileMode tileMode, UINT_32 bpp) const; - - VOID PadDimensions( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 numSamples, ADDR_TILEINFO* pTileInfo, UINT_32 padDims, UINT_32 mipLevel, - UINT_32* pPitch, UINT_32* pPitchAlign, UINT_32* pHeight, UINT_32 heightAlign, - UINT_32* pSlices, UINT_32 sliceAlign) const; - - virtual VOID HwlPadDimensions( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 numSamples, ADDR_TILEINFO* pTileInfo, UINT_32 mipLevel, - UINT_32* pPitch, UINT_32* pPitchAlign, UINT_32 height, UINT_32 heightAlign) const - { - } - - // - // Addressing shared for linear/1D tiling - // - UINT_64 ComputeSurfaceAddrFromCoordLinear( - UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSlices, - UINT_32* pBitPosition) const; - - VOID ComputeSurfaceCoordFromAddrLinear( - UINT_64 addr, UINT_32 bitPosition, UINT_32 bpp, - UINT_32 pitch, UINT_32 height, UINT_32 numSlices, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample) const; - - VOID ComputeSurfaceCoordFromAddrMicroTiled( - UINT_64 addr, UINT_32 bitPosition, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, - AddrTileType microTileType, BOOL_32 isDepthSampleOrder) const; - - ADDR_E_RETURNCODE ComputeMicroTileEquation( - UINT_32 bpp, AddrTileMode tileMode, - AddrTileType microTileType, ADDR_EQUATION* pEquation) const; - - UINT_32 ComputePixelIndexWithinMicroTile( - UINT_32 x, UINT_32 y, UINT_32 z, - UINT_32 bpp, AddrTileMode tileMode, AddrTileType microTileType) const; - - /// Pure Virtual function for Hwl computing coord from offset inside micro tile - virtual VOID HwlComputePixelCoordFromOffset( - UINT_32 offset, UINT_32 bpp, UINT_32 numSamples, - AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, - AddrTileType microTileType, BOOL_32 isDepthSampleOrder) const = 0; - - // - // Addressing shared by all - // - virtual UINT_32 HwlGetPipes( - const ADDR_TILEINFO* pTileInfo) const; - - UINT_32 ComputePipeFromAddr( - UINT_64 addr, UINT_32 numPipes) const; - - virtual ADDR_E_RETURNCODE ComputePipeEquation( - UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const - { - return ADDR_NOTSUPPORTED; - } - - /// Pure Virtual function for Hwl computing pipe from coord - virtual UINT_32 ComputePipeFromCoord( - UINT_32 x, UINT_32 y, UINT_32 slice, AddrTileMode tileMode, - UINT_32 pipeSwizzle, BOOL_32 flags, ADDR_TILEINFO* pTileInfo) const = 0; - - /// Pure Virtual function for Hwl computing coord Y for 8 pipe cmask/htile - virtual UINT_32 HwlComputeXmaskCoordYFrom8Pipe( - UINT_32 pipe, UINT_32 x) const = 0; - - // - // Misc helper - // - static const TileModeFlags ModeFlags[ADDR_TM_COUNT]; - - static UINT_32 Thickness( - AddrTileMode tileMode); - - // Checking tile mode - static BOOL_32 IsMacroTiled(AddrTileMode tileMode); - static BOOL_32 IsMacro3dTiled(AddrTileMode tileMode); - static BOOL_32 IsLinear(AddrTileMode tileMode); - static BOOL_32 IsMicroTiled(AddrTileMode tileMode); - static BOOL_32 IsPrtTileMode(AddrTileMode tileMode); - static BOOL_32 IsPrtNoRotationTileMode(AddrTileMode tileMode); - - /// Return TRUE if tile info is needed - BOOL_32 UseTileInfo() const - { - return !m_configFlags.ignoreTileInfo; - } - - /// Adjusts pitch alignment for flipping surface - VOID AdjustPitchAlignment( - ADDR_SURFACE_FLAGS flags, UINT_32* pPitchAlign) const; - - /// Overwrite tile config according to tile index - virtual ADDR_E_RETURNCODE HwlSetupTileCfg( - UINT_32 bpp, INT_32 index, INT_32 macroModeIndex, - ADDR_TILEINFO* pInfo, AddrTileMode* mode = NULL, AddrTileType* type = NULL) const; - - /// Overwrite macro tile config according to tile index - virtual INT_32 HwlComputeMacroModeIndex( - INT_32 index, ADDR_SURFACE_FLAGS flags, UINT_32 bpp, UINT_32 numSamples, - ADDR_TILEINFO* pTileInfo, AddrTileMode *pTileMode = NULL, AddrTileType *pTileType = NULL - ) const - { - return TileIndexNoMacroIndex; - } - - /// Pre-handler of 3x pitch (96 bit) adjustment - virtual UINT_32 HwlPreHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; - /// Post-handler of 3x pitch adjustment - virtual UINT_32 HwlPostHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; - /// Check miplevel after surface adjustment - ADDR_E_RETURNCODE PostComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - /// Quad buffer stereo support, has its implementation in ind. layer - VOID ComputeQbStereoInfo( - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - /// Pure virutual function to compute stereo bank swizzle for right eye - virtual UINT_32 HwlComputeQbStereoRightSwizzle( - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; - - VOID OptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - /// Overwrite tile setting to PRT - virtual VOID HwlSetPrtTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const - { - } - - static BOOL_32 DegradeTo1D( - UINT_32 width, UINT_32 height, - UINT_32 macroTilePitchAlign, UINT_32 macroTileHeightAlign); - -private: - // Disallow the copy constructor - Lib(const Lib& a); - - // Disallow the assignment operator - Lib& operator=(const Lib& a); - - UINT_32 ComputeCmaskBaseAlign( - ADDR_CMASK_FLAGS flags, ADDR_TILEINFO* pTileInfo) const; - - UINT_64 ComputeCmaskBytes( - UINT_32 pitch, UINT_32 height, UINT_32 numSlices) const; - - // - // CMASK/HTILE shared methods - // - VOID ComputeTileDataWidthAndHeight( - UINT_32 bpp, UINT_32 cacheBits, ADDR_TILEINFO* pTileInfo, - UINT_32* pMacroWidth, UINT_32* pMacroHeight) const; - - UINT_32 ComputeXmaskCoordYFromPipe( - UINT_32 pipe, UINT_32 x) const; -}; - -} // V1 -} // Addr - -#endif - diff --git a/src/amd/addrlib/core/addrlib2.cpp b/src/amd/addrlib/core/addrlib2.cpp deleted file mode 100644 index fc9b71f3ee4..00000000000 --- a/src/amd/addrlib/core/addrlib2.cpp +++ /dev/null @@ -1,1891 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -************************************************************************************************************************ -* @file addrlib2.cpp -* @brief Contains the implementation for the AddrLib2 base class. -************************************************************************************************************************ -*/ - -#include "addrinterface.h" -#include "addrlib2.h" -#include "addrcommon.h" - -namespace Addr -{ -namespace V2 -{ - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Static Const Member -//////////////////////////////////////////////////////////////////////////////////////////////////// - -const Dim2d Lib::Block256_2d[] = {{16, 16}, {16, 8}, {8, 8}, {8, 4}, {4, 4}}; - -const Dim3d Lib::Block1K_3d[] = {{16, 8, 8}, {8, 8, 8}, {8, 8, 4}, {8, 4, 4}, {4, 4, 4}}; - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Constructor/Destructor -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -************************************************************************************************************************ -* Lib::Lib -* -* @brief -* Constructor for the Addr::V2::Lib class -* -************************************************************************************************************************ -*/ -Lib::Lib() - : - Addr::Lib() -{ -} - -/** -************************************************************************************************************************ -* Lib::Lib -* -* @brief -* Constructor for the AddrLib2 class with hClient as parameter -* -************************************************************************************************************************ -*/ -Lib::Lib(const Client* pClient) - : - Addr::Lib(pClient) -{ -} - -/** -************************************************************************************************************************ -* Lib::~Lib -* -* @brief -* Destructor for the AddrLib2 class -* -************************************************************************************************************************ -*/ -Lib::~Lib() -{ -} - -/** -************************************************************************************************************************ -* Lib::GetLib -* -* @brief -* Get Addr::V2::Lib pointer -* -* @return -* An Addr::V2::Lib class pointer -************************************************************************************************************************ -*/ -Lib* Lib::GetLib( - ADDR_HANDLE hLib) ///< [in] handle of ADDR_HANDLE -{ - Addr::Lib* pAddrLib = Addr::Lib::GetLib(hLib); - if ((pAddrLib != NULL) && - (pAddrLib->GetChipFamily() <= ADDR_CHIP_FAMILY_VI)) - { - // only valid and GFX9+ AISC can use AddrLib2 function. - ADDR_ASSERT_ALWAYS(); - hLib = NULL; - } - return static_cast(hLib); -} - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Surface Methods -//////////////////////////////////////////////////////////////////////////////////////////////////// - - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceInfo -* -* @brief -* Interface function stub of AddrComputeSurfaceInfo. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceInfo( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - // Adjust coming parameters. - ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; - localIn.width = Max(pIn->width, 1u); - localIn.height = Max(pIn->height, 1u); - localIn.numMipLevels = Max(pIn->numMipLevels, 1u); - localIn.numSlices = Max(pIn->numSlices, 1u); - localIn.numSamples = Max(pIn->numSamples, 1u); - localIn.numFrags = (localIn.numFrags == 0) ? localIn.numSamples : pIn->numFrags; - - UINT_32 expandX = 1; - UINT_32 expandY = 1; - ElemMode elemMode = ADDR_UNCOMPRESSED; - - if (returnCode == ADDR_OK) - { - // Set format to INVALID will skip this conversion - if (localIn.format != ADDR_FMT_INVALID) - { - // Get compression/expansion factors and element mode which indicates compression/expansion - localIn.bpp = GetElemLib()->GetBitsPerPixel(localIn.format, - &elemMode, - &expandX, - &expandY); - - // Special flag for 96 bit surface. 96 (or 48 if we support) bit surface's width is - // pre-multiplied by 3 and bpp is divided by 3. So pitch alignment for linear- - // aligned does not meet 64-pixel in real. We keep special handling in hwl since hw - // restrictions are different. - // Also Mip 1+ needs an element pitch of 32 bits so we do not need this workaround - // but we use this flag to skip RestoreSurfaceInfo below - - if ((elemMode == ADDR_EXPANDED) && (expandX > 1)) - { - ADDR_ASSERT(IsLinear(localIn.swizzleMode)); - } - - UINT_32 basePitch = 0; - GetElemLib()->AdjustSurfaceInfo(elemMode, - expandX, - expandY, - &localIn.bpp, - &basePitch, - &localIn.width, - &localIn.height); - - // Overwrite these parameters if we have a valid format - } - - if (localIn.bpp != 0) - { - localIn.width = Max(localIn.width, 1u); - localIn.height = Max(localIn.height, 1u); - } - else // Rule out some invalid parameters - { - ADDR_ASSERT_ALWAYS(); - - returnCode = ADDR_INVALIDPARAMS; - } - } - - if (returnCode == ADDR_OK) - { - returnCode = ComputeSurfaceInfoSanityCheck(&localIn); - } - - if (returnCode == ADDR_OK) - { - VerifyMipLevelInfo(pIn); - - if (IsLinear(pIn->swizzleMode)) - { - // linear mode - returnCode = ComputeSurfaceInfoLinear(&localIn, pOut); - } - else - { - // tiled mode - returnCode = ComputeSurfaceInfoTiled(&localIn, pOut); - } - - if (returnCode == ADDR_OK) - { - pOut->bpp = localIn.bpp; - pOut->pixelPitch = pOut->pitch; - pOut->pixelHeight = pOut->height; - pOut->pixelMipChainPitch = pOut->mipChainPitch; - pOut->pixelMipChainHeight = pOut->mipChainHeight; - pOut->pixelBits = localIn.bpp; - - if (localIn.format != ADDR_FMT_INVALID) - { - UINT_32 pixelBits = pOut->pixelBits; - - GetElemLib()->RestoreSurfaceInfo(elemMode, - expandX, - expandY, - &pOut->pixelBits, - &pOut->pixelPitch, - &pOut->pixelHeight); - - GetElemLib()->RestoreSurfaceInfo(elemMode, - expandX, - expandY, - &pixelBits, - &pOut->pixelMipChainPitch, - &pOut->pixelMipChainHeight); - - if ((localIn.numMipLevels > 1) && (pOut->pMipInfo != NULL)) - { - for (UINT_32 i = 0; i < localIn.numMipLevels; i++) - { - pOut->pMipInfo[i].pixelPitch = pOut->pMipInfo[i].pitch; - pOut->pMipInfo[i].pixelHeight = pOut->pMipInfo[i].height; - - GetElemLib()->RestoreSurfaceInfo(elemMode, - expandX, - expandY, - &pixelBits, - &pOut->pMipInfo[i].pixelPitch, - &pOut->pMipInfo[i].pixelHeight); - } - } - } - - if (localIn.flags.needEquation && (Log2(localIn.numFrags) == 0)) - { - pOut->equationIndex = GetEquationIndex(&localIn, pOut); - } - - if (localIn.flags.qbStereo) - { - if (pOut->pStereoInfo != NULL) - { - ComputeQbStereoInfo(pOut); - } - } - } - } - - ADDR_ASSERT(pOut->surfSize != 0); - - ValidBaseAlignments(pOut->baseAlign); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceInfo -* -* @brief -* Interface function stub of AddrComputeSurfaceInfo. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoord( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT localIn = *pIn; - localIn.unalignedWidth = Max(pIn->unalignedWidth, 1u); - localIn.unalignedHeight = Max(pIn->unalignedHeight, 1u); - localIn.numMipLevels = Max(pIn->numMipLevels, 1u); - localIn.numSlices = Max(pIn->numSlices, 1u); - localIn.numSamples = Max(pIn->numSamples, 1u); - localIn.numFrags = Max(pIn->numFrags, 1u); - - if ((localIn.bpp < 8) || - (localIn.bpp > 128) || - ((localIn.bpp % 8) != 0) || - (localIn.sample >= localIn.numSamples) || - (localIn.slice >= localIn.numSlices) || - (localIn.mipId >= localIn.numMipLevels) || - (IsTex3d(localIn.resourceType) && - (Valid3DMipSliceIdConstraint(localIn.numSlices, localIn.mipId, localIn.slice) == FALSE))) - { - returnCode = ADDR_INVALIDPARAMS; - } - - if (returnCode == ADDR_OK) - { - if (IsLinear(localIn.swizzleMode)) - { - returnCode = ComputeSurfaceAddrFromCoordLinear(&localIn, pOut); - } - else - { - returnCode = ComputeSurfaceAddrFromCoordTiled(&localIn, pOut); - } - - if (returnCode == ADDR_OK) - { - pOut->prtBlockIndex = static_cast(pOut->addr / (64 * 1024)); - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceCoordFromAddr -* -* @brief -* Interface function stub of ComputeSurfaceCoordFromAddr. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddr( - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (GetFillSizeFieldsFlags() == TRUE) - { - if ((pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT))) - { - returnCode = ADDR_PARAMSIZEMISMATCH; - } - } - - if ((pIn->bpp < 8) || - (pIn->bpp > 128) || - ((pIn->bpp % 8) != 0) || - (pIn->bitPosition >= 8)) - { - returnCode = ADDR_INVALIDPARAMS; - } - - if (returnCode == ADDR_OK) - { - if (IsLinear(pIn->swizzleMode)) - { - returnCode = ComputeSurfaceCoordFromAddrLinear(pIn, pOut); - } - else - { - returnCode = ComputeSurfaceCoordFromAddrTiled(pIn, pOut); - } - } - - return returnCode; -} - - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// CMASK/HTILE -//////////////////////////////////////////////////////////////////////////////////////////////////// - -/** -************************************************************************************************************************ -* Lib::ComputeHtileInfo -* -* @brief -* Interface function stub of AddrComputeHtilenfo -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeHtileInfo( - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_HTILE_INFO_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_HTILE_INFO_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeHtileInfo(pIn, pOut); - - ValidMetaBaseAlignments(pOut->baseAlign); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeHtileAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeHtileAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeHtileAddrFromCoord( - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeHtileAddrFromCoord(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeHtileCoordFromAddr -* -* @brief -* Interface function stub of AddrComputeHtileCoordFromAddr -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeHtileCoordFromAddr( - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeHtileCoordFromAddr(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeCmaskInfo -* -* @brief -* Interface function stub of AddrComputeCmaskInfo -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskInfo( - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_CMASK_INFO_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_CMASK_INFO_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else if (pIn->cMaskFlags.linear) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeCmaskInfo(pIn, pOut); - - ValidMetaBaseAlignments(pOut->baseAlign); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeCmaskAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeCmaskAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskAddrFromCoord( - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeCmaskAddrFromCoord(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeCmaskCoordFromAddr -* -* @brief -* Interface function stub of AddrComputeCmaskCoordFromAddr -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeCmaskCoordFromAddr( - const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; - - ADDR_NOT_IMPLEMENTED(); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeFmaskInfo -* -* @brief -* Interface function stub of ComputeFmaskInfo. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeFmaskInfo( - const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) -{ - ADDR_E_RETURNCODE returnCode; - - BOOL_32 valid = (IsZOrderSwizzle(pIn->swizzleMode) == TRUE) && - ((pIn->numSamples > 0) || (pIn->numFrags > 0)); - - if (GetFillSizeFieldsFlags()) - { - if ((pIn->size != sizeof(ADDR2_COMPUTE_FMASK_INFO_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_FMASK_INFO_OUTPUT))) - { - valid = FALSE; - } - } - - if (valid == FALSE) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; - - localIn.size = sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT); - localOut.size = sizeof(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT); - - localIn.swizzleMode = pIn->swizzleMode; - localIn.numSlices = Max(pIn->numSlices, 1u); - localIn.width = Max(pIn->unalignedWidth, 1u); - localIn.height = Max(pIn->unalignedHeight, 1u); - localIn.bpp = GetFmaskBpp(pIn->numSamples, pIn->numFrags); - localIn.flags.fmask = 1; - localIn.numFrags = 1; - localIn.numSamples = 1; - localIn.resourceType = ADDR_RSRC_TEX_2D; - - if (localIn.bpp == 8) - { - localIn.format = ADDR_FMT_8; - } - else if (localIn.bpp == 16) - { - localIn.format = ADDR_FMT_16; - } - else if (localIn.bpp == 32) - { - localIn.format = ADDR_FMT_32; - } - else - { - localIn.format = ADDR_FMT_32_32; - } - - returnCode = ComputeSurfaceInfo(&localIn, &localOut); - - if (returnCode == ADDR_OK) - { - pOut->pitch = localOut.pitch; - pOut->height = localOut.height; - pOut->baseAlign = localOut.baseAlign; - pOut->numSlices = localOut.numSlices; - pOut->fmaskBytes = static_cast(localOut.surfSize); - pOut->sliceSize = static_cast(localOut.sliceSize); - pOut->bpp = localIn.bpp; - pOut->numSamples = 1; - } - } - - ValidBaseAlignments(pOut->baseAlign); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeFmaskAddrFromCoord -* -* @brief -* Interface function stub of ComputeFmaskAddrFromCoord. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeFmaskAddrFromCoord( - const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; - - ADDR_NOT_IMPLEMENTED(); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeFmaskCoordFromAddr -* -* @brief -* Interface function stub of ComputeFmaskAddrFromCoord. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeFmaskCoordFromAddr( - const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; - - ADDR_NOT_IMPLEMENTED(); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeDccInfo -* -* @brief -* Interface function to compute DCC key info -* -* @return -* return code of HwlComputeDccInfo -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeDccInfo( - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_DCCINFO_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_DCCINFO_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeDccInfo(pIn, pOut); - - ValidMetaBaseAlignments(pOut->dccRamBaseAlign); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeDccAddrFromCoord -* -* @brief -* Interface function stub of ComputeDccAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeDccAddrFromCoord( - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeDccAddrFromCoord(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputePipeBankXor -* -* @brief -* Interface function stub of Addr2ComputePipeBankXor. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputePipeBankXor( - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_PIPEBANKXOR_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else if (IsXor(pIn->swizzleMode) == FALSE) - { - returnCode = ADDR_NOTSUPPORTED; - } - else - { - returnCode = HwlComputePipeBankXor(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSlicePipeBankXor -* -* @brief -* Interface function stub of Addr2ComputeSlicePipeBankXor. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSlicePipeBankXor( - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else if ((IsThin(pIn->resourceType, pIn->swizzleMode) == FALSE) || - (IsNonPrtXor(pIn->swizzleMode) == FALSE) || - (pIn->numSamples > 1)) - { - returnCode = ADDR_NOTSUPPORTED; - } - else - { - returnCode = HwlComputeSlicePipeBankXor(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSubResourceOffsetForSwizzlePattern -* -* @brief -* Interface function stub of Addr2ComputeSubResourceOffsetForSwizzlePattern. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSubResourceOffsetForSwizzlePattern( - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT)) || - (pOut->size != sizeof(ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeSubResourceOffsetForSwizzlePattern(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ExtractPipeBankXor -* -* @brief -* Internal function to extract bank and pipe xor bits from combined xor bits. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ExtractPipeBankXor( - UINT_32 pipeBankXor, - UINT_32 bankBits, - UINT_32 pipeBits, - UINT_32* pBankX, - UINT_32* pPipeX) -{ - ADDR_E_RETURNCODE returnCode; - - if (pipeBankXor < (1u << (pipeBits + bankBits))) - { - *pPipeX = pipeBankXor % (1 << pipeBits); - *pBankX = pipeBankXor >> pipeBits; - returnCode = ADDR_OK; - } - else - { - ADDR_ASSERT_ALWAYS(); - returnCode = ADDR_INVALIDPARAMS; - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceInfoSanityCheck -* -* @brief -* Internal function to do basic sanity check before compute surface info -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceInfoSanityCheck( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn ///< [in] input structure - ) const -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - (pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlComputeSurfaceInfoSanityCheck(pIn); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ApplyCustomizedPitchHeight -* -* @brief -* Helper function to override hw required row pitch/slice pitch by customrized one -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ApplyCustomizedPitchHeight( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - UINT_32 elementBytes, ///< [in] element bytes per element - UINT_32 pitchAlignInElement, ///< [in] pitch alignment in element - UINT_32* pPitch, ///< [in/out] pitch - UINT_32* pHeight ///< [in/out] height - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pIn->numMipLevels <= 1) - { - if (pIn->pitchInElement > 0) - { - if ((pIn->pitchInElement % pitchAlignInElement) != 0) - { - returnCode = ADDR_INVALIDPARAMS; - } - else if (pIn->pitchInElement < (*pPitch)) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - *pPitch = pIn->pitchInElement; - } - } - - if (returnCode == ADDR_OK) - { - if (pIn->sliceAlign > 0) - { - UINT_32 customizedHeight = pIn->sliceAlign / elementBytes / (*pPitch); - - if (customizedHeight * elementBytes * (*pPitch) != pIn->sliceAlign) - { - returnCode = ADDR_INVALIDPARAMS; - } - else if ((pIn->numSlices > 1) && ((*pHeight) != customizedHeight)) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - *pHeight = customizedHeight; - } - } - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceInfoLinear -* -* @brief -* Internal function to calculate alignment for linear swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceInfoLinear( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - return HwlComputeSurfaceInfoLinear(pIn, pOut); -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceInfoTiled -* -* @brief -* Internal function to calculate alignment for tiled swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceInfoTiled( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - return HwlComputeSurfaceInfoTiled(pIn, pOut); -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceAddrFromCoordLinear -* -* @brief -* Internal function to calculate address from coord for linear swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoordLinear( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - BOOL_32 valid = (pIn->numSamples <= 1) && (pIn->numFrags <= 1) && (pIn->pipeBankXor == 0); - - if (valid) - { - if (IsTex1d(pIn->resourceType)) - { - valid = (pIn->y == 0); - } - } - - if (valid) - { - ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; - ADDR2_MIP_INFO mipInfo[MaxMipLevels]; - - localIn.bpp = pIn->bpp; - localIn.flags = pIn->flags; - localIn.width = Max(pIn->unalignedWidth, 1u); - localIn.height = Max(pIn->unalignedHeight, 1u); - localIn.numSlices = Max(pIn->numSlices, 1u); - localIn.numMipLevels = Max(pIn->numMipLevels, 1u); - localIn.resourceType = pIn->resourceType; - - if (localIn.numMipLevels <= 1) - { - localIn.pitchInElement = pIn->pitchInElement; - } - - localOut.pMipInfo = mipInfo; - - returnCode = ComputeSurfaceInfoLinear(&localIn, &localOut); - - if (returnCode == ADDR_OK) - { - pOut->addr = (localOut.sliceSize * pIn->slice) + - mipInfo[pIn->mipId].offset + - (pIn->y * mipInfo[pIn->mipId].pitch + pIn->x) * (pIn->bpp >> 3); - pOut->bitPosition = 0; - } - else - { - valid = FALSE; - } - } - - if (valid == FALSE) - { - returnCode = ADDR_INVALIDPARAMS; - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceAddrFromCoordTiled -* -* @brief -* Internal function to calculate address from coord for tiled swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoordTiled( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - return HwlComputeSurfaceAddrFromCoordTiled(pIn, pOut); -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceCoordFromAddrLinear -* -* @brief -* Internal function to calculate coord from address for linear swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddrLinear( - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - BOOL_32 valid = (pIn->numSamples <= 1) && (pIn->numFrags <= 1); - - if (valid) - { - if (IsTex1d(pIn->resourceType)) - { - valid = (pIn->unalignedHeight == 1); - } - } - - if (valid) - { - ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; - localIn.bpp = pIn->bpp; - localIn.flags = pIn->flags; - localIn.width = Max(pIn->unalignedWidth, 1u); - localIn.height = Max(pIn->unalignedHeight, 1u); - localIn.numSlices = Max(pIn->numSlices, 1u); - localIn.numMipLevels = Max(pIn->numMipLevels, 1u); - localIn.resourceType = pIn->resourceType; - if (localIn.numMipLevels <= 1) - { - localIn.pitchInElement = pIn->pitchInElement; - } - returnCode = ComputeSurfaceInfoLinear(&localIn, &localOut); - - if (returnCode == ADDR_OK) - { - pOut->slice = static_cast(pIn->addr / localOut.sliceSize); - pOut->sample = 0; - - UINT_32 offsetInSlice = static_cast(pIn->addr % localOut.sliceSize); - UINT_32 elementBytes = pIn->bpp >> 3; - UINT_32 mipOffsetInSlice = 0; - UINT_32 mipSize = 0; - UINT_32 mipId = 0; - for (; mipId < pIn->numMipLevels ; mipId++) - { - if (IsTex1d(pIn->resourceType)) - { - mipSize = localOut.pitch * elementBytes; - } - else - { - UINT_32 currentMipHeight = (PowTwoAlign(localIn.height, (1 << mipId))) >> mipId; - mipSize = currentMipHeight * localOut.pitch * elementBytes; - } - - if (mipSize == 0) - { - valid = FALSE; - break; - } - else if ((mipSize + mipOffsetInSlice) > offsetInSlice) - { - break; - } - else - { - mipOffsetInSlice += mipSize; - if ((mipId == (pIn->numMipLevels - 1)) || - (mipOffsetInSlice >= localOut.sliceSize)) - { - valid = FALSE; - } - } - } - - if (valid) - { - pOut->mipId = mipId; - - UINT_32 elemOffsetInMip = (offsetInSlice - mipOffsetInSlice) / elementBytes; - if (IsTex1d(pIn->resourceType)) - { - if (elemOffsetInMip < localOut.pitch) - { - pOut->x = elemOffsetInMip; - pOut->y = 0; - } - else - { - valid = FALSE; - } - } - else - { - pOut->y = elemOffsetInMip / localOut.pitch; - pOut->x = elemOffsetInMip % localOut.pitch; - } - - if ((pOut->slice >= pIn->numSlices) || - (pOut->mipId >= pIn->numMipLevels) || - (pOut->x >= Max((pIn->unalignedWidth >> pOut->mipId), 1u)) || - (pOut->y >= Max((pIn->unalignedHeight >> pOut->mipId), 1u)) || - (IsTex3d(pIn->resourceType) && - (FALSE == Valid3DMipSliceIdConstraint(pIn->numSlices, - pOut->mipId, - pOut->slice)))) - { - valid = FALSE; - } - } - } - else - { - valid = FALSE; - } - } - - if (valid == FALSE) - { - returnCode = ADDR_INVALIDPARAMS; - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurfaceCoordFromAddrTiled -* -* @brief -* Internal function to calculate coord from address for tiled swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddrTiled( - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; - - ADDR_NOT_IMPLEMENTED(); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeBlockDimensionForSurf -* -* @brief -* Internal function to get block width/height/depth in element from surface input params. -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeBlockDimensionForSurf( - UINT_32* pWidth, - UINT_32* pHeight, - UINT_32* pDepth, - UINT_32 bpp, - UINT_32 numSamples, - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const -{ - ADDR_E_RETURNCODE returnCode = ComputeBlockDimension(pWidth, - pHeight, - pDepth, - bpp, - resourceType, - swizzleMode); - - if ((returnCode == ADDR_OK) && (numSamples > 1) && IsThin(resourceType, swizzleMode)) - { - const UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); - const UINT_32 log2sample = Log2(numSamples); - const UINT_32 q = log2sample >> 1; - const UINT_32 r = log2sample & 1; - - if (log2blkSize & 1) - { - *pWidth >>= q; - *pHeight >>= (q + r); - } - else - { - *pWidth >>= (q + r); - *pHeight >>= q; - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeBlockDimension -* -* @brief -* Internal function to get block width/height/depth in element without considering MSAA case -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeBlockDimension( - UINT_32* pWidth, - UINT_32* pHeight, - UINT_32* pDepth, - UINT_32 bpp, - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - UINT_32 eleBytes = bpp >> 3; - UINT_32 microBlockSizeTableIndex = Log2(eleBytes); - UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); - - if (IsThin(resourceType, swizzleMode)) - { - UINT_32 log2blkSizeIn256B = log2blkSize - 8; - UINT_32 widthAmp = log2blkSizeIn256B / 2; - UINT_32 heightAmp = log2blkSizeIn256B - widthAmp; - - ADDR_ASSERT(microBlockSizeTableIndex < sizeof(Block256_2d) / sizeof(Block256_2d[0])); - - *pWidth = (Block256_2d[microBlockSizeTableIndex].w << widthAmp); - *pHeight = (Block256_2d[microBlockSizeTableIndex].h << heightAmp); - *pDepth = 1; - } - else if (IsThick(resourceType, swizzleMode)) - { - UINT_32 log2blkSizeIn1KB = log2blkSize - 10; - UINT_32 averageAmp = log2blkSizeIn1KB / 3; - UINT_32 restAmp = log2blkSizeIn1KB % 3; - - ADDR_ASSERT(microBlockSizeTableIndex < sizeof(Block1K_3d) / sizeof(Block1K_3d[0])); - - *pWidth = Block1K_3d[microBlockSizeTableIndex].w << averageAmp; - *pHeight = Block1K_3d[microBlockSizeTableIndex].h << (averageAmp + (restAmp / 2)); - *pDepth = Block1K_3d[microBlockSizeTableIndex].d << (averageAmp + ((restAmp != 0) ? 1 : 0)); - } - else - { - ADDR_ASSERT_ALWAYS(); - returnCode = ADDR_INVALIDPARAMS; - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::GetMipTailDim -* -* @brief -* Internal function to get out max dimension of first level in mip tail -* -* @return -* Max Width/Height/Depth value of the first mip fitted in mip tail -************************************************************************************************************************ -*/ -Dim3d Lib::GetMipTailDim( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 blockWidth, - UINT_32 blockHeight, - UINT_32 blockDepth) const -{ - Dim3d out = {blockWidth, blockHeight, blockDepth}; - UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); - - if (IsThick(resourceType, swizzleMode)) - { - UINT_32 dim = log2blkSize % 3; - - if (dim == 0) - { - out.h >>= 1; - } - else if (dim == 1) - { - out.w >>= 1; - } - else - { - out.d >>= 1; - } - } - else - { - if (log2blkSize & 1) - { - out.h >>= 1; - } - else - { - out.w >>= 1; - } - } - - return out; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurface2DMicroBlockOffset -* -* @brief -* Internal function to calculate micro block (256B) offset from coord for 2D resource -* -* @return -* micro block (256B) offset for 2D resource -************************************************************************************************************************ -*/ -UINT_32 Lib::ComputeSurface2DMicroBlockOffset( - const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const -{ - ADDR_ASSERT(IsThin(pIn->resourceType, pIn->swizzleMode)); - - UINT_32 log2ElementBytes = Log2(pIn->bpp >> 3); - UINT_32 microBlockOffset = 0; - if (IsStandardSwizzle(pIn->resourceType, pIn->swizzleMode)) - { - UINT_32 xBits = pIn->x << log2ElementBytes; - microBlockOffset = (xBits & 0xf) | ((pIn->y & 0x3) << 4); - if (log2ElementBytes < 3) - { - microBlockOffset |= (pIn->y & 0x4) << 4; - if (log2ElementBytes == 0) - { - microBlockOffset |= (pIn->y & 0x8) << 4; - } - else - { - microBlockOffset |= (xBits & 0x10) << 3; - } - } - else - { - microBlockOffset |= (xBits & 0x30) << 2; - } - } - else if (IsDisplaySwizzle(pIn->resourceType, pIn->swizzleMode)) - { - if (log2ElementBytes == 4) - { - microBlockOffset = (GetBit(pIn->x, 0) << 4) | - (GetBit(pIn->y, 0) << 5) | - (GetBit(pIn->x, 1) << 6) | - (GetBit(pIn->y, 1) << 7); - } - else - { - microBlockOffset = GetBits(pIn->x, 0, 3, log2ElementBytes) | - GetBits(pIn->y, 1, 2, 3 + log2ElementBytes) | - GetBits(pIn->x, 3, 1, 5 + log2ElementBytes) | - GetBits(pIn->y, 3, 1, 6 + log2ElementBytes); - microBlockOffset = GetBits(microBlockOffset, 0, 4, 0) | - (GetBit(pIn->y, 0) << 4) | - GetBits(microBlockOffset, 4, 3, 5); - } - } - else if (IsRotateSwizzle(pIn->swizzleMode)) - { - microBlockOffset = GetBits(pIn->y, 0, 3, log2ElementBytes) | - GetBits(pIn->x, 1, 2, 3 + log2ElementBytes) | - GetBits(pIn->x, 3, 1, 5 + log2ElementBytes) | - GetBits(pIn->y, 3, 1, 6 + log2ElementBytes); - microBlockOffset = GetBits(microBlockOffset, 0, 4, 0) | - (GetBit(pIn->x, 0) << 4) | - GetBits(microBlockOffset, 4, 3, 5); - if (log2ElementBytes == 3) - { - microBlockOffset = GetBits(microBlockOffset, 0, 6, 0) | - GetBits(pIn->x, 1, 2, 6); - } - } - - return microBlockOffset; -} - -/** -************************************************************************************************************************ -* Lib::ComputeSurface3DMicroBlockOffset -* -* @brief -* Internal function to calculate micro block (1KB) offset from coord for 3D resource -* -* @return -* micro block (1KB) offset for 3D resource -************************************************************************************************************************ -*/ -UINT_32 Lib::ComputeSurface3DMicroBlockOffset( - const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const -{ - ADDR_ASSERT(IsThick(pIn->resourceType, pIn->swizzleMode)); - - UINT_32 log2ElementBytes = Log2(pIn->bpp >> 3); - UINT_32 microBlockOffset = 0; - if (IsStandardSwizzle(pIn->resourceType, pIn->swizzleMode)) - { - if (log2ElementBytes == 0) - { - microBlockOffset = ((pIn->slice & 4) >> 2) | ((pIn->y & 4) >> 1); - } - else if (log2ElementBytes == 1) - { - microBlockOffset = ((pIn->slice & 4) >> 2) | ((pIn->y & 4) >> 1); - } - else if (log2ElementBytes == 2) - { - microBlockOffset = ((pIn->y & 4) >> 2) | ((pIn->x & 4) >> 1); - } - else if (log2ElementBytes == 3) - { - microBlockOffset = (pIn->x & 6) >> 1; - } - else - { - microBlockOffset = pIn->x & 3; - } - - microBlockOffset <<= 8; - - UINT_32 xBits = pIn->x << log2ElementBytes; - microBlockOffset |= (xBits & 0xf) | ((pIn->y & 0x3) << 4) | ((pIn->slice & 0x3) << 6); - } - else if (IsZOrderSwizzle(pIn->swizzleMode)) - { - UINT_32 xh, yh, zh; - - if (log2ElementBytes == 0) - { - microBlockOffset = - (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->x & 2) << 1) | ((pIn->y & 2) << 2); - microBlockOffset = microBlockOffset | ((pIn->slice & 3) << 4) | ((pIn->x & 4) << 4); - - xh = pIn->x >> 3; - yh = pIn->y >> 2; - zh = pIn->slice >> 2; - } - else if (log2ElementBytes == 1) - { - microBlockOffset = - (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->x & 2) << 1) | ((pIn->y & 2) << 2); - microBlockOffset = (microBlockOffset << 1) | ((pIn->slice & 3) << 5); - - xh = pIn->x >> 2; - yh = pIn->y >> 2; - zh = pIn->slice >> 2; - } - else if (log2ElementBytes == 2) - { - microBlockOffset = - (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->x & 2) << 1) | ((pIn->slice & 1) << 3); - microBlockOffset = (microBlockOffset << 2) | ((pIn->y & 2) << 5); - - xh = pIn->x >> 2; - yh = pIn->y >> 2; - zh = pIn->slice >> 1; - } - else if (log2ElementBytes == 3) - { - microBlockOffset = - (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->slice & 1) << 2) | ((pIn->x & 2) << 2); - microBlockOffset <<= 3; - - xh = pIn->x >> 2; - yh = pIn->y >> 1; - zh = pIn->slice >> 1; - } - else - { - microBlockOffset = - (((pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->slice & 1) << 2)) << 4); - - xh = pIn->x >> 1; - yh = pIn->y >> 1; - zh = pIn->slice >> 1; - } - - microBlockOffset |= ((MortonGen3d(xh, yh, zh, 1) << 7) & 0x380); - } - - return microBlockOffset; -} - -/** -************************************************************************************************************************ -* Lib::GetPipeXorBits -* -* @brief -* Internal function to get bits number for pipe/se xor operation -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -UINT_32 Lib::GetPipeXorBits( - UINT_32 macroBlockBits) const -{ - ADDR_ASSERT(macroBlockBits >= m_pipeInterleaveLog2); - - // Total available xor bits - UINT_32 xorBits = macroBlockBits - m_pipeInterleaveLog2; - - // Pipe/Se xor bits - UINT_32 pipeBits = Min(xorBits, m_pipesLog2 + m_seLog2); - - return pipeBits; -} - -/** -************************************************************************************************************************ -* Lib::GetBankXorBits -* -* @brief -* Internal function to get bits number for pipe/se xor operation -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -UINT_32 Lib::GetBankXorBits( - UINT_32 macroBlockBits) const -{ - UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); - - // Bank xor bits - UINT_32 bankBits = Min(macroBlockBits - pipeBits - m_pipeInterleaveLog2, m_banksLog2); - - return bankBits; -} - -/** -************************************************************************************************************************ -* Lib::Addr2GetPreferredSurfaceSetting -* -* @brief -* Internal function to get suggested surface information for cliet to use -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::Addr2GetPreferredSurfaceSetting( - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const -{ - ADDR_E_RETURNCODE returnCode; - - if ((GetFillSizeFieldsFlags() == TRUE) && - ((pIn->size != sizeof(ADDR2_GET_PREFERRED_SURF_SETTING_INPUT)) || - (pOut->size != sizeof(ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT)))) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - returnCode = HwlGetPreferredSurfaceSetting(pIn, pOut); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Lib::ComputeBlock256Equation -* -* @brief -* Compute equation for block 256B -* -* @return -* If equation computed successfully -* -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeBlock256Equation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const -{ - ADDR_E_RETURNCODE ret; - - if (IsBlock256b(swMode)) - { - ret = HwlComputeBlock256Equation(rsrcType, swMode, elementBytesLog2, pEquation); - } - else - { - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - } - - return ret; -} - -/** -************************************************************************************************************************ -* Lib::ComputeThinEquation -* -* @brief -* Compute equation for 2D/3D resource which use THIN mode -* -* @return -* If equation computed successfully -* -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeThinEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const -{ - ADDR_E_RETURNCODE ret; - - if (IsThin(rsrcType, swMode)) - { - ret = HwlComputeThinEquation(rsrcType, swMode, elementBytesLog2, pEquation); - } - else - { - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - } - - return ret; -} - -/** -************************************************************************************************************************ -* Lib::ComputeThickEquation -* -* @brief -* Compute equation for 3D resource which use THICK mode -* -* @return -* If equation computed successfully -* -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Lib::ComputeThickEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const -{ - ADDR_E_RETURNCODE ret; - - if (IsThick(rsrcType, swMode)) - { - ret = HwlComputeThickEquation(rsrcType, swMode, elementBytesLog2, pEquation); - } - else - { - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - } - - return ret; -} - -/** -************************************************************************************************************************ -* Lib::ComputeQbStereoInfo -* -* @brief -* Get quad buffer stereo information -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Lib::ComputeQbStereoInfo( - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] updated pOut+pStereoInfo - ) const -{ - ADDR_ASSERT(pOut->bpp >= 8); - ADDR_ASSERT((pOut->surfSize % pOut->baseAlign) == 0); - - // Save original height - pOut->pStereoInfo->eyeHeight = pOut->height; - - // Right offset - pOut->pStereoInfo->rightOffset = static_cast(pOut->surfSize); - - // Double height - pOut->height <<= 1; - - ADDR_ASSERT(pOut->height <= MaxSurfaceHeight); - - pOut->pixelHeight <<= 1; - - // Double size - pOut->surfSize <<= 1; -} - - -} // V2 -} // Addr - diff --git a/src/amd/addrlib/core/addrlib2.h b/src/amd/addrlib/core/addrlib2.h deleted file mode 100644 index d82e6c0984b..00000000000 --- a/src/amd/addrlib/core/addrlib2.h +++ /dev/null @@ -1,793 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -************************************************************************************************************************ -* @file addrlib2.h -* @brief Contains the Addr::V2::Lib class definition. -************************************************************************************************************************ -*/ - -#ifndef __ADDR2_LIB2_H__ -#define __ADDR2_LIB2_H__ - -#include "addrlib.h" - -namespace Addr -{ -namespace V2 -{ - -/** -************************************************************************************************************************ -* @brief Flags for SwizzleModeTable -************************************************************************************************************************ -*/ -struct SwizzleModeFlags -{ - // Swizzle mode - UINT_32 isLinear : 1; // Linear - - // Block size - UINT_32 is256b : 1; // Block size is 256B - UINT_32 is4kb : 1; // Block size is 4KB - UINT_32 is64kb : 1; // Block size is 64KB - UINT_32 isVar : 1; // Block size is variable - - UINT_32 isZ : 1; // Z order swizzle mode - UINT_32 isStd : 1; // Standard swizzle mode - UINT_32 isDisp : 1; // Display swizzle mode - UINT_32 isRot : 1; // Rotate swizzle mode - - // XOR mode - UINT_32 isXor : 1; // XOR after swizzle if set - - UINT_32 isT : 1; // T mode - - UINT_32 isRtOpt : 1; // mode opt for render target -}; - -struct Dim2d -{ - UINT_32 w; - UINT_32 h; -}; - -struct Dim3d -{ - UINT_32 w; - UINT_32 h; - UINT_32 d; -}; - -/** -************************************************************************************************************************ -* @brief This class contains asic independent address lib functionalities -************************************************************************************************************************ -*/ -class Lib : public Addr::Lib -{ -public: - virtual ~Lib(); - - static Lib* GetLib( - ADDR_HANDLE hLib); - - // - // Interface stubs - // - - // For data surface - ADDR_E_RETURNCODE ComputeSurfaceInfo( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoord( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddr( - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; - - // For HTile - ADDR_E_RETURNCODE ComputeHtileInfo( - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeHtileAddrFromCoord( - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); - - ADDR_E_RETURNCODE ComputeHtileCoordFromAddr( - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); - - // For CMask - ADDR_E_RETURNCODE ComputeCmaskInfo( - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeCmaskAddrFromCoord( - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); - - ADDR_E_RETURNCODE ComputeCmaskCoordFromAddr( - const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) const; - - // For FMask - ADDR_E_RETURNCODE ComputeFmaskInfo( - const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut); - - ADDR_E_RETURNCODE ComputeFmaskAddrFromCoord( - const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeFmaskCoordFromAddr( - const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; - - // For DCC key - ADDR_E_RETURNCODE ComputeDccInfo( - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeDccAddrFromCoord( - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut); - - // Misc - ADDR_E_RETURNCODE ComputePipeBankXor( - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut); - - ADDR_E_RETURNCODE ComputeSlicePipeBankXor( - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut); - - ADDR_E_RETURNCODE ComputeSubResourceOffsetForSwizzlePattern( - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut); - - ADDR_E_RETURNCODE Addr2GetPreferredSurfaceSetting( - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const; - - virtual BOOL_32 IsValidDisplaySwizzleMode( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTIMPLEMENTED; - } - -protected: - Lib(); // Constructor is protected - Lib(const Client* pClient); - - static const UINT_32 MaxNumOfBpp = 5; - - static const Dim2d Block256_2d[MaxNumOfBpp]; - static const Dim3d Block1K_3d[MaxNumOfBpp]; - - static const UINT_32 PrtAlignment = 64 * 1024; - static const UINT_32 MaxMacroBits = 20; - - static const UINT_32 MaxMipLevels = 16; - - // Checking block size - BOOL_32 IsBlock256b(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].is256b; - } - - BOOL_32 IsBlock4kb(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].is4kb; - } - - BOOL_32 IsBlock64kb(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].is64kb; - } - - BOOL_32 IsBlockVariable(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isVar; - } - - // Checking swizzle mode - BOOL_32 IsLinear(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isLinear; - } - - BOOL_32 IsRtOptSwizzle(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isRtOpt; - } - - BOOL_32 IsZOrderSwizzle(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isZ; - } - - BOOL_32 IsStandardSwizzle(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const - { - return HwlIsStandardSwizzle(resourceType, swizzleMode); - } - - BOOL_32 IsDisplaySwizzle(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const - { - return HwlIsDisplaySwizzle(resourceType, swizzleMode); - } - - BOOL_32 IsRotateSwizzle(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isRot; - } - - BOOL_32 IsXor(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isXor; - } - - BOOL_32 IsPrt(AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isT; - } - - BOOL_32 IsNonPrtXor(AddrSwizzleMode swizzleMode) const - { - return (IsXor(swizzleMode) && (IsPrt(swizzleMode) == FALSE)); - } - - // Checking resource type - static BOOL_32 IsTex1d(AddrResourceType resourceType) - { - return (resourceType == ADDR_RSRC_TEX_1D); - } - - static BOOL_32 IsTex2d(AddrResourceType resourceType) - { - return (resourceType == ADDR_RSRC_TEX_2D); - } - - static BOOL_32 IsTex3d(AddrResourceType resourceType) - { - return (resourceType == ADDR_RSRC_TEX_3D); - } - - BOOL_32 IsThick(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const - { - return HwlIsThick(resourceType, swizzleMode); - } - - BOOL_32 IsThin(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const - { - return HwlIsThin(resourceType, swizzleMode); - } - - UINT_32 GetBlockSizeLog2(AddrSwizzleMode swizzleMode) const - { - UINT_32 blockSizeLog2 = 0; - - if (IsBlock256b(swizzleMode) || IsLinear(swizzleMode)) - { - blockSizeLog2 = 8; - } - else if (IsBlock4kb(swizzleMode)) - { - blockSizeLog2 = 12; - } - else if (IsBlock64kb(swizzleMode)) - { - blockSizeLog2 = 16; - } - else if (IsBlockVariable(swizzleMode)) - { - blockSizeLog2 = m_blockVarSizeLog2; - } - else - { - ADDR_ASSERT_ALWAYS(); - } - - return blockSizeLog2; - } - - UINT_32 GetBlockSize(AddrSwizzleMode swizzleMode) const - { - return (1 << GetBlockSizeLog2(swizzleMode)); - } - - static UINT_32 GetFmaskBpp(UINT_32 sample, UINT_32 frag) - { - sample = (sample == 0) ? 1 : sample; - frag = (frag == 0) ? sample : frag; - - UINT_32 fmaskBpp = QLog2(frag); - - if (sample > frag) - { - fmaskBpp++; - } - - if (fmaskBpp == 3) - { - fmaskBpp = 4; - } - - fmaskBpp = Max(8u, fmaskBpp * sample); - - return fmaskBpp; - } - - virtual BOOL_32 HwlIsStandardSwizzle( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - ADDR_NOT_IMPLEMENTED(); - return FALSE; - } - - virtual BOOL_32 HwlIsDisplaySwizzle( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - ADDR_NOT_IMPLEMENTED(); - return FALSE; - } - - virtual BOOL_32 HwlIsThin( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - ADDR_NOT_IMPLEMENTED(); - return FALSE; - } - - virtual BOOL_32 HwlIsThick( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - ADDR_NOT_IMPLEMENTED(); - return FALSE; - } - - virtual ADDR_E_RETURNCODE HwlComputeHtileInfo( - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeCmaskInfo( - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeDccInfo( - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeDccAddrFromCoord( - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeHtileCoordFromAddr( - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeBlock256Equation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeThinEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeThickEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual UINT_32 HwlGetEquationIndex( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_INVALID_EQUATION_INDEX; - } - - UINT_32 GetEquationIndex( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const - { - return HwlGetEquationIndex(pIn, pOut); - } - - virtual ADDR_E_RETURNCODE HwlComputePipeBankXor( - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeSlicePipeBankXor( - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - - virtual ADDR_E_RETURNCODE HwlComputeSubResourceOffsetForSwizzlePattern( - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlGetPreferredSurfaceSetting( - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoSanityCheck( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTSUPPORTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoTiled( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTIMPLEMENTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoLinear( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTIMPLEMENTED; - } - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoordTiled( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const - { - ADDR_NOT_IMPLEMENTED(); - return ADDR_NOTIMPLEMENTED; - } - - ADDR_E_RETURNCODE ComputeBlock256Equation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const; - - ADDR_E_RETURNCODE ComputeThinEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const; - - ADDR_E_RETURNCODE ComputeThickEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const; - - ADDR_E_RETURNCODE ComputeSurfaceInfoSanityCheck( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const; - - ADDR_E_RETURNCODE ComputeSurfaceInfoLinear( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceInfoTiled( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoordLinear( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoordTiled( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddrLinear( - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddrTiled( - const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; - - UINT_32 ComputeSurface2DMicroBlockOffset( - const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const; - - UINT_32 ComputeSurface3DMicroBlockOffset( - const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const; - - // Misc - ADDR_E_RETURNCODE ComputeBlockDimensionForSurf( - UINT_32* pWidth, - UINT_32* pHeight, - UINT_32* pDepth, - UINT_32 bpp, - UINT_32 numSamples, - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const; - - ADDR_E_RETURNCODE ComputeBlockDimension( - UINT_32* pWidth, - UINT_32* pHeight, - UINT_32* pDepth, - UINT_32 bpp, - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const; - - static UINT_64 ComputePadSize( - const Dim3d* pBlkDim, - UINT_32 width, - UINT_32 height, - UINT_32 numSlices, - Dim3d* pPadDim) - { - pPadDim->w = PowTwoAlign(width ,pBlkDim->w); - pPadDim->h = PowTwoAlign(height ,pBlkDim->h); - pPadDim->d = PowTwoAlign(numSlices, pBlkDim->d); - return static_cast(pPadDim->w) * pPadDim->h * pPadDim->d; - } - - static ADDR_E_RETURNCODE ExtractPipeBankXor( - UINT_32 pipeBankXor, - UINT_32 bankBits, - UINT_32 pipeBits, - UINT_32* pBankX, - UINT_32* pPipeX); - - static BOOL_32 Valid3DMipSliceIdConstraint( - UINT_32 numSlices, - UINT_32 mipId, - UINT_32 slice) - { - return (Max((numSlices >> mipId), 1u) > slice); - } - - Dim3d GetMipTailDim( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 blockWidth, - UINT_32 blockHeight, - UINT_32 blockDepth) const; - - BOOL_32 IsInMipTail( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - Dim3d mipTailDim, - UINT_32 width, - UINT_32 height, - UINT_32 depth) const - { - BOOL_32 inTail = ((width <= mipTailDim.w) && - (height <= mipTailDim.h) && - (IsThin(resourceType, swizzleMode) || (depth <= mipTailDim.d))); - - return inTail; - } - - static BOOL_32 IsLocalHeap(AddrResrouceLocation resourceType) - { - return ((resourceType == ADDR_RSRC_LOC_LOCAL) || - (resourceType == ADDR_RSRC_LOC_INVIS)); - } - - static BOOL_32 IsInvisibleHeap(AddrResrouceLocation resourceType) - { - return (resourceType == ADDR_RSRC_LOC_INVIS); - } - - static BOOL_32 IsNonlocalHeap(AddrResrouceLocation resourceType) - { - return ((resourceType == ADDR_RSRC_LOC_USWC) || - (resourceType == ADDR_RSRC_LOC_CACHED)); - } - - UINT_32 GetPipeLog2ForMetaAddressing(BOOL_32 pipeAligned, AddrSwizzleMode swizzleMode) const - { - UINT_32 numPipeLog2 = pipeAligned ? Min(m_pipesLog2 + m_seLog2, 5u) : 0; - - if (IsXor(swizzleMode)) - { - UINT_32 maxPipeLog2 = GetBlockSizeLog2(swizzleMode) - m_pipeInterleaveLog2; - - numPipeLog2 = Min(numPipeLog2, maxPipeLog2); - } - - return numPipeLog2; - } - - UINT_32 GetPipeNumForMetaAddressing(BOOL_32 pipeAligned, AddrSwizzleMode swizzleMode) const - { - return (1 << GetPipeLog2ForMetaAddressing(pipeAligned, swizzleMode)); - } - - VOID VerifyMipLevelInfo(const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const - { -#if DEBUG - if (pIn->numMipLevels > 1) - { - UINT_32 actualMipLevels = 1; - switch (pIn->resourceType) - { - case ADDR_RSRC_TEX_3D: - // Fall through to share 2D case - actualMipLevels = Max(actualMipLevels, Log2NonPow2(pIn->numSlices) + 1); - case ADDR_RSRC_TEX_2D: - // Fall through to share 1D case - actualMipLevels = Max(actualMipLevels, Log2NonPow2(pIn->height) + 1); - case ADDR_RSRC_TEX_1D: - // Base 1D case - actualMipLevels = Max(actualMipLevels, Log2NonPow2(pIn->width) + 1); - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - // Client pass wrong number of MipLevels to addrlib and result will be bad. - // Not sure if we should fail this calling instead of putting an assertion here. - ADDR_ASSERT(actualMipLevels >= pIn->numMipLevels); - } -#endif - } - - ADDR_E_RETURNCODE ApplyCustomerPipeBankXor( - AddrSwizzleMode swizzleMode, - UINT_32 pipeBankXor, - UINT_32 bankBits, - UINT_32 pipeBits, - UINT_32* pBlockOffset) const - { - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (IsXor(swizzleMode)) - { - // Apply driver set bankPipeXor - UINT_32 bankX = 0; - UINT_32 pipeX = 0; - returnCode = ExtractPipeBankXor(pipeBankXor, bankBits, pipeBits, &bankX, &pipeX); - *pBlockOffset ^= (pipeX << m_pipeInterleaveLog2); - *pBlockOffset ^= (bankX << (m_pipeInterleaveLog2 + pipeBits)); - } - - return returnCode; - } - - UINT_32 GetPipeXorBits(UINT_32 macroBlockBits) const; - UINT_32 GetBankXorBits(UINT_32 macroBlockBits) const; - - ADDR_E_RETURNCODE ApplyCustomizedPitchHeight( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - UINT_32 elementBytes, - UINT_32 pitchAlignInElement, - UINT_32* pPitch, - UINT_32* pHeight) const; - - VOID ComputeQbStereoInfo(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - UINT_32 m_se; ///< Number of shader engine - UINT_32 m_rbPerSe; ///< Number of render backend per shader engine - UINT_32 m_maxCompFrag; ///< Number of max compressed fragment - - UINT_32 m_banksLog2; ///< Number of bank Log2 - UINT_32 m_pipesLog2; ///< Number of pipe per shader engine Log2 - UINT_32 m_seLog2; ///< Number of shader engine Log2 - UINT_32 m_rbPerSeLog2; ///< Number of render backend per shader engine Log2 - UINT_32 m_maxCompFragLog2; ///< Number of max compressed fragment Log2 - - UINT_32 m_pipeInterleaveLog2; ///< Log2 of pipe interleave bytes - - UINT_32 m_blockVarSizeLog2; ///< Log2 of block var size - - SwizzleModeFlags m_swizzleModeTable[ADDR_SW_MAX_TYPE]; ///< Swizzle mode table - -private: - // Disallow the copy constructor - Lib(const Lib& a); - - // Disallow the assignment operator - Lib& operator=(const Lib& a); -}; - -} // V2 -} // Addr - -#endif - diff --git a/src/amd/addrlib/core/addrobject.cpp b/src/amd/addrlib/core/addrobject.cpp deleted file mode 100644 index 452feb5fac0..00000000000 --- a/src/amd/addrlib/core/addrobject.cpp +++ /dev/null @@ -1,233 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrobject.cpp -* @brief Contains the Object base class implementation. -**************************************************************************************************** -*/ - -#include "addrinterface.h" -#include "addrobject.h" - -namespace Addr -{ - -/** -**************************************************************************************************** -* Object::Object -* -* @brief -* Constructor for the Object class. -**************************************************************************************************** -*/ -Object::Object() -{ - m_client.handle = NULL; - m_client.callbacks.allocSysMem = NULL; - m_client.callbacks.freeSysMem = NULL; - m_client.callbacks.debugPrint = NULL; -} - -/** -**************************************************************************************************** -* Object::Object -* -* @brief -* Constructor for the Object class. -**************************************************************************************************** -*/ -Object::Object(const Client* pClient) -{ - m_client = *pClient; -} - -/** -**************************************************************************************************** -* Object::~Object -* -* @brief -* Destructor for the Object class. -**************************************************************************************************** -*/ -Object::~Object() -{ -} - -/** -**************************************************************************************************** -* Object::ClientAlloc -* -* @brief -* Calls instanced allocSysMem inside Client -**************************************************************************************************** -*/ -VOID* Object::ClientAlloc( - size_t objSize, ///< [in] Size to allocate - const Client* pClient) ///< [in] Client pointer -{ - VOID* pObjMem = NULL; - - if (pClient->callbacks.allocSysMem != NULL) - { - ADDR_ALLOCSYSMEM_INPUT allocInput = {0}; - - allocInput.size = sizeof(ADDR_ALLOCSYSMEM_INPUT); - allocInput.flags.value = 0; - allocInput.sizeInBytes = static_cast(objSize); - allocInput.hClient = pClient->handle; - - pObjMem = pClient->callbacks.allocSysMem(&allocInput); - } - - return pObjMem; -} - -/** -**************************************************************************************************** -* Object::Alloc -* -* @brief -* A wrapper of ClientAlloc -**************************************************************************************************** -*/ -VOID* Object::Alloc( - size_t objSize ///< [in] Size to allocate - ) const -{ - return ClientAlloc(objSize, &m_client); -} - -/** -**************************************************************************************************** -* Object::ClientFree -* -* @brief -* Calls freeSysMem inside Client -**************************************************************************************************** -*/ -VOID Object::ClientFree( - VOID* pObjMem, ///< [in] User virtual address to free. - const Client* pClient) ///< [in] Client pointer -{ - if (pClient->callbacks.freeSysMem != NULL) - { - if (pObjMem != NULL) - { - ADDR_FREESYSMEM_INPUT freeInput = {0}; - - freeInput.size = sizeof(ADDR_FREESYSMEM_INPUT); - freeInput.hClient = pClient->handle; - freeInput.pVirtAddr = pObjMem; - - pClient->callbacks.freeSysMem(&freeInput); - } - } -} - -/** -**************************************************************************************************** -* Object::Free -* -* @brief -* A wrapper of ClientFree -**************************************************************************************************** -*/ -VOID Object::Free( - VOID* pObjMem ///< [in] User virtual address to free. - ) const -{ - ClientFree(pObjMem, &m_client); -} - -/** -**************************************************************************************************** -* Object::operator new -* -* @brief -* Placement new operator. (with pre-allocated memory pointer) -* -* @return -* Returns pre-allocated memory pointer. -**************************************************************************************************** -*/ -VOID* Object::operator new( - size_t objSize, ///< [in] Size to allocate - VOID* pMem) ///< [in] Pre-allocated pointer -{ - return pMem; -} - -/** -**************************************************************************************************** -* Object::operator delete -* -* @brief -* Frees Object object memory. -**************************************************************************************************** -*/ -VOID Object::operator delete( - VOID* pObjMem) ///< [in] User virtual address to free. -{ - Object* pObj = static_cast(pObjMem); - ClientFree(pObjMem, &pObj->m_client); -} - -/** -**************************************************************************************************** -* Object::DebugPrint -* -* @brief -* Print debug message -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID Object::DebugPrint( - const CHAR* pDebugString, ///< [in] Debug string - ... - ) const -{ -#if DEBUG - if (m_client.callbacks.debugPrint != NULL) - { - ADDR_DEBUGPRINT_INPUT debugPrintInput = {0}; - - debugPrintInput.size = sizeof(ADDR_DEBUGPRINT_INPUT); - debugPrintInput.pDebugString = const_cast(pDebugString); - debugPrintInput.hClient = m_client.handle; - va_start(debugPrintInput.ap, pDebugString); - - m_client.callbacks.debugPrint(&debugPrintInput); - - va_end(debugPrintInput.ap); - } -#endif -} - -} // Addr diff --git a/src/amd/addrlib/core/addrobject.h b/src/amd/addrlib/core/addrobject.h deleted file mode 100644 index 66886f6b52e..00000000000 --- a/src/amd/addrlib/core/addrobject.h +++ /dev/null @@ -1,95 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file addrobject.h -* @brief Contains the Object base class definition. -**************************************************************************************************** -*/ - -#ifndef __ADDR_OBJECT_H__ -#define __ADDR_OBJECT_H__ - -#include "addrtypes.h" -#include "addrcommon.h" - -namespace Addr -{ - -/** -**************************************************************************************************** -* @brief This structure contains client specific data -**************************************************************************************************** -*/ -struct Client -{ - ADDR_CLIENT_HANDLE handle; - ADDR_CALLBACKS callbacks; -}; -/** -**************************************************************************************************** -* @brief This class is the base class for all ADDR class objects. -**************************************************************************************************** -*/ -class Object -{ -public: - Object(); - Object(const Client* pClient); - virtual ~Object(); - - VOID* operator new(size_t size, VOID* pMem); - VOID operator delete(VOID* pObj); - /// Microsoft compiler requires a matching delete implementation, which seems to be called when - /// bad_alloc is thrown. But currently C++ exception isn't allowed so a dummy implementation is - /// added to eliminate the warning. - VOID operator delete(VOID* pObj, VOID* pMem) { ADDR_ASSERT_ALWAYS(); } - - VOID* Alloc(size_t size) const; - VOID Free(VOID* pObj) const; - - VOID DebugPrint(const CHAR* pDebugString, ...) const; - - const Client* GetClient() const {return &m_client;} - -protected: - Client m_client; - - static VOID* ClientAlloc(size_t size, const Client* pClient); - static VOID ClientFree(VOID* pObj, const Client* pClient); - -private: - // disallow the copy constructor - Object(const Object& a); - - // disallow the assignment operator - Object& operator=(const Object& a); -}; - -} // Addr -#endif - diff --git a/src/amd/addrlib/gfx9/chip/gfx9_enum.h b/src/amd/addrlib/gfx9/chip/gfx9_enum.h deleted file mode 100644 index c81101bffca..00000000000 --- a/src/amd/addrlib/gfx9/chip/gfx9_enum.h +++ /dev/null @@ -1,10535 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -#if !defined (_vega10_ENUM_HEADER) -#define _vega10_ENUM_HEADER - - -#ifndef _DRIVER_BUILD -#ifndef GL_ZERO -#define GL__ZERO BLEND_ZERO -#define GL__ONE BLEND_ONE -#define GL__SRC_COLOR BLEND_SRC_COLOR -#define GL__ONE_MINUS_SRC_COLOR BLEND_ONE_MINUS_SRC_COLOR -#define GL__DST_COLOR BLEND_DST_COLOR -#define GL__ONE_MINUS_DST_COLOR BLEND_ONE_MINUS_DST_COLOR -#define GL__SRC_ALPHA BLEND_SRC_ALPHA -#define GL__ONE_MINUS_SRC_ALPHA BLEND_ONE_MINUS_SRC_ALPHA -#define GL__DST_ALPHA BLEND_DST_ALPHA -#define GL__ONE_MINUS_DST_ALPHA BLEND_ONE_MINUS_DST_ALPHA -#define GL__SRC_ALPHA_SATURATE BLEND_SRC_ALPHA_SATURATE -#define GL__CONSTANT_COLOR BLEND_CONSTANT_COLOR -#define GL__ONE_MINUS_CONSTANT_COLOR BLEND_ONE_MINUS_CONSTANT_COLOR -#define GL__CONSTANT_ALPHA BLEND_CONSTANT_ALPHA -#define GL__ONE_MINUS_CONSTANT_ALPHA BLEND_ONE_MINUS_CONSTANT_ALPHA -#endif -#endif - -/******************************************************* - * GDS DATA_TYPE Enums - *******************************************************/ - -#ifndef ENUMS_GDS_PERFCOUNT_SELECT_H -#define ENUMS_GDS_PERFCOUNT_SELECT_H -typedef enum GDS_PERFCOUNT_SELECT { - GDS_PERF_SEL_DS_ADDR_CONFL = 0, - GDS_PERF_SEL_DS_BANK_CONFL = 1, - GDS_PERF_SEL_WBUF_FLUSH = 2, - GDS_PERF_SEL_WR_COMP = 3, - GDS_PERF_SEL_WBUF_WR = 4, - GDS_PERF_SEL_RBUF_HIT = 5, - GDS_PERF_SEL_RBUF_MISS = 6, - GDS_PERF_SEL_SE0_SH0_NORET = 7, - GDS_PERF_SEL_SE0_SH0_RET = 8, - GDS_PERF_SEL_SE0_SH0_ORD_CNT = 9, - GDS_PERF_SEL_SE0_SH0_2COMP_REQ = 10, - GDS_PERF_SEL_SE0_SH0_ORD_WAVE_VALID = 11, - GDS_PERF_SEL_SE0_SH0_GDS_DATA_VALID = 12, - GDS_PERF_SEL_SE0_SH0_GDS_STALL_BY_ORD = 13, - GDS_PERF_SEL_SE0_SH0_GDS_WR_OP = 14, - GDS_PERF_SEL_SE0_SH0_GDS_RD_OP = 15, - GDS_PERF_SEL_SE0_SH0_GDS_ATOM_OP = 16, - GDS_PERF_SEL_SE0_SH0_GDS_REL_OP = 17, - GDS_PERF_SEL_SE0_SH0_GDS_CMPXCH_OP = 18, - GDS_PERF_SEL_SE0_SH0_GDS_BYTE_OP = 19, - GDS_PERF_SEL_SE0_SH0_GDS_SHORT_OP = 20, - GDS_PERF_SEL_SE0_SH1_NORET = 21, - GDS_PERF_SEL_SE0_SH1_RET = 22, - GDS_PERF_SEL_SE0_SH1_ORD_CNT = 23, - GDS_PERF_SEL_SE0_SH1_2COMP_REQ = 24, - GDS_PERF_SEL_SE0_SH1_ORD_WAVE_VALID = 25, - GDS_PERF_SEL_SE0_SH1_GDS_DATA_VALID = 26, - GDS_PERF_SEL_SE0_SH1_GDS_STALL_BY_ORD = 27, - GDS_PERF_SEL_SE0_SH1_GDS_WR_OP = 28, - GDS_PERF_SEL_SE0_SH1_GDS_RD_OP = 29, - GDS_PERF_SEL_SE0_SH1_GDS_ATOM_OP = 30, - GDS_PERF_SEL_SE0_SH1_GDS_REL_OP = 31, - GDS_PERF_SEL_SE0_SH1_GDS_CMPXCH_OP = 32, - GDS_PERF_SEL_SE0_SH1_GDS_BYTE_OP = 33, - GDS_PERF_SEL_SE0_SH1_GDS_SHORT_OP = 34, - GDS_PERF_SEL_SE1_SH0_NORET = 35, - GDS_PERF_SEL_SE1_SH0_RET = 36, - GDS_PERF_SEL_SE1_SH0_ORD_CNT = 37, - GDS_PERF_SEL_SE1_SH0_2COMP_REQ = 38, - GDS_PERF_SEL_SE1_SH0_ORD_WAVE_VALID = 39, - GDS_PERF_SEL_SE1_SH0_GDS_DATA_VALID = 40, - GDS_PERF_SEL_SE1_SH0_GDS_STALL_BY_ORD = 41, - GDS_PERF_SEL_SE1_SH0_GDS_WR_OP = 42, - GDS_PERF_SEL_SE1_SH0_GDS_RD_OP = 43, - GDS_PERF_SEL_SE1_SH0_GDS_ATOM_OP = 44, - GDS_PERF_SEL_SE1_SH0_GDS_REL_OP = 45, - GDS_PERF_SEL_SE1_SH0_GDS_CMPXCH_OP = 46, - GDS_PERF_SEL_SE1_SH0_GDS_BYTE_OP = 47, - GDS_PERF_SEL_SE1_SH0_GDS_SHORT_OP = 48, - GDS_PERF_SEL_SE1_SH1_NORET = 49, - GDS_PERF_SEL_SE1_SH1_RET = 50, - GDS_PERF_SEL_SE1_SH1_ORD_CNT = 51, - GDS_PERF_SEL_SE1_SH1_2COMP_REQ = 52, - GDS_PERF_SEL_SE1_SH1_ORD_WAVE_VALID = 53, - GDS_PERF_SEL_SE1_SH1_GDS_DATA_VALID = 54, - GDS_PERF_SEL_SE1_SH1_GDS_STALL_BY_ORD = 55, - GDS_PERF_SEL_SE1_SH1_GDS_WR_OP = 56, - GDS_PERF_SEL_SE1_SH1_GDS_RD_OP = 57, - GDS_PERF_SEL_SE1_SH1_GDS_ATOM_OP = 58, - GDS_PERF_SEL_SE1_SH1_GDS_REL_OP = 59, - GDS_PERF_SEL_SE1_SH1_GDS_CMPXCH_OP = 60, - GDS_PERF_SEL_SE1_SH1_GDS_BYTE_OP = 61, - GDS_PERF_SEL_SE1_SH1_GDS_SHORT_OP = 62, - GDS_PERF_SEL_SE2_SH0_NORET = 63, - GDS_PERF_SEL_SE2_SH0_RET = 64, - GDS_PERF_SEL_SE2_SH0_ORD_CNT = 65, - GDS_PERF_SEL_SE2_SH0_2COMP_REQ = 66, - GDS_PERF_SEL_SE2_SH0_ORD_WAVE_VALID = 67, - GDS_PERF_SEL_SE2_SH0_GDS_DATA_VALID = 68, - GDS_PERF_SEL_SE2_SH0_GDS_STALL_BY_ORD = 69, - GDS_PERF_SEL_SE2_SH0_GDS_WR_OP = 70, - GDS_PERF_SEL_SE2_SH0_GDS_RD_OP = 71, - GDS_PERF_SEL_SE2_SH0_GDS_ATOM_OP = 72, - GDS_PERF_SEL_SE2_SH0_GDS_REL_OP = 73, - GDS_PERF_SEL_SE2_SH0_GDS_CMPXCH_OP = 74, - GDS_PERF_SEL_SE2_SH0_GDS_BYTE_OP = 75, - GDS_PERF_SEL_SE2_SH0_GDS_SHORT_OP = 76, - GDS_PERF_SEL_SE2_SH1_NORET = 77, - GDS_PERF_SEL_SE2_SH1_RET = 78, - GDS_PERF_SEL_SE2_SH1_ORD_CNT = 79, - GDS_PERF_SEL_SE2_SH1_2COMP_REQ = 80, - GDS_PERF_SEL_SE2_SH1_ORD_WAVE_VALID = 81, - GDS_PERF_SEL_SE2_SH1_GDS_DATA_VALID = 82, - GDS_PERF_SEL_SE2_SH1_GDS_STALL_BY_ORD = 83, - GDS_PERF_SEL_SE2_SH1_GDS_WR_OP = 84, - GDS_PERF_SEL_SE2_SH1_GDS_RD_OP = 85, - GDS_PERF_SEL_SE2_SH1_GDS_ATOM_OP = 86, - GDS_PERF_SEL_SE2_SH1_GDS_REL_OP = 87, - GDS_PERF_SEL_SE2_SH1_GDS_CMPXCH_OP = 88, - GDS_PERF_SEL_SE2_SH1_GDS_BYTE_OP = 89, - GDS_PERF_SEL_SE2_SH1_GDS_SHORT_OP = 90, - GDS_PERF_SEL_SE3_SH0_NORET = 91, - GDS_PERF_SEL_SE3_SH0_RET = 92, - GDS_PERF_SEL_SE3_SH0_ORD_CNT = 93, - GDS_PERF_SEL_SE3_SH0_2COMP_REQ = 94, - GDS_PERF_SEL_SE3_SH0_ORD_WAVE_VALID = 95, - GDS_PERF_SEL_SE3_SH0_GDS_DATA_VALID = 96, - GDS_PERF_SEL_SE3_SH0_GDS_STALL_BY_ORD = 97, - GDS_PERF_SEL_SE3_SH0_GDS_WR_OP = 98, - GDS_PERF_SEL_SE3_SH0_GDS_RD_OP = 99, - GDS_PERF_SEL_SE3_SH0_GDS_ATOM_OP = 100, - GDS_PERF_SEL_SE3_SH0_GDS_REL_OP = 101, - GDS_PERF_SEL_SE3_SH0_GDS_CMPXCH_OP = 102, - GDS_PERF_SEL_SE3_SH0_GDS_BYTE_OP = 103, - GDS_PERF_SEL_SE3_SH0_GDS_SHORT_OP = 104, - GDS_PERF_SEL_SE3_SH1_NORET = 105, - GDS_PERF_SEL_SE3_SH1_RET = 106, - GDS_PERF_SEL_SE3_SH1_ORD_CNT = 107, - GDS_PERF_SEL_SE3_SH1_2COMP_REQ = 108, - GDS_PERF_SEL_SE3_SH1_ORD_WAVE_VALID = 109, - GDS_PERF_SEL_SE3_SH1_GDS_DATA_VALID = 110, - GDS_PERF_SEL_SE3_SH1_GDS_STALL_BY_ORD = 111, - GDS_PERF_SEL_SE3_SH1_GDS_WR_OP = 112, - GDS_PERF_SEL_SE3_SH1_GDS_RD_OP = 113, - GDS_PERF_SEL_SE3_SH1_GDS_ATOM_OP = 114, - GDS_PERF_SEL_SE3_SH1_GDS_REL_OP = 115, - GDS_PERF_SEL_SE3_SH1_GDS_CMPXCH_OP = 116, - GDS_PERF_SEL_SE3_SH1_GDS_BYTE_OP = 117, - GDS_PERF_SEL_SE3_SH1_GDS_SHORT_OP = 118, - GDS_PERF_SEL_GWS_RELEASED = 119, - GDS_PERF_SEL_GWS_BYPASS = 120, -} GDS_PERFCOUNT_SELECT; -#endif /*ENUMS_GDS_PERFCOUNT_SELECT_H*/ - -/******************************************************* - * Chip Enums - *******************************************************/ - -/* - * SurfaceEndian enum - */ - -typedef enum SurfaceEndian { -ENDIAN_NONE = 0x00000000, -ENDIAN_8IN16 = 0x00000001, -ENDIAN_8IN32 = 0x00000002, -ENDIAN_8IN64 = 0x00000003, -} SurfaceEndian; - -/* - * ArrayMode enum - */ - -typedef enum ArrayMode { -ARRAY_LINEAR_GENERAL = 0x00000000, -ARRAY_LINEAR_ALIGNED = 0x00000001, -ARRAY_1D_TILED_THIN1 = 0x00000002, -ARRAY_1D_TILED_THICK = 0x00000003, -ARRAY_2D_TILED_THIN1 = 0x00000004, -ARRAY_PRT_TILED_THIN1 = 0x00000005, -ARRAY_PRT_2D_TILED_THIN1 = 0x00000006, -ARRAY_2D_TILED_THICK = 0x00000007, -ARRAY_2D_TILED_XTHICK = 0x00000008, -ARRAY_PRT_TILED_THICK = 0x00000009, -ARRAY_PRT_2D_TILED_THICK = 0x0000000a, -ARRAY_PRT_3D_TILED_THIN1 = 0x0000000b, -ARRAY_3D_TILED_THIN1 = 0x0000000c, -ARRAY_3D_TILED_THICK = 0x0000000d, -ARRAY_3D_TILED_XTHICK = 0x0000000e, -ARRAY_PRT_3D_TILED_THICK = 0x0000000f, -} ArrayMode; - -/* - * PipeTiling enum - */ - -typedef enum PipeTiling { -CONFIG_1_PIPE = 0x00000000, -CONFIG_2_PIPE = 0x00000001, -CONFIG_4_PIPE = 0x00000002, -CONFIG_8_PIPE = 0x00000003, -} PipeTiling; - -/* - * BankTiling enum - */ - -typedef enum BankTiling { -CONFIG_4_BANK = 0x00000000, -CONFIG_8_BANK = 0x00000001, -} BankTiling; - -/* - * GroupInterleave enum - */ - -typedef enum GroupInterleave { -CONFIG_256B_GROUP = 0x00000000, -CONFIG_512B_GROUP = 0x00000001, -} GroupInterleave; - -/* - * RowTiling enum - */ - -typedef enum RowTiling { -CONFIG_1KB_ROW = 0x00000000, -CONFIG_2KB_ROW = 0x00000001, -CONFIG_4KB_ROW = 0x00000002, -CONFIG_8KB_ROW = 0x00000003, -CONFIG_1KB_ROW_OPT = 0x00000004, -CONFIG_2KB_ROW_OPT = 0x00000005, -CONFIG_4KB_ROW_OPT = 0x00000006, -CONFIG_8KB_ROW_OPT = 0x00000007, -} RowTiling; - -/* - * BankSwapBytes enum - */ - -typedef enum BankSwapBytes { -CONFIG_128B_SWAPS = 0x00000000, -CONFIG_256B_SWAPS = 0x00000001, -CONFIG_512B_SWAPS = 0x00000002, -CONFIG_1KB_SWAPS = 0x00000003, -} BankSwapBytes; - -/* - * SampleSplitBytes enum - */ - -typedef enum SampleSplitBytes { -CONFIG_1KB_SPLIT = 0x00000000, -CONFIG_2KB_SPLIT = 0x00000001, -CONFIG_4KB_SPLIT = 0x00000002, -CONFIG_8KB_SPLIT = 0x00000003, -} SampleSplitBytes; - -/* - * NumPipes enum - */ - -typedef enum NumPipes { -ADDR_CONFIG_1_PIPE = 0x00000000, -ADDR_CONFIG_2_PIPE = 0x00000001, -ADDR_CONFIG_4_PIPE = 0x00000002, -ADDR_CONFIG_8_PIPE = 0x00000003, -ADDR_CONFIG_16_PIPE = 0x00000004, -ADDR_CONFIG_32_PIPE = 0x00000005, -} NumPipes; - -/* - * NumBanksConfig enum - */ - -typedef enum NumBanksConfig { -ADDR_CONFIG_1_BANK = 0x00000000, -ADDR_CONFIG_2_BANK = 0x00000001, -ADDR_CONFIG_4_BANK = 0x00000002, -ADDR_CONFIG_8_BANK = 0x00000003, -ADDR_CONFIG_16_BANK = 0x00000004, -} NumBanksConfig; - -/* - * PipeInterleaveSize enum - */ - -typedef enum PipeInterleaveSize { -ADDR_CONFIG_PIPE_INTERLEAVE_256B = 0x00000000, -ADDR_CONFIG_PIPE_INTERLEAVE_512B = 0x00000001, -ADDR_CONFIG_PIPE_INTERLEAVE_1KB = 0x00000002, -ADDR_CONFIG_PIPE_INTERLEAVE_2KB = 0x00000003, -} PipeInterleaveSize; - -/* - * BankInterleaveSize enum - */ - -typedef enum BankInterleaveSize { -ADDR_CONFIG_BANK_INTERLEAVE_1 = 0x00000000, -ADDR_CONFIG_BANK_INTERLEAVE_2 = 0x00000001, -ADDR_CONFIG_BANK_INTERLEAVE_4 = 0x00000002, -ADDR_CONFIG_BANK_INTERLEAVE_8 = 0x00000003, -} BankInterleaveSize; - -/* - * NumShaderEngines enum - */ - -typedef enum NumShaderEngines { -ADDR_CONFIG_1_SHADER_ENGINE = 0x00000000, -ADDR_CONFIG_2_SHADER_ENGINE = 0x00000001, -ADDR_CONFIG_4_SHADER_ENGINE = 0x00000002, -ADDR_CONFIG_8_SHADER_ENGINE = 0x00000003, -} NumShaderEngines; - -/* - * NumRbPerShaderEngine enum - */ - -typedef enum NumRbPerShaderEngine { -ADDR_CONFIG_1_RB_PER_SHADER_ENGINE = 0x00000000, -ADDR_CONFIG_2_RB_PER_SHADER_ENGINE = 0x00000001, -ADDR_CONFIG_4_RB_PER_SHADER_ENGINE = 0x00000002, -} NumRbPerShaderEngine; - -/* - * NumGPUs enum - */ - -typedef enum NumGPUs { -ADDR_CONFIG_1_GPU = 0x00000000, -ADDR_CONFIG_2_GPU = 0x00000001, -ADDR_CONFIG_4_GPU = 0x00000002, -ADDR_CONFIG_8_GPU = 0x00000003, -} NumGPUs; - -/* - * NumMaxCompressedFragments enum - */ - -typedef enum NumMaxCompressedFragments { -ADDR_CONFIG_1_MAX_COMPRESSED_FRAGMENTS = 0x00000000, -ADDR_CONFIG_2_MAX_COMPRESSED_FRAGMENTS = 0x00000001, -ADDR_CONFIG_4_MAX_COMPRESSED_FRAGMENTS = 0x00000002, -ADDR_CONFIG_8_MAX_COMPRESSED_FRAGMENTS = 0x00000003, -} NumMaxCompressedFragments; - -/* - * ShaderEngineTileSize enum - */ - -typedef enum ShaderEngineTileSize { -ADDR_CONFIG_SE_TILE_16 = 0x00000000, -ADDR_CONFIG_SE_TILE_32 = 0x00000001, -} ShaderEngineTileSize; - -/* - * MultiGPUTileSize enum - */ - -typedef enum MultiGPUTileSize { -ADDR_CONFIG_GPU_TILE_16 = 0x00000000, -ADDR_CONFIG_GPU_TILE_32 = 0x00000001, -ADDR_CONFIG_GPU_TILE_64 = 0x00000002, -ADDR_CONFIG_GPU_TILE_128 = 0x00000003, -} MultiGPUTileSize; - -/* - * RowSize enum - */ - -typedef enum RowSize { -ADDR_CONFIG_1KB_ROW = 0x00000000, -ADDR_CONFIG_2KB_ROW = 0x00000001, -ADDR_CONFIG_4KB_ROW = 0x00000002, -} RowSize; - -/* - * NumLowerPipes enum - */ - -typedef enum NumLowerPipes { -ADDR_CONFIG_1_LOWER_PIPES = 0x00000000, -ADDR_CONFIG_2_LOWER_PIPES = 0x00000001, -} NumLowerPipes; - -/* - * ColorTransform enum - */ - -typedef enum ColorTransform { -DCC_CT_AUTO = 0x00000000, -DCC_CT_NONE = 0x00000001, -ABGR_TO_A_BG_G_RB = 0x00000002, -BGRA_TO_BG_G_RB_A = 0x00000003, -} ColorTransform; - -/* - * CompareRef enum - */ - -typedef enum CompareRef { -REF_NEVER = 0x00000000, -REF_LESS = 0x00000001, -REF_EQUAL = 0x00000002, -REF_LEQUAL = 0x00000003, -REF_GREATER = 0x00000004, -REF_NOTEQUAL = 0x00000005, -REF_GEQUAL = 0x00000006, -REF_ALWAYS = 0x00000007, -} CompareRef; - -/* - * ReadSize enum - */ - -typedef enum ReadSize { -READ_256_BITS = 0x00000000, -READ_512_BITS = 0x00000001, -} ReadSize; - -/* - * DepthFormat enum - */ - -typedef enum DepthFormat { -DEPTH_INVALID = 0x00000000, -DEPTH_16 = 0x00000001, -DEPTH_X8_24 = 0x00000002, -DEPTH_8_24 = 0x00000003, -DEPTH_X8_24_FLOAT = 0x00000004, -DEPTH_8_24_FLOAT = 0x00000005, -DEPTH_32_FLOAT = 0x00000006, -DEPTH_X24_8_32_FLOAT = 0x00000007, -} DepthFormat; - -/* - * ZFormat enum - */ - -typedef enum ZFormat { -Z_INVALID = 0x00000000, -Z_16 = 0x00000001, -Z_24 = 0x00000002, -Z_32_FLOAT = 0x00000003, -} ZFormat; - -/* - * StencilFormat enum - */ - -typedef enum StencilFormat { -STENCIL_INVALID = 0x00000000, -STENCIL_8 = 0x00000001, -} StencilFormat; - -/* - * CmaskMode enum - */ - -typedef enum CmaskMode { -CMASK_CLEAR_NONE = 0x00000000, -CMASK_CLEAR_ONE = 0x00000001, -CMASK_CLEAR_ALL = 0x00000002, -CMASK_ANY_EXPANDED = 0x00000003, -CMASK_ALPHA0_FRAG1 = 0x00000004, -CMASK_ALPHA0_FRAG2 = 0x00000005, -CMASK_ALPHA0_FRAG4 = 0x00000006, -CMASK_ALPHA0_FRAGS = 0x00000007, -CMASK_ALPHA1_FRAG1 = 0x00000008, -CMASK_ALPHA1_FRAG2 = 0x00000009, -CMASK_ALPHA1_FRAG4 = 0x0000000a, -CMASK_ALPHA1_FRAGS = 0x0000000b, -CMASK_ALPHAX_FRAG1 = 0x0000000c, -CMASK_ALPHAX_FRAG2 = 0x0000000d, -CMASK_ALPHAX_FRAG4 = 0x0000000e, -CMASK_ALPHAX_FRAGS = 0x0000000f, -} CmaskMode; - -/* - * QuadExportFormat enum - */ - -typedef enum QuadExportFormat { -EXPORT_UNUSED = 0x00000000, -EXPORT_32_R = 0x00000001, -EXPORT_32_GR = 0x00000002, -EXPORT_32_AR = 0x00000003, -EXPORT_FP16_ABGR = 0x00000004, -EXPORT_UNSIGNED16_ABGR = 0x00000005, -EXPORT_SIGNED16_ABGR = 0x00000006, -EXPORT_32_ABGR = 0x00000007, -EXPORT_32BPP_8PIX = 0x00000008, -EXPORT_16_16_UNSIGNED_8PIX = 0x00000009, -EXPORT_16_16_SIGNED_8PIX = 0x0000000a, -EXPORT_16_16_FLOAT_8PIX = 0x0000000b, -} QuadExportFormat; - -/* - * QuadExportFormatOld enum - */ - -typedef enum QuadExportFormatOld { -EXPORT_4P_32BPC_ABGR = 0x00000000, -EXPORT_4P_16BPC_ABGR = 0x00000001, -EXPORT_4P_32BPC_GR = 0x00000002, -EXPORT_4P_32BPC_AR = 0x00000003, -EXPORT_2P_32BPC_ABGR = 0x00000004, -EXPORT_8P_32BPC_R = 0x00000005, -} QuadExportFormatOld; - -/* - * ColorFormat enum - */ - -typedef enum ColorFormat { -COLOR_INVALID = 0x00000000, -COLOR_8 = 0x00000001, -COLOR_16 = 0x00000002, -COLOR_8_8 = 0x00000003, -COLOR_32 = 0x00000004, -COLOR_16_16 = 0x00000005, -COLOR_10_11_11 = 0x00000006, -COLOR_11_11_10 = 0x00000007, -COLOR_10_10_10_2 = 0x00000008, -COLOR_2_10_10_10 = 0x00000009, -COLOR_8_8_8_8 = 0x0000000a, -COLOR_32_32 = 0x0000000b, -COLOR_16_16_16_16 = 0x0000000c, -COLOR_RESERVED_13 = 0x0000000d, -COLOR_32_32_32_32 = 0x0000000e, -COLOR_RESERVED_15 = 0x0000000f, -COLOR_5_6_5 = 0x00000010, -COLOR_1_5_5_5 = 0x00000011, -COLOR_5_5_5_1 = 0x00000012, -COLOR_4_4_4_4 = 0x00000013, -COLOR_8_24 = 0x00000014, -COLOR_24_8 = 0x00000015, -COLOR_X24_8_32_FLOAT = 0x00000016, -COLOR_RESERVED_23 = 0x00000017, -COLOR_RESERVED_24 = 0x00000018, -COLOR_RESERVED_25 = 0x00000019, -COLOR_RESERVED_26 = 0x0000001a, -COLOR_RESERVED_27 = 0x0000001b, -COLOR_RESERVED_28 = 0x0000001c, -COLOR_RESERVED_29 = 0x0000001d, -COLOR_RESERVED_30 = 0x0000001e, -COLOR_2_10_10_10_6E4 = 0x0000001f, -} ColorFormat; - -/* - * SurfaceFormat enum - */ - -typedef enum SurfaceFormat { -FMT_INVALID = 0x00000000, -FMT_8 = 0x00000001, -FMT_16 = 0x00000002, -FMT_8_8 = 0x00000003, -FMT_32 = 0x00000004, -FMT_16_16 = 0x00000005, -FMT_10_11_11 = 0x00000006, -FMT_11_11_10 = 0x00000007, -FMT_10_10_10_2 = 0x00000008, -FMT_2_10_10_10 = 0x00000009, -FMT_8_8_8_8 = 0x0000000a, -FMT_32_32 = 0x0000000b, -FMT_16_16_16_16 = 0x0000000c, -FMT_32_32_32 = 0x0000000d, -FMT_32_32_32_32 = 0x0000000e, -FMT_RESERVED_4 = 0x0000000f, -FMT_5_6_5 = 0x00000010, -FMT_1_5_5_5 = 0x00000011, -FMT_5_5_5_1 = 0x00000012, -FMT_4_4_4_4 = 0x00000013, -FMT_8_24 = 0x00000014, -FMT_24_8 = 0x00000015, -FMT_X24_8_32_FLOAT = 0x00000016, -FMT_RESERVED_33 = 0x00000017, -FMT_11_11_10_FLOAT = 0x00000018, -FMT_16_FLOAT = 0x00000019, -FMT_32_FLOAT = 0x0000001a, -FMT_16_16_FLOAT = 0x0000001b, -FMT_8_24_FLOAT = 0x0000001c, -FMT_24_8_FLOAT = 0x0000001d, -FMT_32_32_FLOAT = 0x0000001e, -FMT_10_11_11_FLOAT = 0x0000001f, -FMT_16_16_16_16_FLOAT = 0x00000020, -FMT_3_3_2 = 0x00000021, -FMT_6_5_5 = 0x00000022, -FMT_32_32_32_32_FLOAT = 0x00000023, -FMT_RESERVED_36 = 0x00000024, -FMT_1 = 0x00000025, -FMT_1_REVERSED = 0x00000026, -FMT_GB_GR = 0x00000027, -FMT_BG_RG = 0x00000028, -FMT_32_AS_8 = 0x00000029, -FMT_32_AS_8_8 = 0x0000002a, -FMT_5_9_9_9_SHAREDEXP = 0x0000002b, -FMT_8_8_8 = 0x0000002c, -FMT_16_16_16 = 0x0000002d, -FMT_16_16_16_FLOAT = 0x0000002e, -FMT_4_4 = 0x0000002f, -FMT_32_32_32_FLOAT = 0x00000030, -FMT_BC1 = 0x00000031, -FMT_BC2 = 0x00000032, -FMT_BC3 = 0x00000033, -FMT_BC4 = 0x00000034, -FMT_BC5 = 0x00000035, -FMT_BC6 = 0x00000036, -FMT_BC7 = 0x00000037, -FMT_32_AS_32_32_32_32 = 0x00000038, -FMT_APC3 = 0x00000039, -FMT_APC4 = 0x0000003a, -FMT_APC5 = 0x0000003b, -FMT_APC6 = 0x0000003c, -FMT_APC7 = 0x0000003d, -FMT_CTX1 = 0x0000003e, -FMT_RESERVED_63 = 0x0000003f, -} SurfaceFormat; - -/* - * BUF_DATA_FORMAT enum - */ - -typedef enum BUF_DATA_FORMAT { -BUF_DATA_FORMAT_INVALID = 0x00000000, -BUF_DATA_FORMAT_8 = 0x00000001, -BUF_DATA_FORMAT_16 = 0x00000002, -BUF_DATA_FORMAT_8_8 = 0x00000003, -BUF_DATA_FORMAT_32 = 0x00000004, -BUF_DATA_FORMAT_16_16 = 0x00000005, -BUF_DATA_FORMAT_10_11_11 = 0x00000006, -BUF_DATA_FORMAT_11_11_10 = 0x00000007, -BUF_DATA_FORMAT_10_10_10_2 = 0x00000008, -BUF_DATA_FORMAT_2_10_10_10 = 0x00000009, -BUF_DATA_FORMAT_8_8_8_8 = 0x0000000a, -BUF_DATA_FORMAT_32_32 = 0x0000000b, -BUF_DATA_FORMAT_16_16_16_16 = 0x0000000c, -BUF_DATA_FORMAT_32_32_32 = 0x0000000d, -BUF_DATA_FORMAT_32_32_32_32 = 0x0000000e, -BUF_DATA_FORMAT_RESERVED_15 = 0x0000000f, -} BUF_DATA_FORMAT; - -/* - * IMG_DATA_FORMAT enum - */ - -typedef enum IMG_DATA_FORMAT { -IMG_DATA_FORMAT_INVALID = 0x00000000, -IMG_DATA_FORMAT_8 = 0x00000001, -IMG_DATA_FORMAT_16 = 0x00000002, -IMG_DATA_FORMAT_8_8 = 0x00000003, -IMG_DATA_FORMAT_32 = 0x00000004, -IMG_DATA_FORMAT_16_16 = 0x00000005, -IMG_DATA_FORMAT_10_11_11 = 0x00000006, -IMG_DATA_FORMAT_11_11_10 = 0x00000007, -IMG_DATA_FORMAT_10_10_10_2 = 0x00000008, -IMG_DATA_FORMAT_2_10_10_10 = 0x00000009, -IMG_DATA_FORMAT_8_8_8_8 = 0x0000000a, -IMG_DATA_FORMAT_32_32 = 0x0000000b, -IMG_DATA_FORMAT_16_16_16_16 = 0x0000000c, -IMG_DATA_FORMAT_32_32_32 = 0x0000000d, -IMG_DATA_FORMAT_32_32_32_32 = 0x0000000e, -IMG_DATA_FORMAT_RESERVED_15 = 0x0000000f, -IMG_DATA_FORMAT_5_6_5 = 0x00000010, -IMG_DATA_FORMAT_1_5_5_5 = 0x00000011, -IMG_DATA_FORMAT_5_5_5_1 = 0x00000012, -IMG_DATA_FORMAT_4_4_4_4 = 0x00000013, -IMG_DATA_FORMAT_8_24 = 0x00000014, -IMG_DATA_FORMAT_24_8 = 0x00000015, -IMG_DATA_FORMAT_X24_8_32 = 0x00000016, -IMG_DATA_FORMAT_8_AS_8_8_8_8 = 0x00000017, -IMG_DATA_FORMAT_ETC2_RGB = 0x00000018, -IMG_DATA_FORMAT_ETC2_RGBA = 0x00000019, -IMG_DATA_FORMAT_ETC2_R = 0x0000001a, -IMG_DATA_FORMAT_ETC2_RG = 0x0000001b, -IMG_DATA_FORMAT_ETC2_RGBA1 = 0x0000001c, -IMG_DATA_FORMAT_RESERVED_29 = 0x0000001d, -IMG_DATA_FORMAT_RESERVED_30 = 0x0000001e, -IMG_DATA_FORMAT_6E4 = 0x0000001f, -IMG_DATA_FORMAT_GB_GR = 0x00000020, -IMG_DATA_FORMAT_BG_RG = 0x00000021, -IMG_DATA_FORMAT_5_9_9_9 = 0x00000022, -IMG_DATA_FORMAT_BC1 = 0x00000023, -IMG_DATA_FORMAT_BC2 = 0x00000024, -IMG_DATA_FORMAT_BC3 = 0x00000025, -IMG_DATA_FORMAT_BC4 = 0x00000026, -IMG_DATA_FORMAT_BC5 = 0x00000027, -IMG_DATA_FORMAT_BC6 = 0x00000028, -IMG_DATA_FORMAT_BC7 = 0x00000029, -IMG_DATA_FORMAT_16_AS_32_32 = 0x0000002a, -IMG_DATA_FORMAT_16_AS_16_16_16_16 = 0x0000002b, -IMG_DATA_FORMAT_16_AS_32_32_32_32 = 0x0000002c, -IMG_DATA_FORMAT_FMASK = 0x0000002d, -IMG_DATA_FORMAT_ASTC_2D_LDR = 0x0000002e, -IMG_DATA_FORMAT_ASTC_2D_HDR = 0x0000002f, -IMG_DATA_FORMAT_ASTC_2D_LDR_SRGB = 0x00000030, -IMG_DATA_FORMAT_ASTC_3D_LDR = 0x00000031, -IMG_DATA_FORMAT_ASTC_3D_HDR = 0x00000032, -IMG_DATA_FORMAT_ASTC_3D_LDR_SRGB = 0x00000033, -IMG_DATA_FORMAT_N_IN_16 = 0x00000034, -IMG_DATA_FORMAT_N_IN_16_16 = 0x00000035, -IMG_DATA_FORMAT_N_IN_16_16_16_16 = 0x00000036, -IMG_DATA_FORMAT_N_IN_16_AS_16_16_16_16 = 0x00000037, -IMG_DATA_FORMAT_RESERVED_56 = 0x00000038, -IMG_DATA_FORMAT_4_4 = 0x00000039, -IMG_DATA_FORMAT_6_5_5 = 0x0000003a, -IMG_DATA_FORMAT_RESERVED_59 = 0x0000003b, -IMG_DATA_FORMAT_RESERVED_60 = 0x0000003c, -IMG_DATA_FORMAT_8_AS_32 = 0x0000003d, -IMG_DATA_FORMAT_8_AS_32_32 = 0x0000003e, -IMG_DATA_FORMAT_32_AS_32_32_32_32 = 0x0000003f, -} IMG_DATA_FORMAT; - -/* - * BUF_NUM_FORMAT enum - */ - -typedef enum BUF_NUM_FORMAT { -BUF_NUM_FORMAT_UNORM = 0x00000000, -BUF_NUM_FORMAT_SNORM = 0x00000001, -BUF_NUM_FORMAT_USCALED = 0x00000002, -BUF_NUM_FORMAT_SSCALED = 0x00000003, -BUF_NUM_FORMAT_UINT = 0x00000004, -BUF_NUM_FORMAT_SINT = 0x00000005, -BUF_NUM_FORMAT_UNORM_UINT = 0x00000006, -BUF_NUM_FORMAT_FLOAT = 0x00000007, -} BUF_NUM_FORMAT; - -/* - * IMG_NUM_FORMAT enum - */ - -typedef enum IMG_NUM_FORMAT { -IMG_NUM_FORMAT_UNORM = 0x00000000, -IMG_NUM_FORMAT_SNORM = 0x00000001, -IMG_NUM_FORMAT_USCALED = 0x00000002, -IMG_NUM_FORMAT_SSCALED = 0x00000003, -IMG_NUM_FORMAT_UINT = 0x00000004, -IMG_NUM_FORMAT_SINT = 0x00000005, -IMG_NUM_FORMAT_UNORM_UINT = 0x00000006, -IMG_NUM_FORMAT_FLOAT = 0x00000007, -IMG_NUM_FORMAT_RESERVED_8 = 0x00000008, -IMG_NUM_FORMAT_SRGB = 0x00000009, -IMG_NUM_FORMAT_RESERVED_10 = 0x0000000a, -IMG_NUM_FORMAT_RESERVED_11 = 0x0000000b, -IMG_NUM_FORMAT_RESERVED_12 = 0x0000000c, -IMG_NUM_FORMAT_RESERVED_13 = 0x0000000d, -IMG_NUM_FORMAT_RESERVED_14 = 0x0000000e, -IMG_NUM_FORMAT_RESERVED_15 = 0x0000000f, -} IMG_NUM_FORMAT; - -/* - * IMG_NUM_FORMAT_FMASK enum - */ - -typedef enum IMG_NUM_FORMAT_FMASK { -IMG_NUM_FORMAT_FMASK_8_2_1 = 0x00000000, -IMG_NUM_FORMAT_FMASK_8_4_1 = 0x00000001, -IMG_NUM_FORMAT_FMASK_8_8_1 = 0x00000002, -IMG_NUM_FORMAT_FMASK_8_2_2 = 0x00000003, -IMG_NUM_FORMAT_FMASK_8_4_2 = 0x00000004, -IMG_NUM_FORMAT_FMASK_8_4_4 = 0x00000005, -IMG_NUM_FORMAT_FMASK_16_16_1 = 0x00000006, -IMG_NUM_FORMAT_FMASK_16_8_2 = 0x00000007, -IMG_NUM_FORMAT_FMASK_32_16_2 = 0x00000008, -IMG_NUM_FORMAT_FMASK_32_8_4 = 0x00000009, -IMG_NUM_FORMAT_FMASK_32_8_8 = 0x0000000a, -IMG_NUM_FORMAT_FMASK_64_16_4 = 0x0000000b, -IMG_NUM_FORMAT_FMASK_64_16_8 = 0x0000000c, -IMG_NUM_FORMAT_FMASK_RESERVED_13 = 0x0000000d, -IMG_NUM_FORMAT_FMASK_RESERVED_14 = 0x0000000e, -IMG_NUM_FORMAT_FMASK_RESERVED_15 = 0x0000000f, -} IMG_NUM_FORMAT_FMASK; - -/* - * IMG_NUM_FORMAT_N_IN_16 enum - */ - -typedef enum IMG_NUM_FORMAT_N_IN_16 { -IMG_NUM_FORMAT_N_IN_16_RESERVED_0 = 0x00000000, -IMG_NUM_FORMAT_N_IN_16_UNORM_10 = 0x00000001, -IMG_NUM_FORMAT_N_IN_16_UNORM_9 = 0x00000002, -IMG_NUM_FORMAT_N_IN_16_RESERVED_3 = 0x00000003, -IMG_NUM_FORMAT_N_IN_16_UINT_10 = 0x00000004, -IMG_NUM_FORMAT_N_IN_16_UINT_9 = 0x00000005, -IMG_NUM_FORMAT_N_IN_16_RESERVED_6 = 0x00000006, -IMG_NUM_FORMAT_N_IN_16_UNORM_UINT_10 = 0x00000007, -IMG_NUM_FORMAT_N_IN_16_UNORM_UINT_9 = 0x00000008, -IMG_NUM_FORMAT_N_IN_16_RESERVED_9 = 0x00000009, -IMG_NUM_FORMAT_N_IN_16_RESERVED_10 = 0x0000000a, -IMG_NUM_FORMAT_N_IN_16_RESERVED_11 = 0x0000000b, -IMG_NUM_FORMAT_N_IN_16_RESERVED_12 = 0x0000000c, -IMG_NUM_FORMAT_N_IN_16_RESERVED_13 = 0x0000000d, -IMG_NUM_FORMAT_N_IN_16_RESERVED_14 = 0x0000000e, -IMG_NUM_FORMAT_N_IN_16_RESERVED_15 = 0x0000000f, -} IMG_NUM_FORMAT_N_IN_16; - -/* - * IMG_NUM_FORMAT_ASTC_2D enum - */ - -typedef enum IMG_NUM_FORMAT_ASTC_2D { -IMG_NUM_FORMAT_ASTC_2D_4x4 = 0x00000000, -IMG_NUM_FORMAT_ASTC_2D_5x4 = 0x00000001, -IMG_NUM_FORMAT_ASTC_2D_5x5 = 0x00000002, -IMG_NUM_FORMAT_ASTC_2D_6x5 = 0x00000003, -IMG_NUM_FORMAT_ASTC_2D_6x6 = 0x00000004, -IMG_NUM_FORMAT_ASTC_2D_8x5 = 0x00000005, -IMG_NUM_FORMAT_ASTC_2D_8x6 = 0x00000006, -IMG_NUM_FORMAT_ASTC_2D_8x8 = 0x00000007, -IMG_NUM_FORMAT_ASTC_2D_10x5 = 0x00000008, -IMG_NUM_FORMAT_ASTC_2D_10x6 = 0x00000009, -IMG_NUM_FORMAT_ASTC_2D_10x8 = 0x0000000a, -IMG_NUM_FORMAT_ASTC_2D_10x10 = 0x0000000b, -IMG_NUM_FORMAT_ASTC_2D_12x10 = 0x0000000c, -IMG_NUM_FORMAT_ASTC_2D_12x12 = 0x0000000d, -IMG_NUM_FORMAT_ASTC_2D_RESERVED_14 = 0x0000000e, -IMG_NUM_FORMAT_ASTC_2D_RESERVED_15 = 0x0000000f, -} IMG_NUM_FORMAT_ASTC_2D; - -/* - * IMG_NUM_FORMAT_ASTC_3D enum - */ - -typedef enum IMG_NUM_FORMAT_ASTC_3D { -IMG_NUM_FORMAT_ASTC_3D_3x3x3 = 0x00000000, -IMG_NUM_FORMAT_ASTC_3D_4x3x3 = 0x00000001, -IMG_NUM_FORMAT_ASTC_3D_4x4x3 = 0x00000002, -IMG_NUM_FORMAT_ASTC_3D_4x4x4 = 0x00000003, -IMG_NUM_FORMAT_ASTC_3D_5x4x4 = 0x00000004, -IMG_NUM_FORMAT_ASTC_3D_5x5x4 = 0x00000005, -IMG_NUM_FORMAT_ASTC_3D_5x5x5 = 0x00000006, -IMG_NUM_FORMAT_ASTC_3D_6x5x5 = 0x00000007, -IMG_NUM_FORMAT_ASTC_3D_6x6x5 = 0x00000008, -IMG_NUM_FORMAT_ASTC_3D_6x6x6 = 0x00000009, -IMG_NUM_FORMAT_ASTC_3D_RESERVED_10 = 0x0000000a, -IMG_NUM_FORMAT_ASTC_3D_RESERVED_11 = 0x0000000b, -IMG_NUM_FORMAT_ASTC_3D_RESERVED_12 = 0x0000000c, -IMG_NUM_FORMAT_ASTC_3D_RESERVED_13 = 0x0000000d, -IMG_NUM_FORMAT_ASTC_3D_RESERVED_14 = 0x0000000e, -IMG_NUM_FORMAT_ASTC_3D_RESERVED_15 = 0x0000000f, -} IMG_NUM_FORMAT_ASTC_3D; - -/* - * TileType enum - */ - -typedef enum TileType { -ARRAY_COLOR_TILE = 0x00000000, -ARRAY_DEPTH_TILE = 0x00000001, -} TileType; - -/* - * NonDispTilingOrder enum - */ - -typedef enum NonDispTilingOrder { -ADDR_SURF_MICRO_TILING_DISPLAY = 0x00000000, -ADDR_SURF_MICRO_TILING_NON_DISPLAY = 0x00000001, -} NonDispTilingOrder; - -/* - * MicroTileMode enum - */ - -typedef enum MicroTileMode { -ADDR_SURF_DISPLAY_MICRO_TILING = 0x00000000, -ADDR_SURF_THIN_MICRO_TILING = 0x00000001, -ADDR_SURF_DEPTH_MICRO_TILING = 0x00000002, -ADDR_SURF_ROTATED_MICRO_TILING = 0x00000003, -ADDR_SURF_THICK_MICRO_TILING = 0x00000004, -} MicroTileMode; - -/* - * TileSplit enum - */ - -typedef enum TileSplit { -ADDR_SURF_TILE_SPLIT_64B = 0x00000000, -ADDR_SURF_TILE_SPLIT_128B = 0x00000001, -ADDR_SURF_TILE_SPLIT_256B = 0x00000002, -ADDR_SURF_TILE_SPLIT_512B = 0x00000003, -ADDR_SURF_TILE_SPLIT_1KB = 0x00000004, -ADDR_SURF_TILE_SPLIT_2KB = 0x00000005, -ADDR_SURF_TILE_SPLIT_4KB = 0x00000006, -} TileSplit; - -/* - * SampleSplit enum - */ - -typedef enum SampleSplit { -ADDR_SURF_SAMPLE_SPLIT_1 = 0x00000000, -ADDR_SURF_SAMPLE_SPLIT_2 = 0x00000001, -ADDR_SURF_SAMPLE_SPLIT_4 = 0x00000002, -ADDR_SURF_SAMPLE_SPLIT_8 = 0x00000003, -} SampleSplit; - -/* - * PipeConfig enum - */ - -typedef enum PipeConfig { -ADDR_SURF_P2 = 0x00000000, -ADDR_SURF_P2_RESERVED0 = 0x00000001, -ADDR_SURF_P2_RESERVED1 = 0x00000002, -ADDR_SURF_P2_RESERVED2 = 0x00000003, -ADDR_SURF_P4_8x16 = 0x00000004, -ADDR_SURF_P4_16x16 = 0x00000005, -ADDR_SURF_P4_16x32 = 0x00000006, -ADDR_SURF_P4_32x32 = 0x00000007, -ADDR_SURF_P8_16x16_8x16 = 0x00000008, -ADDR_SURF_P8_16x32_8x16 = 0x00000009, -ADDR_SURF_P8_32x32_8x16 = 0x0000000a, -ADDR_SURF_P8_16x32_16x16 = 0x0000000b, -ADDR_SURF_P8_32x32_16x16 = 0x0000000c, -ADDR_SURF_P8_32x32_16x32 = 0x0000000d, -ADDR_SURF_P8_32x64_32x32 = 0x0000000e, -ADDR_SURF_P8_RESERVED0 = 0x0000000f, -ADDR_SURF_P16_32x32_8x16 = 0x00000010, -ADDR_SURF_P16_32x32_16x16 = 0x00000011, -} PipeConfig; - -/* - * SeEnable enum - */ - -typedef enum SeEnable { -ADDR_CONFIG_DISABLE_SE = 0x00000000, -ADDR_CONFIG_ENABLE_SE = 0x00000001, -} SeEnable; - -/* - * NumBanks enum - */ - -typedef enum NumBanks { -ADDR_SURF_2_BANK = 0x00000000, -ADDR_SURF_4_BANK = 0x00000001, -ADDR_SURF_8_BANK = 0x00000002, -ADDR_SURF_16_BANK = 0x00000003, -} NumBanks; - -/* - * BankWidth enum - */ - -typedef enum BankWidth { -ADDR_SURF_BANK_WIDTH_1 = 0x00000000, -ADDR_SURF_BANK_WIDTH_2 = 0x00000001, -ADDR_SURF_BANK_WIDTH_4 = 0x00000002, -ADDR_SURF_BANK_WIDTH_8 = 0x00000003, -} BankWidth; - -/* - * BankHeight enum - */ - -typedef enum BankHeight { -ADDR_SURF_BANK_HEIGHT_1 = 0x00000000, -ADDR_SURF_BANK_HEIGHT_2 = 0x00000001, -ADDR_SURF_BANK_HEIGHT_4 = 0x00000002, -ADDR_SURF_BANK_HEIGHT_8 = 0x00000003, -} BankHeight; - -/* - * BankWidthHeight enum - */ - -typedef enum BankWidthHeight { -ADDR_SURF_BANK_WH_1 = 0x00000000, -ADDR_SURF_BANK_WH_2 = 0x00000001, -ADDR_SURF_BANK_WH_4 = 0x00000002, -ADDR_SURF_BANK_WH_8 = 0x00000003, -} BankWidthHeight; - -/* - * MacroTileAspect enum - */ - -typedef enum MacroTileAspect { -ADDR_SURF_MACRO_ASPECT_1 = 0x00000000, -ADDR_SURF_MACRO_ASPECT_2 = 0x00000001, -ADDR_SURF_MACRO_ASPECT_4 = 0x00000002, -ADDR_SURF_MACRO_ASPECT_8 = 0x00000003, -} MacroTileAspect; - -/* - * GATCL1RequestType enum - */ - -typedef enum GATCL1RequestType { -GATCL1_TYPE_NORMAL = 0x00000000, -GATCL1_TYPE_SHOOTDOWN = 0x00000001, -GATCL1_TYPE_BYPASS = 0x00000002, -} GATCL1RequestType; - -/* - * UTCL1RequestType enum - */ - -typedef enum UTCL1RequestType { -UTCL1_TYPE_NORMAL = 0x00000000, -UTCL1_TYPE_SHOOTDOWN = 0x00000001, -UTCL1_TYPE_BYPASS = 0x00000002, -} UTCL1RequestType; - -/* - * UTCL1FaultType enum - */ - -typedef enum UTCL1FaultType { -UTCL1_XNACK_SUCCESS = 0x00000000, -UTCL1_XNACK_RETRY = 0x00000001, -UTCL1_XNACK_PRT = 0x00000002, -UTCL1_XNACK_NO_RETRY = 0x00000003, -} UTCL1FaultType; - -/* - * TCC_CACHE_POLICIES enum - */ - -typedef enum TCC_CACHE_POLICIES { -TCC_CACHE_POLICY_LRU = 0x00000000, -TCC_CACHE_POLICY_STREAM = 0x00000001, -} TCC_CACHE_POLICIES; - -/* - * MTYPE enum - */ - -typedef enum MTYPE { -MTYPE_NC = 0x00000000, -MTYPE_WC = 0x00000001, -MTYPE_CC = 0x00000002, -MTYPE_UC = 0x00000003, -} MTYPE; - -/* - * RMI_CID enum - */ - -typedef enum RMI_CID { -RMI_CID_CC = 0x00000000, -RMI_CID_FC = 0x00000001, -RMI_CID_CM = 0x00000002, -RMI_CID_DC = 0x00000003, -RMI_CID_Z = 0x00000004, -RMI_CID_S = 0x00000005, -RMI_CID_TILE = 0x00000006, -RMI_CID_ZPCPSD = 0x00000007, -} RMI_CID; - -/* - * PERFMON_COUNTER_MODE enum - */ - -typedef enum PERFMON_COUNTER_MODE { -PERFMON_COUNTER_MODE_ACCUM = 0x00000000, -PERFMON_COUNTER_MODE_ACTIVE_CYCLES = 0x00000001, -PERFMON_COUNTER_MODE_MAX = 0x00000002, -PERFMON_COUNTER_MODE_DIRTY = 0x00000003, -PERFMON_COUNTER_MODE_SAMPLE = 0x00000004, -PERFMON_COUNTER_MODE_CYCLES_SINCE_FIRST_EVENT = 0x00000005, -PERFMON_COUNTER_MODE_CYCLES_SINCE_LAST_EVENT = 0x00000006, -PERFMON_COUNTER_MODE_CYCLES_GE_HI = 0x00000007, -PERFMON_COUNTER_MODE_CYCLES_EQ_HI = 0x00000008, -PERFMON_COUNTER_MODE_INACTIVE_CYCLES = 0x00000009, -PERFMON_COUNTER_MODE_RESERVED = 0x0000000f, -} PERFMON_COUNTER_MODE; - -/* - * PERFMON_SPM_MODE enum - */ - -typedef enum PERFMON_SPM_MODE { -PERFMON_SPM_MODE_OFF = 0x00000000, -PERFMON_SPM_MODE_16BIT_CLAMP = 0x00000001, -PERFMON_SPM_MODE_16BIT_NO_CLAMP = 0x00000002, -PERFMON_SPM_MODE_32BIT_CLAMP = 0x00000003, -PERFMON_SPM_MODE_32BIT_NO_CLAMP = 0x00000004, -PERFMON_SPM_MODE_RESERVED_5 = 0x00000005, -PERFMON_SPM_MODE_RESERVED_6 = 0x00000006, -PERFMON_SPM_MODE_RESERVED_7 = 0x00000007, -PERFMON_SPM_MODE_TEST_MODE_0 = 0x00000008, -PERFMON_SPM_MODE_TEST_MODE_1 = 0x00000009, -PERFMON_SPM_MODE_TEST_MODE_2 = 0x0000000a, -} PERFMON_SPM_MODE; - -/* - * SurfaceTiling enum - */ - -typedef enum SurfaceTiling { -ARRAY_LINEAR = 0x00000000, -ARRAY_TILED = 0x00000001, -} SurfaceTiling; - -/* - * SurfaceArray enum - */ - -typedef enum SurfaceArray { -ARRAY_1D = 0x00000000, -ARRAY_2D = 0x00000001, -ARRAY_3D = 0x00000002, -ARRAY_3D_SLICE = 0x00000003, -} SurfaceArray; - -/* - * ColorArray enum - */ - -typedef enum ColorArray { -ARRAY_2D_ALT_COLOR = 0x00000000, -ARRAY_2D_COLOR = 0x00000001, -ARRAY_3D_SLICE_COLOR = 0x00000003, -} ColorArray; - -/* - * DepthArray enum - */ - -typedef enum DepthArray { -ARRAY_2D_ALT_DEPTH = 0x00000000, -ARRAY_2D_DEPTH = 0x00000001, -} DepthArray; - -/* - * ENUM_NUM_SIMD_PER_CU enum - */ - -typedef enum ENUM_NUM_SIMD_PER_CU { -NUM_SIMD_PER_CU = 0x00000004, -} ENUM_NUM_SIMD_PER_CU; - -/* - * DSM_ENABLE_ERROR_INJECT enum - */ - -typedef enum DSM_ENABLE_ERROR_INJECT { -DSM_ENABLE_ERROR_INJECT_FED_IN = 0x00000000, -DSM_ENABLE_ERROR_INJECT_SINGLE = 0x00000001, -DSM_ENABLE_ERROR_INJECT_UNCORRECTABLE = 0x00000002, -DSM_ENABLE_ERROR_INJECT_UNCORRECTABLE_LIMITED = 0x00000003, -} DSM_ENABLE_ERROR_INJECT; - -/* - * DSM_SELECT_INJECT_DELAY enum - */ - -typedef enum DSM_SELECT_INJECT_DELAY { -DSM_SELECT_INJECT_DELAY_NO_DELAY = 0x00000000, -DSM_SELECT_INJECT_DELAY_DELAY_ERROR = 0x00000001, -} DSM_SELECT_INJECT_DELAY; - -/* - * DSM_DATA_SEL enum - */ - -typedef enum DSM_DATA_SEL { -DSM_DATA_SEL_DISABLE = 0x00000000, -DSM_DATA_SEL_0 = 0x00000001, -DSM_DATA_SEL_1 = 0x00000002, -DSM_DATA_SEL_BOTH = 0x00000003, -} DSM_DATA_SEL; - -/* - * DSM_SINGLE_WRITE enum - */ - -typedef enum DSM_SINGLE_WRITE { -DSM_SINGLE_WRITE_DIS = 0x00000000, -DSM_SINGLE_WRITE_EN = 0x00000001, -} DSM_SINGLE_WRITE; - -/* - * SWIZZLE_TYPE_ENUM enum - */ - -typedef enum SWIZZLE_TYPE_ENUM { -SW_Z = 0x00000000, -SW_S = 0x00000001, -SW_D = 0x00000002, -SW_R = 0x00000003, -SW_L = 0x00000004, -} SWIZZLE_TYPE_ENUM; - -/* - * TC_MICRO_TILE_MODE enum - */ - -typedef enum TC_MICRO_TILE_MODE { -MICRO_TILE_MODE_LINEAR = 0x00000000, -MICRO_TILE_MODE_ROTATED = 0x00000001, -MICRO_TILE_MODE_STD_2D = 0x00000002, -MICRO_TILE_MODE_STD_3D = 0x00000003, -MICRO_TILE_MODE_DISPLAY_2D = 0x00000004, -MICRO_TILE_MODE_DISPLAY_3D = 0x00000005, -MICRO_TILE_MODE_Z_2D = 0x00000006, -MICRO_TILE_MODE_Z_3D = 0x00000007, -} TC_MICRO_TILE_MODE; - -/* - * SWIZZLE_MODE_ENUM enum - */ - -typedef enum SWIZZLE_MODE_ENUM { -SW_LINEAR = 0x00000000, -SW_256B_S = 0x00000001, -SW_256B_D = 0x00000002, -SW_256B_R = 0x00000003, -SW_4KB_Z = 0x00000004, -SW_4KB_S = 0x00000005, -SW_4KB_D = 0x00000006, -SW_4KB_R = 0x00000007, -SW_64KB_Z = 0x00000008, -SW_64KB_S = 0x00000009, -SW_64KB_D = 0x0000000a, -SW_64KB_R = 0x0000000b, -SW_VAR_Z = 0x0000000c, -SW_VAR_S = 0x0000000d, -SW_VAR_D = 0x0000000e, -SW_VAR_R = 0x0000000f, -SW_RESERVED_16 = 0x00000010, -SW_RESERVED_17 = 0x00000011, -SW_RESERVED_18 = 0x00000012, -SW_RESERVED_19 = 0x00000013, -SW_4KB_Z_X = 0x00000014, -SW_4KB_S_X = 0x00000015, -SW_4KB_D_X = 0x00000016, -SW_4KB_R_X = 0x00000017, -SW_64KB_Z_X = 0x00000018, -SW_64KB_S_X = 0x00000019, -SW_64KB_D_X = 0x0000001a, -SW_64KB_R_X = 0x0000001b, -SW_VAR_Z_X = 0x0000001c, -SW_VAR_S_X = 0x0000001d, -SW_VAR_D_X = 0x0000001e, -SW_VAR_R_X = 0x0000001f, -} SWIZZLE_MODE_ENUM; - -/******************************************************* - * IH Enums - *******************************************************/ - -/* - * IH_PERF_SEL enum - */ - -typedef enum IH_PERF_SEL { -IH_PERF_SEL_CYCLE = 0x00000000, -IH_PERF_SEL_IDLE = 0x00000001, -IH_PERF_SEL_INPUT_IDLE = 0x00000002, -IH_PERF_SEL_BUFFER_IDLE = 0x00000003, -IH_PERF_SEL_RB0_FULL = 0x00000004, -IH_PERF_SEL_RB0_OVERFLOW = 0x00000005, -IH_PERF_SEL_RB0_WPTR_WRITEBACK = 0x00000006, -IH_PERF_SEL_RB0_WPTR_WRAP = 0x00000007, -IH_PERF_SEL_RB0_RPTR_WRAP = 0x00000008, -IH_PERF_SEL_MC_WR_IDLE = 0x00000009, -IH_PERF_SEL_MC_WR_COUNT = 0x0000000a, -IH_PERF_SEL_MC_WR_STALL = 0x0000000b, -IH_PERF_SEL_MC_WR_CLEAN_PENDING = 0x0000000c, -IH_PERF_SEL_MC_WR_CLEAN_STALL = 0x0000000d, -IH_PERF_SEL_BIF_LINE0_RISING = 0x0000000e, -IH_PERF_SEL_BIF_LINE0_FALLING = 0x0000000f, -IH_PERF_SEL_RB1_FULL = 0x00000010, -IH_PERF_SEL_RB1_OVERFLOW = 0x00000011, -Reserved18 = 0x00000012, -IH_PERF_SEL_RB1_WPTR_WRAP = 0x00000013, -IH_PERF_SEL_RB1_RPTR_WRAP = 0x00000014, -IH_PERF_SEL_RB2_FULL = 0x00000015, -IH_PERF_SEL_RB2_OVERFLOW = 0x00000016, -Reserved23 = 0x00000017, -IH_PERF_SEL_RB2_WPTR_WRAP = 0x00000018, -IH_PERF_SEL_RB2_RPTR_WRAP = 0x00000019, -Reserved26 = 0x0000001a, -Reserved27 = 0x0000001b, -Reserved28 = 0x0000001c, -Reserved29 = 0x0000001d, -IH_PERF_SEL_RB0_FULL_VF0 = 0x0000001e, -IH_PERF_SEL_RB0_FULL_VF1 = 0x0000001f, -IH_PERF_SEL_RB0_FULL_VF2 = 0x00000020, -IH_PERF_SEL_RB0_FULL_VF3 = 0x00000021, -IH_PERF_SEL_RB0_FULL_VF4 = 0x00000022, -IH_PERF_SEL_RB0_FULL_VF5 = 0x00000023, -IH_PERF_SEL_RB0_FULL_VF6 = 0x00000024, -IH_PERF_SEL_RB0_FULL_VF7 = 0x00000025, -IH_PERF_SEL_RB0_FULL_VF8 = 0x00000026, -IH_PERF_SEL_RB0_FULL_VF9 = 0x00000027, -IH_PERF_SEL_RB0_FULL_VF10 = 0x00000028, -IH_PERF_SEL_RB0_FULL_VF11 = 0x00000029, -IH_PERF_SEL_RB0_FULL_VF12 = 0x0000002a, -IH_PERF_SEL_RB0_FULL_VF13 = 0x0000002b, -IH_PERF_SEL_RB0_FULL_VF14 = 0x0000002c, -IH_PERF_SEL_RB0_FULL_VF15 = 0x0000002d, -IH_PERF_SEL_RB0_OVERFLOW_VF0 = 0x0000002e, -IH_PERF_SEL_RB0_OVERFLOW_VF1 = 0x0000002f, -IH_PERF_SEL_RB0_OVERFLOW_VF2 = 0x00000030, -IH_PERF_SEL_RB0_OVERFLOW_VF3 = 0x00000031, -IH_PERF_SEL_RB0_OVERFLOW_VF4 = 0x00000032, -IH_PERF_SEL_RB0_OVERFLOW_VF5 = 0x00000033, -IH_PERF_SEL_RB0_OVERFLOW_VF6 = 0x00000034, -IH_PERF_SEL_RB0_OVERFLOW_VF7 = 0x00000035, -IH_PERF_SEL_RB0_OVERFLOW_VF8 = 0x00000036, -IH_PERF_SEL_RB0_OVERFLOW_VF9 = 0x00000037, -IH_PERF_SEL_RB0_OVERFLOW_VF10 = 0x00000038, -IH_PERF_SEL_RB0_OVERFLOW_VF11 = 0x00000039, -IH_PERF_SEL_RB0_OVERFLOW_VF12 = 0x0000003a, -IH_PERF_SEL_RB0_OVERFLOW_VF13 = 0x0000003b, -IH_PERF_SEL_RB0_OVERFLOW_VF14 = 0x0000003c, -IH_PERF_SEL_RB0_OVERFLOW_VF15 = 0x0000003d, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF0 = 0x0000003e, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF1 = 0x0000003f, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF2 = 0x00000040, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF3 = 0x00000041, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF4 = 0x00000042, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF5 = 0x00000043, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF6 = 0x00000044, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF7 = 0x00000045, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF8 = 0x00000046, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF9 = 0x00000047, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF10 = 0x00000048, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF11 = 0x00000049, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF12 = 0x0000004a, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF13 = 0x0000004b, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF14 = 0x0000004c, -IH_PERF_SEL_RB0_WPTR_WRITEBACK_VF15 = 0x0000004d, -IH_PERF_SEL_RB0_WPTR_WRAP_VF0 = 0x0000004e, -IH_PERF_SEL_RB0_WPTR_WRAP_VF1 = 0x0000004f, -IH_PERF_SEL_RB0_WPTR_WRAP_VF2 = 0x00000050, -IH_PERF_SEL_RB0_WPTR_WRAP_VF3 = 0x00000051, -IH_PERF_SEL_RB0_WPTR_WRAP_VF4 = 0x00000052, -IH_PERF_SEL_RB0_WPTR_WRAP_VF5 = 0x00000053, -IH_PERF_SEL_RB0_WPTR_WRAP_VF6 = 0x00000054, -IH_PERF_SEL_RB0_WPTR_WRAP_VF7 = 0x00000055, -IH_PERF_SEL_RB0_WPTR_WRAP_VF8 = 0x00000056, -IH_PERF_SEL_RB0_WPTR_WRAP_VF9 = 0x00000057, -IH_PERF_SEL_RB0_WPTR_WRAP_VF10 = 0x00000058, -IH_PERF_SEL_RB0_WPTR_WRAP_VF11 = 0x00000059, -IH_PERF_SEL_RB0_WPTR_WRAP_VF12 = 0x0000005a, -IH_PERF_SEL_RB0_WPTR_WRAP_VF13 = 0x0000005b, -IH_PERF_SEL_RB0_WPTR_WRAP_VF14 = 0x0000005c, -IH_PERF_SEL_RB0_WPTR_WRAP_VF15 = 0x0000005d, -IH_PERF_SEL_RB0_RPTR_WRAP_VF0 = 0x0000005e, -IH_PERF_SEL_RB0_RPTR_WRAP_VF1 = 0x0000005f, -IH_PERF_SEL_RB0_RPTR_WRAP_VF2 = 0x00000060, -IH_PERF_SEL_RB0_RPTR_WRAP_VF3 = 0x00000061, -IH_PERF_SEL_RB0_RPTR_WRAP_VF4 = 0x00000062, -IH_PERF_SEL_RB0_RPTR_WRAP_VF5 = 0x00000063, -IH_PERF_SEL_RB0_RPTR_WRAP_VF6 = 0x00000064, -IH_PERF_SEL_RB0_RPTR_WRAP_VF7 = 0x00000065, -IH_PERF_SEL_RB0_RPTR_WRAP_VF8 = 0x00000066, -IH_PERF_SEL_RB0_RPTR_WRAP_VF9 = 0x00000067, -IH_PERF_SEL_RB0_RPTR_WRAP_VF10 = 0x00000068, -IH_PERF_SEL_RB0_RPTR_WRAP_VF11 = 0x00000069, -IH_PERF_SEL_RB0_RPTR_WRAP_VF12 = 0x0000006a, -IH_PERF_SEL_RB0_RPTR_WRAP_VF13 = 0x0000006b, -IH_PERF_SEL_RB0_RPTR_WRAP_VF14 = 0x0000006c, -IH_PERF_SEL_RB0_RPTR_WRAP_VF15 = 0x0000006d, -IH_PERF_SEL_BIF_LINE0_RISING_VF0 = 0x0000006e, -IH_PERF_SEL_BIF_LINE0_RISING_VF1 = 0x0000006f, -IH_PERF_SEL_BIF_LINE0_RISING_VF2 = 0x00000070, -IH_PERF_SEL_BIF_LINE0_RISING_VF3 = 0x00000071, -IH_PERF_SEL_BIF_LINE0_RISING_VF4 = 0x00000072, -IH_PERF_SEL_BIF_LINE0_RISING_VF5 = 0x00000073, -IH_PERF_SEL_BIF_LINE0_RISING_VF6 = 0x00000074, -IH_PERF_SEL_BIF_LINE0_RISING_VF7 = 0x00000075, -IH_PERF_SEL_BIF_LINE0_RISING_VF8 = 0x00000076, -IH_PERF_SEL_BIF_LINE0_RISING_VF9 = 0x00000077, -IH_PERF_SEL_BIF_LINE0_RISING_VF10 = 0x00000078, -IH_PERF_SEL_BIF_LINE0_RISING_VF11 = 0x00000079, -IH_PERF_SEL_BIF_LINE0_RISING_VF12 = 0x0000007a, -IH_PERF_SEL_BIF_LINE0_RISING_VF13 = 0x0000007b, -IH_PERF_SEL_BIF_LINE0_RISING_VF14 = 0x0000007c, -IH_PERF_SEL_BIF_LINE0_RISING_VF15 = 0x0000007d, -IH_PERF_SEL_BIF_LINE0_FALLING_VF0 = 0x0000007e, -IH_PERF_SEL_BIF_LINE0_FALLING_VF1 = 0x0000007f, -IH_PERF_SEL_BIF_LINE0_FALLING_VF2 = 0x00000080, -IH_PERF_SEL_BIF_LINE0_FALLING_VF3 = 0x00000081, -IH_PERF_SEL_BIF_LINE0_FALLING_VF4 = 0x00000082, -IH_PERF_SEL_BIF_LINE0_FALLING_VF5 = 0x00000083, -IH_PERF_SEL_BIF_LINE0_FALLING_VF6 = 0x00000084, -IH_PERF_SEL_BIF_LINE0_FALLING_VF7 = 0x00000085, -IH_PERF_SEL_BIF_LINE0_FALLING_VF8 = 0x00000086, -IH_PERF_SEL_BIF_LINE0_FALLING_VF9 = 0x00000087, -IH_PERF_SEL_BIF_LINE0_FALLING_VF10 = 0x00000088, -IH_PERF_SEL_BIF_LINE0_FALLING_VF11 = 0x00000089, -IH_PERF_SEL_BIF_LINE0_FALLING_VF12 = 0x0000008a, -IH_PERF_SEL_BIF_LINE0_FALLING_VF13 = 0x0000008b, -IH_PERF_SEL_BIF_LINE0_FALLING_VF14 = 0x0000008c, -IH_PERF_SEL_BIF_LINE0_FALLING_VF15 = 0x0000008d, -Reserved142 = 0x0000008e, -Reserved143 = 0x0000008f, -Reserved144 = 0x00000090, -Reserved145 = 0x00000091, -Reserved146 = 0x00000092, -Reserved147 = 0x00000093, -Reserved148 = 0x00000094, -Reserved149 = 0x00000095, -IH_PERF_SEL_CLIENT0_INT = 0x00000096, -IH_PERF_SEL_CLIENT1_INT = 0x00000097, -IH_PERF_SEL_CLIENT2_INT = 0x00000098, -IH_PERF_SEL_CLIENT3_INT = 0x00000099, -IH_PERF_SEL_CLIENT4_INT = 0x0000009a, -IH_PERF_SEL_CLIENT5_INT = 0x0000009b, -IH_PERF_SEL_CLIENT6_INT = 0x0000009c, -IH_PERF_SEL_CLIENT7_INT = 0x0000009d, -IH_PERF_SEL_CLIENT8_INT = 0x0000009e, -IH_PERF_SEL_CLIENT9_INT = 0x0000009f, -IH_PERF_SEL_CLIENT10_INT = 0x000000a0, -IH_PERF_SEL_CLIENT11_INT = 0x000000a1, -IH_PERF_SEL_CLIENT12_INT = 0x000000a2, -IH_PERF_SEL_CLIENT13_INT = 0x000000a3, -IH_PERF_SEL_CLIENT14_INT = 0x000000a4, -IH_PERF_SEL_CLIENT15_INT = 0x000000a5, -IH_PERF_SEL_CLIENT16_INT = 0x000000a6, -IH_PERF_SEL_CLIENT17_INT = 0x000000a7, -IH_PERF_SEL_CLIENT18_INT = 0x000000a8, -IH_PERF_SEL_CLIENT19_INT = 0x000000a9, -IH_PERF_SEL_CLIENT20_INT = 0x000000aa, -IH_PERF_SEL_CLIENT21_INT = 0x000000ab, -IH_PERF_SEL_CLIENT22_INT = 0x000000ac, -IH_PERF_SEL_CLIENT23_INT = 0x000000ad, -IH_PERF_SEL_CLIENT24_INT = 0x000000ae, -IH_PERF_SEL_CLIENT25_INT = 0x000000af, -IH_PERF_SEL_CLIENT26_INT = 0x000000b0, -IH_PERF_SEL_CLIENT27_INT = 0x000000b1, -IH_PERF_SEL_CLIENT28_INT = 0x000000b2, -IH_PERF_SEL_CLIENT29_INT = 0x000000b3, -IH_PERF_SEL_CLIENT30_INT = 0x000000b4, -IH_PERF_SEL_CLIENT31_INT = 0x000000b5, -Reserved182 = 0x000000b6, -Reserved183 = 0x000000b7, -Reserved184 = 0x000000b8, -Reserved185 = 0x000000b9, -Reserved186 = 0x000000ba, -Reserved187 = 0x000000bb, -Reserved188 = 0x000000bc, -Reserved189 = 0x000000bd, -Reserved190 = 0x000000be, -Reserved191 = 0x000000bf, -Reserved192 = 0x000000c0, -Reserved193 = 0x000000c1, -Reserved194 = 0x000000c2, -Reserved195 = 0x000000c3, -Reserved196 = 0x000000c4, -Reserved197 = 0x000000c5, -Reserved198 = 0x000000c6, -Reserved199 = 0x000000c7, -Reserved200 = 0x000000c8, -Reserved201 = 0x000000c9, -Reserved202 = 0x000000ca, -Reserved203 = 0x000000cb, -Reserved204 = 0x000000cc, -Reserved205 = 0x000000cd, -Reserved206 = 0x000000ce, -Reserved207 = 0x000000cf, -Reserved208 = 0x000000d0, -Reserved209 = 0x000000d1, -Reserved210 = 0x000000d2, -Reserved211 = 0x000000d3, -Reserved212 = 0x000000d4, -Reserved213 = 0x000000d5, -Reserved214 = 0x000000d6, -Reserved215 = 0x000000d7, -Reserved216 = 0x000000d8, -Reserved217 = 0x000000d9, -Reserved218 = 0x000000da, -Reserved219 = 0x000000db, -IH_PERF_SEL_RB1_FULL_VF0 = 0x000000dc, -IH_PERF_SEL_RB1_FULL_VF1 = 0x000000dd, -IH_PERF_SEL_RB1_FULL_VF2 = 0x000000de, -IH_PERF_SEL_RB1_FULL_VF3 = 0x000000df, -IH_PERF_SEL_RB1_FULL_VF4 = 0x000000e0, -IH_PERF_SEL_RB1_FULL_VF5 = 0x000000e1, -IH_PERF_SEL_RB1_FULL_VF6 = 0x000000e2, -IH_PERF_SEL_RB1_FULL_VF7 = 0x000000e3, -IH_PERF_SEL_RB1_FULL_VF8 = 0x000000e4, -IH_PERF_SEL_RB1_FULL_VF9 = 0x000000e5, -IH_PERF_SEL_RB1_FULL_VF10 = 0x000000e6, -IH_PERF_SEL_RB1_FULL_VF11 = 0x000000e7, -IH_PERF_SEL_RB1_FULL_VF12 = 0x000000e8, -IH_PERF_SEL_RB1_FULL_VF13 = 0x000000e9, -IH_PERF_SEL_RB1_FULL_VF14 = 0x000000ea, -IH_PERF_SEL_RB1_FULL_VF15 = 0x000000eb, -IH_PERF_SEL_RB1_OVERFLOW_VF0 = 0x000000ec, -IH_PERF_SEL_RB1_OVERFLOW_VF1 = 0x000000ed, -IH_PERF_SEL_RB1_OVERFLOW_VF2 = 0x000000ee, -IH_PERF_SEL_RB1_OVERFLOW_VF3 = 0x000000ef, -IH_PERF_SEL_RB1_OVERFLOW_VF4 = 0x000000f0, -IH_PERF_SEL_RB1_OVERFLOW_VF5 = 0x000000f1, -IH_PERF_SEL_RB1_OVERFLOW_VF6 = 0x000000f2, -IH_PERF_SEL_RB1_OVERFLOW_VF7 = 0x000000f3, -IH_PERF_SEL_RB1_OVERFLOW_VF8 = 0x000000f4, -IH_PERF_SEL_RB1_OVERFLOW_VF9 = 0x000000f5, -IH_PERF_SEL_RB1_OVERFLOW_VF10 = 0x000000f6, -IH_PERF_SEL_RB1_OVERFLOW_VF11 = 0x000000f7, -IH_PERF_SEL_RB1_OVERFLOW_VF12 = 0x000000f8, -IH_PERF_SEL_RB1_OVERFLOW_VF13 = 0x000000f9, -IH_PERF_SEL_RB1_OVERFLOW_VF14 = 0x000000fa, -IH_PERF_SEL_RB1_OVERFLOW_VF15 = 0x000000fb, -Reserved252 = 0x000000fc, -Reserved253 = 0x000000fd, -Reserved254 = 0x000000fe, -Reserved255 = 0x000000ff, -Reserved256 = 0x00000100, -Reserved257 = 0x00000101, -Reserved258 = 0x00000102, -Reserved259 = 0x00000103, -Reserved260 = 0x00000104, -Reserved261 = 0x00000105, -Reserved262 = 0x00000106, -Reserved263 = 0x00000107, -Reserved264 = 0x00000108, -Reserved265 = 0x00000109, -Reserved266 = 0x0000010a, -Reserved267 = 0x0000010b, -IH_PERF_SEL_RB1_WPTR_WRAP_VF0 = 0x0000010c, -IH_PERF_SEL_RB1_WPTR_WRAP_VF1 = 0x0000010d, -IH_PERF_SEL_RB1_WPTR_WRAP_VF2 = 0x0000010e, -IH_PERF_SEL_RB1_WPTR_WRAP_VF3 = 0x0000010f, -IH_PERF_SEL_RB1_WPTR_WRAP_VF4 = 0x00000110, -IH_PERF_SEL_RB1_WPTR_WRAP_VF5 = 0x00000111, -IH_PERF_SEL_RB1_WPTR_WRAP_VF6 = 0x00000112, -IH_PERF_SEL_RB1_WPTR_WRAP_VF7 = 0x00000113, -IH_PERF_SEL_RB1_WPTR_WRAP_VF8 = 0x00000114, -IH_PERF_SEL_RB1_WPTR_WRAP_VF9 = 0x00000115, -IH_PERF_SEL_RB1_WPTR_WRAP_VF10 = 0x00000116, -IH_PERF_SEL_RB1_WPTR_WRAP_VF11 = 0x00000117, -IH_PERF_SEL_RB1_WPTR_WRAP_VF12 = 0x00000118, -IH_PERF_SEL_RB1_WPTR_WRAP_VF13 = 0x00000119, -IH_PERF_SEL_RB1_WPTR_WRAP_VF14 = 0x0000011a, -IH_PERF_SEL_RB1_WPTR_WRAP_VF15 = 0x0000011b, -IH_PERF_SEL_RB1_RPTR_WRAP_VF0 = 0x0000011c, -IH_PERF_SEL_RB1_RPTR_WRAP_VF1 = 0x0000011d, -IH_PERF_SEL_RB1_RPTR_WRAP_VF2 = 0x0000011e, -IH_PERF_SEL_RB1_RPTR_WRAP_VF3 = 0x0000011f, -IH_PERF_SEL_RB1_RPTR_WRAP_VF4 = 0x00000120, -IH_PERF_SEL_RB1_RPTR_WRAP_VF5 = 0x00000121, -IH_PERF_SEL_RB1_RPTR_WRAP_VF6 = 0x00000122, -IH_PERF_SEL_RB1_RPTR_WRAP_VF7 = 0x00000123, -IH_PERF_SEL_RB1_RPTR_WRAP_VF8 = 0x00000124, -IH_PERF_SEL_RB1_RPTR_WRAP_VF9 = 0x00000125, -IH_PERF_SEL_RB1_RPTR_WRAP_VF10 = 0x00000126, -IH_PERF_SEL_RB1_RPTR_WRAP_VF11 = 0x00000127, -IH_PERF_SEL_RB1_RPTR_WRAP_VF12 = 0x00000128, -IH_PERF_SEL_RB1_RPTR_WRAP_VF13 = 0x00000129, -IH_PERF_SEL_RB1_RPTR_WRAP_VF14 = 0x0000012a, -IH_PERF_SEL_RB1_RPTR_WRAP_VF15 = 0x0000012b, -Reserved300 = 0x0000012c, -Reserved301 = 0x0000012d, -Reserved302 = 0x0000012e, -Reserved303 = 0x0000012f, -Reserved304 = 0x00000130, -Reserved305 = 0x00000131, -Reserved306 = 0x00000132, -Reserved307 = 0x00000133, -Reserved308 = 0x00000134, -Reserved309 = 0x00000135, -Reserved310 = 0x00000136, -Reserved311 = 0x00000137, -Reserved312 = 0x00000138, -Reserved313 = 0x00000139, -Reserved314 = 0x0000013a, -Reserved315 = 0x0000013b, -Reserved316 = 0x0000013c, -Reserved317 = 0x0000013d, -Reserved318 = 0x0000013e, -Reserved319 = 0x0000013f, -Reserved320 = 0x00000140, -Reserved321 = 0x00000141, -Reserved322 = 0x00000142, -Reserved323 = 0x00000143, -Reserved324 = 0x00000144, -Reserved325 = 0x00000145, -Reserved326 = 0x00000146, -Reserved327 = 0x00000147, -Reserved328 = 0x00000148, -Reserved329 = 0x00000149, -Reserved330 = 0x0000014a, -Reserved331 = 0x0000014b, -IH_PERF_SEL_RB2_FULL_VF0 = 0x0000014c, -IH_PERF_SEL_RB2_FULL_VF1 = 0x0000014d, -IH_PERF_SEL_RB2_FULL_VF2 = 0x0000014e, -IH_PERF_SEL_RB2_FULL_VF3 = 0x0000014f, -IH_PERF_SEL_RB2_FULL_VF4 = 0x00000150, -IH_PERF_SEL_RB2_FULL_VF5 = 0x00000151, -IH_PERF_SEL_RB2_FULL_VF6 = 0x00000152, -IH_PERF_SEL_RB2_FULL_VF7 = 0x00000153, -IH_PERF_SEL_RB2_FULL_VF8 = 0x00000154, -IH_PERF_SEL_RB2_FULL_VF9 = 0x00000155, -IH_PERF_SEL_RB2_FULL_VF10 = 0x00000156, -IH_PERF_SEL_RB2_FULL_VF11 = 0x00000157, -IH_PERF_SEL_RB2_FULL_VF12 = 0x00000158, -IH_PERF_SEL_RB2_FULL_VF13 = 0x00000159, -IH_PERF_SEL_RB2_FULL_VF14 = 0x0000015a, -IH_PERF_SEL_RB2_FULL_VF15 = 0x0000015b, -IH_PERF_SEL_RB2_OVERFLOW_VF0 = 0x0000015c, -IH_PERF_SEL_RB2_OVERFLOW_VF1 = 0x0000015d, -IH_PERF_SEL_RB2_OVERFLOW_VF2 = 0x0000015e, -IH_PERF_SEL_RB2_OVERFLOW_VF3 = 0x0000015f, -IH_PERF_SEL_RB2_OVERFLOW_VF4 = 0x00000160, -IH_PERF_SEL_RB2_OVERFLOW_VF5 = 0x00000161, -IH_PERF_SEL_RB2_OVERFLOW_VF6 = 0x00000162, -IH_PERF_SEL_RB2_OVERFLOW_VF7 = 0x00000163, -IH_PERF_SEL_RB2_OVERFLOW_VF8 = 0x00000164, -IH_PERF_SEL_RB2_OVERFLOW_VF9 = 0x00000165, -IH_PERF_SEL_RB2_OVERFLOW_VF10 = 0x00000166, -IH_PERF_SEL_RB2_OVERFLOW_VF11 = 0x00000167, -IH_PERF_SEL_RB2_OVERFLOW_VF12 = 0x00000168, -IH_PERF_SEL_RB2_OVERFLOW_VF13 = 0x00000169, -IH_PERF_SEL_RB2_OVERFLOW_VF14 = 0x0000016a, -IH_PERF_SEL_RB2_OVERFLOW_VF15 = 0x0000016b, -Reserved364 = 0x0000016c, -Reserved365 = 0x0000016d, -Reserved366 = 0x0000016e, -Reserved367 = 0x0000016f, -Reserved368 = 0x00000170, -Reserved369 = 0x00000171, -Reserved370 = 0x00000172, -Reserved371 = 0x00000173, -Reserved372 = 0x00000174, -Reserved373 = 0x00000175, -Reserved374 = 0x00000176, -Reserved375 = 0x00000177, -Reserved376 = 0x00000178, -Reserved377 = 0x00000179, -Reserved378 = 0x0000017a, -Reserved379 = 0x0000017b, -IH_PERF_SEL_RB2_WPTR_WRAP_VF0 = 0x0000017c, -IH_PERF_SEL_RB2_WPTR_WRAP_VF1 = 0x0000017d, -IH_PERF_SEL_RB2_WPTR_WRAP_VF2 = 0x0000017e, -IH_PERF_SEL_RB2_WPTR_WRAP_VF3 = 0x0000017f, -IH_PERF_SEL_RB2_WPTR_WRAP_VF4 = 0x00000180, -IH_PERF_SEL_RB2_WPTR_WRAP_VF5 = 0x00000181, -IH_PERF_SEL_RB2_WPTR_WRAP_VF6 = 0x00000182, -IH_PERF_SEL_RB2_WPTR_WRAP_VF7 = 0x00000183, -IH_PERF_SEL_RB2_WPTR_WRAP_VF8 = 0x00000184, -IH_PERF_SEL_RB2_WPTR_WRAP_VF9 = 0x00000185, -IH_PERF_SEL_RB2_WPTR_WRAP_VF10 = 0x00000186, -IH_PERF_SEL_RB2_WPTR_WRAP_VF11 = 0x00000187, -IH_PERF_SEL_RB2_WPTR_WRAP_VF12 = 0x00000188, -IH_PERF_SEL_RB2_WPTR_WRAP_VF13 = 0x00000189, -IH_PERF_SEL_RB2_WPTR_WRAP_VF14 = 0x0000018a, -IH_PERF_SEL_RB2_WPTR_WRAP_VF15 = 0x0000018b, -IH_PERF_SEL_RB2_RPTR_WRAP_VF0 = 0x0000018c, -IH_PERF_SEL_RB2_RPTR_WRAP_VF1 = 0x0000018d, -IH_PERF_SEL_RB2_RPTR_WRAP_VF2 = 0x0000018e, -IH_PERF_SEL_RB2_RPTR_WRAP_VF3 = 0x0000018f, -IH_PERF_SEL_RB2_RPTR_WRAP_VF4 = 0x00000190, -IH_PERF_SEL_RB2_RPTR_WRAP_VF5 = 0x00000191, -IH_PERF_SEL_RB2_RPTR_WRAP_VF6 = 0x00000192, -IH_PERF_SEL_RB2_RPTR_WRAP_VF7 = 0x00000193, -IH_PERF_SEL_RB2_RPTR_WRAP_VF8 = 0x00000194, -IH_PERF_SEL_RB2_RPTR_WRAP_VF9 = 0x00000195, -IH_PERF_SEL_RB2_RPTR_WRAP_VF10 = 0x00000196, -IH_PERF_SEL_RB2_RPTR_WRAP_VF11 = 0x00000197, -IH_PERF_SEL_RB2_RPTR_WRAP_VF12 = 0x00000198, -IH_PERF_SEL_RB2_RPTR_WRAP_VF13 = 0x00000199, -IH_PERF_SEL_RB2_RPTR_WRAP_VF14 = 0x0000019a, -IH_PERF_SEL_RB2_RPTR_WRAP_VF15 = 0x0000019b, -Reserved412 = 0x0000019c, -Reserved413 = 0x0000019d, -Reserved414 = 0x0000019e, -Reserved415 = 0x0000019f, -Reserved416 = 0x000001a0, -Reserved417 = 0x000001a1, -Reserved418 = 0x000001a2, -Reserved419 = 0x000001a3, -Reserved420 = 0x000001a4, -Reserved421 = 0x000001a5, -Reserved422 = 0x000001a6, -Reserved423 = 0x000001a7, -Reserved424 = 0x000001a8, -Reserved425 = 0x000001a9, -Reserved426 = 0x000001aa, -Reserved427 = 0x000001ab, -Reserved428 = 0x000001ac, -Reserved429 = 0x000001ad, -Reserved430 = 0x000001ae, -Reserved431 = 0x000001af, -Reserved432 = 0x000001b0, -Reserved433 = 0x000001b1, -Reserved434 = 0x000001b2, -Reserved435 = 0x000001b3, -Reserved436 = 0x000001b4, -Reserved437 = 0x000001b5, -Reserved438 = 0x000001b6, -Reserved439 = 0x000001b7, -Reserved440 = 0x000001b8, -Reserved441 = 0x000001b9, -Reserved442 = 0x000001ba, -Reserved443 = 0x000001bb, -Reserved444 = 0x000001bc, -Reserved445 = 0x000001bd, -Reserved446 = 0x000001be, -Reserved447 = 0x000001bf, -Reserved448 = 0x000001c0, -Reserved449 = 0x000001c1, -Reserved450 = 0x000001c2, -Reserved451 = 0x000001c3, -Reserved452 = 0x000001c4, -Reserved453 = 0x000001c5, -Reserved454 = 0x000001c6, -Reserved455 = 0x000001c7, -Reserved456 = 0x000001c8, -Reserved457 = 0x000001c9, -Reserved458 = 0x000001ca, -Reserved459 = 0x000001cb, -Reserved460 = 0x000001cc, -Reserved461 = 0x000001cd, -Reserved462 = 0x000001ce, -Reserved463 = 0x000001cf, -Reserved464 = 0x000001d0, -Reserved465 = 0x000001d1, -Reserved466 = 0x000001d2, -Reserved467 = 0x000001d3, -Reserved468 = 0x000001d4, -Reserved469 = 0x000001d5, -Reserved470 = 0x000001d6, -Reserved471 = 0x000001d7, -Reserved472 = 0x000001d8, -Reserved473 = 0x000001d9, -Reserved474 = 0x000001da, -Reserved475 = 0x000001db, -Reserved476 = 0x000001dc, -Reserved477 = 0x000001dd, -Reserved478 = 0x000001de, -Reserved479 = 0x000001df, -Reserved480 = 0x000001e0, -Reserved481 = 0x000001e1, -Reserved482 = 0x000001e2, -Reserved483 = 0x000001e3, -Reserved484 = 0x000001e4, -Reserved485 = 0x000001e5, -Reserved486 = 0x000001e6, -Reserved487 = 0x000001e7, -Reserved488 = 0x000001e8, -Reserved489 = 0x000001e9, -Reserved490 = 0x000001ea, -Reserved491 = 0x000001eb, -Reserved492 = 0x000001ec, -Reserved493 = 0x000001ed, -Reserved494 = 0x000001ee, -Reserved495 = 0x000001ef, -Reserved496 = 0x000001f0, -Reserved497 = 0x000001f1, -Reserved498 = 0x000001f2, -Reserved499 = 0x000001f3, -Reserved500 = 0x000001f4, -Reserved501 = 0x000001f5, -Reserved502 = 0x000001f6, -Reserved503 = 0x000001f7, -Reserved504 = 0x000001f8, -Reserved505 = 0x000001f9, -Reserved506 = 0x000001fa, -Reserved507 = 0x000001fb, -Reserved508 = 0x000001fc, -Reserved509 = 0x000001fd, -Reserved510 = 0x000001fe, -Reserved511 = 0x000001ff, -} IH_PERF_SEL; - -/******************************************************* - * SEM Enums - *******************************************************/ - -/* - * SEM_PERF_SEL enum - */ - -typedef enum SEM_PERF_SEL { -SEM_PERF_SEL_CYCLE = 0x00000000, -SEM_PERF_SEL_IDLE = 0x00000001, -SEM_PERF_SEL_SDMA0_REQ_SIGNAL = 0x00000002, -SEM_PERF_SEL_SDMA1_REQ_SIGNAL = 0x00000003, -SEM_PERF_SEL_UVD_REQ_SIGNAL = 0x00000004, -SEM_PERF_SEL_VCE0_REQ_SIGNAL = 0x00000005, -SEM_PERF_SEL_ACP_REQ_SIGNAL = 0x00000006, -SEM_PERF_SEL_ISP_REQ_SIGNAL = 0x00000007, -SEM_PERF_SEL_VCE1_REQ_SIGNAL = 0x00000008, -SEM_PERF_SEL_VP8_REQ_SIGNAL = 0x00000009, -SEM_PERF_SEL_CPG_E0_REQ_SIGNAL = 0x0000000a, -SEM_PERF_SEL_CPG_E1_REQ_SIGNAL = 0x0000000b, -SEM_PERF_SEL_CPC1_IMME_E0_REQ_SIGNAL = 0x0000000c, -SEM_PERF_SEL_CPC1_IMME_E1_REQ_SIGNAL = 0x0000000d, -SEM_PERF_SEL_CPC1_IMME_E2_REQ_SIGNAL = 0x0000000e, -SEM_PERF_SEL_CPC1_IMME_E3_REQ_SIGNAL = 0x0000000f, -SEM_PERF_SEL_CPC2_IMME_E0_REQ_SIGNAL = 0x00000010, -SEM_PERF_SEL_CPC2_IMME_E1_REQ_SIGNAL = 0x00000011, -SEM_PERF_SEL_CPC2_IMME_E2_REQ_SIGNAL = 0x00000012, -SEM_PERF_SEL_CPC2_IMME_E3_REQ_SIGNAL = 0x00000013, -SEM_PERF_SEL_SDMA0_REQ_WAIT = 0x00000014, -SEM_PERF_SEL_SDMA1_REQ_WAIT = 0x00000015, -SEM_PERF_SEL_UVD_REQ_WAIT = 0x00000016, -SEM_PERF_SEL_VCE0_REQ_WAIT = 0x00000017, -SEM_PERF_SEL_ACP_REQ_WAIT = 0x00000018, -SEM_PERF_SEL_ISP_REQ_WAIT = 0x00000019, -SEM_PERF_SEL_VCE1_REQ_WAIT = 0x0000001a, -SEM_PERF_SEL_VP8_REQ_WAIT = 0x0000001b, -SEM_PERF_SEL_CPG_E0_REQ_WAIT = 0x0000001c, -SEM_PERF_SEL_CPG_E1_REQ_WAIT = 0x0000001d, -SEM_PERF_SEL_CPC1_IMME_E0_REQ_WAIT = 0x0000001e, -SEM_PERF_SEL_CPC1_IMME_E1_REQ_WAIT = 0x0000001f, -SEM_PERF_SEL_CPC1_IMME_E2_REQ_WAIT = 0x00000020, -SEM_PERF_SEL_CPC1_IMME_E3_REQ_WAIT = 0x00000021, -SEM_PERF_SEL_CPC2_IMME_E0_REQ_WAIT = 0x00000022, -SEM_PERF_SEL_CPC2_IMME_E1_REQ_WAIT = 0x00000023, -SEM_PERF_SEL_CPC2_IMME_E2_REQ_WAIT = 0x00000024, -SEM_PERF_SEL_CPC2_IMME_E3_REQ_WAIT = 0x00000025, -SEM_PERF_SEL_CPC1_OFFL_E0_REQ_WAIT = 0x00000026, -SEM_PERF_SEL_CPC1_OFFL_E1_REQ_WAIT = 0x00000027, -SEM_PERF_SEL_CPC1_OFFL_E2_REQ_WAIT = 0x00000028, -SEM_PERF_SEL_CPC1_OFFL_E3_REQ_WAIT = 0x00000029, -SEM_PERF_SEL_CPC1_OFFL_E4_REQ_WAIT = 0x0000002a, -SEM_PERF_SEL_CPC1_OFFL_E5_REQ_WAIT = 0x0000002b, -SEM_PERF_SEL_CPC1_OFFL_E6_REQ_WAIT = 0x0000002c, -SEM_PERF_SEL_CPC1_OFFL_E7_REQ_WAIT = 0x0000002d, -SEM_PERF_SEL_CPC1_OFFL_E8_REQ_WAIT = 0x0000002e, -SEM_PERF_SEL_CPC1_OFFL_E9_REQ_WAIT = 0x0000002f, -SEM_PERF_SEL_CPC1_OFFL_E10_REQ_WAIT = 0x00000030, -SEM_PERF_SEL_CPC1_OFFL_E11_REQ_WAIT = 0x00000031, -SEM_PERF_SEL_CPC1_OFFL_E12_REQ_WAIT = 0x00000032, -SEM_PERF_SEL_CPC1_OFFL_E13_REQ_WAIT = 0x00000033, -SEM_PERF_SEL_CPC1_OFFL_E14_REQ_WAIT = 0x00000034, -SEM_PERF_SEL_CPC1_OFFL_E15_REQ_WAIT = 0x00000035, -SEM_PERF_SEL_CPC1_OFFL_E16_REQ_WAIT = 0x00000036, -SEM_PERF_SEL_CPC1_OFFL_E17_REQ_WAIT = 0x00000037, -SEM_PERF_SEL_CPC1_OFFL_E18_REQ_WAIT = 0x00000038, -SEM_PERF_SEL_CPC1_OFFL_E19_REQ_WAIT = 0x00000039, -SEM_PERF_SEL_CPC1_OFFL_E20_REQ_WAIT = 0x0000003a, -SEM_PERF_SEL_CPC1_OFFL_E21_REQ_WAIT = 0x0000003b, -SEM_PERF_SEL_CPC1_OFFL_E22_REQ_WAIT = 0x0000003c, -SEM_PERF_SEL_CPC1_OFFL_E23_REQ_WAIT = 0x0000003d, -SEM_PERF_SEL_CPC1_OFFL_E24_REQ_WAIT = 0x0000003e, -SEM_PERF_SEL_CPC1_OFFL_E25_REQ_WAIT = 0x0000003f, -SEM_PERF_SEL_CPC1_OFFL_E26_REQ_WAIT = 0x00000040, -SEM_PERF_SEL_CPC1_OFFL_E27_REQ_WAIT = 0x00000041, -SEM_PERF_SEL_CPC1_OFFL_E28_REQ_WAIT = 0x00000042, -SEM_PERF_SEL_CPC1_OFFL_E29_REQ_WAIT = 0x00000043, -SEM_PERF_SEL_CPC1_OFFL_E30_REQ_WAIT = 0x00000044, -SEM_PERF_SEL_CPC1_OFFL_E31_REQ_WAIT = 0x00000045, -SEM_PERF_SEL_CPC2_OFFL_E0_REQ_WAIT = 0x00000046, -SEM_PERF_SEL_CPC2_OFFL_E1_REQ_WAIT = 0x00000047, -SEM_PERF_SEL_CPC2_OFFL_E2_REQ_WAIT = 0x00000048, -SEM_PERF_SEL_CPC2_OFFL_E3_REQ_WAIT = 0x00000049, -SEM_PERF_SEL_CPC2_OFFL_E4_REQ_WAIT = 0x0000004a, -SEM_PERF_SEL_CPC2_OFFL_E5_REQ_WAIT = 0x0000004b, -SEM_PERF_SEL_CPC2_OFFL_E6_REQ_WAIT = 0x0000004c, -SEM_PERF_SEL_CPC2_OFFL_E7_REQ_WAIT = 0x0000004d, -SEM_PERF_SEL_CPC2_OFFL_E8_REQ_WAIT = 0x0000004e, -SEM_PERF_SEL_CPC2_OFFL_E9_REQ_WAIT = 0x0000004f, -SEM_PERF_SEL_CPC2_OFFL_E10_REQ_WAIT = 0x00000050, -SEM_PERF_SEL_CPC2_OFFL_E11_REQ_WAIT = 0x00000051, -SEM_PERF_SEL_CPC2_OFFL_E12_REQ_WAIT = 0x00000052, -SEM_PERF_SEL_CPC2_OFFL_E13_REQ_WAIT = 0x00000053, -SEM_PERF_SEL_CPC2_OFFL_E14_REQ_WAIT = 0x00000054, -SEM_PERF_SEL_CPC2_OFFL_E15_REQ_WAIT = 0x00000055, -SEM_PERF_SEL_CPC2_OFFL_E16_REQ_WAIT = 0x00000056, -SEM_PERF_SEL_CPC2_OFFL_E17_REQ_WAIT = 0x00000057, -SEM_PERF_SEL_CPC2_OFFL_E18_REQ_WAIT = 0x00000058, -SEM_PERF_SEL_CPC2_OFFL_E19_REQ_WAIT = 0x00000059, -SEM_PERF_SEL_CPC2_OFFL_E20_REQ_WAIT = 0x0000005a, -SEM_PERF_SEL_CPC2_OFFL_E21_REQ_WAIT = 0x0000005b, -SEM_PERF_SEL_CPC2_OFFL_E22_REQ_WAIT = 0x0000005c, -SEM_PERF_SEL_CPC2_OFFL_E23_REQ_WAIT = 0x0000005d, -SEM_PERF_SEL_CPC2_OFFL_E24_REQ_WAIT = 0x0000005e, -SEM_PERF_SEL_CPC2_OFFL_E25_REQ_WAIT = 0x0000005f, -SEM_PERF_SEL_CPC2_OFFL_E26_REQ_WAIT = 0x00000060, -SEM_PERF_SEL_CPC2_OFFL_E27_REQ_WAIT = 0x00000061, -SEM_PERF_SEL_CPC2_OFFL_E28_REQ_WAIT = 0x00000062, -SEM_PERF_SEL_CPC2_OFFL_E29_REQ_WAIT = 0x00000063, -SEM_PERF_SEL_CPC2_OFFL_E30_REQ_WAIT = 0x00000064, -SEM_PERF_SEL_CPC2_OFFL_E31_REQ_WAIT = 0x00000065, -SEM_PERF_SEL_CPC1_OFFL_E0_POLL_WAIT = 0x00000066, -SEM_PERF_SEL_CPC1_OFFL_E1_POLL_WAIT = 0x00000067, -SEM_PERF_SEL_CPC1_OFFL_E2_POLL_WAIT = 0x00000068, -SEM_PERF_SEL_CPC1_OFFL_E3_POLL_WAIT = 0x00000069, -SEM_PERF_SEL_CPC1_OFFL_E4_POLL_WAIT = 0x0000006a, -SEM_PERF_SEL_CPC1_OFFL_E5_POLL_WAIT = 0x0000006b, -SEM_PERF_SEL_CPC1_OFFL_E6_POLL_WAIT = 0x0000006c, -SEM_PERF_SEL_CPC1_OFFL_E7_POLL_WAIT = 0x0000006d, -SEM_PERF_SEL_CPC1_OFFL_E8_POLL_WAIT = 0x0000006e, -SEM_PERF_SEL_CPC1_OFFL_E9_POLL_WAIT = 0x0000006f, -SEM_PERF_SEL_CPC1_OFFL_E10_POLL_WAIT = 0x00000070, -SEM_PERF_SEL_CPC1_OFFL_E11_POLL_WAIT = 0x00000071, -SEM_PERF_SEL_CPC1_OFFL_E12_POLL_WAIT = 0x00000072, -SEM_PERF_SEL_CPC1_OFFL_E13_POLL_WAIT = 0x00000073, -SEM_PERF_SEL_CPC1_OFFL_E14_POLL_WAIT = 0x00000074, -SEM_PERF_SEL_CPC1_OFFL_E15_POLL_WAIT = 0x00000075, -SEM_PERF_SEL_CPC1_OFFL_E16_POLL_WAIT = 0x00000076, -SEM_PERF_SEL_CPC1_OFFL_E17_POLL_WAIT = 0x00000077, -SEM_PERF_SEL_CPC1_OFFL_E18_POLL_WAIT = 0x00000078, -SEM_PERF_SEL_CPC1_OFFL_E19_POLL_WAIT = 0x00000079, -SEM_PERF_SEL_CPC1_OFFL_E20_POLL_WAIT = 0x0000007a, -SEM_PERF_SEL_CPC1_OFFL_E21_POLL_WAIT = 0x0000007b, -SEM_PERF_SEL_CPC1_OFFL_E22_POLL_WAIT = 0x0000007c, -SEM_PERF_SEL_CPC1_OFFL_E23_POLL_WAIT = 0x0000007d, -SEM_PERF_SEL_CPC1_OFFL_E24_POLL_WAIT = 0x0000007e, -SEM_PERF_SEL_CPC1_OFFL_E25_POLL_WAIT = 0x0000007f, -SEM_PERF_SEL_CPC1_OFFL_E26_POLL_WAIT = 0x00000080, -SEM_PERF_SEL_CPC1_OFFL_E27_POLL_WAIT = 0x00000081, -SEM_PERF_SEL_CPC1_OFFL_E28_POLL_WAIT = 0x00000082, -SEM_PERF_SEL_CPC1_OFFL_E29_POLL_WAIT = 0x00000083, -SEM_PERF_SEL_CPC1_OFFL_E30_POLL_WAIT = 0x00000084, -SEM_PERF_SEL_CPC1_OFFL_E31_POLL_WAIT = 0x00000085, -SEM_PERF_SEL_CPC2_OFFL_E0_POLL_WAIT = 0x00000086, -SEM_PERF_SEL_CPC2_OFFL_E1_POLL_WAIT = 0x00000087, -SEM_PERF_SEL_CPC2_OFFL_E2_POLL_WAIT = 0x00000088, -SEM_PERF_SEL_CPC2_OFFL_E3_POLL_WAIT = 0x00000089, -SEM_PERF_SEL_CPC2_OFFL_E4_POLL_WAIT = 0x0000008a, -SEM_PERF_SEL_CPC2_OFFL_E5_POLL_WAIT = 0x0000008b, -SEM_PERF_SEL_CPC2_OFFL_E6_POLL_WAIT = 0x0000008c, -SEM_PERF_SEL_CPC2_OFFL_E7_POLL_WAIT = 0x0000008d, -SEM_PERF_SEL_CPC2_OFFL_E8_POLL_WAIT = 0x0000008e, -SEM_PERF_SEL_CPC2_OFFL_E9_POLL_WAIT = 0x0000008f, -SEM_PERF_SEL_CPC2_OFFL_E10_POLL_WAIT = 0x00000090, -SEM_PERF_SEL_CPC2_OFFL_E11_POLL_WAIT = 0x00000091, -SEM_PERF_SEL_CPC2_OFFL_E12_POLL_WAIT = 0x00000092, -SEM_PERF_SEL_CPC2_OFFL_E13_POLL_WAIT = 0x00000093, -SEM_PERF_SEL_CPC2_OFFL_E14_POLL_WAIT = 0x00000094, -SEM_PERF_SEL_CPC2_OFFL_E15_POLL_WAIT = 0x00000095, -SEM_PERF_SEL_CPC2_OFFL_E16_POLL_WAIT = 0x00000096, -SEM_PERF_SEL_CPC2_OFFL_E17_POLL_WAIT = 0x00000097, -SEM_PERF_SEL_CPC2_OFFL_E18_POLL_WAIT = 0x00000098, -SEM_PERF_SEL_CPC2_OFFL_E19_POLL_WAIT = 0x00000099, -SEM_PERF_SEL_CPC2_OFFL_E20_POLL_WAIT = 0x0000009a, -SEM_PERF_SEL_CPC2_OFFL_E21_POLL_WAIT = 0x0000009b, -SEM_PERF_SEL_CPC2_OFFL_E22_POLL_WAIT = 0x0000009c, -SEM_PERF_SEL_CPC2_OFFL_E23_POLL_WAIT = 0x0000009d, -SEM_PERF_SEL_CPC2_OFFL_E24_POLL_WAIT = 0x0000009e, -SEM_PERF_SEL_CPC2_OFFL_E25_POLL_WAIT = 0x0000009f, -SEM_PERF_SEL_CPC2_OFFL_E26_POLL_WAIT = 0x000000a0, -SEM_PERF_SEL_CPC2_OFFL_E27_POLL_WAIT = 0x000000a1, -SEM_PERF_SEL_CPC2_OFFL_E28_POLL_WAIT = 0x000000a2, -SEM_PERF_SEL_CPC2_OFFL_E29_POLL_WAIT = 0x000000a3, -SEM_PERF_SEL_CPC2_OFFL_E30_POLL_WAIT = 0x000000a4, -SEM_PERF_SEL_CPC2_OFFL_E31_POLL_WAIT = 0x000000a5, -SEM_PERF_SEL_MC_RD_REQ = 0x000000a6, -SEM_PERF_SEL_MC_RD_RET = 0x000000a7, -SEM_PERF_SEL_MC_WR_REQ = 0x000000a8, -SEM_PERF_SEL_MC_WR_RET = 0x000000a9, -SEM_PERF_SEL_ATC_REQ = 0x000000aa, -SEM_PERF_SEL_ATC_RET = 0x000000ab, -SEM_PERF_SEL_ATC_XNACK = 0x000000ac, -SEM_PERF_SEL_ATC_INVALIDATION = 0x000000ad, -} SEM_PERF_SEL; - -/******************************************************* - * SDMA Enums - *******************************************************/ - -/* - * SDMA_PERF_SEL enum - */ - -typedef enum SDMA_PERF_SEL { -SDMA_PERF_SEL_CYCLE = 0x00000000, -SDMA_PERF_SEL_IDLE = 0x00000001, -SDMA_PERF_SEL_REG_IDLE = 0x00000002, -SDMA_PERF_SEL_RB_EMPTY = 0x00000003, -SDMA_PERF_SEL_RB_FULL = 0x00000004, -SDMA_PERF_SEL_RB_WPTR_WRAP = 0x00000005, -SDMA_PERF_SEL_RB_RPTR_WRAP = 0x00000006, -SDMA_PERF_SEL_RB_WPTR_POLL_READ = 0x00000007, -SDMA_PERF_SEL_RB_RPTR_WB = 0x00000008, -SDMA_PERF_SEL_RB_CMD_IDLE = 0x00000009, -SDMA_PERF_SEL_RB_CMD_FULL = 0x0000000a, -SDMA_PERF_SEL_IB_CMD_IDLE = 0x0000000b, -SDMA_PERF_SEL_IB_CMD_FULL = 0x0000000c, -SDMA_PERF_SEL_EX_IDLE = 0x0000000d, -SDMA_PERF_SEL_SRBM_REG_SEND = 0x0000000e, -SDMA_PERF_SEL_EX_IDLE_POLL_TIMER_EXPIRE = 0x0000000f, -SDMA_PERF_SEL_MC_WR_IDLE = 0x00000010, -SDMA_PERF_SEL_MC_WR_COUNT = 0x00000011, -SDMA_PERF_SEL_MC_RD_IDLE = 0x00000012, -SDMA_PERF_SEL_MC_RD_COUNT = 0x00000013, -SDMA_PERF_SEL_MC_RD_RET_STALL = 0x00000014, -SDMA_PERF_SEL_MC_RD_NO_POLL_IDLE = 0x00000015, -SDMA_PERF_SEL_DRM_IDLE = 0x00000016, -SDMA_PERF_SEL_DRM_REQ_STALL = 0x00000017, -SDMA_PERF_SEL_SEM_IDLE = 0x00000018, -SDMA_PERF_SEL_SEM_REQ_STALL = 0x00000019, -SDMA_PERF_SEL_SEM_REQ_COUNT = 0x0000001a, -SDMA_PERF_SEL_SEM_RESP_INCOMPLETE = 0x0000001b, -SDMA_PERF_SEL_SEM_RESP_FAIL = 0x0000001c, -SDMA_PERF_SEL_SEM_RESP_PASS = 0x0000001d, -SDMA_PERF_SEL_INT_IDLE = 0x0000001e, -SDMA_PERF_SEL_INT_REQ_STALL = 0x0000001f, -SDMA_PERF_SEL_INT_REQ_COUNT = 0x00000020, -SDMA_PERF_SEL_INT_RESP_ACCEPTED = 0x00000021, -SDMA_PERF_SEL_INT_RESP_RETRY = 0x00000022, -SDMA_PERF_SEL_NUM_PACKET = 0x00000023, -SDMA_PERF_SEL_DRM1_REQ_STALL = 0x00000024, -SDMA_PERF_SEL_CE_WREQ_IDLE = 0x00000025, -SDMA_PERF_SEL_CE_WR_IDLE = 0x00000026, -SDMA_PERF_SEL_CE_SPLIT_IDLE = 0x00000027, -SDMA_PERF_SEL_CE_RREQ_IDLE = 0x00000028, -SDMA_PERF_SEL_CE_OUT_IDLE = 0x00000029, -SDMA_PERF_SEL_CE_IN_IDLE = 0x0000002a, -SDMA_PERF_SEL_CE_DST_IDLE = 0x0000002b, -SDMA_PERF_SEL_CE_DRM_IDLE = 0x0000002c, -SDMA_PERF_SEL_CE_DRM1_IDLE = 0x0000002d, -SDMA_PERF_SEL_CE_AFIFO_FULL = 0x0000002e, -SDMA_PERF_SEL_CE_DRM_FULL = 0x0000002f, -SDMA_PERF_SEL_CE_DRM1_FULL = 0x00000030, -SDMA_PERF_SEL_CE_INFO_FULL = 0x00000031, -SDMA_PERF_SEL_CE_INFO1_FULL = 0x00000032, -SDMA_PERF_SEL_CE_RD_STALL = 0x00000033, -SDMA_PERF_SEL_CE_WR_STALL = 0x00000034, -SDMA_PERF_SEL_GFX_SELECT = 0x00000035, -SDMA_PERF_SEL_RLC0_SELECT = 0x00000036, -SDMA_PERF_SEL_RLC1_SELECT = 0x00000037, -SDMA_PERF_SEL_PAGE_SELECT = 0x00000038, -SDMA_PERF_SEL_CTX_CHANGE = 0x00000039, -SDMA_PERF_SEL_CTX_CHANGE_EXPIRED = 0x0000003a, -SDMA_PERF_SEL_CTX_CHANGE_EXCEPTION = 0x0000003b, -SDMA_PERF_SEL_DOORBELL = 0x0000003c, -SDMA_PERF_SEL_RD_BA_RTR = 0x0000003d, -SDMA_PERF_SEL_WR_BA_RTR = 0x0000003e, -SDMA_PERF_SEL_F32_L1_WR_VLD = 0x0000003f, -SDMA_PERF_SEL_CE_L1_WR_VLD = 0x00000040, -SDMA_PERF_SEL_CE_L1_STALL = 0x00000041, -SDMA_PERF_SEL_SDMA_INVACK_NFLUSH = 0x00000042, -SDMA_PERF_SEL_SDMA_INVACK_FLUSH = 0x00000043, -SDMA_PERF_SEL_ATCL2_INVREQ_NFLUSH = 0x00000044, -SDMA_PERF_SEL_ATCL2_INVREQ_FLUSH = 0x00000045, -SDMA_PERF_SEL_ATCL2_RET_XNACK = 0x00000046, -SDMA_PERF_SEL_ATCL2_RET_ACK = 0x00000047, -SDMA_PERF_SEL_ATCL2_FREE = 0x00000048, -SDMA_PERF_SEL_SDMA_ATCL2_SEND = 0x00000049, -SDMA_PERF_SEL_DMA_L1_WR_SEND = 0x0000004a, -SDMA_PERF_SEL_DMA_L1_RD_SEND = 0x0000004b, -SDMA_PERF_SEL_DMA_MC_WR_SEND = 0x0000004c, -SDMA_PERF_SEL_DMA_MC_RD_SEND = 0x0000004d, -SDMA_PERF_SEL_L1_WR_FIFO_IDLE = 0x0000004e, -SDMA_PERF_SEL_L1_RD_FIFO_IDLE = 0x0000004f, -SDMA_PERF_SEL_L1_WRL2_IDLE = 0x00000050, -SDMA_PERF_SEL_L1_RDL2_IDLE = 0x00000051, -SDMA_PERF_SEL_L1_WRMC_IDLE = 0x00000052, -SDMA_PERF_SEL_L1_RDMC_IDLE = 0x00000053, -SDMA_PERF_SEL_L1_WR_INV_IDLE = 0x00000054, -SDMA_PERF_SEL_L1_RD_INV_IDLE = 0x00000055, -SDMA_PERF_SEL_L1_WR_INV_EN = 0x00000056, -SDMA_PERF_SEL_L1_RD_INV_EN = 0x00000057, -SDMA_PERF_SEL_L1_WR_WAIT_INVADR = 0x00000058, -SDMA_PERF_SEL_L1_RD_WAIT_INVADR = 0x00000059, -SDMA_PERF_SEL_IS_INVREQ_ADDR_WR = 0x0000005a, -SDMA_PERF_SEL_IS_INVREQ_ADDR_RD = 0x0000005b, -SDMA_PERF_SEL_L1_WR_XNACK_TIMEOUT = 0x0000005c, -SDMA_PERF_SEL_L1_RD_XNACK_TIMEOUT = 0x0000005d, -SDMA_PERF_SEL_L1_INV_MIDDLE = 0x0000005e, -SDMA_PERF_SEL_UTCL1_TAG_DELAY_COUNTER = 0x000000fe, -SDMA_PERF_SEL_MMHUB_TAG_DELAY_COUNTER = 0x000000ff, -} SDMA_PERF_SEL; - -/******************************************************* - * SMUIO Enums - *******************************************************/ - -/* - * ROM_SIGNATURE value - */ - -#define ROM_SIGNATURE 0x0000aa55 - -/******************************************************* - * GDS Enums - *******************************************************/ - -/******************************************************* - * CB Enums - *******************************************************/ - -/* - * SurfaceNumber enum - */ - -typedef enum SurfaceNumber { -NUMBER_UNORM = 0x00000000, -NUMBER_SNORM = 0x00000001, -NUMBER_USCALED = 0x00000002, -NUMBER_SSCALED = 0x00000003, -NUMBER_UINT = 0x00000004, -NUMBER_SINT = 0x00000005, -NUMBER_SRGB = 0x00000006, -NUMBER_FLOAT = 0x00000007, -} SurfaceNumber; - -/* - * SurfaceSwap enum - */ - -typedef enum SurfaceSwap { -SWAP_STD = 0x00000000, -SWAP_ALT = 0x00000001, -SWAP_STD_REV = 0x00000002, -SWAP_ALT_REV = 0x00000003, -} SurfaceSwap; - -/* - * CBMode enum - */ - -typedef enum CBMode { -CB_DISABLE = 0x00000000, -CB_NORMAL = 0x00000001, -CB_ELIMINATE_FAST_CLEAR = 0x00000002, -CB_RESOLVE = 0x00000003, -CB_DECOMPRESS = 0x00000004, -CB_FMASK_DECOMPRESS = 0x00000005, -CB_DCC_DECOMPRESS = 0x00000006, -} CBMode; - -/* - * RoundMode enum - */ - -typedef enum RoundMode { -ROUND_BY_HALF = 0x00000000, -ROUND_TRUNCATE = 0x00000001, -} RoundMode; - -/* - * SourceFormat enum - */ - -typedef enum SourceFormat { -EXPORT_4C_32BPC = 0x00000000, -EXPORT_4C_16BPC = 0x00000001, -EXPORT_2C_32BPC_GR = 0x00000002, -EXPORT_2C_32BPC_AR = 0x00000003, -} SourceFormat; - -/* - * BlendOp enum - */ - -typedef enum BlendOp { -BLEND_ZERO = 0x00000000, -BLEND_ONE = 0x00000001, -BLEND_SRC_COLOR = 0x00000002, -BLEND_ONE_MINUS_SRC_COLOR = 0x00000003, -BLEND_SRC_ALPHA = 0x00000004, -BLEND_ONE_MINUS_SRC_ALPHA = 0x00000005, -BLEND_DST_ALPHA = 0x00000006, -BLEND_ONE_MINUS_DST_ALPHA = 0x00000007, -BLEND_DST_COLOR = 0x00000008, -BLEND_ONE_MINUS_DST_COLOR = 0x00000009, -BLEND_SRC_ALPHA_SATURATE = 0x0000000a, -BLEND_BOTH_SRC_ALPHA = 0x0000000b, -BLEND_BOTH_INV_SRC_ALPHA = 0x0000000c, -BLEND_CONSTANT_COLOR = 0x0000000d, -BLEND_ONE_MINUS_CONSTANT_COLOR = 0x0000000e, -BLEND_SRC1_COLOR = 0x0000000f, -BLEND_INV_SRC1_COLOR = 0x00000010, -BLEND_SRC1_ALPHA = 0x00000011, -BLEND_INV_SRC1_ALPHA = 0x00000012, -BLEND_CONSTANT_ALPHA = 0x00000013, -BLEND_ONE_MINUS_CONSTANT_ALPHA = 0x00000014, -} BlendOp; - -/* - * CombFunc enum - */ - -typedef enum CombFunc { -COMB_DST_PLUS_SRC = 0x00000000, -COMB_SRC_MINUS_DST = 0x00000001, -COMB_MIN_DST_SRC = 0x00000002, -COMB_MAX_DST_SRC = 0x00000003, -COMB_DST_MINUS_SRC = 0x00000004, -} CombFunc; - -/* - * BlendOpt enum - */ - -typedef enum BlendOpt { -FORCE_OPT_AUTO = 0x00000000, -FORCE_OPT_DISABLE = 0x00000001, -FORCE_OPT_ENABLE_IF_SRC_A_0 = 0x00000002, -FORCE_OPT_ENABLE_IF_SRC_RGB_0 = 0x00000003, -FORCE_OPT_ENABLE_IF_SRC_ARGB_0 = 0x00000004, -FORCE_OPT_ENABLE_IF_SRC_A_1 = 0x00000005, -FORCE_OPT_ENABLE_IF_SRC_RGB_1 = 0x00000006, -FORCE_OPT_ENABLE_IF_SRC_ARGB_1 = 0x00000007, -} BlendOpt; - -/* - * CmaskCode enum - */ - -typedef enum CmaskCode { -CMASK_CLR00_F0 = 0x00000000, -CMASK_CLR00_F1 = 0x00000001, -CMASK_CLR00_F2 = 0x00000002, -CMASK_CLR00_FX = 0x00000003, -CMASK_CLR01_F0 = 0x00000004, -CMASK_CLR01_F1 = 0x00000005, -CMASK_CLR01_F2 = 0x00000006, -CMASK_CLR01_FX = 0x00000007, -CMASK_CLR10_F0 = 0x00000008, -CMASK_CLR10_F1 = 0x00000009, -CMASK_CLR10_F2 = 0x0000000a, -CMASK_CLR10_FX = 0x0000000b, -CMASK_CLR11_F0 = 0x0000000c, -CMASK_CLR11_F1 = 0x0000000d, -CMASK_CLR11_F2 = 0x0000000e, -CMASK_CLR11_FX = 0x0000000f, -} CmaskCode; - -/* - * CmaskAddr enum - */ - -typedef enum CmaskAddr { -CMASK_ADDR_TILED = 0x00000000, -CMASK_ADDR_LINEAR = 0x00000001, -CMASK_ADDR_COMPATIBLE = 0x00000002, -} CmaskAddr; - -/* - * MemArbMode enum - */ - -typedef enum MemArbMode { -MEM_ARB_MODE_FIXED = 0x00000000, -MEM_ARB_MODE_AGE = 0x00000001, -MEM_ARB_MODE_WEIGHT = 0x00000002, -MEM_ARB_MODE_BOTH = 0x00000003, -} MemArbMode; - -/* - * CBPerfSel enum - */ - -typedef enum CBPerfSel { -CB_PERF_SEL_NONE = 0x00000000, -CB_PERF_SEL_BUSY = 0x00000001, -CB_PERF_SEL_CORE_SCLK_VLD = 0x00000002, -CB_PERF_SEL_REG_SCLK0_VLD = 0x00000003, -CB_PERF_SEL_REG_SCLK1_VLD = 0x00000004, -CB_PERF_SEL_DRAWN_QUAD = 0x00000005, -CB_PERF_SEL_DRAWN_PIXEL = 0x00000006, -CB_PERF_SEL_DRAWN_QUAD_FRAGMENT = 0x00000007, -CB_PERF_SEL_DRAWN_TILE = 0x00000008, -CB_PERF_SEL_DB_CB_TILE_VALID_READY = 0x00000009, -CB_PERF_SEL_DB_CB_TILE_VALID_READYB = 0x0000000a, -CB_PERF_SEL_DB_CB_TILE_VALIDB_READY = 0x0000000b, -CB_PERF_SEL_DB_CB_TILE_VALIDB_READYB = 0x0000000c, -CB_PERF_SEL_CM_FC_TILE_VALID_READY = 0x0000000d, -CB_PERF_SEL_CM_FC_TILE_VALID_READYB = 0x0000000e, -CB_PERF_SEL_CM_FC_TILE_VALIDB_READY = 0x0000000f, -CB_PERF_SEL_CM_FC_TILE_VALIDB_READYB = 0x00000010, -CB_PERF_SEL_MERGE_TILE_ONLY_VALID_READY = 0x00000011, -CB_PERF_SEL_MERGE_TILE_ONLY_VALID_READYB = 0x00000012, -CB_PERF_SEL_DB_CB_LQUAD_VALID_READY = 0x00000013, -CB_PERF_SEL_DB_CB_LQUAD_VALID_READYB = 0x00000014, -CB_PERF_SEL_DB_CB_LQUAD_VALIDB_READY = 0x00000015, -CB_PERF_SEL_DB_CB_LQUAD_VALIDB_READYB = 0x00000016, -CB_PERF_SEL_LQUAD_NO_TILE = 0x00000017, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_32_R = 0x00000018, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_32_AR = 0x00000019, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_32_GR = 0x0000001a, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_32_ABGR = 0x0000001b, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_FP16_ABGR = 0x0000001c, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_SIGNED16_ABGR = 0x0000001d, -CB_PERF_SEL_LQUAD_FORMAT_IS_EXPORT_UNSIGNED16_ABGR = 0x0000001e, -CB_PERF_SEL_QUAD_KILLED_BY_EXTRA_PIXEL_EXPORT = 0x0000001f, -CB_PERF_SEL_QUAD_KILLED_BY_COLOR_INVALID = 0x00000020, -CB_PERF_SEL_QUAD_KILLED_BY_NULL_TARGET_SHADER_MASK = 0x00000021, -CB_PERF_SEL_QUAD_KILLED_BY_NULL_SAMPLE_MASK = 0x00000022, -CB_PERF_SEL_QUAD_KILLED_BY_DISCARD_PIXEL = 0x00000023, -CB_PERF_SEL_FC_CLEAR_QUAD_VALID_READY = 0x00000024, -CB_PERF_SEL_FC_CLEAR_QUAD_VALID_READYB = 0x00000025, -CB_PERF_SEL_FC_CLEAR_QUAD_VALIDB_READY = 0x00000026, -CB_PERF_SEL_FC_CLEAR_QUAD_VALIDB_READYB = 0x00000027, -CB_PERF_SEL_FOP_IN_VALID_READY = 0x00000028, -CB_PERF_SEL_FOP_IN_VALID_READYB = 0x00000029, -CB_PERF_SEL_FOP_IN_VALIDB_READY = 0x0000002a, -CB_PERF_SEL_FOP_IN_VALIDB_READYB = 0x0000002b, -CB_PERF_SEL_FC_CC_QUADFRAG_VALID_READY = 0x0000002c, -CB_PERF_SEL_FC_CC_QUADFRAG_VALID_READYB = 0x0000002d, -CB_PERF_SEL_FC_CC_QUADFRAG_VALIDB_READY = 0x0000002e, -CB_PERF_SEL_FC_CC_QUADFRAG_VALIDB_READYB = 0x0000002f, -CB_PERF_SEL_CC_IB_SR_FRAG_VALID_READY = 0x00000030, -CB_PERF_SEL_CC_IB_SR_FRAG_VALID_READYB = 0x00000031, -CB_PERF_SEL_CC_IB_SR_FRAG_VALIDB_READY = 0x00000032, -CB_PERF_SEL_CC_IB_SR_FRAG_VALIDB_READYB = 0x00000033, -CB_PERF_SEL_CC_IB_TB_FRAG_VALID_READY = 0x00000034, -CB_PERF_SEL_CC_IB_TB_FRAG_VALID_READYB = 0x00000035, -CB_PERF_SEL_CC_IB_TB_FRAG_VALIDB_READY = 0x00000036, -CB_PERF_SEL_CC_IB_TB_FRAG_VALIDB_READYB = 0x00000037, -CB_PERF_SEL_CC_RB_BC_EVENFRAG_VALID_READY = 0x00000038, -CB_PERF_SEL_CC_RB_BC_EVENFRAG_VALID_READYB = 0x00000039, -CB_PERF_SEL_CC_RB_BC_EVENFRAG_VALIDB_READY = 0x0000003a, -CB_PERF_SEL_CC_RB_BC_EVENFRAG_VALIDB_READYB = 0x0000003b, -CB_PERF_SEL_CC_RB_BC_ODDFRAG_VALID_READY = 0x0000003c, -CB_PERF_SEL_CC_RB_BC_ODDFRAG_VALID_READYB = 0x0000003d, -CB_PERF_SEL_CC_RB_BC_ODDFRAG_VALIDB_READY = 0x0000003e, -CB_PERF_SEL_CC_RB_BC_ODDFRAG_VALIDB_READYB = 0x0000003f, -CB_PERF_SEL_CC_BC_CS_FRAG_VALID = 0x00000040, -CB_PERF_SEL_CM_CACHE_HIT = 0x00000041, -CB_PERF_SEL_CM_CACHE_TAG_MISS = 0x00000042, -CB_PERF_SEL_CM_CACHE_SECTOR_MISS = 0x00000043, -CB_PERF_SEL_CM_CACHE_REEVICTION_STALL = 0x00000044, -CB_PERF_SEL_CM_CACHE_EVICT_NONZERO_INFLIGHT_STALL = 0x00000045, -CB_PERF_SEL_CM_CACHE_REPLACE_PENDING_EVICT_STALL = 0x00000046, -CB_PERF_SEL_CM_CACHE_INFLIGHT_COUNTER_MAXIMUM_STALL = 0x00000047, -CB_PERF_SEL_CM_CACHE_READ_OUTPUT_STALL = 0x00000048, -CB_PERF_SEL_CM_CACHE_WRITE_OUTPUT_STALL = 0x00000049, -CB_PERF_SEL_CM_CACHE_ACK_OUTPUT_STALL = 0x0000004a, -CB_PERF_SEL_CM_CACHE_STALL = 0x0000004b, -CB_PERF_SEL_CM_CACHE_FLUSH = 0x0000004c, -CB_PERF_SEL_CM_CACHE_TAGS_FLUSHED = 0x0000004d, -CB_PERF_SEL_CM_CACHE_SECTORS_FLUSHED = 0x0000004e, -CB_PERF_SEL_CM_CACHE_DIRTY_SECTORS_FLUSHED = 0x0000004f, -CB_PERF_SEL_FC_CACHE_HIT = 0x00000050, -CB_PERF_SEL_FC_CACHE_TAG_MISS = 0x00000051, -CB_PERF_SEL_FC_CACHE_SECTOR_MISS = 0x00000052, -CB_PERF_SEL_FC_CACHE_REEVICTION_STALL = 0x00000053, -CB_PERF_SEL_FC_CACHE_EVICT_NONZERO_INFLIGHT_STALL = 0x00000054, -CB_PERF_SEL_FC_CACHE_REPLACE_PENDING_EVICT_STALL = 0x00000055, -CB_PERF_SEL_FC_CACHE_INFLIGHT_COUNTER_MAXIMUM_STALL = 0x00000056, -CB_PERF_SEL_FC_CACHE_READ_OUTPUT_STALL = 0x00000057, -CB_PERF_SEL_FC_CACHE_WRITE_OUTPUT_STALL = 0x00000058, -CB_PERF_SEL_FC_CACHE_ACK_OUTPUT_STALL = 0x00000059, -CB_PERF_SEL_FC_CACHE_STALL = 0x0000005a, -CB_PERF_SEL_FC_CACHE_FLUSH = 0x0000005b, -CB_PERF_SEL_FC_CACHE_TAGS_FLUSHED = 0x0000005c, -CB_PERF_SEL_FC_CACHE_SECTORS_FLUSHED = 0x0000005d, -CB_PERF_SEL_FC_CACHE_DIRTY_SECTORS_FLUSHED = 0x0000005e, -CB_PERF_SEL_CC_CACHE_HIT = 0x0000005f, -CB_PERF_SEL_CC_CACHE_TAG_MISS = 0x00000060, -CB_PERF_SEL_CC_CACHE_SECTOR_MISS = 0x00000061, -CB_PERF_SEL_CC_CACHE_REEVICTION_STALL = 0x00000062, -CB_PERF_SEL_CC_CACHE_EVICT_NONZERO_INFLIGHT_STALL = 0x00000063, -CB_PERF_SEL_CC_CACHE_REPLACE_PENDING_EVICT_STALL = 0x00000064, -CB_PERF_SEL_CC_CACHE_INFLIGHT_COUNTER_MAXIMUM_STALL = 0x00000065, -CB_PERF_SEL_CC_CACHE_READ_OUTPUT_STALL = 0x00000066, -CB_PERF_SEL_CC_CACHE_WRITE_OUTPUT_STALL = 0x00000067, -CB_PERF_SEL_CC_CACHE_ACK_OUTPUT_STALL = 0x00000068, -CB_PERF_SEL_CC_CACHE_STALL = 0x00000069, -CB_PERF_SEL_CC_CACHE_FLUSH = 0x0000006a, -CB_PERF_SEL_CC_CACHE_TAGS_FLUSHED = 0x0000006b, -CB_PERF_SEL_CC_CACHE_SECTORS_FLUSHED = 0x0000006c, -CB_PERF_SEL_CC_CACHE_DIRTY_SECTORS_FLUSHED = 0x0000006d, -CB_PERF_SEL_CC_CACHE_WA_TO_RMW_CONVERSION = 0x0000006e, -CB_PERF_SEL_CC_CACHE_READS_SAVED_DUE_TO_DCC = 0x0000006f, -CB_PERF_SEL_CB_TAP_WRREQ_VALID_READY = 0x00000070, -CB_PERF_SEL_CB_TAP_WRREQ_VALID_READYB = 0x00000071, -CB_PERF_SEL_CB_TAP_WRREQ_VALIDB_READY = 0x00000072, -CB_PERF_SEL_CB_TAP_WRREQ_VALIDB_READYB = 0x00000073, -CB_PERF_SEL_CM_MC_WRITE_REQUEST = 0x00000074, -CB_PERF_SEL_FC_MC_WRITE_REQUEST = 0x00000075, -CB_PERF_SEL_CC_MC_WRITE_REQUEST = 0x00000076, -CB_PERF_SEL_CM_MC_WRITE_REQUESTS_IN_FLIGHT = 0x00000077, -CB_PERF_SEL_FC_MC_WRITE_REQUESTS_IN_FLIGHT = 0x00000078, -CB_PERF_SEL_CC_MC_WRITE_REQUESTS_IN_FLIGHT = 0x00000079, -CB_PERF_SEL_CB_TAP_RDREQ_VALID_READY = 0x0000007a, -CB_PERF_SEL_CB_TAP_RDREQ_VALID_READYB = 0x0000007b, -CB_PERF_SEL_CB_TAP_RDREQ_VALIDB_READY = 0x0000007c, -CB_PERF_SEL_CB_TAP_RDREQ_VALIDB_READYB = 0x0000007d, -CB_PERF_SEL_CM_MC_READ_REQUEST = 0x0000007e, -CB_PERF_SEL_FC_MC_READ_REQUEST = 0x0000007f, -CB_PERF_SEL_CC_MC_READ_REQUEST = 0x00000080, -CB_PERF_SEL_CM_MC_READ_REQUESTS_IN_FLIGHT = 0x00000081, -CB_PERF_SEL_FC_MC_READ_REQUESTS_IN_FLIGHT = 0x00000082, -CB_PERF_SEL_CC_MC_READ_REQUESTS_IN_FLIGHT = 0x00000083, -CB_PERF_SEL_CM_TQ_FULL = 0x00000084, -CB_PERF_SEL_CM_TQ_FIFO_TILE_RESIDENCY_STALL = 0x00000085, -CB_PERF_SEL_FC_QUAD_RDLAT_FIFO_FULL = 0x00000086, -CB_PERF_SEL_FC_TILE_RDLAT_FIFO_FULL = 0x00000087, -CB_PERF_SEL_FC_RDLAT_FIFO_QUAD_RESIDENCY_STALL = 0x00000088, -CB_PERF_SEL_FOP_FMASK_RAW_STALL = 0x00000089, -CB_PERF_SEL_FOP_FMASK_BYPASS_STALL = 0x0000008a, -CB_PERF_SEL_CC_SF_FULL = 0x0000008b, -CB_PERF_SEL_CC_RB_FULL = 0x0000008c, -CB_PERF_SEL_CC_EVENFIFO_QUAD_RESIDENCY_STALL = 0x0000008d, -CB_PERF_SEL_CC_ODDFIFO_QUAD_RESIDENCY_STALL = 0x0000008e, -CB_PERF_SEL_BLENDER_RAW_HAZARD_STALL = 0x0000008f, -CB_PERF_SEL_EVENT = 0x00000090, -CB_PERF_SEL_EVENT_CACHE_FLUSH_TS = 0x00000091, -CB_PERF_SEL_EVENT_CONTEXT_DONE = 0x00000092, -CB_PERF_SEL_EVENT_CACHE_FLUSH = 0x00000093, -CB_PERF_SEL_EVENT_CACHE_FLUSH_AND_INV_TS_EVENT = 0x00000094, -CB_PERF_SEL_EVENT_CACHE_FLUSH_AND_INV_EVENT = 0x00000095, -CB_PERF_SEL_EVENT_FLUSH_AND_INV_CB_DATA_TS = 0x00000096, -CB_PERF_SEL_EVENT_FLUSH_AND_INV_CB_META = 0x00000097, -CB_PERF_SEL_CC_SURFACE_SYNC = 0x00000098, -CB_PERF_SEL_CMASK_READ_DATA_0xC = 0x00000099, -CB_PERF_SEL_CMASK_READ_DATA_0xD = 0x0000009a, -CB_PERF_SEL_CMASK_READ_DATA_0xE = 0x0000009b, -CB_PERF_SEL_CMASK_READ_DATA_0xF = 0x0000009c, -CB_PERF_SEL_CMASK_WRITE_DATA_0xC = 0x0000009d, -CB_PERF_SEL_CMASK_WRITE_DATA_0xD = 0x0000009e, -CB_PERF_SEL_CMASK_WRITE_DATA_0xE = 0x0000009f, -CB_PERF_SEL_CMASK_WRITE_DATA_0xF = 0x000000a0, -CB_PERF_SEL_TWO_PROBE_QUAD_FRAGMENT = 0x000000a1, -CB_PERF_SEL_EXPORT_32_ABGR_QUAD_FRAGMENT = 0x000000a2, -CB_PERF_SEL_DUAL_SOURCE_COLOR_QUAD_FRAGMENT = 0x000000a3, -CB_PERF_SEL_QUAD_HAS_1_FRAGMENT_BEFORE_UPDATE = 0x000000a4, -CB_PERF_SEL_QUAD_HAS_2_FRAGMENTS_BEFORE_UPDATE = 0x000000a5, -CB_PERF_SEL_QUAD_HAS_3_FRAGMENTS_BEFORE_UPDATE = 0x000000a6, -CB_PERF_SEL_QUAD_HAS_4_FRAGMENTS_BEFORE_UPDATE = 0x000000a7, -CB_PERF_SEL_QUAD_HAS_5_FRAGMENTS_BEFORE_UPDATE = 0x000000a8, -CB_PERF_SEL_QUAD_HAS_6_FRAGMENTS_BEFORE_UPDATE = 0x000000a9, -CB_PERF_SEL_QUAD_HAS_7_FRAGMENTS_BEFORE_UPDATE = 0x000000aa, -CB_PERF_SEL_QUAD_HAS_8_FRAGMENTS_BEFORE_UPDATE = 0x000000ab, -CB_PERF_SEL_QUAD_HAS_1_FRAGMENT_AFTER_UPDATE = 0x000000ac, -CB_PERF_SEL_QUAD_HAS_2_FRAGMENTS_AFTER_UPDATE = 0x000000ad, -CB_PERF_SEL_QUAD_HAS_3_FRAGMENTS_AFTER_UPDATE = 0x000000ae, -CB_PERF_SEL_QUAD_HAS_4_FRAGMENTS_AFTER_UPDATE = 0x000000af, -CB_PERF_SEL_QUAD_HAS_5_FRAGMENTS_AFTER_UPDATE = 0x000000b0, -CB_PERF_SEL_QUAD_HAS_6_FRAGMENTS_AFTER_UPDATE = 0x000000b1, -CB_PERF_SEL_QUAD_HAS_7_FRAGMENTS_AFTER_UPDATE = 0x000000b2, -CB_PERF_SEL_QUAD_HAS_8_FRAGMENTS_AFTER_UPDATE = 0x000000b3, -CB_PERF_SEL_QUAD_ADDED_1_FRAGMENT = 0x000000b4, -CB_PERF_SEL_QUAD_ADDED_2_FRAGMENTS = 0x000000b5, -CB_PERF_SEL_QUAD_ADDED_3_FRAGMENTS = 0x000000b6, -CB_PERF_SEL_QUAD_ADDED_4_FRAGMENTS = 0x000000b7, -CB_PERF_SEL_QUAD_ADDED_5_FRAGMENTS = 0x000000b8, -CB_PERF_SEL_QUAD_ADDED_6_FRAGMENTS = 0x000000b9, -CB_PERF_SEL_QUAD_ADDED_7_FRAGMENTS = 0x000000ba, -CB_PERF_SEL_QUAD_REMOVED_1_FRAGMENT = 0x000000bb, -CB_PERF_SEL_QUAD_REMOVED_2_FRAGMENTS = 0x000000bc, -CB_PERF_SEL_QUAD_REMOVED_3_FRAGMENTS = 0x000000bd, -CB_PERF_SEL_QUAD_REMOVED_4_FRAGMENTS = 0x000000be, -CB_PERF_SEL_QUAD_REMOVED_5_FRAGMENTS = 0x000000bf, -CB_PERF_SEL_QUAD_REMOVED_6_FRAGMENTS = 0x000000c0, -CB_PERF_SEL_QUAD_REMOVED_7_FRAGMENTS = 0x000000c1, -CB_PERF_SEL_QUAD_READS_FRAGMENT_0 = 0x000000c2, -CB_PERF_SEL_QUAD_READS_FRAGMENT_1 = 0x000000c3, -CB_PERF_SEL_QUAD_READS_FRAGMENT_2 = 0x000000c4, -CB_PERF_SEL_QUAD_READS_FRAGMENT_3 = 0x000000c5, -CB_PERF_SEL_QUAD_READS_FRAGMENT_4 = 0x000000c6, -CB_PERF_SEL_QUAD_READS_FRAGMENT_5 = 0x000000c7, -CB_PERF_SEL_QUAD_READS_FRAGMENT_6 = 0x000000c8, -CB_PERF_SEL_QUAD_READS_FRAGMENT_7 = 0x000000c9, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_0 = 0x000000ca, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_1 = 0x000000cb, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_2 = 0x000000cc, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_3 = 0x000000cd, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_4 = 0x000000ce, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_5 = 0x000000cf, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_6 = 0x000000d0, -CB_PERF_SEL_QUAD_WRITES_FRAGMENT_7 = 0x000000d1, -CB_PERF_SEL_QUAD_BLEND_OPT_DONT_READ_DST = 0x000000d2, -CB_PERF_SEL_QUAD_BLEND_OPT_BLEND_BYPASS = 0x000000d3, -CB_PERF_SEL_QUAD_BLEND_OPT_DISCARD_PIXELS = 0x000000d4, -CB_PERF_SEL_QUAD_DST_READ_COULD_HAVE_BEEN_OPTIMIZED = 0x000000d5, -CB_PERF_SEL_QUAD_BLENDING_COULD_HAVE_BEEN_BYPASSED = 0x000000d6, -CB_PERF_SEL_QUAD_COULD_HAVE_BEEN_DISCARDED = 0x000000d7, -CB_PERF_SEL_BLEND_OPT_PIXELS_RESULT_EQ_DEST = 0x000000d8, -CB_PERF_SEL_DRAWN_BUSY = 0x000000d9, -CB_PERF_SEL_TILE_TO_CMR_REGION_BUSY = 0x000000da, -CB_PERF_SEL_CMR_TO_FCR_REGION_BUSY = 0x000000db, -CB_PERF_SEL_FCR_TO_CCR_REGION_BUSY = 0x000000dc, -CB_PERF_SEL_CCR_TO_CCW_REGION_BUSY = 0x000000dd, -CB_PERF_SEL_FC_PF_SLOW_MODE_QUAD_EMPTY_HALF_DROPPED = 0x000000de, -CB_PERF_SEL_FC_SEQUENCER_CLEAR = 0x000000df, -CB_PERF_SEL_FC_SEQUENCER_ELIMINATE_FAST_CLEAR = 0x000000e0, -CB_PERF_SEL_FC_SEQUENCER_FMASK_DECOMPRESS = 0x000000e1, -CB_PERF_SEL_FC_SEQUENCER_FMASK_COMPRESSION_DISABLE = 0x000000e2, -CB_PERF_SEL_FC_KEYID_RDLAT_FIFO_FULL = 0x000000e3, -CB_PERF_SEL_FC_DOC_IS_STALLED = 0x000000e4, -CB_PERF_SEL_FC_DOC_MRTS_NOT_COMBINED = 0x000000e5, -CB_PERF_SEL_FC_DOC_MRTS_COMBINED = 0x000000e6, -CB_PERF_SEL_FC_DOC_QTILE_CAM_MISS = 0x000000e7, -CB_PERF_SEL_FC_DOC_QTILE_CAM_HIT = 0x000000e8, -CB_PERF_SEL_FC_DOC_CLINE_CAM_MISS = 0x000000e9, -CB_PERF_SEL_FC_DOC_CLINE_CAM_HIT = 0x000000ea, -CB_PERF_SEL_FC_DOC_QUAD_PTR_FIFO_IS_FULL = 0x000000eb, -CB_PERF_SEL_FC_DOC_OVERWROTE_1_SECTOR = 0x000000ec, -CB_PERF_SEL_FC_DOC_OVERWROTE_2_SECTORS = 0x000000ed, -CB_PERF_SEL_FC_DOC_OVERWROTE_3_SECTORS = 0x000000ee, -CB_PERF_SEL_FC_DOC_OVERWROTE_4_SECTORS = 0x000000ef, -CB_PERF_SEL_FC_DOC_TOTAL_OVERWRITTEN_SECTORS = 0x000000f0, -CB_PERF_SEL_FC_DCC_CACHE_HIT = 0x000000f1, -CB_PERF_SEL_FC_DCC_CACHE_TAG_MISS = 0x000000f2, -CB_PERF_SEL_FC_DCC_CACHE_SECTOR_MISS = 0x000000f3, -CB_PERF_SEL_FC_DCC_CACHE_REEVICTION_STALL = 0x000000f4, -CB_PERF_SEL_FC_DCC_CACHE_EVICT_NONZERO_INFLIGHT_STALL = 0x000000f5, -CB_PERF_SEL_FC_DCC_CACHE_REPLACE_PENDING_EVICT_STALL = 0x000000f6, -CB_PERF_SEL_FC_DCC_CACHE_INFLIGHT_COUNTER_MAXIMUM_STALL = 0x000000f7, -CB_PERF_SEL_FC_DCC_CACHE_READ_OUTPUT_STALL = 0x000000f8, -CB_PERF_SEL_FC_DCC_CACHE_WRITE_OUTPUT_STALL = 0x000000f9, -CB_PERF_SEL_FC_DCC_CACHE_ACK_OUTPUT_STALL = 0x000000fa, -CB_PERF_SEL_FC_DCC_CACHE_STALL = 0x000000fb, -CB_PERF_SEL_FC_DCC_CACHE_FLUSH = 0x000000fc, -CB_PERF_SEL_FC_DCC_CACHE_TAGS_FLUSHED = 0x000000fd, -CB_PERF_SEL_FC_DCC_CACHE_SECTORS_FLUSHED = 0x000000fe, -CB_PERF_SEL_FC_DCC_CACHE_DIRTY_SECTORS_FLUSHED = 0x000000ff, -CB_PERF_SEL_CC_DCC_BEYOND_TILE_SPLIT = 0x00000100, -CB_PERF_SEL_FC_MC_DCC_WRITE_REQUEST = 0x00000101, -CB_PERF_SEL_FC_MC_DCC_WRITE_REQUESTS_IN_FLIGHT = 0x00000102, -CB_PERF_SEL_FC_MC_DCC_READ_REQUEST = 0x00000103, -CB_PERF_SEL_FC_MC_DCC_READ_REQUESTS_IN_FLIGHT = 0x00000104, -CB_PERF_SEL_CC_DCC_RDREQ_STALL = 0x00000105, -CB_PERF_SEL_CC_DCC_DECOMPRESS_TIDS_IN = 0x00000106, -CB_PERF_SEL_CC_DCC_DECOMPRESS_TIDS_OUT = 0x00000107, -CB_PERF_SEL_CC_DCC_COMPRESS_TIDS_IN = 0x00000108, -CB_PERF_SEL_CC_DCC_COMPRESS_TIDS_OUT = 0x00000109, -CB_PERF_SEL_FC_DCC_KEY_VALUE__CLEAR = 0x0000010a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__4_BLOCKS__2TO1 = 0x0000010b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__3BLOCKS_2TO1__1BLOCK_2TO2 = 0x0000010c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO1__1BLOCK_2TO2__1BLOCK_2TO1 = 0x0000010d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_2TO2__2BLOCKS_2TO1 = 0x0000010e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__3BLOCKS_2TO1 = 0x0000010f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO1__2BLOCKS_2TO2 = 0x00000110, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__2BLOCKS_2TO2__1BLOCK_2TO1 = 0x00000111, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_2TO2__1BLOCK_2TO1__1BLOCK_2TO2 = 0x00000112, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_2TO1__1BLOCK_2TO2__1BLOCK_2TO1 = 0x00000113, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO2__2BLOCKS_2TO1 = 0x00000114, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__2BLOCKS_2TO1__1BLOCK_2TO2 = 0x00000115, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__3BLOCKS_2TO2 = 0x00000116, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_2TO1__2BLOCKS_2TO2 = 0x00000117, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO2__1BLOCK_2TO1__1BLOCK_2TO2 = 0x00000118, -CB_PERF_SEL_CC_DCC_KEY_VALUE__3BLOCKS_2TO2__1BLOCK_2TO1 = 0x00000119, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_4TO1 = 0x0000011a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__1BLOCK_4TO2 = 0x0000011b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__1BLOCK_4TO3 = 0x0000011c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__1BLOCK_4TO4 = 0x0000011d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__1BLOCK_4TO1 = 0x0000011e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_4TO2 = 0x0000011f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__1BLOCK_4TO3 = 0x00000120, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__1BLOCK_4TO4 = 0x00000121, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__1BLOCK_4TO1 = 0x00000122, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__1BLOCK_4TO2 = 0x00000123, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_4TO3 = 0x00000124, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__1BLOCK_4TO4 = 0x00000125, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO4__1BLOCK_4TO1 = 0x00000126, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO4__1BLOCK_4TO2 = 0x00000127, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO4__1BLOCK_4TO3 = 0x00000128, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO1__1BLOCK_4TO1 = 0x00000129, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO1__1BLOCK_4TO2 = 0x0000012a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO1__1BLOCK_4TO3 = 0x0000012b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO1__1BLOCK_4TO4 = 0x0000012c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_2TO2__1BLOCK_4TO1 = 0x0000012d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_2TO2__1BLOCK_4TO2 = 0x0000012e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_2TO2__1BLOCK_4TO3 = 0x0000012f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_2TO2__1BLOCK_4TO4 = 0x00000130, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_2TO1__1BLOCK_4TO1 = 0x00000131, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_2TO1__1BLOCK_4TO2 = 0x00000132, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_2TO1__1BLOCK_4TO3 = 0x00000133, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_2TO1__1BLOCK_4TO4 = 0x00000134, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO2__1BLOCK_4TO1 = 0x00000135, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO2__1BLOCK_4TO2 = 0x00000136, -CB_PERF_SEL_CC_DCC_KEY_VALUE__2BLOCKS_2TO2__1BLOCK_4TO3 = 0x00000137, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO1__1BLOCK_2TO1 = 0x00000138, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO2__1BLOCK_2TO1 = 0x00000139, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO3__1BLOCK_2TO1 = 0x0000013a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO4__1BLOCK_2TO1 = 0x0000013b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO1__1BLOCK_2TO1 = 0x0000013c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO2__1BLOCK_2TO1 = 0x0000013d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO3__1BLOCK_2TO1 = 0x0000013e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO4__1BLOCK_2TO1 = 0x0000013f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO1__1BLOCK_2TO2 = 0x00000140, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO2__1BLOCK_2TO2 = 0x00000141, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO3__1BLOCK_2TO2 = 0x00000142, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_4TO4__1BLOCK_2TO2 = 0x00000143, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO1__1BLOCK_2TO2 = 0x00000144, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO2__1BLOCK_2TO2 = 0x00000145, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_4TO3__1BLOCK_2TO2 = 0x00000146, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__2BLOCKS_2TO1 = 0x00000147, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__2BLOCKS_2TO1 = 0x00000148, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__2BLOCKS_2TO1 = 0x00000149, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO4__2BLOCKS_2TO1 = 0x0000014a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__2BLOCKS_2TO2 = 0x0000014b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__2BLOCKS_2TO2 = 0x0000014c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__2BLOCKS_2TO2 = 0x0000014d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__1BLOCK_2TO1__1BLOCK_2TO2 = 0x0000014e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__1BLOCK_2TO1__1BLOCK_2TO2 = 0x0000014f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__1BLOCK_2TO1__1BLOCK_2TO2 = 0x00000150, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO4__1BLOCK_2TO1__1BLOCK_2TO2 = 0x00000151, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO1__1BLOCK_2TO2__1BLOCK_2TO1 = 0x00000152, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO2__1BLOCK_2TO2__1BLOCK_2TO1 = 0x00000153, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO3__1BLOCK_2TO2__1BLOCK_2TO1 = 0x00000154, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_4TO4__1BLOCK_2TO2__1BLOCK_2TO1 = 0x00000155, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_6TO1 = 0x00000156, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_6TO2 = 0x00000157, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_6TO3 = 0x00000158, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_6TO4 = 0x00000159, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_6TO5 = 0x0000015a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__1BLOCK_6TO6 = 0x0000015b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__INV0 = 0x0000015c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO1__INV1 = 0x0000015d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_6TO1 = 0x0000015e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_6TO2 = 0x0000015f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_6TO3 = 0x00000160, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_6TO4 = 0x00000161, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__1BLOCK_6TO5 = 0x00000162, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__INV0 = 0x00000163, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_2TO2__INV1 = 0x00000164, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO1__1BLOCK_2TO1 = 0x00000165, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO2__1BLOCK_2TO1 = 0x00000166, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO3__1BLOCK_2TO1 = 0x00000167, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO4__1BLOCK_2TO1 = 0x00000168, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO5__1BLOCK_2TO1 = 0x00000169, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO6__1BLOCK_2TO1 = 0x0000016a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__INV0__1BLOCK_2TO1 = 0x0000016b, -CB_PERF_SEL_CC_DCC_KEY_VALUE__INV1__1BLOCK_2TO1 = 0x0000016c, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO1__1BLOCK_2TO2 = 0x0000016d, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO2__1BLOCK_2TO2 = 0x0000016e, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO3__1BLOCK_2TO2 = 0x0000016f, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO4__1BLOCK_2TO2 = 0x00000170, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_6TO5__1BLOCK_2TO2 = 0x00000171, -CB_PERF_SEL_CC_DCC_KEY_VALUE__INV0__1BLOCK_2TO2 = 0x00000172, -CB_PERF_SEL_CC_DCC_KEY_VALUE__INV1__1BLOCK_2TO2 = 0x00000173, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO1 = 0x00000174, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO2 = 0x00000175, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO3 = 0x00000176, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO4 = 0x00000177, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO5 = 0x00000178, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO6 = 0x00000179, -CB_PERF_SEL_CC_DCC_KEY_VALUE__1BLOCK_8TO7 = 0x0000017a, -CB_PERF_SEL_CC_DCC_KEY_VALUE__UNCOMPRESSED = 0x0000017b, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_2TO1 = 0x0000017c, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_4TO1 = 0x0000017d, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_4TO2 = 0x0000017e, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_4TO3 = 0x0000017f, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_6TO1 = 0x00000180, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_6TO2 = 0x00000181, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_6TO3 = 0x00000182, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_6TO4 = 0x00000183, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_6TO5 = 0x00000184, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO1 = 0x00000185, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO2 = 0x00000186, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO3 = 0x00000187, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO4 = 0x00000188, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO5 = 0x00000189, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO6 = 0x0000018a, -CB_PERF_SEL_CC_DCC_COMPRESS_RATIO_8TO7 = 0x0000018b, -CB_PERF_SEL_RBP_EXPORT_8PIX_LIT_BOTH = 0x0000018c, -CB_PERF_SEL_RBP_EXPORT_8PIX_LIT_LEFT = 0x0000018d, -CB_PERF_SEL_RBP_EXPORT_8PIX_LIT_RIGHT = 0x0000018e, -CB_PERF_SEL_RBP_SPLIT_MICROTILE = 0x0000018f, -CB_PERF_SEL_RBP_SPLIT_AA_SAMPLE_MASK = 0x00000190, -CB_PERF_SEL_RBP_SPLIT_PARTIAL_TARGET_MASK = 0x00000191, -CB_PERF_SEL_RBP_SPLIT_LINEAR_ADDRESSING = 0x00000192, -CB_PERF_SEL_RBP_SPLIT_AA_NO_FMASK_COMPRESS = 0x00000193, -CB_PERF_SEL_RBP_INSERT_MISSING_LAST_QUAD = 0x00000194, -} CBPerfSel; - -/* - * CBPerfOpFilterSel enum - */ - -typedef enum CBPerfOpFilterSel { -CB_PERF_OP_FILTER_SEL_WRITE_ONLY = 0x00000000, -CB_PERF_OP_FILTER_SEL_NEEDS_DESTINATION = 0x00000001, -CB_PERF_OP_FILTER_SEL_RESOLVE = 0x00000002, -CB_PERF_OP_FILTER_SEL_DECOMPRESS = 0x00000003, -CB_PERF_OP_FILTER_SEL_FMASK_DECOMPRESS = 0x00000004, -CB_PERF_OP_FILTER_SEL_ELIMINATE_FAST_CLEAR = 0x00000005, -} CBPerfOpFilterSel; - -/* - * CBPerfClearFilterSel enum - */ - -typedef enum CBPerfClearFilterSel { -CB_PERF_CLEAR_FILTER_SEL_NONCLEAR = 0x00000000, -CB_PERF_CLEAR_FILTER_SEL_CLEAR = 0x00000001, -} CBPerfClearFilterSel; - -/******************************************************* - * TC Enums - *******************************************************/ - -/* - * TC_OP_MASKS enum - */ - -typedef enum TC_OP_MASKS { -TC_OP_MASK_FLUSH_DENROM = 0x00000008, -TC_OP_MASK_64 = 0x00000020, -TC_OP_MASK_NO_RTN = 0x00000040, -} TC_OP_MASKS; - -/* - * TC_OP enum - */ - -typedef enum TC_OP { -TC_OP_READ = 0x00000000, -TC_OP_ATOMIC_FCMPSWAP_RTN_32 = 0x00000001, -TC_OP_ATOMIC_FMIN_RTN_32 = 0x00000002, -TC_OP_ATOMIC_FMAX_RTN_32 = 0x00000003, -TC_OP_RESERVED_FOP_RTN_32_0 = 0x00000004, -TC_OP_RESERVED_FOP_RTN_32_1 = 0x00000005, -TC_OP_RESERVED_FOP_RTN_32_2 = 0x00000006, -TC_OP_ATOMIC_SWAP_RTN_32 = 0x00000007, -TC_OP_ATOMIC_CMPSWAP_RTN_32 = 0x00000008, -TC_OP_ATOMIC_FCMPSWAP_FLUSH_DENORM_RTN_32 = 0x00000009, -TC_OP_ATOMIC_FMIN_FLUSH_DENORM_RTN_32 = 0x0000000a, -TC_OP_ATOMIC_FMAX_FLUSH_DENORM_RTN_32 = 0x0000000b, -TC_OP_PROBE_FILTER = 0x0000000c, -TC_OP_RESERVED_FOP_FLUSH_DENORM_RTN_32_1 = 0x0000000d, -TC_OP_RESERVED_FOP_FLUSH_DENORM_RTN_32_2 = 0x0000000e, -TC_OP_ATOMIC_ADD_RTN_32 = 0x0000000f, -TC_OP_ATOMIC_SUB_RTN_32 = 0x00000010, -TC_OP_ATOMIC_SMIN_RTN_32 = 0x00000011, -TC_OP_ATOMIC_UMIN_RTN_32 = 0x00000012, -TC_OP_ATOMIC_SMAX_RTN_32 = 0x00000013, -TC_OP_ATOMIC_UMAX_RTN_32 = 0x00000014, -TC_OP_ATOMIC_AND_RTN_32 = 0x00000015, -TC_OP_ATOMIC_OR_RTN_32 = 0x00000016, -TC_OP_ATOMIC_XOR_RTN_32 = 0x00000017, -TC_OP_ATOMIC_INC_RTN_32 = 0x00000018, -TC_OP_ATOMIC_DEC_RTN_32 = 0x00000019, -TC_OP_WBINVL1_VOL = 0x0000001a, -TC_OP_WBINVL1_SD = 0x0000001b, -TC_OP_RESERVED_NON_FLOAT_RTN_32_0 = 0x0000001c, -TC_OP_RESERVED_NON_FLOAT_RTN_32_1 = 0x0000001d, -TC_OP_RESERVED_NON_FLOAT_RTN_32_2 = 0x0000001e, -TC_OP_RESERVED_NON_FLOAT_RTN_32_3 = 0x0000001f, -TC_OP_WRITE = 0x00000020, -TC_OP_ATOMIC_FCMPSWAP_RTN_64 = 0x00000021, -TC_OP_ATOMIC_FMIN_RTN_64 = 0x00000022, -TC_OP_ATOMIC_FMAX_RTN_64 = 0x00000023, -TC_OP_RESERVED_FOP_RTN_64_0 = 0x00000024, -TC_OP_RESERVED_FOP_RTN_64_1 = 0x00000025, -TC_OP_RESERVED_FOP_RTN_64_2 = 0x00000026, -TC_OP_ATOMIC_SWAP_RTN_64 = 0x00000027, -TC_OP_ATOMIC_CMPSWAP_RTN_64 = 0x00000028, -TC_OP_ATOMIC_FCMPSWAP_FLUSH_DENORM_RTN_64 = 0x00000029, -TC_OP_ATOMIC_FMIN_FLUSH_DENORM_RTN_64 = 0x0000002a, -TC_OP_ATOMIC_FMAX_FLUSH_DENORM_RTN_64 = 0x0000002b, -TC_OP_WBINVL2_SD = 0x0000002c, -TC_OP_RESERVED_FOP_FLUSH_DENORM_RTN_64_0 = 0x0000002d, -TC_OP_RESERVED_FOP_FLUSH_DENORM_RTN_64_1 = 0x0000002e, -TC_OP_ATOMIC_ADD_RTN_64 = 0x0000002f, -TC_OP_ATOMIC_SUB_RTN_64 = 0x00000030, -TC_OP_ATOMIC_SMIN_RTN_64 = 0x00000031, -TC_OP_ATOMIC_UMIN_RTN_64 = 0x00000032, -TC_OP_ATOMIC_SMAX_RTN_64 = 0x00000033, -TC_OP_ATOMIC_UMAX_RTN_64 = 0x00000034, -TC_OP_ATOMIC_AND_RTN_64 = 0x00000035, -TC_OP_ATOMIC_OR_RTN_64 = 0x00000036, -TC_OP_ATOMIC_XOR_RTN_64 = 0x00000037, -TC_OP_ATOMIC_INC_RTN_64 = 0x00000038, -TC_OP_ATOMIC_DEC_RTN_64 = 0x00000039, -TC_OP_WBL2_NC = 0x0000003a, -TC_OP_WBL2_WC = 0x0000003b, -TC_OP_RESERVED_NON_FLOAT_RTN_64_1 = 0x0000003c, -TC_OP_RESERVED_NON_FLOAT_RTN_64_2 = 0x0000003d, -TC_OP_RESERVED_NON_FLOAT_RTN_64_3 = 0x0000003e, -TC_OP_RESERVED_NON_FLOAT_RTN_64_4 = 0x0000003f, -TC_OP_WBINVL1 = 0x00000040, -TC_OP_ATOMIC_FCMPSWAP_32 = 0x00000041, -TC_OP_ATOMIC_FMIN_32 = 0x00000042, -TC_OP_ATOMIC_FMAX_32 = 0x00000043, -TC_OP_RESERVED_FOP_32_0 = 0x00000044, -TC_OP_RESERVED_FOP_32_1 = 0x00000045, -TC_OP_RESERVED_FOP_32_2 = 0x00000046, -TC_OP_ATOMIC_SWAP_32 = 0x00000047, -TC_OP_ATOMIC_CMPSWAP_32 = 0x00000048, -TC_OP_ATOMIC_FCMPSWAP_FLUSH_DENORM_32 = 0x00000049, -TC_OP_ATOMIC_FMIN_FLUSH_DENORM_32 = 0x0000004a, -TC_OP_ATOMIC_FMAX_FLUSH_DENORM_32 = 0x0000004b, -TC_OP_INV_METADATA = 0x0000004c, -TC_OP_RESERVED_FOP_FLUSH_DENORM_32_1 = 0x0000004d, -TC_OP_RESERVED_FOP_FLUSH_DENORM_32_2 = 0x0000004e, -TC_OP_ATOMIC_ADD_32 = 0x0000004f, -TC_OP_ATOMIC_SUB_32 = 0x00000050, -TC_OP_ATOMIC_SMIN_32 = 0x00000051, -TC_OP_ATOMIC_UMIN_32 = 0x00000052, -TC_OP_ATOMIC_SMAX_32 = 0x00000053, -TC_OP_ATOMIC_UMAX_32 = 0x00000054, -TC_OP_ATOMIC_AND_32 = 0x00000055, -TC_OP_ATOMIC_OR_32 = 0x00000056, -TC_OP_ATOMIC_XOR_32 = 0x00000057, -TC_OP_ATOMIC_INC_32 = 0x00000058, -TC_OP_ATOMIC_DEC_32 = 0x00000059, -TC_OP_INVL2_NC = 0x0000005a, -TC_OP_NOP_RTN0 = 0x0000005b, -TC_OP_RESERVED_NON_FLOAT_32_1 = 0x0000005c, -TC_OP_RESERVED_NON_FLOAT_32_2 = 0x0000005d, -TC_OP_RESERVED_NON_FLOAT_32_3 = 0x0000005e, -TC_OP_RESERVED_NON_FLOAT_32_4 = 0x0000005f, -TC_OP_WBINVL2 = 0x00000060, -TC_OP_ATOMIC_FCMPSWAP_64 = 0x00000061, -TC_OP_ATOMIC_FMIN_64 = 0x00000062, -TC_OP_ATOMIC_FMAX_64 = 0x00000063, -TC_OP_RESERVED_FOP_64_0 = 0x00000064, -TC_OP_RESERVED_FOP_64_1 = 0x00000065, -TC_OP_RESERVED_FOP_64_2 = 0x00000066, -TC_OP_ATOMIC_SWAP_64 = 0x00000067, -TC_OP_ATOMIC_CMPSWAP_64 = 0x00000068, -TC_OP_ATOMIC_FCMPSWAP_FLUSH_DENORM_64 = 0x00000069, -TC_OP_ATOMIC_FMIN_FLUSH_DENORM_64 = 0x0000006a, -TC_OP_ATOMIC_FMAX_FLUSH_DENORM_64 = 0x0000006b, -TC_OP_RESERVED_FOP_FLUSH_DENORM_64_0 = 0x0000006c, -TC_OP_RESERVED_FOP_FLUSH_DENORM_64_1 = 0x0000006d, -TC_OP_RESERVED_FOP_FLUSH_DENORM_64_2 = 0x0000006e, -TC_OP_ATOMIC_ADD_64 = 0x0000006f, -TC_OP_ATOMIC_SUB_64 = 0x00000070, -TC_OP_ATOMIC_SMIN_64 = 0x00000071, -TC_OP_ATOMIC_UMIN_64 = 0x00000072, -TC_OP_ATOMIC_SMAX_64 = 0x00000073, -TC_OP_ATOMIC_UMAX_64 = 0x00000074, -TC_OP_ATOMIC_AND_64 = 0x00000075, -TC_OP_ATOMIC_OR_64 = 0x00000076, -TC_OP_ATOMIC_XOR_64 = 0x00000077, -TC_OP_ATOMIC_INC_64 = 0x00000078, -TC_OP_ATOMIC_DEC_64 = 0x00000079, -TC_OP_WBINVL2_NC = 0x0000007a, -TC_OP_NOP_ACK = 0x0000007b, -TC_OP_RESERVED_NON_FLOAT_64_1 = 0x0000007c, -TC_OP_RESERVED_NON_FLOAT_64_2 = 0x0000007d, -TC_OP_RESERVED_NON_FLOAT_64_3 = 0x0000007e, -TC_OP_RESERVED_NON_FLOAT_64_4 = 0x0000007f, -} TC_OP; - -/* - * TC_CHUB_REQ_CREDITS_ENUM enum - */ - -typedef enum TC_CHUB_REQ_CREDITS_ENUM { -TC_CHUB_REQ_CREDITS = 0x00000010, -} TC_CHUB_REQ_CREDITS_ENUM; - -/* - * CHUB_TC_RET_CREDITS_ENUM enum - */ - -typedef enum CHUB_TC_RET_CREDITS_ENUM { -CHUB_TC_RET_CREDITS = 0x00000020, -} CHUB_TC_RET_CREDITS_ENUM; - -/* - * TC_NACKS enum - */ - -typedef enum TC_NACKS { -TC_NACK_NO_FAULT = 0x00000000, -TC_NACK_PAGE_FAULT = 0x00000001, -TC_NACK_PROTECTION_FAULT = 0x00000002, -TC_NACK_DATA_ERROR = 0x00000003, -} TC_NACKS; - -/* - * TC_EA_CID enum - */ - -typedef enum TC_EA_CID { -TC_EA_CID_RT = 0x00000000, -TC_EA_CID_FMASK = 0x00000001, -TC_EA_CID_DCC = 0x00000002, -TC_EA_CID_TCPMETA = 0x00000003, -TC_EA_CID_Z = 0x00000004, -TC_EA_CID_STENCIL = 0x00000005, -TC_EA_CID_HTILE = 0x00000006, -TC_EA_CID_MISC = 0x00000007, -TC_EA_CID_TCP = 0x00000008, -TC_EA_CID_SQC = 0x00000009, -TC_EA_CID_CPF = 0x0000000a, -TC_EA_CID_CPG = 0x0000000b, -TC_EA_CID_IA = 0x0000000c, -TC_EA_CID_WD = 0x0000000d, -TC_EA_CID_PA = 0x0000000e, -TC_EA_CID_UTCL2_TPI = 0x0000000f, -} TC_EA_CID; - -/******************************************************* - * GC_CAC Enums - *******************************************************/ - -/******************************************************* - * RLC Enums - *******************************************************/ - -/******************************************************* - * SPI Enums - *******************************************************/ - -/* - * SPI_SAMPLE_CNTL enum - */ - -typedef enum SPI_SAMPLE_CNTL { -CENTROIDS_ONLY = 0x00000000, -CENTERS_ONLY = 0x00000001, -CENTROIDS_AND_CENTERS = 0x00000002, -UNDEF = 0x00000003, -} SPI_SAMPLE_CNTL; - -/* - * SPI_FOG_MODE enum - */ - -typedef enum SPI_FOG_MODE { -SPI_FOG_NONE = 0x00000000, -SPI_FOG_EXP = 0x00000001, -SPI_FOG_EXP2 = 0x00000002, -SPI_FOG_LINEAR = 0x00000003, -} SPI_FOG_MODE; - -/* - * SPI_PNT_SPRITE_OVERRIDE enum - */ - -typedef enum SPI_PNT_SPRITE_OVERRIDE { -SPI_PNT_SPRITE_SEL_0 = 0x00000000, -SPI_PNT_SPRITE_SEL_1 = 0x00000001, -SPI_PNT_SPRITE_SEL_S = 0x00000002, -SPI_PNT_SPRITE_SEL_T = 0x00000003, -SPI_PNT_SPRITE_SEL_NONE = 0x00000004, -} SPI_PNT_SPRITE_OVERRIDE; - -/* - * SPI_PERFCNT_SEL enum - */ - -typedef enum SPI_PERFCNT_SEL { -SPI_PERF_VS_WINDOW_VALID = 0x00000000, -SPI_PERF_VS_BUSY = 0x00000001, -SPI_PERF_VS_FIRST_WAVE = 0x00000002, -SPI_PERF_VS_LAST_WAVE = 0x00000003, -SPI_PERF_VS_LSHS_DEALLOC = 0x00000004, -SPI_PERF_VS_PC_STALL = 0x00000005, -SPI_PERF_VS_POS0_STALL = 0x00000006, -SPI_PERF_VS_POS1_STALL = 0x00000007, -SPI_PERF_VS_CRAWLER_STALL = 0x00000008, -SPI_PERF_VS_EVENT_WAVE = 0x00000009, -SPI_PERF_VS_WAVE = 0x0000000a, -SPI_PERF_VS_PERS_UPD_FULL0 = 0x0000000b, -SPI_PERF_VS_PERS_UPD_FULL1 = 0x0000000c, -SPI_PERF_VS_LATE_ALLOC_FULL = 0x0000000d, -SPI_PERF_VS_FIRST_SUBGRP = 0x0000000e, -SPI_PERF_VS_LAST_SUBGRP = 0x0000000f, -SPI_PERF_GS_WINDOW_VALID = 0x00000010, -SPI_PERF_GS_BUSY = 0x00000011, -SPI_PERF_GS_CRAWLER_STALL = 0x00000012, -SPI_PERF_GS_EVENT_WAVE = 0x00000013, -SPI_PERF_GS_WAVE = 0x00000014, -SPI_PERF_GS_PERS_UPD_FULL0 = 0x00000015, -SPI_PERF_GS_PERS_UPD_FULL1 = 0x00000016, -SPI_PERF_GS_FIRST_SUBGRP = 0x00000017, -SPI_PERF_GS_LAST_SUBGRP = 0x00000018, -SPI_PERF_ES_WINDOW_VALID = 0x00000019, -SPI_PERF_ES_BUSY = 0x0000001a, -SPI_PERF_ES_CRAWLER_STALL = 0x0000001b, -SPI_PERF_ES_FIRST_WAVE = 0x0000001c, -SPI_PERF_ES_LAST_WAVE = 0x0000001d, -SPI_PERF_ES_LSHS_DEALLOC = 0x0000001e, -SPI_PERF_ES_EVENT_WAVE = 0x0000001f, -SPI_PERF_ES_WAVE = 0x00000020, -SPI_PERF_ES_PERS_UPD_FULL0 = 0x00000021, -SPI_PERF_ES_PERS_UPD_FULL1 = 0x00000022, -SPI_PERF_ES_FIRST_SUBGRP = 0x00000023, -SPI_PERF_ES_LAST_SUBGRP = 0x00000024, -SPI_PERF_HS_WINDOW_VALID = 0x00000025, -SPI_PERF_HS_BUSY = 0x00000026, -SPI_PERF_HS_CRAWLER_STALL = 0x00000027, -SPI_PERF_HS_FIRST_WAVE = 0x00000028, -SPI_PERF_HS_LAST_WAVE = 0x00000029, -SPI_PERF_HS_LSHS_DEALLOC = 0x0000002a, -SPI_PERF_HS_EVENT_WAVE = 0x0000002b, -SPI_PERF_HS_WAVE = 0x0000002c, -SPI_PERF_HS_PERS_UPD_FULL0 = 0x0000002d, -SPI_PERF_HS_PERS_UPD_FULL1 = 0x0000002e, -SPI_PERF_LS_WINDOW_VALID = 0x0000002f, -SPI_PERF_LS_BUSY = 0x00000030, -SPI_PERF_LS_CRAWLER_STALL = 0x00000031, -SPI_PERF_LS_FIRST_WAVE = 0x00000032, -SPI_PERF_LS_LAST_WAVE = 0x00000033, -SPI_PERF_OFFCHIP_LDS_STALL_LS = 0x00000034, -SPI_PERF_LS_EVENT_WAVE = 0x00000035, -SPI_PERF_LS_WAVE = 0x00000036, -SPI_PERF_LS_PERS_UPD_FULL0 = 0x00000037, -SPI_PERF_LS_PERS_UPD_FULL1 = 0x00000038, -SPI_PERF_CSG_WINDOW_VALID = 0x00000039, -SPI_PERF_CSG_BUSY = 0x0000003a, -SPI_PERF_CSG_NUM_THREADGROUPS = 0x0000003b, -SPI_PERF_CSG_CRAWLER_STALL = 0x0000003c, -SPI_PERF_CSG_EVENT_WAVE = 0x0000003d, -SPI_PERF_CSG_WAVE = 0x0000003e, -SPI_PERF_CSN_WINDOW_VALID = 0x0000003f, -SPI_PERF_CSN_BUSY = 0x00000040, -SPI_PERF_CSN_NUM_THREADGROUPS = 0x00000041, -SPI_PERF_CSN_CRAWLER_STALL = 0x00000042, -SPI_PERF_CSN_EVENT_WAVE = 0x00000043, -SPI_PERF_CSN_WAVE = 0x00000044, -SPI_PERF_PS_CTL_WINDOW_VALID = 0x00000045, -SPI_PERF_PS_CTL_BUSY = 0x00000046, -SPI_PERF_PS_CTL_ACTIVE = 0x00000047, -SPI_PERF_PS_CTL_DEALLOC_BIN0 = 0x00000048, -SPI_PERF_PS_CTL_FPOS_BIN1_STALL = 0x00000049, -SPI_PERF_PS_CTL_EVENT_WAVE = 0x0000004a, -SPI_PERF_PS_CTL_WAVE = 0x0000004b, -SPI_PERF_PS_CTL_OPT_WAVE = 0x0000004c, -SPI_PERF_PS_CTL_PASS_BIN0 = 0x0000004d, -SPI_PERF_PS_CTL_PASS_BIN1 = 0x0000004e, -SPI_PERF_PS_CTL_FPOS_BIN2 = 0x0000004f, -SPI_PERF_PS_CTL_PRIM_BIN0 = 0x00000050, -SPI_PERF_PS_CTL_PRIM_BIN1 = 0x00000051, -SPI_PERF_PS_CTL_CNF_BIN2 = 0x00000052, -SPI_PERF_PS_CTL_CNF_BIN3 = 0x00000053, -SPI_PERF_PS_CTL_CRAWLER_STALL = 0x00000054, -SPI_PERF_PS_CTL_LDS_RES_FULL = 0x00000055, -SPI_PERF_PS_PERS_UPD_FULL0 = 0x00000056, -SPI_PERF_PS_PERS_UPD_FULL1 = 0x00000057, -SPI_PERF_PIX_ALLOC_PEND_CNT = 0x00000058, -SPI_PERF_PIX_ALLOC_SCB_STALL = 0x00000059, -SPI_PERF_PIX_ALLOC_DB0_STALL = 0x0000005a, -SPI_PERF_PIX_ALLOC_DB1_STALL = 0x0000005b, -SPI_PERF_PIX_ALLOC_DB2_STALL = 0x0000005c, -SPI_PERF_PIX_ALLOC_DB3_STALL = 0x0000005d, -SPI_PERF_LDS0_PC_VALID = 0x0000005e, -SPI_PERF_LDS1_PC_VALID = 0x0000005f, -SPI_PERF_RA_PIPE_REQ_BIN2 = 0x00000060, -SPI_PERF_RA_TASK_REQ_BIN3 = 0x00000061, -SPI_PERF_RA_WR_CTL_FULL = 0x00000062, -SPI_PERF_RA_REQ_NO_ALLOC = 0x00000063, -SPI_PERF_RA_REQ_NO_ALLOC_PS = 0x00000064, -SPI_PERF_RA_REQ_NO_ALLOC_VS = 0x00000065, -SPI_PERF_RA_REQ_NO_ALLOC_GS = 0x00000066, -SPI_PERF_RA_REQ_NO_ALLOC_ES = 0x00000067, -SPI_PERF_RA_REQ_NO_ALLOC_HS = 0x00000068, -SPI_PERF_RA_REQ_NO_ALLOC_LS = 0x00000069, -SPI_PERF_RA_REQ_NO_ALLOC_CSG = 0x0000006a, -SPI_PERF_RA_REQ_NO_ALLOC_CSN = 0x0000006b, -SPI_PERF_RA_RES_STALL_PS = 0x0000006c, -SPI_PERF_RA_RES_STALL_VS = 0x0000006d, -SPI_PERF_RA_RES_STALL_GS = 0x0000006e, -SPI_PERF_RA_RES_STALL_ES = 0x0000006f, -SPI_PERF_RA_RES_STALL_HS = 0x00000070, -SPI_PERF_RA_RES_STALL_LS = 0x00000071, -SPI_PERF_RA_RES_STALL_CSG = 0x00000072, -SPI_PERF_RA_RES_STALL_CSN = 0x00000073, -SPI_PERF_RA_TMP_STALL_PS = 0x00000074, -SPI_PERF_RA_TMP_STALL_VS = 0x00000075, -SPI_PERF_RA_TMP_STALL_GS = 0x00000076, -SPI_PERF_RA_TMP_STALL_ES = 0x00000077, -SPI_PERF_RA_TMP_STALL_HS = 0x00000078, -SPI_PERF_RA_TMP_STALL_LS = 0x00000079, -SPI_PERF_RA_TMP_STALL_CSG = 0x0000007a, -SPI_PERF_RA_TMP_STALL_CSN = 0x0000007b, -SPI_PERF_RA_WAVE_SIMD_FULL_PS = 0x0000007c, -SPI_PERF_RA_WAVE_SIMD_FULL_VS = 0x0000007d, -SPI_PERF_RA_WAVE_SIMD_FULL_GS = 0x0000007e, -SPI_PERF_RA_WAVE_SIMD_FULL_ES = 0x0000007f, -SPI_PERF_RA_WAVE_SIMD_FULL_HS = 0x00000080, -SPI_PERF_RA_WAVE_SIMD_FULL_LS = 0x00000081, -SPI_PERF_RA_WAVE_SIMD_FULL_CSG = 0x00000082, -SPI_PERF_RA_WAVE_SIMD_FULL_CSN = 0x00000083, -SPI_PERF_RA_VGPR_SIMD_FULL_PS = 0x00000084, -SPI_PERF_RA_VGPR_SIMD_FULL_VS = 0x00000085, -SPI_PERF_RA_VGPR_SIMD_FULL_GS = 0x00000086, -SPI_PERF_RA_VGPR_SIMD_FULL_ES = 0x00000087, -SPI_PERF_RA_VGPR_SIMD_FULL_HS = 0x00000088, -SPI_PERF_RA_VGPR_SIMD_FULL_LS = 0x00000089, -SPI_PERF_RA_VGPR_SIMD_FULL_CSG = 0x0000008a, -SPI_PERF_RA_VGPR_SIMD_FULL_CSN = 0x0000008b, -SPI_PERF_RA_SGPR_SIMD_FULL_PS = 0x0000008c, -SPI_PERF_RA_SGPR_SIMD_FULL_VS = 0x0000008d, -SPI_PERF_RA_SGPR_SIMD_FULL_GS = 0x0000008e, -SPI_PERF_RA_SGPR_SIMD_FULL_ES = 0x0000008f, -SPI_PERF_RA_SGPR_SIMD_FULL_HS = 0x00000090, -SPI_PERF_RA_SGPR_SIMD_FULL_LS = 0x00000091, -SPI_PERF_RA_SGPR_SIMD_FULL_CSG = 0x00000092, -SPI_PERF_RA_SGPR_SIMD_FULL_CSN = 0x00000093, -SPI_PERF_RA_LDS_CU_FULL_PS = 0x00000094, -SPI_PERF_RA_LDS_CU_FULL_LS = 0x00000095, -SPI_PERF_RA_LDS_CU_FULL_ES = 0x00000096, -SPI_PERF_RA_LDS_CU_FULL_CSG = 0x00000097, -SPI_PERF_RA_LDS_CU_FULL_CSN = 0x00000098, -SPI_PERF_RA_BAR_CU_FULL_HS = 0x00000099, -SPI_PERF_RA_BAR_CU_FULL_CSG = 0x0000009a, -SPI_PERF_RA_BAR_CU_FULL_CSN = 0x0000009b, -SPI_PERF_RA_BULKY_CU_FULL_CSG = 0x0000009c, -SPI_PERF_RA_BULKY_CU_FULL_CSN = 0x0000009d, -SPI_PERF_RA_TGLIM_CU_FULL_CSG = 0x0000009e, -SPI_PERF_RA_TGLIM_CU_FULL_CSN = 0x0000009f, -SPI_PERF_RA_WVLIM_STALL_PS = 0x000000a0, -SPI_PERF_RA_WVLIM_STALL_VS = 0x000000a1, -SPI_PERF_RA_WVLIM_STALL_GS = 0x000000a2, -SPI_PERF_RA_WVLIM_STALL_ES = 0x000000a3, -SPI_PERF_RA_WVLIM_STALL_HS = 0x000000a4, -SPI_PERF_RA_WVLIM_STALL_LS = 0x000000a5, -SPI_PERF_RA_WVLIM_STALL_CSG = 0x000000a6, -SPI_PERF_RA_WVLIM_STALL_CSN = 0x000000a7, -SPI_PERF_RA_PS_LOCK_NA = 0x000000a8, -SPI_PERF_RA_VS_LOCK = 0x000000a9, -SPI_PERF_RA_GS_LOCK = 0x000000aa, -SPI_PERF_RA_ES_LOCK = 0x000000ab, -SPI_PERF_RA_HS_LOCK = 0x000000ac, -SPI_PERF_RA_LS_LOCK = 0x000000ad, -SPI_PERF_RA_CSG_LOCK = 0x000000ae, -SPI_PERF_RA_CSN_LOCK = 0x000000af, -SPI_PERF_RA_RSV_UPD = 0x000000b0, -SPI_PERF_EXP_ARB_COL_CNT = 0x000000b1, -SPI_PERF_EXP_ARB_PAR_CNT = 0x000000b2, -SPI_PERF_EXP_ARB_POS_CNT = 0x000000b3, -SPI_PERF_EXP_ARB_GDS_CNT = 0x000000b4, -SPI_PERF_CLKGATE_BUSY_STALL = 0x000000b5, -SPI_PERF_CLKGATE_ACTIVE_STALL = 0x000000b6, -SPI_PERF_CLKGATE_ALL_CLOCKS_ON = 0x000000b7, -SPI_PERF_CLKGATE_CGTT_DYN_ON = 0x000000b8, -SPI_PERF_CLKGATE_CGTT_REG_ON = 0x000000b9, -SPI_PERF_NUM_VS_POS_EXPORTS = 0x000000ba, -SPI_PERF_NUM_VS_PARAM_EXPORTS = 0x000000bb, -SPI_PERF_NUM_PS_COL_EXPORTS = 0x000000bc, -SPI_PERF_ES_GRP_FIFO_FULL = 0x000000bd, -SPI_PERF_GS_GRP_FIFO_FULL = 0x000000be, -SPI_PERF_HS_GRP_FIFO_FULL = 0x000000bf, -SPI_PERF_LS_GRP_FIFO_FULL = 0x000000c0, -SPI_PERF_VS_ALLOC_CNT = 0x000000c1, -SPI_PERF_VS_LATE_ALLOC_ACCUM = 0x000000c2, -SPI_PERF_PC_ALLOC_CNT = 0x000000c3, -SPI_PERF_PC_ALLOC_ACCUM = 0x000000c4, -} SPI_PERFCNT_SEL; - -/* - * SPI_SHADER_FORMAT enum - */ - -typedef enum SPI_SHADER_FORMAT { -SPI_SHADER_NONE = 0x00000000, -SPI_SHADER_1COMP = 0x00000001, -SPI_SHADER_2COMP = 0x00000002, -SPI_SHADER_4COMPRESS = 0x00000003, -SPI_SHADER_4COMP = 0x00000004, -} SPI_SHADER_FORMAT; - -/* - * SPI_SHADER_EX_FORMAT enum - */ - -typedef enum SPI_SHADER_EX_FORMAT { -SPI_SHADER_ZERO = 0x00000000, -SPI_SHADER_32_R = 0x00000001, -SPI_SHADER_32_GR = 0x00000002, -SPI_SHADER_32_AR = 0x00000003, -SPI_SHADER_FP16_ABGR = 0x00000004, -SPI_SHADER_UNORM16_ABGR = 0x00000005, -SPI_SHADER_SNORM16_ABGR = 0x00000006, -SPI_SHADER_UINT16_ABGR = 0x00000007, -SPI_SHADER_SINT16_ABGR = 0x00000008, -SPI_SHADER_32_ABGR = 0x00000009, -} SPI_SHADER_EX_FORMAT; - -/* - * CLKGATE_SM_MODE enum - */ - -typedef enum CLKGATE_SM_MODE { -ON_SEQ = 0x00000000, -OFF_SEQ = 0x00000001, -PROG_SEQ = 0x00000002, -READ_SEQ = 0x00000003, -SM_MODE_RESERVED = 0x00000004, -} CLKGATE_SM_MODE; - -/* - * CLKGATE_BASE_MODE enum - */ - -typedef enum CLKGATE_BASE_MODE { -MULT_8 = 0x00000000, -MULT_16 = 0x00000001, -} CLKGATE_BASE_MODE; - -/******************************************************* - * SQ Enums - *******************************************************/ - -/* - * SQ_TEX_CLAMP enum - */ - -typedef enum SQ_TEX_CLAMP { -SQ_TEX_WRAP = 0x00000000, -SQ_TEX_MIRROR = 0x00000001, -SQ_TEX_CLAMP_LAST_TEXEL = 0x00000002, -SQ_TEX_MIRROR_ONCE_LAST_TEXEL = 0x00000003, -SQ_TEX_CLAMP_HALF_BORDER = 0x00000004, -SQ_TEX_MIRROR_ONCE_HALF_BORDER = 0x00000005, -SQ_TEX_CLAMP_BORDER = 0x00000006, -SQ_TEX_MIRROR_ONCE_BORDER = 0x00000007, -} SQ_TEX_CLAMP; - -/* - * SQ_TEX_XY_FILTER enum - */ - -typedef enum SQ_TEX_XY_FILTER { -SQ_TEX_XY_FILTER_POINT = 0x00000000, -SQ_TEX_XY_FILTER_BILINEAR = 0x00000001, -SQ_TEX_XY_FILTER_ANISO_POINT = 0x00000002, -SQ_TEX_XY_FILTER_ANISO_BILINEAR = 0x00000003, -} SQ_TEX_XY_FILTER; - -/* - * SQ_TEX_Z_FILTER enum - */ - -typedef enum SQ_TEX_Z_FILTER { -SQ_TEX_Z_FILTER_NONE = 0x00000000, -SQ_TEX_Z_FILTER_POINT = 0x00000001, -SQ_TEX_Z_FILTER_LINEAR = 0x00000002, -} SQ_TEX_Z_FILTER; - -/* - * SQ_TEX_MIP_FILTER enum - */ - -typedef enum SQ_TEX_MIP_FILTER { -SQ_TEX_MIP_FILTER_NONE = 0x00000000, -SQ_TEX_MIP_FILTER_POINT = 0x00000001, -SQ_TEX_MIP_FILTER_LINEAR = 0x00000002, -SQ_TEX_MIP_FILTER_POINT_ANISO_ADJ = 0x00000003, -} SQ_TEX_MIP_FILTER; - -/* - * SQ_TEX_ANISO_RATIO enum - */ - -typedef enum SQ_TEX_ANISO_RATIO { -SQ_TEX_ANISO_RATIO_1 = 0x00000000, -SQ_TEX_ANISO_RATIO_2 = 0x00000001, -SQ_TEX_ANISO_RATIO_4 = 0x00000002, -SQ_TEX_ANISO_RATIO_8 = 0x00000003, -SQ_TEX_ANISO_RATIO_16 = 0x00000004, -} SQ_TEX_ANISO_RATIO; - -/* - * SQ_TEX_DEPTH_COMPARE enum - */ - -typedef enum SQ_TEX_DEPTH_COMPARE { -SQ_TEX_DEPTH_COMPARE_NEVER = 0x00000000, -SQ_TEX_DEPTH_COMPARE_LESS = 0x00000001, -SQ_TEX_DEPTH_COMPARE_EQUAL = 0x00000002, -SQ_TEX_DEPTH_COMPARE_LESSEQUAL = 0x00000003, -SQ_TEX_DEPTH_COMPARE_GREATER = 0x00000004, -SQ_TEX_DEPTH_COMPARE_NOTEQUAL = 0x00000005, -SQ_TEX_DEPTH_COMPARE_GREATEREQUAL = 0x00000006, -SQ_TEX_DEPTH_COMPARE_ALWAYS = 0x00000007, -} SQ_TEX_DEPTH_COMPARE; - -/* - * SQ_TEX_BORDER_COLOR enum - */ - -typedef enum SQ_TEX_BORDER_COLOR { -SQ_TEX_BORDER_COLOR_TRANS_BLACK = 0x00000000, -SQ_TEX_BORDER_COLOR_OPAQUE_BLACK = 0x00000001, -SQ_TEX_BORDER_COLOR_OPAQUE_WHITE = 0x00000002, -SQ_TEX_BORDER_COLOR_REGISTER = 0x00000003, -} SQ_TEX_BORDER_COLOR; - -/* - * SQ_RSRC_BUF_TYPE enum - */ - -typedef enum SQ_RSRC_BUF_TYPE { -SQ_RSRC_BUF = 0x00000000, -SQ_RSRC_BUF_RSVD_1 = 0x00000001, -SQ_RSRC_BUF_RSVD_2 = 0x00000002, -SQ_RSRC_BUF_RSVD_3 = 0x00000003, -} SQ_RSRC_BUF_TYPE; - -/* - * SQ_RSRC_IMG_TYPE enum - */ - -typedef enum SQ_RSRC_IMG_TYPE { -SQ_RSRC_IMG_RSVD_0 = 0x00000000, -SQ_RSRC_IMG_RSVD_1 = 0x00000001, -SQ_RSRC_IMG_RSVD_2 = 0x00000002, -SQ_RSRC_IMG_RSVD_3 = 0x00000003, -SQ_RSRC_IMG_RSVD_4 = 0x00000004, -SQ_RSRC_IMG_RSVD_5 = 0x00000005, -SQ_RSRC_IMG_RSVD_6 = 0x00000006, -SQ_RSRC_IMG_RSVD_7 = 0x00000007, -SQ_RSRC_IMG_1D = 0x00000008, -SQ_RSRC_IMG_2D = 0x00000009, -SQ_RSRC_IMG_3D = 0x0000000a, -SQ_RSRC_IMG_CUBE = 0x0000000b, -SQ_RSRC_IMG_1D_ARRAY = 0x0000000c, -SQ_RSRC_IMG_2D_ARRAY = 0x0000000d, -SQ_RSRC_IMG_2D_MSAA = 0x0000000e, -SQ_RSRC_IMG_2D_MSAA_ARRAY = 0x0000000f, -} SQ_RSRC_IMG_TYPE; - -/* - * SQ_RSRC_FLAT_TYPE enum - */ - -typedef enum SQ_RSRC_FLAT_TYPE { -SQ_RSRC_FLAT_RSVD_0 = 0x00000000, -SQ_RSRC_FLAT = 0x00000001, -SQ_RSRC_FLAT_RSVD_2 = 0x00000002, -SQ_RSRC_FLAT_RSVD_3 = 0x00000003, -} SQ_RSRC_FLAT_TYPE; - -/* - * SQ_IMG_FILTER_TYPE enum - */ - -typedef enum SQ_IMG_FILTER_TYPE { -SQ_IMG_FILTER_MODE_BLEND = 0x00000000, -SQ_IMG_FILTER_MODE_MIN = 0x00000001, -SQ_IMG_FILTER_MODE_MAX = 0x00000002, -} SQ_IMG_FILTER_TYPE; - -/* - * SQ_SEL_XYZW01 enum - */ - -typedef enum SQ_SEL_XYZW01 { -SQ_SEL_0 = 0x00000000, -SQ_SEL_1 = 0x00000001, -SQ_SEL_RESERVED_0 = 0x00000002, -SQ_SEL_RESERVED_1 = 0x00000003, -SQ_SEL_X = 0x00000004, -SQ_SEL_Y = 0x00000005, -SQ_SEL_Z = 0x00000006, -SQ_SEL_W = 0x00000007, -} SQ_SEL_XYZW01; - -/* - * SQ_WAVE_TYPE enum - */ - -typedef enum SQ_WAVE_TYPE { -SQ_WAVE_TYPE_PS = 0x00000000, -SQ_WAVE_TYPE_VS = 0x00000001, -SQ_WAVE_TYPE_GS = 0x00000002, -SQ_WAVE_TYPE_ES = 0x00000003, -SQ_WAVE_TYPE_HS = 0x00000004, -SQ_WAVE_TYPE_LS = 0x00000005, -SQ_WAVE_TYPE_CS = 0x00000006, -SQ_WAVE_TYPE_PS1 = 0x00000007, -} SQ_WAVE_TYPE; - -/* - * SQ_THREAD_TRACE_TOKEN_TYPE enum - */ - -typedef enum SQ_THREAD_TRACE_TOKEN_TYPE { -SQ_THREAD_TRACE_TOKEN_MISC = 0x00000000, -SQ_THREAD_TRACE_TOKEN_TIMESTAMP = 0x00000001, -SQ_THREAD_TRACE_TOKEN_REG = 0x00000002, -SQ_THREAD_TRACE_TOKEN_WAVE_START = 0x00000003, -SQ_THREAD_TRACE_TOKEN_WAVE_ALLOC = 0x00000004, -SQ_THREAD_TRACE_TOKEN_REG_CSPRIV = 0x00000005, -SQ_THREAD_TRACE_TOKEN_WAVE_END = 0x00000006, -SQ_THREAD_TRACE_TOKEN_EVENT = 0x00000007, -SQ_THREAD_TRACE_TOKEN_EVENT_CS = 0x00000008, -SQ_THREAD_TRACE_TOKEN_EVENT_GFX1 = 0x00000009, -SQ_THREAD_TRACE_TOKEN_INST = 0x0000000a, -SQ_THREAD_TRACE_TOKEN_INST_PC = 0x0000000b, -SQ_THREAD_TRACE_TOKEN_INST_USERDATA = 0x0000000c, -SQ_THREAD_TRACE_TOKEN_ISSUE = 0x0000000d, -SQ_THREAD_TRACE_TOKEN_PERF = 0x0000000e, -SQ_THREAD_TRACE_TOKEN_REG_CS = 0x0000000f, -} SQ_THREAD_TRACE_TOKEN_TYPE; - -/* - * SQ_THREAD_TRACE_MISC_TOKEN_TYPE enum - */ - -typedef enum SQ_THREAD_TRACE_MISC_TOKEN_TYPE { -SQ_THREAD_TRACE_MISC_TOKEN_TIME = 0x00000000, -SQ_THREAD_TRACE_MISC_TOKEN_TIME_RESET = 0x00000001, -SQ_THREAD_TRACE_MISC_TOKEN_PACKET_LOST = 0x00000002, -SQ_THREAD_TRACE_MISC_TOKEN_SURF_SYNC = 0x00000003, -SQ_THREAD_TRACE_MISC_TOKEN_TTRACE_STALL_BEGIN = 0x00000004, -SQ_THREAD_TRACE_MISC_TOKEN_TTRACE_STALL_END = 0x00000005, -SQ_THREAD_TRACE_MISC_TOKEN_SAVECTX = 0x00000006, -SQ_THREAD_TRACE_MISC_TOKEN_SHOOT_DOWN = 0x00000007, -} SQ_THREAD_TRACE_MISC_TOKEN_TYPE; - -/* - * SQ_THREAD_TRACE_INST_TYPE enum - */ - -typedef enum SQ_THREAD_TRACE_INST_TYPE { -SQ_THREAD_TRACE_INST_TYPE_SMEM_RD = 0x00000000, -SQ_THREAD_TRACE_INST_TYPE_SALU_32 = 0x00000001, -SQ_THREAD_TRACE_INST_TYPE_VMEM_RD = 0x00000002, -SQ_THREAD_TRACE_INST_TYPE_VMEM_WR = 0x00000003, -SQ_THREAD_TRACE_INST_TYPE_FLAT_WR = 0x00000004, -SQ_THREAD_TRACE_INST_TYPE_VALU_32 = 0x00000005, -SQ_THREAD_TRACE_INST_TYPE_LDS = 0x00000006, -SQ_THREAD_TRACE_INST_TYPE_PC = 0x00000007, -SQ_THREAD_TRACE_INST_TYPE_EXPREQ_GDS = 0x00000008, -SQ_THREAD_TRACE_INST_TYPE_EXPREQ_GFX = 0x00000009, -SQ_THREAD_TRACE_INST_TYPE_EXPGNT_PAR_COL = 0x0000000a, -SQ_THREAD_TRACE_INST_TYPE_EXPGNT_POS_GDS = 0x0000000b, -SQ_THREAD_TRACE_INST_TYPE_JUMP = 0x0000000c, -SQ_THREAD_TRACE_INST_TYPE_NEXT = 0x0000000d, -SQ_THREAD_TRACE_INST_TYPE_FLAT_RD = 0x0000000e, -SQ_THREAD_TRACE_INST_TYPE_OTHER_MSG = 0x0000000f, -SQ_THREAD_TRACE_INST_TYPE_SMEM_WR = 0x00000010, -SQ_THREAD_TRACE_INST_TYPE_SALU_64 = 0x00000011, -SQ_THREAD_TRACE_INST_TYPE_VALU_64 = 0x00000012, -SQ_THREAD_TRACE_INST_TYPE_SMEM_RD_REPLAY = 0x00000013, -SQ_THREAD_TRACE_INST_TYPE_SMEM_WR_REPLAY = 0x00000014, -SQ_THREAD_TRACE_INST_TYPE_VMEM_RD_REPLAY = 0x00000015, -SQ_THREAD_TRACE_INST_TYPE_VMEM_WR_REPLAY = 0x00000016, -SQ_THREAD_TRACE_INST_TYPE_FLAT_RD_REPLAY = 0x00000017, -SQ_THREAD_TRACE_INST_TYPE_FLAT_WR_REPLAY = 0x00000018, -SQ_THREAD_TRACE_INST_TYPE_FATAL_HALT = 0x00000019, -} SQ_THREAD_TRACE_INST_TYPE; - -/* - * SQ_THREAD_TRACE_REG_TYPE enum - */ - -typedef enum SQ_THREAD_TRACE_REG_TYPE { -SQ_THREAD_TRACE_REG_TYPE_EVENT = 0x00000000, -SQ_THREAD_TRACE_REG_TYPE_DRAW = 0x00000001, -SQ_THREAD_TRACE_REG_TYPE_DISPATCH = 0x00000002, -SQ_THREAD_TRACE_REG_TYPE_USERDATA = 0x00000003, -SQ_THREAD_TRACE_REG_TYPE_MARKER = 0x00000004, -SQ_THREAD_TRACE_REG_TYPE_GFXDEC = 0x00000005, -SQ_THREAD_TRACE_REG_TYPE_SHDEC = 0x00000006, -SQ_THREAD_TRACE_REG_TYPE_OTHER = 0x00000007, -} SQ_THREAD_TRACE_REG_TYPE; - -/* - * SQ_THREAD_TRACE_REG_OP enum - */ - -typedef enum SQ_THREAD_TRACE_REG_OP { -SQ_THREAD_TRACE_REG_OP_READ = 0x00000000, -SQ_THREAD_TRACE_REG_OP_WRITE = 0x00000001, -} SQ_THREAD_TRACE_REG_OP; - -/* - * SQ_THREAD_TRACE_MODE_SEL enum - */ - -typedef enum SQ_THREAD_TRACE_MODE_SEL { -SQ_THREAD_TRACE_MODE_OFF = 0x00000000, -SQ_THREAD_TRACE_MODE_ON = 0x00000001, -} SQ_THREAD_TRACE_MODE_SEL; - -/* - * SQ_THREAD_TRACE_CAPTURE_MODE enum - */ - -typedef enum SQ_THREAD_TRACE_CAPTURE_MODE { -SQ_THREAD_TRACE_CAPTURE_MODE_ALL = 0x00000000, -SQ_THREAD_TRACE_CAPTURE_MODE_SELECT = 0x00000001, -SQ_THREAD_TRACE_CAPTURE_MODE_SELECT_DETAIL = 0x00000002, -} SQ_THREAD_TRACE_CAPTURE_MODE; - -/* - * SQ_THREAD_TRACE_VM_ID_MASK enum - */ - -typedef enum SQ_THREAD_TRACE_VM_ID_MASK { -SQ_THREAD_TRACE_VM_ID_MASK_SINGLE = 0x00000000, -SQ_THREAD_TRACE_VM_ID_MASK_ALL = 0x00000001, -SQ_THREAD_TRACE_VM_ID_MASK_SINGLE_DETAIL = 0x00000002, -} SQ_THREAD_TRACE_VM_ID_MASK; - -/* - * SQ_THREAD_TRACE_WAVE_MASK enum - */ - -typedef enum SQ_THREAD_TRACE_WAVE_MASK { -SQ_THREAD_TRACE_WAVE_MASK_NONE = 0x00000000, -SQ_THREAD_TRACE_WAVE_MASK_ALL = 0x00000001, -} SQ_THREAD_TRACE_WAVE_MASK; - -/* - * SQ_THREAD_TRACE_ISSUE enum - */ - -typedef enum SQ_THREAD_TRACE_ISSUE { -SQ_THREAD_TRACE_ISSUE_NULL = 0x00000000, -SQ_THREAD_TRACE_ISSUE_STALL = 0x00000001, -SQ_THREAD_TRACE_ISSUE_INST = 0x00000002, -SQ_THREAD_TRACE_ISSUE_IMMED = 0x00000003, -} SQ_THREAD_TRACE_ISSUE; - -/* - * SQ_THREAD_TRACE_ISSUE_MASK enum - */ - -typedef enum SQ_THREAD_TRACE_ISSUE_MASK { -SQ_THREAD_TRACE_ISSUE_MASK_ALL = 0x00000000, -SQ_THREAD_TRACE_ISSUE_MASK_STALLED = 0x00000001, -SQ_THREAD_TRACE_ISSUE_MASK_STALLED_AND_IMMED = 0x00000002, -SQ_THREAD_TRACE_ISSUE_MASK_IMMED = 0x00000003, -} SQ_THREAD_TRACE_ISSUE_MASK; - -/* - * SQ_PERF_SEL enum - */ - -typedef enum SQ_PERF_SEL { -SQ_PERF_SEL_NONE = 0x00000000, -SQ_PERF_SEL_ACCUM_PREV = 0x00000001, -SQ_PERF_SEL_CYCLES = 0x00000002, -SQ_PERF_SEL_BUSY_CYCLES = 0x00000003, -SQ_PERF_SEL_WAVES = 0x00000004, -SQ_PERF_SEL_LEVEL_WAVES = 0x00000005, -SQ_PERF_SEL_WAVES_EQ_64 = 0x00000006, -SQ_PERF_SEL_WAVES_LT_64 = 0x00000007, -SQ_PERF_SEL_WAVES_LT_48 = 0x00000008, -SQ_PERF_SEL_WAVES_LT_32 = 0x00000009, -SQ_PERF_SEL_WAVES_LT_16 = 0x0000000a, -SQ_PERF_SEL_WAVES_CU = 0x0000000b, -SQ_PERF_SEL_LEVEL_WAVES_CU = 0x0000000c, -SQ_PERF_SEL_BUSY_CU_CYCLES = 0x0000000d, -SQ_PERF_SEL_ITEMS = 0x0000000e, -SQ_PERF_SEL_QUADS = 0x0000000f, -SQ_PERF_SEL_EVENTS = 0x00000010, -SQ_PERF_SEL_SURF_SYNCS = 0x00000011, -SQ_PERF_SEL_TTRACE_REQS = 0x00000012, -SQ_PERF_SEL_TTRACE_INFLIGHT_REQS = 0x00000013, -SQ_PERF_SEL_TTRACE_STALL = 0x00000014, -SQ_PERF_SEL_MSG_CNTR = 0x00000015, -SQ_PERF_SEL_MSG_PERF = 0x00000016, -SQ_PERF_SEL_MSG_GSCNT = 0x00000017, -SQ_PERF_SEL_MSG_INTERRUPT = 0x00000018, -SQ_PERF_SEL_INSTS = 0x00000019, -SQ_PERF_SEL_INSTS_VALU = 0x0000001a, -SQ_PERF_SEL_INSTS_VMEM_WR = 0x0000001b, -SQ_PERF_SEL_INSTS_VMEM_RD = 0x0000001c, -SQ_PERF_SEL_INSTS_VMEM = 0x0000001d, -SQ_PERF_SEL_INSTS_SALU = 0x0000001e, -SQ_PERF_SEL_INSTS_SMEM = 0x0000001f, -SQ_PERF_SEL_INSTS_FLAT = 0x00000020, -SQ_PERF_SEL_INSTS_FLAT_LDS_ONLY = 0x00000021, -SQ_PERF_SEL_INSTS_LDS = 0x00000022, -SQ_PERF_SEL_INSTS_GDS = 0x00000023, -SQ_PERF_SEL_INSTS_EXP = 0x00000024, -SQ_PERF_SEL_INSTS_EXP_GDS = 0x00000025, -SQ_PERF_SEL_INSTS_BRANCH = 0x00000026, -SQ_PERF_SEL_INSTS_SENDMSG = 0x00000027, -SQ_PERF_SEL_INSTS_VSKIPPED = 0x00000028, -SQ_PERF_SEL_INST_LEVEL_VMEM = 0x00000029, -SQ_PERF_SEL_INST_LEVEL_SMEM = 0x0000002a, -SQ_PERF_SEL_INST_LEVEL_LDS = 0x0000002b, -SQ_PERF_SEL_INST_LEVEL_GDS = 0x0000002c, -SQ_PERF_SEL_INST_LEVEL_EXP = 0x0000002d, -SQ_PERF_SEL_WAVE_CYCLES = 0x0000002e, -SQ_PERF_SEL_WAVE_READY = 0x0000002f, -SQ_PERF_SEL_WAIT_CNT_VM = 0x00000030, -SQ_PERF_SEL_WAIT_CNT_LGKM = 0x00000031, -SQ_PERF_SEL_WAIT_CNT_EXP = 0x00000032, -SQ_PERF_SEL_WAIT_CNT_ANY = 0x00000033, -SQ_PERF_SEL_WAIT_BARRIER = 0x00000034, -SQ_PERF_SEL_WAIT_EXP_ALLOC = 0x00000035, -SQ_PERF_SEL_WAIT_SLEEP = 0x00000036, -SQ_PERF_SEL_WAIT_SLEEP_XNACK = 0x00000037, -SQ_PERF_SEL_WAIT_OTHER = 0x00000038, -SQ_PERF_SEL_WAIT_ANY = 0x00000039, -SQ_PERF_SEL_WAIT_TTRACE = 0x0000003a, -SQ_PERF_SEL_WAIT_IFETCH = 0x0000003b, -SQ_PERF_SEL_WAIT_INST_ANY = 0x0000003c, -SQ_PERF_SEL_WAIT_INST_VMEM = 0x0000003d, -SQ_PERF_SEL_WAIT_INST_SCA = 0x0000003e, -SQ_PERF_SEL_WAIT_INST_LDS = 0x0000003f, -SQ_PERF_SEL_WAIT_INST_VALU = 0x00000040, -SQ_PERF_SEL_WAIT_INST_EXP_GDS = 0x00000041, -SQ_PERF_SEL_WAIT_INST_MISC = 0x00000042, -SQ_PERF_SEL_WAIT_INST_FLAT = 0x00000043, -SQ_PERF_SEL_ACTIVE_INST_ANY = 0x00000044, -SQ_PERF_SEL_ACTIVE_INST_VMEM = 0x00000045, -SQ_PERF_SEL_ACTIVE_INST_LDS = 0x00000046, -SQ_PERF_SEL_ACTIVE_INST_VALU = 0x00000047, -SQ_PERF_SEL_ACTIVE_INST_SCA = 0x00000048, -SQ_PERF_SEL_ACTIVE_INST_EXP_GDS = 0x00000049, -SQ_PERF_SEL_ACTIVE_INST_MISC = 0x0000004a, -SQ_PERF_SEL_ACTIVE_INST_FLAT = 0x0000004b, -SQ_PERF_SEL_INST_CYCLES_VMEM_WR = 0x0000004c, -SQ_PERF_SEL_INST_CYCLES_VMEM_RD = 0x0000004d, -SQ_PERF_SEL_INST_CYCLES_VMEM_ADDR = 0x0000004e, -SQ_PERF_SEL_INST_CYCLES_VMEM_DATA = 0x0000004f, -SQ_PERF_SEL_INST_CYCLES_VMEM_CMD = 0x00000050, -SQ_PERF_SEL_INST_CYCLES_EXP = 0x00000051, -SQ_PERF_SEL_INST_CYCLES_GDS = 0x00000052, -SQ_PERF_SEL_INST_CYCLES_SMEM = 0x00000053, -SQ_PERF_SEL_INST_CYCLES_SALU = 0x00000054, -SQ_PERF_SEL_THREAD_CYCLES_VALU = 0x00000055, -SQ_PERF_SEL_THREAD_CYCLES_VALU_MAX = 0x00000056, -SQ_PERF_SEL_IFETCH = 0x00000057, -SQ_PERF_SEL_IFETCH_LEVEL = 0x00000058, -SQ_PERF_SEL_CBRANCH_FORK = 0x00000059, -SQ_PERF_SEL_CBRANCH_FORK_SPLIT = 0x0000005a, -SQ_PERF_SEL_VALU_LDS_DIRECT_RD = 0x0000005b, -SQ_PERF_SEL_VALU_LDS_INTERP_OP = 0x0000005c, -SQ_PERF_SEL_LDS_BANK_CONFLICT = 0x0000005d, -SQ_PERF_SEL_LDS_ADDR_CONFLICT = 0x0000005e, -SQ_PERF_SEL_LDS_UNALIGNED_STALL = 0x0000005f, -SQ_PERF_SEL_LDS_MEM_VIOLATIONS = 0x00000060, -SQ_PERF_SEL_LDS_ATOMIC_RETURN = 0x00000061, -SQ_PERF_SEL_LDS_IDX_ACTIVE = 0x00000062, -SQ_PERF_SEL_VALU_DEP_STALL = 0x00000063, -SQ_PERF_SEL_VALU_STARVE = 0x00000064, -SQ_PERF_SEL_EXP_REQ_FIFO_FULL = 0x00000065, -SQ_PERF_SEL_LDS_DATA_FIFO_FULL = 0x00000066, -SQ_PERF_SEL_LDS_CMD_FIFO_FULL = 0x00000067, -SQ_PERF_SEL_VMEM_TA_ADDR_FIFO_FULL = 0x00000068, -SQ_PERF_SEL_VMEM_TA_CMD_FIFO_FULL = 0x00000069, -SQ_PERF_SEL_VMEM_EX_DATA_REG_BUSY = 0x0000006a, -SQ_PERF_SEL_VMEM_WR_TA_DATA_FIFO_FULL = 0x0000006b, -SQ_PERF_SEL_VALU_SRC_C_CONFLICT = 0x0000006c, -SQ_PERF_SEL_VMEM_RD_SRC_CD_CONFLICT = 0x0000006d, -SQ_PERF_SEL_VMEM_WR_SRC_CD_CONFLICT = 0x0000006e, -SQ_PERF_SEL_FLAT_SRC_CD_CONFLICT = 0x0000006f, -SQ_PERF_SEL_LDS_SRC_CD_CONFLICT = 0x00000070, -SQ_PERF_SEL_SRC_CD_BUSY = 0x00000071, -SQ_PERF_SEL_PT_POWER_STALL = 0x00000072, -SQ_PERF_SEL_USER0 = 0x00000073, -SQ_PERF_SEL_USER1 = 0x00000074, -SQ_PERF_SEL_USER2 = 0x00000075, -SQ_PERF_SEL_USER3 = 0x00000076, -SQ_PERF_SEL_USER4 = 0x00000077, -SQ_PERF_SEL_USER5 = 0x00000078, -SQ_PERF_SEL_USER6 = 0x00000079, -SQ_PERF_SEL_USER7 = 0x0000007a, -SQ_PERF_SEL_USER8 = 0x0000007b, -SQ_PERF_SEL_USER9 = 0x0000007c, -SQ_PERF_SEL_USER10 = 0x0000007d, -SQ_PERF_SEL_USER11 = 0x0000007e, -SQ_PERF_SEL_USER12 = 0x0000007f, -SQ_PERF_SEL_USER13 = 0x00000080, -SQ_PERF_SEL_USER14 = 0x00000081, -SQ_PERF_SEL_USER15 = 0x00000082, -SQ_PERF_SEL_USER_LEVEL0 = 0x00000083, -SQ_PERF_SEL_USER_LEVEL1 = 0x00000084, -SQ_PERF_SEL_USER_LEVEL2 = 0x00000085, -SQ_PERF_SEL_USER_LEVEL3 = 0x00000086, -SQ_PERF_SEL_USER_LEVEL4 = 0x00000087, -SQ_PERF_SEL_USER_LEVEL5 = 0x00000088, -SQ_PERF_SEL_USER_LEVEL6 = 0x00000089, -SQ_PERF_SEL_USER_LEVEL7 = 0x0000008a, -SQ_PERF_SEL_USER_LEVEL8 = 0x0000008b, -SQ_PERF_SEL_USER_LEVEL9 = 0x0000008c, -SQ_PERF_SEL_USER_LEVEL10 = 0x0000008d, -SQ_PERF_SEL_USER_LEVEL11 = 0x0000008e, -SQ_PERF_SEL_USER_LEVEL12 = 0x0000008f, -SQ_PERF_SEL_USER_LEVEL13 = 0x00000090, -SQ_PERF_SEL_USER_LEVEL14 = 0x00000091, -SQ_PERF_SEL_USER_LEVEL15 = 0x00000092, -SQ_PERF_SEL_POWER_VALU = 0x00000093, -SQ_PERF_SEL_POWER_VALU0 = 0x00000094, -SQ_PERF_SEL_POWER_VALU1 = 0x00000095, -SQ_PERF_SEL_POWER_VALU2 = 0x00000096, -SQ_PERF_SEL_POWER_GPR_RD = 0x00000097, -SQ_PERF_SEL_POWER_GPR_WR = 0x00000098, -SQ_PERF_SEL_POWER_LDS_BUSY = 0x00000099, -SQ_PERF_SEL_POWER_ALU_BUSY = 0x0000009a, -SQ_PERF_SEL_POWER_TEX_BUSY = 0x0000009b, -SQ_PERF_SEL_ACCUM_PREV_HIRES = 0x0000009c, -SQ_PERF_SEL_WAVES_RESTORED = 0x0000009d, -SQ_PERF_SEL_WAVES_SAVED = 0x0000009e, -SQ_PERF_SEL_INSTS_SMEM_NORM = 0x0000009f, -SQ_PERF_SEL_ATC_INSTS_VMEM = 0x000000a0, -SQ_PERF_SEL_ATC_INST_LEVEL_VMEM = 0x000000a1, -SQ_PERF_SEL_ATC_XNACK_FIRST = 0x000000a2, -SQ_PERF_SEL_ATC_XNACK_ALL = 0x000000a3, -SQ_PERF_SEL_ATC_XNACK_FIFO_FULL = 0x000000a4, -SQ_PERF_SEL_ATC_INSTS_SMEM = 0x000000a5, -SQ_PERF_SEL_ATC_INST_LEVEL_SMEM = 0x000000a6, -SQ_PERF_SEL_IFETCH_XNACK = 0x000000a7, -SQ_PERF_SEL_TLB_SHOOTDOWN = 0x000000a8, -SQ_PERF_SEL_TLB_SHOOTDOWN_CYCLES = 0x000000a9, -SQ_PERF_SEL_INSTS_VMEM_WR_REPLAY = 0x000000aa, -SQ_PERF_SEL_INSTS_VMEM_RD_REPLAY = 0x000000ab, -SQ_PERF_SEL_INSTS_VMEM_REPLAY = 0x000000ac, -SQ_PERF_SEL_INSTS_SMEM_REPLAY = 0x000000ad, -SQ_PERF_SEL_INSTS_SMEM_NORM_REPLAY = 0x000000ae, -SQ_PERF_SEL_INSTS_FLAT_REPLAY = 0x000000af, -SQ_PERF_SEL_ATC_INSTS_VMEM_REPLAY = 0x000000b0, -SQ_PERF_SEL_ATC_INSTS_SMEM_REPLAY = 0x000000b1, -SQ_PERF_SEL_UTCL1_TRANSLATION_MISS = 0x000000b2, -SQ_PERF_SEL_UTCL1_PERMISSION_MISS = 0x000000b3, -SQ_PERF_SEL_UTCL1_REQUEST = 0x000000b4, -SQ_PERF_SEL_UTCL1_STALL_MISSFIFO_FULL = 0x000000b5, -SQ_PERF_SEL_UTCL1_STALL_INFLIGHT_MAX = 0x000000b6, -SQ_PERF_SEL_UTCL1_STALL_LRU_INFLIGHT = 0x000000b7, -SQ_PERF_SEL_UTCL1_LFIFO_FULL = 0x000000b8, -SQ_PERF_SEL_UTCL1_STALL_LFIFO_NOT_RES = 0x000000b9, -SQ_PERF_SEL_UTCL1_STALL_UTCL2_REQ_OUT_OF_CREDITS = 0x000000ba, -SQ_PERF_SEL_DUMMY_END = 0x000000bb, -SQ_PERF_SEL_DUMMY_LAST = 0x000000ff, -SQC_PERF_SEL_ICACHE_INPUT_VALID_READY = 0x00000100, -SQC_PERF_SEL_ICACHE_INPUT_VALID_READYB = 0x00000101, -SQC_PERF_SEL_ICACHE_INPUT_VALIDB = 0x00000102, -SQC_PERF_SEL_DCACHE_INPUT_VALID_READY = 0x00000103, -SQC_PERF_SEL_DCACHE_INPUT_VALID_READYB = 0x00000104, -SQC_PERF_SEL_DCACHE_INPUT_VALIDB = 0x00000105, -SQC_PERF_SEL_TC_REQ = 0x00000106, -SQC_PERF_SEL_TC_INST_REQ = 0x00000107, -SQC_PERF_SEL_TC_DATA_READ_REQ = 0x00000108, -SQC_PERF_SEL_TC_DATA_WRITE_REQ = 0x00000109, -SQC_PERF_SEL_TC_DATA_ATOMIC_REQ = 0x0000010a, -SQC_PERF_SEL_TC_STALL = 0x0000010b, -SQC_PERF_SEL_TC_STARVE = 0x0000010c, -SQC_PERF_SEL_ICACHE_BUSY_CYCLES = 0x0000010d, -SQC_PERF_SEL_ICACHE_REQ = 0x0000010e, -SQC_PERF_SEL_ICACHE_HITS = 0x0000010f, -SQC_PERF_SEL_ICACHE_MISSES = 0x00000110, -SQC_PERF_SEL_ICACHE_MISSES_DUPLICATE = 0x00000111, -SQC_PERF_SEL_ICACHE_INVAL_INST = 0x00000112, -SQC_PERF_SEL_ICACHE_INVAL_ASYNC = 0x00000113, -SQC_PERF_SEL_ICACHE_INPUT_STALL_ARB_NO_GRANT = 0x00000114, -SQC_PERF_SEL_ICACHE_INPUT_STALL_BANK_READYB = 0x00000115, -SQC_PERF_SEL_ICACHE_CACHE_STALLED = 0x00000116, -SQC_PERF_SEL_ICACHE_CACHE_STALL_INFLIGHT_NONZERO = 0x00000117, -SQC_PERF_SEL_ICACHE_CACHE_STALL_INFLIGHT_MAX = 0x00000118, -SQC_PERF_SEL_ICACHE_CACHE_STALL_OUTPUT = 0x00000119, -SQC_PERF_SEL_ICACHE_CACHE_STALL_OUTPUT_MISS_FIFO = 0x0000011a, -SQC_PERF_SEL_ICACHE_CACHE_STALL_OUTPUT_HIT_FIFO = 0x0000011b, -SQC_PERF_SEL_ICACHE_CACHE_STALL_OUTPUT_TC_IF = 0x0000011c, -SQC_PERF_SEL_ICACHE_STALL_OUTXBAR_ARB_NO_GRANT = 0x0000011d, -SQC_PERF_SEL_ICACHE_PREFETCH_1 = 0x0000011e, -SQC_PERF_SEL_ICACHE_PREFETCH_2 = 0x0000011f, -SQC_PERF_SEL_ICACHE_PREFETCH_FILTERED = 0x00000120, -SQC_PERF_SEL_DCACHE_BUSY_CYCLES = 0x00000121, -SQC_PERF_SEL_DCACHE_REQ = 0x00000122, -SQC_PERF_SEL_DCACHE_HITS = 0x00000123, -SQC_PERF_SEL_DCACHE_MISSES = 0x00000124, -SQC_PERF_SEL_DCACHE_MISSES_DUPLICATE = 0x00000125, -SQC_PERF_SEL_DCACHE_HIT_LRU_READ = 0x00000126, -SQC_PERF_SEL_DCACHE_MISS_EVICT_READ = 0x00000127, -SQC_PERF_SEL_DCACHE_WC_LRU_WRITE = 0x00000128, -SQC_PERF_SEL_DCACHE_WT_EVICT_WRITE = 0x00000129, -SQC_PERF_SEL_DCACHE_ATOMIC = 0x0000012a, -SQC_PERF_SEL_DCACHE_VOLATILE = 0x0000012b, -SQC_PERF_SEL_DCACHE_INVAL_INST = 0x0000012c, -SQC_PERF_SEL_DCACHE_INVAL_ASYNC = 0x0000012d, -SQC_PERF_SEL_DCACHE_INVAL_VOLATILE_INST = 0x0000012e, -SQC_PERF_SEL_DCACHE_INVAL_VOLATILE_ASYNC = 0x0000012f, -SQC_PERF_SEL_DCACHE_WB_INST = 0x00000130, -SQC_PERF_SEL_DCACHE_WB_ASYNC = 0x00000131, -SQC_PERF_SEL_DCACHE_WB_VOLATILE_INST = 0x00000132, -SQC_PERF_SEL_DCACHE_WB_VOLATILE_ASYNC = 0x00000133, -SQC_PERF_SEL_DCACHE_INPUT_STALL_ARB_NO_GRANT = 0x00000134, -SQC_PERF_SEL_DCACHE_INPUT_STALL_BANK_READYB = 0x00000135, -SQC_PERF_SEL_DCACHE_CACHE_STALLED = 0x00000136, -SQC_PERF_SEL_DCACHE_CACHE_STALL_INFLIGHT_MAX = 0x00000137, -SQC_PERF_SEL_DCACHE_CACHE_STALL_OUTPUT = 0x00000138, -SQC_PERF_SEL_DCACHE_CACHE_STALL_EVICT = 0x00000139, -SQC_PERF_SEL_DCACHE_CACHE_STALL_UNORDERED = 0x0000013a, -SQC_PERF_SEL_DCACHE_CACHE_STALL_ALLOC_UNAVAILABLE = 0x0000013b, -SQC_PERF_SEL_DCACHE_CACHE_STALL_FORCE_EVICT = 0x0000013c, -SQC_PERF_SEL_DCACHE_CACHE_STALL_MULTI_FLUSH = 0x0000013d, -SQC_PERF_SEL_DCACHE_CACHE_STALL_FLUSH_DONE = 0x0000013e, -SQC_PERF_SEL_DCACHE_CACHE_STALL_OUTPUT_MISS_FIFO = 0x0000013f, -SQC_PERF_SEL_DCACHE_CACHE_STALL_OUTPUT_HIT_FIFO = 0x00000140, -SQC_PERF_SEL_DCACHE_CACHE_STALL_OUTPUT_TC_IF = 0x00000141, -SQC_PERF_SEL_DCACHE_STALL_OUTXBAR_ARB_NO_GRANT = 0x00000142, -SQC_PERF_SEL_DCACHE_REQ_READ_1 = 0x00000143, -SQC_PERF_SEL_DCACHE_REQ_READ_2 = 0x00000144, -SQC_PERF_SEL_DCACHE_REQ_READ_4 = 0x00000145, -SQC_PERF_SEL_DCACHE_REQ_READ_8 = 0x00000146, -SQC_PERF_SEL_DCACHE_REQ_READ_16 = 0x00000147, -SQC_PERF_SEL_DCACHE_REQ_TIME = 0x00000148, -SQC_PERF_SEL_DCACHE_REQ_WRITE_1 = 0x00000149, -SQC_PERF_SEL_DCACHE_REQ_WRITE_2 = 0x0000014a, -SQC_PERF_SEL_DCACHE_REQ_WRITE_4 = 0x0000014b, -SQC_PERF_SEL_DCACHE_REQ_ATC_PROBE = 0x0000014c, -SQC_PERF_SEL_SQ_DCACHE_REQS = 0x0000014d, -SQC_PERF_SEL_DCACHE_FLAT_REQ = 0x0000014e, -SQC_PERF_SEL_DCACHE_NONFLAT_REQ = 0x0000014f, -SQC_PERF_SEL_ICACHE_INFLIGHT_LEVEL = 0x00000150, -SQC_PERF_SEL_DCACHE_INFLIGHT_LEVEL = 0x00000151, -SQC_PERF_SEL_TC_INFLIGHT_LEVEL = 0x00000152, -SQC_PERF_SEL_ICACHE_TC_INFLIGHT_LEVEL = 0x00000153, -SQC_PERF_SEL_DCACHE_TC_INFLIGHT_LEVEL = 0x00000154, -SQC_PERF_SEL_ICACHE_GATCL1_TRANSLATION_MISS = 0x00000155, -SQC_PERF_SEL_ICACHE_GATCL1_PERMISSION_MISS = 0x00000156, -SQC_PERF_SEL_ICACHE_GATCL1_REQUEST = 0x00000157, -SQC_PERF_SEL_ICACHE_GATCL1_STALL_INFLIGHT_MAX = 0x00000158, -SQC_PERF_SEL_ICACHE_GATCL1_STALL_LRU_INFLIGHT = 0x00000159, -SQC_PERF_SEL_ICACHE_GATCL1_LFIFO_FULL = 0x0000015a, -SQC_PERF_SEL_ICACHE_GATCL1_STALL_LFIFO_NOT_RES = 0x0000015b, -SQC_PERF_SEL_ICACHE_GATCL1_STALL_ATCL2_REQ_OUT_OF_CREDITS = 0x0000015c, -SQC_PERF_SEL_ICACHE_GATCL1_ATCL2_INFLIGHT = 0x0000015d, -SQC_PERF_SEL_ICACHE_GATCL1_STALL_MISSFIFO_FULL = 0x0000015e, -SQC_PERF_SEL_DCACHE_GATCL1_TRANSLATION_MISS = 0x0000015f, -SQC_PERF_SEL_DCACHE_GATCL1_PERMISSION_MISS = 0x00000160, -SQC_PERF_SEL_DCACHE_GATCL1_REQUEST = 0x00000161, -SQC_PERF_SEL_DCACHE_GATCL1_STALL_INFLIGHT_MAX = 0x00000162, -SQC_PERF_SEL_DCACHE_GATCL1_STALL_LRU_INFLIGHT = 0x00000163, -SQC_PERF_SEL_DCACHE_GATCL1_LFIFO_FULL = 0x00000164, -SQC_PERF_SEL_DCACHE_GATCL1_STALL_LFIFO_NOT_RES = 0x00000165, -SQC_PERF_SEL_DCACHE_GATCL1_STALL_ATCL2_REQ_OUT_OF_CREDITS = 0x00000166, -SQC_PERF_SEL_DCACHE_GATCL1_ATCL2_INFLIGHT = 0x00000167, -SQC_PERF_SEL_DCACHE_GATCL1_STALL_MISSFIFO_FULL = 0x00000168, -SQC_PERF_SEL_DCACHE_GATCL1_STALL_MULTI_MISS = 0x00000169, -SQC_PERF_SEL_DCACHE_GATCL1_HIT_FIFO_FULL = 0x0000016a, -SQC_PERF_SEL_DUMMY_LAST = 0x0000016b, -} SQ_PERF_SEL; - -/* - * SQ_CAC_POWER_SEL enum - */ - -typedef enum SQ_CAC_POWER_SEL { -SQ_CAC_POWER_VALU = 0x00000000, -SQ_CAC_POWER_VALU0 = 0x00000001, -SQ_CAC_POWER_VALU1 = 0x00000002, -SQ_CAC_POWER_VALU2 = 0x00000003, -SQ_CAC_POWER_GPR_RD = 0x00000004, -SQ_CAC_POWER_GPR_WR = 0x00000005, -SQ_CAC_POWER_LDS_BUSY = 0x00000006, -SQ_CAC_POWER_ALU_BUSY = 0x00000007, -SQ_CAC_POWER_TEX_BUSY = 0x00000008, -} SQ_CAC_POWER_SEL; - -/* - * SQ_IND_CMD_CMD enum - */ - -typedef enum SQ_IND_CMD_CMD { -SQ_IND_CMD_CMD_NULL = 0x00000000, -SQ_IND_CMD_CMD_SETHALT = 0x00000001, -SQ_IND_CMD_CMD_SAVECTX = 0x00000002, -SQ_IND_CMD_CMD_KILL = 0x00000003, -SQ_IND_CMD_CMD_DEBUG = 0x00000004, -SQ_IND_CMD_CMD_TRAP = 0x00000005, -SQ_IND_CMD_CMD_SET_SPI_PRIO = 0x00000006, -SQ_IND_CMD_CMD_SETFATALHALT = 0x00000007, -} SQ_IND_CMD_CMD; - -/* - * SQ_IND_CMD_MODE enum - */ - -typedef enum SQ_IND_CMD_MODE { -SQ_IND_CMD_MODE_SINGLE = 0x00000000, -SQ_IND_CMD_MODE_BROADCAST = 0x00000001, -SQ_IND_CMD_MODE_BROADCAST_QUEUE = 0x00000002, -SQ_IND_CMD_MODE_BROADCAST_PIPE = 0x00000003, -SQ_IND_CMD_MODE_BROADCAST_ME = 0x00000004, -} SQ_IND_CMD_MODE; - -/* - * SQ_EDC_INFO_SOURCE enum - */ - -typedef enum SQ_EDC_INFO_SOURCE { -SQ_EDC_INFO_SOURCE_INVALID = 0x00000000, -SQ_EDC_INFO_SOURCE_INST = 0x00000001, -SQ_EDC_INFO_SOURCE_SGPR = 0x00000002, -SQ_EDC_INFO_SOURCE_VGPR = 0x00000003, -SQ_EDC_INFO_SOURCE_LDS = 0x00000004, -SQ_EDC_INFO_SOURCE_GDS = 0x00000005, -SQ_EDC_INFO_SOURCE_TA = 0x00000006, -} SQ_EDC_INFO_SOURCE; - -/* - * SQ_ROUND_MODE enum - */ - -typedef enum SQ_ROUND_MODE { -SQ_ROUND_NEAREST_EVEN = 0x00000000, -SQ_ROUND_PLUS_INFINITY = 0x00000001, -SQ_ROUND_MINUS_INFINITY = 0x00000002, -SQ_ROUND_TO_ZERO = 0x00000003, -} SQ_ROUND_MODE; - -/* - * SQ_INTERRUPT_WORD_ENCODING enum - */ - -typedef enum SQ_INTERRUPT_WORD_ENCODING { -SQ_INTERRUPT_WORD_ENCODING_AUTO = 0x00000000, -SQ_INTERRUPT_WORD_ENCODING_INST = 0x00000001, -SQ_INTERRUPT_WORD_ENCODING_ERROR = 0x00000002, -} SQ_INTERRUPT_WORD_ENCODING; - -/* - * ENUM_SQ_EXPORT_RAT_INST enum - */ - -typedef enum ENUM_SQ_EXPORT_RAT_INST { -SQ_EXPORT_RAT_INST_NOP = 0x00000000, -SQ_EXPORT_RAT_INST_STORE_TYPED = 0x00000001, -SQ_EXPORT_RAT_INST_STORE_RAW = 0x00000002, -SQ_EXPORT_RAT_INST_STORE_RAW_FDENORM = 0x00000003, -SQ_EXPORT_RAT_INST_CMPXCHG_INT = 0x00000004, -SQ_EXPORT_RAT_INST_CMPXCHG_FLT = 0x00000005, -SQ_EXPORT_RAT_INST_CMPXCHG_FDENORM = 0x00000006, -SQ_EXPORT_RAT_INST_ADD = 0x00000007, -SQ_EXPORT_RAT_INST_SUB = 0x00000008, -SQ_EXPORT_RAT_INST_RSUB = 0x00000009, -SQ_EXPORT_RAT_INST_MIN_INT = 0x0000000a, -SQ_EXPORT_RAT_INST_MIN_UINT = 0x0000000b, -SQ_EXPORT_RAT_INST_MAX_INT = 0x0000000c, -SQ_EXPORT_RAT_INST_MAX_UINT = 0x0000000d, -SQ_EXPORT_RAT_INST_AND = 0x0000000e, -SQ_EXPORT_RAT_INST_OR = 0x0000000f, -SQ_EXPORT_RAT_INST_XOR = 0x00000010, -SQ_EXPORT_RAT_INST_MSKOR = 0x00000011, -SQ_EXPORT_RAT_INST_INC_UINT = 0x00000012, -SQ_EXPORT_RAT_INST_DEC_UINT = 0x00000013, -SQ_EXPORT_RAT_INST_STORE_DWORD = 0x00000014, -SQ_EXPORT_RAT_INST_STORE_SHORT = 0x00000015, -SQ_EXPORT_RAT_INST_STORE_BYTE = 0x00000016, -SQ_EXPORT_RAT_INST_NOP_RTN = 0x00000020, -SQ_EXPORT_RAT_INST_XCHG_RTN = 0x00000022, -SQ_EXPORT_RAT_INST_XCHG_FDENORM_RTN = 0x00000023, -SQ_EXPORT_RAT_INST_CMPXCHG_INT_RTN = 0x00000024, -SQ_EXPORT_RAT_INST_CMPXCHG_FLT_RTN = 0x00000025, -SQ_EXPORT_RAT_INST_CMPXCHG_FDENORM_RTN = 0x00000026, -SQ_EXPORT_RAT_INST_ADD_RTN = 0x00000027, -SQ_EXPORT_RAT_INST_SUB_RTN = 0x00000028, -SQ_EXPORT_RAT_INST_RSUB_RTN = 0x00000029, -SQ_EXPORT_RAT_INST_MIN_INT_RTN = 0x0000002a, -SQ_EXPORT_RAT_INST_MIN_UINT_RTN = 0x0000002b, -SQ_EXPORT_RAT_INST_MAX_INT_RTN = 0x0000002c, -SQ_EXPORT_RAT_INST_MAX_UINT_RTN = 0x0000002d, -SQ_EXPORT_RAT_INST_AND_RTN = 0x0000002e, -SQ_EXPORT_RAT_INST_OR_RTN = 0x0000002f, -SQ_EXPORT_RAT_INST_XOR_RTN = 0x00000030, -SQ_EXPORT_RAT_INST_MSKOR_RTN = 0x00000031, -SQ_EXPORT_RAT_INST_INC_UINT_RTN = 0x00000032, -SQ_EXPORT_RAT_INST_DEC_UINT_RTN = 0x00000033, -} ENUM_SQ_EXPORT_RAT_INST; - -/* - * SQ_IBUF_ST enum - */ - -typedef enum SQ_IBUF_ST { -SQ_IBUF_IB_IDLE = 0x00000000, -SQ_IBUF_IB_INI_WAIT_GNT = 0x00000001, -SQ_IBUF_IB_INI_WAIT_DRET = 0x00000002, -SQ_IBUF_IB_LE_4DW = 0x00000003, -SQ_IBUF_IB_WAIT_DRET = 0x00000004, -SQ_IBUF_IB_EMPTY_WAIT_DRET = 0x00000005, -SQ_IBUF_IB_DRET = 0x00000006, -SQ_IBUF_IB_EMPTY_WAIT_GNT = 0x00000007, -} SQ_IBUF_ST; - -/* - * SQ_INST_STR_ST enum - */ - -typedef enum SQ_INST_STR_ST { -SQ_INST_STR_IB_WAVE_NORML = 0x00000000, -SQ_INST_STR_IB_WAVE2ID_NORMAL_INST_AV = 0x00000001, -SQ_INST_STR_IB_WAVE_INTERNAL_INST_AV = 0x00000002, -SQ_INST_STR_IB_WAVE_INST_SKIP_AV = 0x00000003, -SQ_INST_STR_IB_WAVE_SETVSKIP_ST0 = 0x00000004, -SQ_INST_STR_IB_WAVE_SETVSKIP_ST1 = 0x00000005, -SQ_INST_STR_IB_WAVE_NOP_SLEEP_WAIT = 0x00000006, -SQ_INST_STR_IB_WAVE_PC_FROM_SGPR_MSG_WAIT = 0x00000007, -} SQ_INST_STR_ST; - -/* - * SQ_WAVE_IB_ECC_ST enum - */ - -typedef enum SQ_WAVE_IB_ECC_ST { -SQ_WAVE_IB_ECC_CLEAN = 0x00000000, -SQ_WAVE_IB_ECC_ERR_CONTINUE = 0x00000001, -SQ_WAVE_IB_ECC_ERR_HALT = 0x00000002, -SQ_WAVE_IB_ECC_WITH_ERR_MSG = 0x00000003, -} SQ_WAVE_IB_ECC_ST; - -/* - * SH_MEM_ADDRESS_MODE enum - */ - -typedef enum SH_MEM_ADDRESS_MODE { -SH_MEM_ADDRESS_MODE_64 = 0x00000000, -SH_MEM_ADDRESS_MODE_32 = 0x00000001, -} SH_MEM_ADDRESS_MODE; - -/* - * SH_MEM_ALIGNMENT_MODE enum - */ - -typedef enum SH_MEM_ALIGNMENT_MODE { -SH_MEM_ALIGNMENT_MODE_DWORD = 0x00000000, -SH_MEM_ALIGNMENT_MODE_DWORD_STRICT = 0x00000001, -SH_MEM_ALIGNMENT_MODE_STRICT = 0x00000002, -SH_MEM_ALIGNMENT_MODE_UNALIGNED = 0x00000003, -} SH_MEM_ALIGNMENT_MODE; - -/* - * SQ_THREAD_TRACE_WAVE_START_COUNT_PREFIX enum - */ - -typedef enum SQ_THREAD_TRACE_WAVE_START_COUNT_PREFIX { -SQ_THREAD_TRACE_WAVE_START_COUNT_PREFIX_WREXEC = 0x00000018, -SQ_THREAD_TRACE_WAVE_START_COUNT_PREFIX_RESTORE = 0x00000019, -} SQ_THREAD_TRACE_WAVE_START_COUNT_PREFIX; - -/* - * SQ_LB_CTR_SEL_VALUES enum - */ - -typedef enum SQ_LB_CTR_SEL_VALUES { -SQ_LB_CTR_SEL_ALU_CYCLES = 0x00000000, -SQ_LB_CTR_SEL_ALU_STALLS = 0x00000001, -SQ_LB_CTR_SEL_TEX_CYCLES = 0x00000002, -SQ_LB_CTR_SEL_TEX_STALLS = 0x00000003, -SQ_LB_CTR_SEL_SALU_CYCLES = 0x00000004, -SQ_LB_CTR_SEL_SCALAR_STALLS = 0x00000005, -SQ_LB_CTR_SEL_SMEM_CYCLES = 0x00000006, -SQ_LB_CTR_SEL_ICACHE_STALLS = 0x00000007, -SQ_LB_CTR_SEL_DCACHE_STALLS = 0x00000008, -SQ_LB_CTR_SEL_RESERVED0 = 0x00000009, -SQ_LB_CTR_SEL_RESERVED1 = 0x0000000a, -SQ_LB_CTR_SEL_RESERVED2 = 0x0000000b, -SQ_LB_CTR_SEL_RESERVED3 = 0x0000000c, -SQ_LB_CTR_SEL_RESERVED4 = 0x0000000d, -SQ_LB_CTR_SEL_RESERVED5 = 0x0000000e, -SQ_LB_CTR_SEL_RESERVED6 = 0x0000000f, -} SQ_LB_CTR_SEL_VALUES; - -/* - * SQ_WAVE_TYPE value - */ - -#define SQ_WAVE_TYPE_PS0 0x00000000 - -/* - * SQIND_PARTITIONS value - */ - -#define SQIND_GLOBAL_REGS_OFFSET 0x00000000 -#define SQIND_GLOBAL_REGS_SIZE 0x00000008 -#define SQIND_LOCAL_REGS_OFFSET 0x00000008 -#define SQIND_LOCAL_REGS_SIZE 0x00000008 -#define SQIND_WAVE_HWREGS_OFFSET 0x00000010 -#define SQIND_WAVE_HWREGS_SIZE 0x000001f0 -#define SQIND_WAVE_SGPRS_OFFSET 0x00000200 -#define SQIND_WAVE_SGPRS_SIZE 0x00000200 -#define SQIND_WAVE_VGPRS_OFFSET 0x00000400 -#define SQIND_WAVE_VGPRS_SIZE 0x00000100 - -/* - * SQ_GFXDEC value - */ - -#define SQ_GFXDEC_BEGIN 0x0000a000 -#define SQ_GFXDEC_END 0x0000c000 -#define SQ_GFXDEC_STATE_ID_SHIFT 0x0000000a - -/* - * SQDEC value - */ - -#define SQDEC_BEGIN 0x00002300 -#define SQDEC_END 0x000023ff - -/* - * SQPERFSDEC value - */ - -#define SQPERFSDEC_BEGIN 0x0000d9c0 -#define SQPERFSDEC_END 0x0000da40 - -/* - * SQPERFDDEC value - */ - -#define SQPERFDDEC_BEGIN 0x0000d1c0 -#define SQPERFDDEC_END 0x0000d240 - -/* - * SQGFXUDEC value - */ - -#define SQGFXUDEC_BEGIN 0x0000c330 -#define SQGFXUDEC_END 0x0000c380 - -/* - * SQPWRDEC value - */ - -#define SQPWRDEC_BEGIN 0x0000f08c -#define SQPWRDEC_END 0x0000f094 - -/* - * SQ_DISPATCHER value - */ - -#define SQ_DISPATCHER_GFX_MIN 0x00000010 -#define SQ_DISPATCHER_GFX_CNT_PER_RING 0x00000008 - -/* - * SQ_MAX value - */ - -#define SQ_MAX_PGM_SGPRS 0x00000068 -#define SQ_MAX_PGM_VGPRS 0x00000100 - -/* - * SQ_THREAD_TRACE_TIME_UNIT value - */ - -#define SQ_THREAD_TRACE_TIME_UNIT 0x00000004 - -/* - * SQ_EXCP_BITS value - */ - -#define SQ_EX_MODE_EXCP_VALU_BASE 0x00000000 -#define SQ_EX_MODE_EXCP_VALU_SIZE 0x00000007 -#define SQ_EX_MODE_EXCP_INVALID 0x00000000 -#define SQ_EX_MODE_EXCP_INPUT_DENORM 0x00000001 -#define SQ_EX_MODE_EXCP_DIV0 0x00000002 -#define SQ_EX_MODE_EXCP_OVERFLOW 0x00000003 -#define SQ_EX_MODE_EXCP_UNDERFLOW 0x00000004 -#define SQ_EX_MODE_EXCP_INEXACT 0x00000005 -#define SQ_EX_MODE_EXCP_INT_DIV0 0x00000006 -#define SQ_EX_MODE_EXCP_ADDR_WATCH0 0x00000007 -#define SQ_EX_MODE_EXCP_MEM_VIOL 0x00000008 - -/* - * SQ_EXCP_HI_BITS value - */ - -#define SQ_EX_MODE_EXCP_HI_ADDR_WATCH1 0x00000000 -#define SQ_EX_MODE_EXCP_HI_ADDR_WATCH2 0x00000001 -#define SQ_EX_MODE_EXCP_HI_ADDR_WATCH3 0x00000002 - -/* - * HW_INSERTED_INST_ID value - */ - -#define INST_ID_PRIV_START 0x80000000 -#define INST_ID_ECC_INTERRUPT_MSG 0xfffffff0 -#define INST_ID_TTRACE_NEW_PC_MSG 0xfffffff1 -#define INST_ID_HW_TRAP 0xfffffff2 -#define INST_ID_KILL_SEQ 0xfffffff3 -#define INST_ID_SPI_WREXEC 0xfffffff4 -#define INST_ID_HOST_REG_TRAP_MSG 0xfffffffe - -/* - * SIMM16_WAITCNT_PARTITIONS value - */ - -#define SIMM16_WAITCNT_VM_CNT_START 0x00000000 -#define SIMM16_WAITCNT_VM_CNT_SIZE 0x00000004 -#define SIMM16_WAITCNT_EXP_CNT_START 0x00000004 -#define SIMM16_WAITCNT_EXP_CNT_SIZE 0x00000003 -#define SIMM16_WAITCNT_LGKM_CNT_START 0x00000008 -#define SIMM16_WAITCNT_LGKM_CNT_SIZE 0x00000004 -#define SIMM16_WAITCNT_VM_CNT_HI_START 0x0000000e -#define SIMM16_WAITCNT_VM_CNT_HI_SIZE 0x00000002 - -/* - * SQ_EDC_FUE_CNTL_BITS value - */ - -#define SQ_EDC_FUE_CNTL_SQ 0x00000000 -#define SQ_EDC_FUE_CNTL_LDS 0x00000001 -#define SQ_EDC_FUE_CNTL_SIMD0 0x00000002 -#define SQ_EDC_FUE_CNTL_SIMD1 0x00000003 -#define SQ_EDC_FUE_CNTL_SIMD2 0x00000004 -#define SQ_EDC_FUE_CNTL_SIMD3 0x00000005 -#define SQ_EDC_FUE_CNTL_TA 0x00000006 -#define SQ_EDC_FUE_CNTL_TD 0x00000007 -#define SQ_EDC_FUE_CNTL_TCP 0x00000008 - -/******************************************************* - * COMP Enums - *******************************************************/ - -/* - * CSDATA_TYPE enum - */ - -typedef enum CSDATA_TYPE { -CSDATA_TYPE_TG = 0x00000000, -CSDATA_TYPE_STATE = 0x00000001, -CSDATA_TYPE_EVENT = 0x00000002, -CSDATA_TYPE_PRIVATE = 0x00000003, -} CSDATA_TYPE; - -/* - * CSDATA_TYPE_WIDTH value - */ - -#define CSDATA_TYPE_WIDTH 0x00000002 - -/* - * CSDATA_ADDR_WIDTH value - */ - -#define CSDATA_ADDR_WIDTH 0x00000007 - -/* - * CSDATA_DATA_WIDTH value - */ - -#define CSDATA_DATA_WIDTH 0x00000020 - -/******************************************************* - * VGT Enums - *******************************************************/ - -/* - * VGT_OUT_PRIM_TYPE enum - */ - -typedef enum VGT_OUT_PRIM_TYPE { -VGT_OUT_POINT = 0x00000000, -VGT_OUT_LINE = 0x00000001, -VGT_OUT_TRI = 0x00000002, -VGT_OUT_RECT_V0 = 0x00000003, -VGT_OUT_RECT_V1 = 0x00000004, -VGT_OUT_RECT_V2 = 0x00000005, -VGT_OUT_RECT_V3 = 0x00000006, -VGT_OUT_2D_RECT = 0x00000007, -VGT_TE_QUAD = 0x00000008, -VGT_TE_PRIM_INDEX_LINE = 0x00000009, -VGT_TE_PRIM_INDEX_TRI = 0x0000000a, -VGT_TE_PRIM_INDEX_QUAD = 0x0000000b, -VGT_OUT_LINE_ADJ = 0x0000000c, -VGT_OUT_TRI_ADJ = 0x0000000d, -VGT_OUT_PATCH = 0x0000000e, -} VGT_OUT_PRIM_TYPE; - -/* - * VGT_DI_PRIM_TYPE enum - */ - -typedef enum VGT_DI_PRIM_TYPE { -DI_PT_NONE = 0x00000000, -DI_PT_POINTLIST = 0x00000001, -DI_PT_LINELIST = 0x00000002, -DI_PT_LINESTRIP = 0x00000003, -DI_PT_TRILIST = 0x00000004, -DI_PT_TRIFAN = 0x00000005, -DI_PT_TRISTRIP = 0x00000006, -DI_PT_2D_RECTANGLE = 0x00000007, -DI_PT_UNUSED_1 = 0x00000008, -DI_PT_PATCH = 0x00000009, -DI_PT_LINELIST_ADJ = 0x0000000a, -DI_PT_LINESTRIP_ADJ = 0x0000000b, -DI_PT_TRILIST_ADJ = 0x0000000c, -DI_PT_TRISTRIP_ADJ = 0x0000000d, -DI_PT_UNUSED_3 = 0x0000000e, -DI_PT_UNUSED_4 = 0x0000000f, -DI_PT_TRI_WITH_WFLAGS = 0x00000010, -DI_PT_RECTLIST = 0x00000011, -DI_PT_LINELOOP = 0x00000012, -DI_PT_QUADLIST = 0x00000013, -DI_PT_QUADSTRIP = 0x00000014, -DI_PT_POLYGON = 0x00000015, -} VGT_DI_PRIM_TYPE; - -/* - * VGT_DI_SOURCE_SELECT enum - */ - -typedef enum VGT_DI_SOURCE_SELECT { -DI_SRC_SEL_DMA = 0x00000000, -DI_SRC_SEL_IMMEDIATE = 0x00000001, -DI_SRC_SEL_AUTO_INDEX = 0x00000002, -DI_SRC_SEL_RESERVED = 0x00000003, -} VGT_DI_SOURCE_SELECT; - -/* - * VGT_DI_MAJOR_MODE_SELECT enum - */ - -typedef enum VGT_DI_MAJOR_MODE_SELECT { -DI_MAJOR_MODE_0 = 0x00000000, -DI_MAJOR_MODE_1 = 0x00000001, -} VGT_DI_MAJOR_MODE_SELECT; - -/* - * VGT_DI_INDEX_SIZE enum - */ - -typedef enum VGT_DI_INDEX_SIZE { -DI_INDEX_SIZE_16_BIT = 0x00000000, -DI_INDEX_SIZE_32_BIT = 0x00000001, -DI_INDEX_SIZE_8_BIT = 0x00000002, -} VGT_DI_INDEX_SIZE; - -/* - * VGT_EVENT_TYPE enum - */ - -typedef enum VGT_EVENT_TYPE { -Reserved_0x00 = 0x00000000, -SAMPLE_STREAMOUTSTATS1 = 0x00000001, -SAMPLE_STREAMOUTSTATS2 = 0x00000002, -SAMPLE_STREAMOUTSTATS3 = 0x00000003, -CACHE_FLUSH_TS = 0x00000004, -CONTEXT_DONE = 0x00000005, -CACHE_FLUSH = 0x00000006, -CS_PARTIAL_FLUSH = 0x00000007, -VGT_STREAMOUT_SYNC = 0x00000008, -Reserved_0x09 = 0x00000009, -VGT_STREAMOUT_RESET = 0x0000000a, -END_OF_PIPE_INCR_DE = 0x0000000b, -END_OF_PIPE_IB_END = 0x0000000c, -RST_PIX_CNT = 0x0000000d, -BREAK_BATCH = 0x0000000e, -VS_PARTIAL_FLUSH = 0x0000000f, -PS_PARTIAL_FLUSH = 0x00000010, -FLUSH_HS_OUTPUT = 0x00000011, -FLUSH_DFSM = 0x00000012, -RESET_TO_LOWEST_VGT = 0x00000013, -CACHE_FLUSH_AND_INV_TS_EVENT = 0x00000014, -ZPASS_DONE = 0x00000015, -CACHE_FLUSH_AND_INV_EVENT = 0x00000016, -PERFCOUNTER_START = 0x00000017, -PERFCOUNTER_STOP = 0x00000018, -PIPELINESTAT_START = 0x00000019, -PIPELINESTAT_STOP = 0x0000001a, -PERFCOUNTER_SAMPLE = 0x0000001b, -Available_0x1c = 0x0000001c, -Available_0x1d = 0x0000001d, -SAMPLE_PIPELINESTAT = 0x0000001e, -SO_VGTSTREAMOUT_FLUSH = 0x0000001f, -SAMPLE_STREAMOUTSTATS = 0x00000020, -RESET_VTX_CNT = 0x00000021, -BLOCK_CONTEXT_DONE = 0x00000022, -CS_CONTEXT_DONE = 0x00000023, -VGT_FLUSH = 0x00000024, -TGID_ROLLOVER = 0x00000025, -SQ_NON_EVENT = 0x00000026, -SC_SEND_DB_VPZ = 0x00000027, -BOTTOM_OF_PIPE_TS = 0x00000028, -FLUSH_SX_TS = 0x00000029, -DB_CACHE_FLUSH_AND_INV = 0x0000002a, -FLUSH_AND_INV_DB_DATA_TS = 0x0000002b, -FLUSH_AND_INV_DB_META = 0x0000002c, -FLUSH_AND_INV_CB_DATA_TS = 0x0000002d, -FLUSH_AND_INV_CB_META = 0x0000002e, -CS_DONE = 0x0000002f, -PS_DONE = 0x00000030, -FLUSH_AND_INV_CB_PIXEL_DATA = 0x00000031, -SX_CB_RAT_ACK_REQUEST = 0x00000032, -THREAD_TRACE_START = 0x00000033, -THREAD_TRACE_STOP = 0x00000034, -THREAD_TRACE_MARKER = 0x00000035, -THREAD_TRACE_FLUSH = 0x00000036, -THREAD_TRACE_FINISH = 0x00000037, -PIXEL_PIPE_STAT_CONTROL = 0x00000038, -PIXEL_PIPE_STAT_DUMP = 0x00000039, -PIXEL_PIPE_STAT_RESET = 0x0000003a, -CONTEXT_SUSPEND = 0x0000003b, -OFFCHIP_HS_DEALLOC = 0x0000003c, -ENABLE_NGG_PIPELINE = 0x0000003d, -ENABLE_LEGACY_PIPELINE = 0x0000003e, -Reserved_0x3f = 0x0000003f, -} VGT_EVENT_TYPE; - -/* - * VGT_DMA_SWAP_MODE enum - */ - -typedef enum VGT_DMA_SWAP_MODE { -VGT_DMA_SWAP_NONE = 0x00000000, -VGT_DMA_SWAP_16_BIT = 0x00000001, -VGT_DMA_SWAP_32_BIT = 0x00000002, -VGT_DMA_SWAP_WORD = 0x00000003, -} VGT_DMA_SWAP_MODE; - -/* - * VGT_INDEX_TYPE_MODE enum - */ - -typedef enum VGT_INDEX_TYPE_MODE { -VGT_INDEX_16 = 0x00000000, -VGT_INDEX_32 = 0x00000001, -VGT_INDEX_8 = 0x00000002, -} VGT_INDEX_TYPE_MODE; - -/* - * VGT_DMA_BUF_TYPE enum - */ - -typedef enum VGT_DMA_BUF_TYPE { -VGT_DMA_BUF_MEM = 0x00000000, -VGT_DMA_BUF_RING = 0x00000001, -VGT_DMA_BUF_SETUP = 0x00000002, -VGT_DMA_PTR_UPDATE = 0x00000003, -} VGT_DMA_BUF_TYPE; - -/* - * VGT_OUTPATH_SELECT enum - */ - -typedef enum VGT_OUTPATH_SELECT { -VGT_OUTPATH_VTX_REUSE = 0x00000000, -VGT_OUTPATH_TESS_EN = 0x00000001, -VGT_OUTPATH_PASSTHRU = 0x00000002, -VGT_OUTPATH_GS_BLOCK = 0x00000003, -VGT_OUTPATH_HS_BLOCK = 0x00000004, -VGT_OUTPATH_PRIM_GEN = 0x00000005, -} VGT_OUTPATH_SELECT; - -/* - * VGT_GRP_PRIM_TYPE enum - */ - -typedef enum VGT_GRP_PRIM_TYPE { -VGT_GRP_3D_POINT = 0x00000000, -VGT_GRP_3D_LINE = 0x00000001, -VGT_GRP_3D_TRI = 0x00000002, -VGT_GRP_3D_RECT = 0x00000003, -VGT_GRP_3D_QUAD = 0x00000004, -VGT_GRP_2D_COPY_RECT_V0 = 0x00000005, -VGT_GRP_2D_COPY_RECT_V1 = 0x00000006, -VGT_GRP_2D_COPY_RECT_V2 = 0x00000007, -VGT_GRP_2D_COPY_RECT_V3 = 0x00000008, -VGT_GRP_2D_FILL_RECT = 0x00000009, -VGT_GRP_2D_LINE = 0x0000000a, -VGT_GRP_2D_TRI = 0x0000000b, -VGT_GRP_PRIM_INDEX_LINE = 0x0000000c, -VGT_GRP_PRIM_INDEX_TRI = 0x0000000d, -VGT_GRP_PRIM_INDEX_QUAD = 0x0000000e, -VGT_GRP_3D_LINE_ADJ = 0x0000000f, -VGT_GRP_3D_TRI_ADJ = 0x00000010, -VGT_GRP_3D_PATCH = 0x00000011, -VGT_GRP_2D_RECT = 0x00000012, -} VGT_GRP_PRIM_TYPE; - -/* - * VGT_GRP_PRIM_ORDER enum - */ - -typedef enum VGT_GRP_PRIM_ORDER { -VGT_GRP_LIST = 0x00000000, -VGT_GRP_STRIP = 0x00000001, -VGT_GRP_FAN = 0x00000002, -VGT_GRP_LOOP = 0x00000003, -VGT_GRP_POLYGON = 0x00000004, -} VGT_GRP_PRIM_ORDER; - -/* - * VGT_GROUP_CONV_SEL enum - */ - -typedef enum VGT_GROUP_CONV_SEL { -VGT_GRP_INDEX_16 = 0x00000000, -VGT_GRP_INDEX_32 = 0x00000001, -VGT_GRP_UINT_16 = 0x00000002, -VGT_GRP_UINT_32 = 0x00000003, -VGT_GRP_SINT_16 = 0x00000004, -VGT_GRP_SINT_32 = 0x00000005, -VGT_GRP_FLOAT_32 = 0x00000006, -VGT_GRP_AUTO_PRIM = 0x00000007, -VGT_GRP_FIX_1_23_TO_FLOAT = 0x00000008, -} VGT_GROUP_CONV_SEL; - -/* - * VGT_GS_MODE_TYPE enum - */ - -typedef enum VGT_GS_MODE_TYPE { -GS_OFF = 0x00000000, -GS_SCENARIO_A = 0x00000001, -GS_SCENARIO_B = 0x00000002, -GS_SCENARIO_G = 0x00000003, -GS_SCENARIO_C = 0x00000004, -SPRITE_EN = 0x00000005, -} VGT_GS_MODE_TYPE; - -/* - * VGT_GS_CUT_MODE enum - */ - -typedef enum VGT_GS_CUT_MODE { -GS_CUT_1024 = 0x00000000, -GS_CUT_512 = 0x00000001, -GS_CUT_256 = 0x00000002, -GS_CUT_128 = 0x00000003, -} VGT_GS_CUT_MODE; - -/* - * VGT_GS_OUTPRIM_TYPE enum - */ - -typedef enum VGT_GS_OUTPRIM_TYPE { -POINTLIST = 0x00000000, -LINESTRIP = 0x00000001, -TRISTRIP = 0x00000002, -RECTLIST = 0x00000003, -} VGT_GS_OUTPRIM_TYPE; - -/* - * VGT_CACHE_INVALID_MODE enum - */ - -typedef enum VGT_CACHE_INVALID_MODE { -VC_ONLY = 0x00000000, -TC_ONLY = 0x00000001, -VC_AND_TC = 0x00000002, -} VGT_CACHE_INVALID_MODE; - -/* - * VGT_TESS_TYPE enum - */ - -typedef enum VGT_TESS_TYPE { -TESS_ISOLINE = 0x00000000, -TESS_TRIANGLE = 0x00000001, -TESS_QUAD = 0x00000002, -} VGT_TESS_TYPE; - -/* - * VGT_TESS_PARTITION enum - */ - -typedef enum VGT_TESS_PARTITION { -PART_INTEGER = 0x00000000, -PART_POW2 = 0x00000001, -PART_FRAC_ODD = 0x00000002, -PART_FRAC_EVEN = 0x00000003, -} VGT_TESS_PARTITION; - -/* - * VGT_TESS_TOPOLOGY enum - */ - -typedef enum VGT_TESS_TOPOLOGY { -OUTPUT_POINT = 0x00000000, -OUTPUT_LINE = 0x00000001, -OUTPUT_TRIANGLE_CW = 0x00000002, -OUTPUT_TRIANGLE_CCW = 0x00000003, -} VGT_TESS_TOPOLOGY; - -/* - * VGT_RDREQ_POLICY enum - */ - -typedef enum VGT_RDREQ_POLICY { -VGT_POLICY_LRU = 0x00000000, -VGT_POLICY_STREAM = 0x00000001, -} VGT_RDREQ_POLICY; - -/* - * VGT_DIST_MODE enum - */ - -typedef enum VGT_DIST_MODE { -NO_DIST = 0x00000000, -PATCHES = 0x00000001, -DONUTS = 0x00000002, -TRAPEZOIDS = 0x00000003, -} VGT_DIST_MODE; - -/* - * VGT_STAGES_LS_EN enum - */ - -typedef enum VGT_STAGES_LS_EN { -LS_STAGE_OFF = 0x00000000, -LS_STAGE_ON = 0x00000001, -CS_STAGE_ON = 0x00000002, -RESERVED_LS = 0x00000003, -} VGT_STAGES_LS_EN; - -/* - * VGT_STAGES_HS_EN enum - */ - -typedef enum VGT_STAGES_HS_EN { -HS_STAGE_OFF = 0x00000000, -HS_STAGE_ON = 0x00000001, -} VGT_STAGES_HS_EN; - -/* - * VGT_STAGES_ES_EN enum - */ - -typedef enum VGT_STAGES_ES_EN { -ES_STAGE_OFF = 0x00000000, -ES_STAGE_DS = 0x00000001, -ES_STAGE_REAL = 0x00000002, -RESERVED_ES = 0x00000003, -} VGT_STAGES_ES_EN; - -/* - * VGT_STAGES_GS_EN enum - */ - -typedef enum VGT_STAGES_GS_EN { -GS_STAGE_OFF = 0x00000000, -GS_STAGE_ON = 0x00000001, -} VGT_STAGES_GS_EN; - -/* - * VGT_STAGES_VS_EN enum - */ - -typedef enum VGT_STAGES_VS_EN { -VS_STAGE_REAL = 0x00000000, -VS_STAGE_DS = 0x00000001, -VS_STAGE_COPY_SHADER = 0x00000002, -RESERVED_VS = 0x00000003, -} VGT_STAGES_VS_EN; - -/* - * VGT_PERFCOUNT_SELECT enum - */ - -typedef enum VGT_PERFCOUNT_SELECT { -vgt_perf_VGT_SPI_ESTHREAD_EVENT_WINDOW_ACTIVE = 0x00000000, -vgt_perf_VGT_SPI_ESVERT_VALID = 0x00000001, -vgt_perf_VGT_SPI_ESVERT_EOV = 0x00000002, -vgt_perf_VGT_SPI_ESVERT_STALLED = 0x00000003, -vgt_perf_VGT_SPI_ESVERT_STARVED_BUSY = 0x00000004, -vgt_perf_VGT_SPI_ESVERT_STARVED_IDLE = 0x00000005, -vgt_perf_VGT_SPI_ESVERT_STATIC = 0x00000006, -vgt_perf_VGT_SPI_ESTHREAD_IS_EVENT = 0x00000007, -vgt_perf_VGT_SPI_ESTHREAD_SEND = 0x00000008, -vgt_perf_VGT_SPI_GSPRIM_VALID = 0x00000009, -vgt_perf_VGT_SPI_GSPRIM_EOV = 0x0000000a, -vgt_perf_VGT_SPI_GSPRIM_CONT = 0x0000000b, -vgt_perf_VGT_SPI_GSPRIM_STALLED = 0x0000000c, -vgt_perf_VGT_SPI_GSPRIM_STARVED_BUSY = 0x0000000d, -vgt_perf_VGT_SPI_GSPRIM_STARVED_IDLE = 0x0000000e, -vgt_perf_VGT_SPI_GSPRIM_STATIC = 0x0000000f, -vgt_perf_VGT_SPI_GSTHREAD_EVENT_WINDOW_ACTIVE = 0x00000010, -vgt_perf_VGT_SPI_GSTHREAD_IS_EVENT = 0x00000011, -vgt_perf_VGT_SPI_GSTHREAD_SEND = 0x00000012, -vgt_perf_VGT_SPI_VSTHREAD_EVENT_WINDOW_ACTIVE = 0x00000013, -vgt_perf_VGT_SPI_VSVERT_SEND = 0x00000014, -vgt_perf_VGT_SPI_VSVERT_EOV = 0x00000015, -vgt_perf_VGT_SPI_VSVERT_STALLED = 0x00000016, -vgt_perf_VGT_SPI_VSVERT_STARVED_BUSY = 0x00000017, -vgt_perf_VGT_SPI_VSVERT_STARVED_IDLE = 0x00000018, -vgt_perf_VGT_SPI_VSVERT_STATIC = 0x00000019, -vgt_perf_VGT_SPI_VSTHREAD_IS_EVENT = 0x0000001a, -vgt_perf_VGT_SPI_VSTHREAD_SEND = 0x0000001b, -vgt_perf_VGT_PA_EVENT_WINDOW_ACTIVE = 0x0000001c, -vgt_perf_VGT_PA_CLIPV_SEND = 0x0000001d, -vgt_perf_VGT_PA_CLIPV_FIRSTVERT = 0x0000001e, -vgt_perf_VGT_PA_CLIPV_STALLED = 0x0000001f, -vgt_perf_VGT_PA_CLIPV_STARVED_BUSY = 0x00000020, -vgt_perf_VGT_PA_CLIPV_STARVED_IDLE = 0x00000021, -vgt_perf_VGT_PA_CLIPV_STATIC = 0x00000022, -vgt_perf_VGT_PA_CLIPP_SEND = 0x00000023, -vgt_perf_VGT_PA_CLIPP_EOP = 0x00000024, -vgt_perf_VGT_PA_CLIPP_IS_EVENT = 0x00000025, -vgt_perf_VGT_PA_CLIPP_NULL_PRIM = 0x00000026, -vgt_perf_VGT_PA_CLIPP_NEW_VTX_VECT = 0x00000027, -vgt_perf_VGT_PA_CLIPP_STALLED = 0x00000028, -vgt_perf_VGT_PA_CLIPP_STARVED_BUSY = 0x00000029, -vgt_perf_VGT_PA_CLIPP_STARVED_IDLE = 0x0000002a, -vgt_perf_VGT_PA_CLIPP_STATIC = 0x0000002b, -vgt_perf_VGT_PA_CLIPS_SEND = 0x0000002c, -vgt_perf_VGT_PA_CLIPS_STALLED = 0x0000002d, -vgt_perf_VGT_PA_CLIPS_STARVED_BUSY = 0x0000002e, -vgt_perf_VGT_PA_CLIPS_STARVED_IDLE = 0x0000002f, -vgt_perf_VGT_PA_CLIPS_STATIC = 0x00000030, -vgt_perf_vsvert_ds_send = 0x00000031, -vgt_perf_vsvert_api_send = 0x00000032, -vgt_perf_hs_tif_stall = 0x00000033, -vgt_perf_hs_input_stall = 0x00000034, -vgt_perf_hs_interface_stall = 0x00000035, -vgt_perf_hs_tfm_stall = 0x00000036, -vgt_perf_te11_starved = 0x00000037, -vgt_perf_gs_event_stall = 0x00000038, -vgt_perf_vgt_pa_clipp_send_not_event = 0x00000039, -vgt_perf_vgt_pa_clipp_valid_prim = 0x0000003a, -vgt_perf_reused_es_indices = 0x0000003b, -vgt_perf_vs_cache_hits = 0x0000003c, -vgt_perf_gs_cache_hits = 0x0000003d, -vgt_perf_ds_cache_hits = 0x0000003e, -vgt_perf_total_cache_hits = 0x0000003f, -vgt_perf_vgt_busy = 0x00000040, -vgt_perf_vgt_gs_busy = 0x00000041, -vgt_perf_esvert_stalled_es_tbl = 0x00000042, -vgt_perf_esvert_stalled_gs_tbl = 0x00000043, -vgt_perf_esvert_stalled_gs_event = 0x00000044, -vgt_perf_esvert_stalled_gsprim = 0x00000045, -vgt_perf_gsprim_stalled_es_tbl = 0x00000046, -vgt_perf_gsprim_stalled_gs_tbl = 0x00000047, -vgt_perf_gsprim_stalled_gs_event = 0x00000048, -vgt_perf_gsprim_stalled_esvert = 0x00000049, -vgt_perf_esthread_stalled_es_rb_full = 0x0000004a, -vgt_perf_esthread_stalled_spi_bp = 0x0000004b, -vgt_perf_counters_avail_stalled = 0x0000004c, -vgt_perf_gs_rb_space_avail_stalled = 0x0000004d, -vgt_perf_gs_issue_rtr_stalled = 0x0000004e, -vgt_perf_gsthread_stalled = 0x0000004f, -vgt_perf_strmout_stalled = 0x00000050, -vgt_perf_wait_for_es_done_stalled = 0x00000051, -vgt_perf_cm_stalled_by_gog = 0x00000052, -vgt_perf_cm_reading_stalled = 0x00000053, -vgt_perf_cm_stalled_by_gsfetch_done = 0x00000054, -vgt_perf_gog_vs_tbl_stalled = 0x00000055, -vgt_perf_gog_out_indx_stalled = 0x00000056, -vgt_perf_gog_out_prim_stalled = 0x00000057, -vgt_perf_waveid_stalled = 0x00000058, -vgt_perf_gog_busy = 0x00000059, -vgt_perf_reused_vs_indices = 0x0000005a, -vgt_perf_sclk_reg_vld_event = 0x0000005b, -vgt_perf_vs_conflicting_indices = 0x0000005c, -vgt_perf_sclk_core_vld_event = 0x0000005d, -vgt_perf_hswave_stalled = 0x0000005e, -vgt_perf_sclk_gs_vld_event = 0x0000005f, -vgt_perf_VGT_SPI_LSVERT_VALID = 0x00000060, -vgt_perf_VGT_SPI_LSVERT_EOV = 0x00000061, -vgt_perf_VGT_SPI_LSVERT_STALLED = 0x00000062, -vgt_perf_VGT_SPI_LSVERT_STARVED_BUSY = 0x00000063, -vgt_perf_VGT_SPI_LSVERT_STARVED_IDLE = 0x00000064, -vgt_perf_VGT_SPI_LSVERT_STATIC = 0x00000065, -vgt_perf_VGT_SPI_LSWAVE_EVENT_WINDOW_ACTIVE = 0x00000066, -vgt_perf_VGT_SPI_LSWAVE_IS_EVENT = 0x00000067, -vgt_perf_VGT_SPI_LSWAVE_SEND = 0x00000068, -vgt_perf_VGT_SPI_HSVERT_VALID = 0x00000069, -vgt_perf_VGT_SPI_HSVERT_EOV = 0x0000006a, -vgt_perf_VGT_SPI_HSVERT_STALLED = 0x0000006b, -vgt_perf_VGT_SPI_HSVERT_STARVED_BUSY = 0x0000006c, -vgt_perf_VGT_SPI_HSVERT_STARVED_IDLE = 0x0000006d, -vgt_perf_VGT_SPI_HSVERT_STATIC = 0x0000006e, -vgt_perf_VGT_SPI_HSWAVE_EVENT_WINDOW_ACTIVE = 0x0000006f, -vgt_perf_VGT_SPI_HSWAVE_IS_EVENT = 0x00000070, -vgt_perf_VGT_SPI_HSWAVE_SEND = 0x00000071, -vgt_perf_ds_prims = 0x00000072, -vgt_perf_ds_RESERVED = 0x00000073, -vgt_perf_ls_thread_groups = 0x00000074, -vgt_perf_hs_thread_groups = 0x00000075, -vgt_perf_es_thread_groups = 0x00000076, -vgt_perf_vs_thread_groups = 0x00000077, -vgt_perf_ls_done_latency = 0x00000078, -vgt_perf_hs_done_latency = 0x00000079, -vgt_perf_es_done_latency = 0x0000007a, -vgt_perf_gs_done_latency = 0x0000007b, -vgt_perf_vgt_hs_busy = 0x0000007c, -vgt_perf_vgt_te11_busy = 0x0000007d, -vgt_perf_ls_flush = 0x0000007e, -vgt_perf_hs_flush = 0x0000007f, -vgt_perf_es_flush = 0x00000080, -vgt_perf_vgt_pa_clipp_eopg = 0x00000081, -vgt_perf_ls_done = 0x00000082, -vgt_perf_hs_done = 0x00000083, -vgt_perf_es_done = 0x00000084, -vgt_perf_gs_done = 0x00000085, -vgt_perf_vsfetch_done = 0x00000086, -vgt_perf_gs_done_received = 0x00000087, -vgt_perf_es_ring_high_water_mark = 0x00000088, -vgt_perf_gs_ring_high_water_mark = 0x00000089, -vgt_perf_vs_table_high_water_mark = 0x0000008a, -vgt_perf_hs_tgs_active_high_water_mark = 0x0000008b, -vgt_perf_pa_clipp_dealloc = 0x0000008c, -vgt_perf_cut_mem_flush_stalled = 0x0000008d, -vgt_perf_vsvert_work_received = 0x0000008e, -vgt_perf_vgt_pa_clipp_starved_after_work = 0x0000008f, -vgt_perf_te11_con_starved_after_work = 0x00000090, -vgt_perf_hs_waiting_on_ls_done_stall = 0x00000091, -vgt_spi_vsvert_valid = 0x00000092, -} VGT_PERFCOUNT_SELECT; - -/* - * IA_PERFCOUNT_SELECT enum - */ - -typedef enum IA_PERFCOUNT_SELECT { -ia_perf_GRP_INPUT_EVENT_WINDOW_ACTIVE = 0x00000000, -ia_perf_dma_data_fifo_full = 0x00000001, -ia_perf_RESERVED1 = 0x00000002, -ia_perf_RESERVED2 = 0x00000003, -ia_perf_RESERVED3 = 0x00000004, -ia_perf_RESERVED4 = 0x00000005, -ia_perf_RESERVED5 = 0x00000006, -ia_perf_MC_LAT_BIN_0 = 0x00000007, -ia_perf_MC_LAT_BIN_1 = 0x00000008, -ia_perf_MC_LAT_BIN_2 = 0x00000009, -ia_perf_MC_LAT_BIN_3 = 0x0000000a, -ia_perf_MC_LAT_BIN_4 = 0x0000000b, -ia_perf_MC_LAT_BIN_5 = 0x0000000c, -ia_perf_MC_LAT_BIN_6 = 0x0000000d, -ia_perf_MC_LAT_BIN_7 = 0x0000000e, -ia_perf_ia_busy = 0x0000000f, -ia_perf_ia_sclk_reg_vld_event = 0x00000010, -ia_perf_RESERVED6 = 0x00000011, -ia_perf_ia_sclk_core_vld_event = 0x00000012, -ia_perf_RESERVED7 = 0x00000013, -ia_perf_ia_dma_return = 0x00000014, -ia_perf_ia_stalled = 0x00000015, -ia_perf_shift_starved_pipe0_event = 0x00000016, -ia_perf_shift_starved_pipe1_event = 0x00000017, -} IA_PERFCOUNT_SELECT; - -/* - * WD_PERFCOUNT_SELECT enum - */ - -typedef enum WD_PERFCOUNT_SELECT { -wd_perf_RBIU_FIFOS_EVENT_WINDOW_ACTIVE = 0x00000000, -wd_perf_RBIU_DR_FIFO_STARVED = 0x00000001, -wd_perf_RBIU_DR_FIFO_STALLED = 0x00000002, -wd_perf_RBIU_DI_FIFO_STARVED = 0x00000003, -wd_perf_RBIU_DI_FIFO_STALLED = 0x00000004, -wd_perf_wd_busy = 0x00000005, -wd_perf_wd_sclk_reg_vld_event = 0x00000006, -wd_perf_wd_sclk_input_vld_event = 0x00000007, -wd_perf_wd_sclk_core_vld_event = 0x00000008, -wd_perf_wd_stalled = 0x00000009, -wd_perf_inside_tf_bin_0 = 0x0000000a, -wd_perf_inside_tf_bin_1 = 0x0000000b, -wd_perf_inside_tf_bin_2 = 0x0000000c, -wd_perf_inside_tf_bin_3 = 0x0000000d, -wd_perf_inside_tf_bin_4 = 0x0000000e, -wd_perf_inside_tf_bin_5 = 0x0000000f, -wd_perf_inside_tf_bin_6 = 0x00000010, -wd_perf_inside_tf_bin_7 = 0x00000011, -wd_perf_inside_tf_bin_8 = 0x00000012, -wd_perf_tfreq_lat_bin_0 = 0x00000013, -wd_perf_tfreq_lat_bin_1 = 0x00000014, -wd_perf_tfreq_lat_bin_2 = 0x00000015, -wd_perf_tfreq_lat_bin_3 = 0x00000016, -wd_perf_tfreq_lat_bin_4 = 0x00000017, -wd_perf_tfreq_lat_bin_5 = 0x00000018, -wd_perf_tfreq_lat_bin_6 = 0x00000019, -wd_perf_tfreq_lat_bin_7 = 0x0000001a, -wd_starved_on_hs_done = 0x0000001b, -wd_perf_se0_hs_done_latency = 0x0000001c, -wd_perf_se1_hs_done_latency = 0x0000001d, -wd_perf_se2_hs_done_latency = 0x0000001e, -wd_perf_se3_hs_done_latency = 0x0000001f, -wd_perf_hs_done_se0 = 0x00000020, -wd_perf_hs_done_se1 = 0x00000021, -wd_perf_hs_done_se2 = 0x00000022, -wd_perf_hs_done_se3 = 0x00000023, -wd_perf_null_patches = 0x00000024, -} WD_PERFCOUNT_SELECT; - -/* - * WD_IA_DRAW_TYPE enum - */ - -typedef enum WD_IA_DRAW_TYPE { -WD_IA_DRAW_TYPE_DI_MM0 = 0x00000000, -WD_IA_DRAW_TYPE_REG_XFER = 0x00000001, -WD_IA_DRAW_TYPE_EVENT_INIT = 0x00000002, -WD_IA_DRAW_TYPE_EVENT_ADDR = 0x00000003, -WD_IA_DRAW_TYPE_MIN_INDX = 0x00000004, -WD_IA_DRAW_TYPE_MAX_INDX = 0x00000005, -WD_IA_DRAW_TYPE_INDX_OFF = 0x00000006, -WD_IA_DRAW_TYPE_IMM_DATA = 0x00000007, -} WD_IA_DRAW_TYPE; - -/* - * WD_IA_DRAW_REG_XFER enum - */ - -typedef enum WD_IA_DRAW_REG_XFER { -WD_IA_DRAW_REG_XFER_IA_MULTI_VGT_PARAM = 0x00000000, -WD_IA_DRAW_REG_XFER_VGT_MULTI_PRIM_IB_RESET_EN = 0x00000001, -} WD_IA_DRAW_REG_XFER; - -/* - * WD_IA_DRAW_SOURCE enum - */ - -typedef enum WD_IA_DRAW_SOURCE { -WD_IA_DRAW_SOURCE_DMA = 0x00000000, -WD_IA_DRAW_SOURCE_IMMD = 0x00000001, -WD_IA_DRAW_SOURCE_AUTO = 0x00000002, -WD_IA_DRAW_SOURCE_OPAQ = 0x00000003, -} WD_IA_DRAW_SOURCE; - -/* - * GS_THREADID_SIZE value - */ - -#define GSTHREADID_SIZE 0x00000002 - -/******************************************************* - * GB Enums - *******************************************************/ - -/* - * GB_EDC_DED_MODE enum - */ - -typedef enum GB_EDC_DED_MODE { -GB_EDC_DED_MODE_LOG = 0x00000000, -GB_EDC_DED_MODE_HALT = 0x00000001, -GB_EDC_DED_MODE_INT_HALT = 0x00000002, -} GB_EDC_DED_MODE; - -/* - * VALUE_GB_TILING_CONFIG_TABLE_SIZE value - */ - -#define GB_TILING_CONFIG_TABLE_SIZE 0x00000020 - -/* - * VALUE_GB_TILING_CONFIG_MACROTABLE_SIZE value - */ - -#define GB_TILING_CONFIG_MACROTABLE_SIZE 0x00000010 - -/******************************************************* - * TP Enums - *******************************************************/ - -/* - * TA_TC_ADDR_MODES enum - */ - -typedef enum TA_TC_ADDR_MODES { -TA_TC_ADDR_MODE_DEFAULT = 0x00000000, -TA_TC_ADDR_MODE_COMP0 = 0x00000001, -TA_TC_ADDR_MODE_COMP1 = 0x00000002, -TA_TC_ADDR_MODE_COMP2 = 0x00000003, -TA_TC_ADDR_MODE_COMP3 = 0x00000004, -TA_TC_ADDR_MODE_UNALIGNED = 0x00000005, -TA_TC_ADDR_MODE_BORDER_COLOR = 0x00000006, -} TA_TC_ADDR_MODES; - -/* - * TA_PERFCOUNT_SEL enum - */ - -typedef enum TA_PERFCOUNT_SEL { -TA_PERF_SEL_NULL = 0x00000000, -TA_PERF_SEL_sh_fifo_busy = 0x00000001, -TA_PERF_SEL_sh_fifo_cmd_busy = 0x00000002, -TA_PERF_SEL_sh_fifo_addr_busy = 0x00000003, -TA_PERF_SEL_sh_fifo_data_busy = 0x00000004, -TA_PERF_SEL_sh_fifo_data_sfifo_busy = 0x00000005, -TA_PERF_SEL_sh_fifo_data_tfifo_busy = 0x00000006, -TA_PERF_SEL_gradient_busy = 0x00000007, -TA_PERF_SEL_gradient_fifo_busy = 0x00000008, -TA_PERF_SEL_lod_busy = 0x00000009, -TA_PERF_SEL_lod_fifo_busy = 0x0000000a, -TA_PERF_SEL_addresser_busy = 0x0000000b, -TA_PERF_SEL_addresser_fifo_busy = 0x0000000c, -TA_PERF_SEL_aligner_busy = 0x0000000d, -TA_PERF_SEL_write_path_busy = 0x0000000e, -TA_PERF_SEL_ta_busy = 0x0000000f, -TA_PERF_SEL_sq_ta_cmd_cycles = 0x00000010, -TA_PERF_SEL_sp_ta_addr_cycles = 0x00000011, -TA_PERF_SEL_sp_ta_data_cycles = 0x00000012, -TA_PERF_SEL_ta_fa_data_state_cycles = 0x00000013, -TA_PERF_SEL_sh_fifo_addr_waiting_on_cmd_cycles = 0x00000014, -TA_PERF_SEL_sh_fifo_cmd_waiting_on_addr_cycles = 0x00000015, -TA_PERF_SEL_sh_fifo_addr_starved_while_busy_cycles = 0x00000016, -TA_PERF_SEL_sh_fifo_cmd_starved_while_busy_cycles = 0x00000017, -TA_PERF_SEL_sh_fifo_data_waiting_on_data_state_cycles = 0x00000018, -TA_PERF_SEL_sh_fifo_data_state_waiting_on_data_cycles = 0x00000019, -TA_PERF_SEL_sh_fifo_data_starved_while_busy_cycles = 0x0000001a, -TA_PERF_SEL_sh_fifo_data_state_starved_while_busy_cycles = 0x0000001b, -TA_PERF_SEL_RESERVED_28 = 0x0000001c, -TA_PERF_SEL_RESERVED_29 = 0x0000001d, -TA_PERF_SEL_sh_fifo_addr_cycles = 0x0000001e, -TA_PERF_SEL_sh_fifo_data_cycles = 0x0000001f, -TA_PERF_SEL_total_wavefronts = 0x00000020, -TA_PERF_SEL_gradient_cycles = 0x00000021, -TA_PERF_SEL_walker_cycles = 0x00000022, -TA_PERF_SEL_aligner_cycles = 0x00000023, -TA_PERF_SEL_image_wavefronts = 0x00000024, -TA_PERF_SEL_image_read_wavefronts = 0x00000025, -TA_PERF_SEL_image_write_wavefronts = 0x00000026, -TA_PERF_SEL_image_atomic_wavefronts = 0x00000027, -TA_PERF_SEL_image_total_cycles = 0x00000028, -TA_PERF_SEL_RESERVED_41 = 0x00000029, -TA_PERF_SEL_RESERVED_42 = 0x0000002a, -TA_PERF_SEL_RESERVED_43 = 0x0000002b, -TA_PERF_SEL_buffer_wavefronts = 0x0000002c, -TA_PERF_SEL_buffer_read_wavefronts = 0x0000002d, -TA_PERF_SEL_buffer_write_wavefronts = 0x0000002e, -TA_PERF_SEL_buffer_atomic_wavefronts = 0x0000002f, -TA_PERF_SEL_buffer_coalescable_wavefronts = 0x00000030, -TA_PERF_SEL_buffer_total_cycles = 0x00000031, -TA_PERF_SEL_buffer_coalescable_addr_multicycled_cycles = 0x00000032, -TA_PERF_SEL_buffer_coalescable_clamp_16kdword_multicycled_cycles = 0x00000033, -TA_PERF_SEL_buffer_coalesced_read_cycles = 0x00000034, -TA_PERF_SEL_buffer_coalesced_write_cycles = 0x00000035, -TA_PERF_SEL_addr_stalled_by_tc_cycles = 0x00000036, -TA_PERF_SEL_addr_stalled_by_td_cycles = 0x00000037, -TA_PERF_SEL_data_stalled_by_tc_cycles = 0x00000038, -TA_PERF_SEL_addresser_stalled_by_aligner_only_cycles = 0x00000039, -TA_PERF_SEL_addresser_stalled_cycles = 0x0000003a, -TA_PERF_SEL_aniso_stalled_by_addresser_only_cycles = 0x0000003b, -TA_PERF_SEL_aniso_stalled_cycles = 0x0000003c, -TA_PERF_SEL_deriv_stalled_by_aniso_only_cycles = 0x0000003d, -TA_PERF_SEL_deriv_stalled_cycles = 0x0000003e, -TA_PERF_SEL_aniso_gt1_cycle_quads = 0x0000003f, -TA_PERF_SEL_color_1_cycle_pixels = 0x00000040, -TA_PERF_SEL_color_2_cycle_pixels = 0x00000041, -TA_PERF_SEL_color_3_cycle_pixels = 0x00000042, -TA_PERF_SEL_color_4_cycle_pixels = 0x00000043, -TA_PERF_SEL_mip_1_cycle_pixels = 0x00000044, -TA_PERF_SEL_mip_2_cycle_pixels = 0x00000045, -TA_PERF_SEL_vol_1_cycle_pixels = 0x00000046, -TA_PERF_SEL_vol_2_cycle_pixels = 0x00000047, -TA_PERF_SEL_bilin_point_1_cycle_pixels = 0x00000048, -TA_PERF_SEL_mipmap_lod_0_samples = 0x00000049, -TA_PERF_SEL_mipmap_lod_1_samples = 0x0000004a, -TA_PERF_SEL_mipmap_lod_2_samples = 0x0000004b, -TA_PERF_SEL_mipmap_lod_3_samples = 0x0000004c, -TA_PERF_SEL_mipmap_lod_4_samples = 0x0000004d, -TA_PERF_SEL_mipmap_lod_5_samples = 0x0000004e, -TA_PERF_SEL_mipmap_lod_6_samples = 0x0000004f, -TA_PERF_SEL_mipmap_lod_7_samples = 0x00000050, -TA_PERF_SEL_mipmap_lod_8_samples = 0x00000051, -TA_PERF_SEL_mipmap_lod_9_samples = 0x00000052, -TA_PERF_SEL_mipmap_lod_10_samples = 0x00000053, -TA_PERF_SEL_mipmap_lod_11_samples = 0x00000054, -TA_PERF_SEL_mipmap_lod_12_samples = 0x00000055, -TA_PERF_SEL_mipmap_lod_13_samples = 0x00000056, -TA_PERF_SEL_mipmap_lod_14_samples = 0x00000057, -TA_PERF_SEL_mipmap_invalid_samples = 0x00000058, -TA_PERF_SEL_aniso_1_cycle_quads = 0x00000059, -TA_PERF_SEL_aniso_2_cycle_quads = 0x0000005a, -TA_PERF_SEL_aniso_4_cycle_quads = 0x0000005b, -TA_PERF_SEL_aniso_6_cycle_quads = 0x0000005c, -TA_PERF_SEL_aniso_8_cycle_quads = 0x0000005d, -TA_PERF_SEL_aniso_10_cycle_quads = 0x0000005e, -TA_PERF_SEL_aniso_12_cycle_quads = 0x0000005f, -TA_PERF_SEL_aniso_14_cycle_quads = 0x00000060, -TA_PERF_SEL_aniso_16_cycle_quads = 0x00000061, -TA_PERF_SEL_write_path_input_cycles = 0x00000062, -TA_PERF_SEL_write_path_output_cycles = 0x00000063, -TA_PERF_SEL_flat_wavefronts = 0x00000064, -TA_PERF_SEL_flat_read_wavefronts = 0x00000065, -TA_PERF_SEL_flat_write_wavefronts = 0x00000066, -TA_PERF_SEL_flat_atomic_wavefronts = 0x00000067, -TA_PERF_SEL_flat_coalesceable_wavefronts = 0x00000068, -TA_PERF_SEL_reg_sclk_vld = 0x00000069, -TA_PERF_SEL_local_cg_dyn_sclk_grp0_en = 0x0000006a, -TA_PERF_SEL_local_cg_dyn_sclk_grp1_en = 0x0000006b, -TA_PERF_SEL_local_cg_dyn_sclk_grp1_mems_en = 0x0000006c, -TA_PERF_SEL_local_cg_dyn_sclk_grp4_en = 0x0000006d, -TA_PERF_SEL_local_cg_dyn_sclk_grp5_en = 0x0000006e, -TA_PERF_SEL_xnack_on_phase0 = 0x0000006f, -TA_PERF_SEL_xnack_on_phase1 = 0x00000070, -TA_PERF_SEL_xnack_on_phase2 = 0x00000071, -TA_PERF_SEL_xnack_on_phase3 = 0x00000072, -TA_PERF_SEL_first_xnack_on_phase0 = 0x00000073, -TA_PERF_SEL_first_xnack_on_phase1 = 0x00000074, -TA_PERF_SEL_first_xnack_on_phase2 = 0x00000075, -TA_PERF_SEL_first_xnack_on_phase3 = 0x00000076, -} TA_PERFCOUNT_SEL; - -/* - * TD_PERFCOUNT_SEL enum - */ - -typedef enum TD_PERFCOUNT_SEL { -TD_PERF_SEL_none = 0x00000000, -TD_PERF_SEL_td_busy = 0x00000001, -TD_PERF_SEL_input_busy = 0x00000002, -TD_PERF_SEL_output_busy = 0x00000003, -TD_PERF_SEL_lerp_busy = 0x00000004, -TD_PERF_SEL_reg_sclk_vld = 0x00000005, -TD_PERF_SEL_local_cg_dyn_sclk_grp0_en = 0x00000006, -TD_PERF_SEL_local_cg_dyn_sclk_grp1_en = 0x00000007, -TD_PERF_SEL_local_cg_dyn_sclk_grp4_en = 0x00000008, -TD_PERF_SEL_local_cg_dyn_sclk_grp5_en = 0x00000009, -TD_PERF_SEL_tc_td_fifo_full = 0x0000000a, -TD_PERF_SEL_constant_state_full = 0x0000000b, -TD_PERF_SEL_sample_state_full = 0x0000000c, -TD_PERF_SEL_output_fifo_full = 0x0000000d, -TD_PERF_SEL_RESERVED_14 = 0x0000000e, -TD_PERF_SEL_tc_stall = 0x0000000f, -TD_PERF_SEL_pc_stall = 0x00000010, -TD_PERF_SEL_gds_stall = 0x00000011, -TD_PERF_SEL_RESERVED_18 = 0x00000012, -TD_PERF_SEL_RESERVED_19 = 0x00000013, -TD_PERF_SEL_gather4_wavefront = 0x00000014, -TD_PERF_SEL_gather4h_wavefront = 0x00000015, -TD_PERF_SEL_gather4h_packed_wavefront = 0x00000016, -TD_PERF_SEL_gather8h_packed_wavefront = 0x00000017, -TD_PERF_SEL_sample_c_wavefront = 0x00000018, -TD_PERF_SEL_load_wavefront = 0x00000019, -TD_PERF_SEL_atomic_wavefront = 0x0000001a, -TD_PERF_SEL_store_wavefront = 0x0000001b, -TD_PERF_SEL_ldfptr_wavefront = 0x0000001c, -TD_PERF_SEL_d16_en_wavefront = 0x0000001d, -TD_PERF_SEL_bypass_filter_wavefront = 0x0000001e, -TD_PERF_SEL_min_max_filter_wavefront = 0x0000001f, -TD_PERF_SEL_coalescable_wavefront = 0x00000020, -TD_PERF_SEL_coalesced_phase = 0x00000021, -TD_PERF_SEL_four_phase_wavefront = 0x00000022, -TD_PERF_SEL_eight_phase_wavefront = 0x00000023, -TD_PERF_SEL_sixteen_phase_wavefront = 0x00000024, -TD_PERF_SEL_four_phase_forward_wavefront = 0x00000025, -TD_PERF_SEL_write_ack_wavefront = 0x00000026, -TD_PERF_SEL_RESERVED_39 = 0x00000027, -TD_PERF_SEL_user_defined_border = 0x00000028, -TD_PERF_SEL_white_border = 0x00000029, -TD_PERF_SEL_opaque_black_border = 0x0000002a, -TD_PERF_SEL_RESERVED_43 = 0x0000002b, -TD_PERF_SEL_RESERVED_44 = 0x0000002c, -TD_PERF_SEL_nack = 0x0000002d, -TD_PERF_SEL_td_sp_traffic = 0x0000002e, -TD_PERF_SEL_consume_gds_traffic = 0x0000002f, -TD_PERF_SEL_addresscmd_poison = 0x00000030, -TD_PERF_SEL_data_poison = 0x00000031, -TD_PERF_SEL_start_cycle_0 = 0x00000032, -TD_PERF_SEL_start_cycle_1 = 0x00000033, -TD_PERF_SEL_start_cycle_2 = 0x00000034, -TD_PERF_SEL_start_cycle_3 = 0x00000035, -TD_PERF_SEL_null_cycle_output = 0x00000036, -TD_PERF_SEL_d16_data_packed = 0x00000037, -TD_PERF_SEL_texels_zeroed_out_by_blend_zero_prt = 0x00000038, -} TD_PERFCOUNT_SEL; - -/* - * TCP_PERFCOUNT_SELECT enum - */ - -typedef enum TCP_PERFCOUNT_SELECT { -TCP_PERF_SEL_TA_TCP_ADDR_STARVE_CYCLES = 0x00000000, -TCP_PERF_SEL_TA_TCP_DATA_STARVE_CYCLES = 0x00000001, -TCP_PERF_SEL_TCP_TA_ADDR_STALL_CYCLES = 0x00000002, -TCP_PERF_SEL_TCP_TA_DATA_STALL_CYCLES = 0x00000003, -TCP_PERF_SEL_TD_TCP_STALL_CYCLES = 0x00000004, -TCP_PERF_SEL_TCR_TCP_STALL_CYCLES = 0x00000005, -TCP_PERF_SEL_LOD_STALL_CYCLES = 0x00000006, -TCP_PERF_SEL_READ_TAGCONFLICT_STALL_CYCLES = 0x00000007, -TCP_PERF_SEL_WRITE_TAGCONFLICT_STALL_CYCLES = 0x00000008, -TCP_PERF_SEL_ATOMIC_TAGCONFLICT_STALL_CYCLES = 0x00000009, -TCP_PERF_SEL_ALLOC_STALL_CYCLES = 0x0000000a, -TCP_PERF_SEL_LFIFO_STALL_CYCLES = 0x0000000b, -TCP_PERF_SEL_RFIFO_STALL_CYCLES = 0x0000000c, -TCP_PERF_SEL_TCR_RDRET_STALL = 0x0000000d, -TCP_PERF_SEL_WRITE_CONFLICT_STALL = 0x0000000e, -TCP_PERF_SEL_HOLE_READ_STALL = 0x0000000f, -TCP_PERF_SEL_READCONFLICT_STALL_CYCLES = 0x00000010, -TCP_PERF_SEL_PENDING_STALL_CYCLES = 0x00000011, -TCP_PERF_SEL_READFIFO_STALL_CYCLES = 0x00000012, -TCP_PERF_SEL_TCP_LATENCY = 0x00000013, -TCP_PERF_SEL_TCC_READ_REQ_LATENCY = 0x00000014, -TCP_PERF_SEL_TCC_WRITE_REQ_LATENCY = 0x00000015, -TCP_PERF_SEL_TCC_WRITE_REQ_HOLE_LATENCY = 0x00000016, -TCP_PERF_SEL_TCC_READ_REQ = 0x00000017, -TCP_PERF_SEL_TCC_WRITE_REQ = 0x00000018, -TCP_PERF_SEL_TCC_ATOMIC_WITH_RET_REQ = 0x00000019, -TCP_PERF_SEL_TCC_ATOMIC_WITHOUT_RET_REQ = 0x0000001a, -TCP_PERF_SEL_TOTAL_LOCAL_READ = 0x0000001b, -TCP_PERF_SEL_TOTAL_GLOBAL_READ = 0x0000001c, -TCP_PERF_SEL_TOTAL_LOCAL_WRITE = 0x0000001d, -TCP_PERF_SEL_TOTAL_GLOBAL_WRITE = 0x0000001e, -TCP_PERF_SEL_TOTAL_ATOMIC_WITH_RET = 0x0000001f, -TCP_PERF_SEL_TOTAL_ATOMIC_WITHOUT_RET = 0x00000020, -TCP_PERF_SEL_TOTAL_WBINVL1 = 0x00000021, -TCP_PERF_SEL_IMG_READ_FMT_1 = 0x00000022, -TCP_PERF_SEL_IMG_READ_FMT_8 = 0x00000023, -TCP_PERF_SEL_IMG_READ_FMT_16 = 0x00000024, -TCP_PERF_SEL_IMG_READ_FMT_32 = 0x00000025, -TCP_PERF_SEL_IMG_READ_FMT_32_AS_8 = 0x00000026, -TCP_PERF_SEL_IMG_READ_FMT_32_AS_16 = 0x00000027, -TCP_PERF_SEL_IMG_READ_FMT_32_AS_128 = 0x00000028, -TCP_PERF_SEL_IMG_READ_FMT_64_2_CYCLE = 0x00000029, -TCP_PERF_SEL_IMG_READ_FMT_64_1_CYCLE = 0x0000002a, -TCP_PERF_SEL_IMG_READ_FMT_96 = 0x0000002b, -TCP_PERF_SEL_IMG_READ_FMT_128_4_CYCLE = 0x0000002c, -TCP_PERF_SEL_IMG_READ_FMT_128_1_CYCLE = 0x0000002d, -TCP_PERF_SEL_IMG_READ_FMT_BC1 = 0x0000002e, -TCP_PERF_SEL_IMG_READ_FMT_BC2 = 0x0000002f, -TCP_PERF_SEL_IMG_READ_FMT_BC3 = 0x00000030, -TCP_PERF_SEL_IMG_READ_FMT_BC4 = 0x00000031, -TCP_PERF_SEL_IMG_READ_FMT_BC5 = 0x00000032, -TCP_PERF_SEL_IMG_READ_FMT_BC6 = 0x00000033, -TCP_PERF_SEL_IMG_READ_FMT_BC7 = 0x00000034, -TCP_PERF_SEL_IMG_READ_FMT_I8 = 0x00000035, -TCP_PERF_SEL_IMG_READ_FMT_I16 = 0x00000036, -TCP_PERF_SEL_IMG_READ_FMT_I32 = 0x00000037, -TCP_PERF_SEL_IMG_READ_FMT_I32_AS_8 = 0x00000038, -TCP_PERF_SEL_IMG_READ_FMT_I32_AS_16 = 0x00000039, -TCP_PERF_SEL_IMG_READ_FMT_D8 = 0x0000003a, -TCP_PERF_SEL_IMG_READ_FMT_D16 = 0x0000003b, -TCP_PERF_SEL_IMG_READ_FMT_D32 = 0x0000003c, -TCP_PERF_SEL_IMG_WRITE_FMT_8 = 0x0000003d, -TCP_PERF_SEL_IMG_WRITE_FMT_16 = 0x0000003e, -TCP_PERF_SEL_IMG_WRITE_FMT_32 = 0x0000003f, -TCP_PERF_SEL_IMG_WRITE_FMT_64 = 0x00000040, -TCP_PERF_SEL_IMG_WRITE_FMT_128 = 0x00000041, -TCP_PERF_SEL_IMG_WRITE_FMT_D8 = 0x00000042, -TCP_PERF_SEL_IMG_WRITE_FMT_D16 = 0x00000043, -TCP_PERF_SEL_IMG_WRITE_FMT_D32 = 0x00000044, -TCP_PERF_SEL_IMG_ATOMIC_WITH_RET_FMT_32 = 0x00000045, -TCP_PERF_SEL_IMG_ATOMIC_WITHOUT_RET_FMT_32 = 0x00000046, -TCP_PERF_SEL_IMG_ATOMIC_WITH_RET_FMT_64 = 0x00000047, -TCP_PERF_SEL_IMG_ATOMIC_WITHOUT_RET_FMT_64 = 0x00000048, -TCP_PERF_SEL_BUF_READ_FMT_8 = 0x00000049, -TCP_PERF_SEL_BUF_READ_FMT_16 = 0x0000004a, -TCP_PERF_SEL_BUF_READ_FMT_32 = 0x0000004b, -TCP_PERF_SEL_BUF_WRITE_FMT_8 = 0x0000004c, -TCP_PERF_SEL_BUF_WRITE_FMT_16 = 0x0000004d, -TCP_PERF_SEL_BUF_WRITE_FMT_32 = 0x0000004e, -TCP_PERF_SEL_BUF_ATOMIC_WITH_RET_FMT_32 = 0x0000004f, -TCP_PERF_SEL_BUF_ATOMIC_WITHOUT_RET_FMT_32 = 0x00000050, -TCP_PERF_SEL_BUF_ATOMIC_WITH_RET_FMT_64 = 0x00000051, -TCP_PERF_SEL_BUF_ATOMIC_WITHOUT_RET_FMT_64 = 0x00000052, -TCP_PERF_SEL_ARR_LINEAR_GENERAL = 0x00000053, -TCP_PERF_SEL_ARR_LINEAR_ALIGNED = 0x00000054, -TCP_PERF_SEL_ARR_1D_THIN1 = 0x00000055, -TCP_PERF_SEL_ARR_1D_THICK = 0x00000056, -TCP_PERF_SEL_ARR_2D_THIN1 = 0x00000057, -TCP_PERF_SEL_ARR_2D_THICK = 0x00000058, -TCP_PERF_SEL_ARR_2D_XTHICK = 0x00000059, -TCP_PERF_SEL_ARR_3D_THIN1 = 0x0000005a, -TCP_PERF_SEL_ARR_3D_THICK = 0x0000005b, -TCP_PERF_SEL_ARR_3D_XTHICK = 0x0000005c, -TCP_PERF_SEL_DIM_1D = 0x0000005d, -TCP_PERF_SEL_DIM_2D = 0x0000005e, -TCP_PERF_SEL_DIM_3D = 0x0000005f, -TCP_PERF_SEL_DIM_1D_ARRAY = 0x00000060, -TCP_PERF_SEL_DIM_2D_ARRAY = 0x00000061, -TCP_PERF_SEL_DIM_2D_MSAA = 0x00000062, -TCP_PERF_SEL_DIM_2D_ARRAY_MSAA = 0x00000063, -TCP_PERF_SEL_DIM_CUBE_ARRAY = 0x00000064, -TCP_PERF_SEL_CP_TCP_INVALIDATE = 0x00000065, -TCP_PERF_SEL_TA_TCP_STATE_READ = 0x00000066, -TCP_PERF_SEL_TAGRAM0_REQ = 0x00000067, -TCP_PERF_SEL_TAGRAM1_REQ = 0x00000068, -TCP_PERF_SEL_TAGRAM2_REQ = 0x00000069, -TCP_PERF_SEL_TAGRAM3_REQ = 0x0000006a, -TCP_PERF_SEL_GATE_EN1 = 0x0000006b, -TCP_PERF_SEL_GATE_EN2 = 0x0000006c, -TCP_PERF_SEL_CORE_REG_SCLK_VLD = 0x0000006d, -TCP_PERF_SEL_TCC_REQ = 0x0000006e, -TCP_PERF_SEL_TCC_NON_READ_REQ = 0x0000006f, -TCP_PERF_SEL_TCC_BYPASS_READ_REQ = 0x00000070, -TCP_PERF_SEL_TCC_MISS_EVICT_READ_REQ = 0x00000071, -TCP_PERF_SEL_TCC_VOLATILE_READ_REQ = 0x00000072, -TCP_PERF_SEL_TCC_VOLATILE_BYPASS_READ_REQ = 0x00000073, -TCP_PERF_SEL_TCC_VOLATILE_MISS_EVICT_READ_REQ = 0x00000074, -TCP_PERF_SEL_TCC_BYPASS_WRITE_REQ = 0x00000075, -TCP_PERF_SEL_TCC_MISS_EVICT_WRITE_REQ = 0x00000076, -TCP_PERF_SEL_TCC_VOLATILE_BYPASS_WRITE_REQ = 0x00000077, -TCP_PERF_SEL_TCC_VOLATILE_WRITE_REQ = 0x00000078, -TCP_PERF_SEL_TCC_VOLATILE_MISS_EVICT_WRITE_REQ = 0x00000079, -TCP_PERF_SEL_TCC_BYPASS_ATOMIC_REQ = 0x0000007a, -TCP_PERF_SEL_TCC_ATOMIC_REQ = 0x0000007b, -TCP_PERF_SEL_TCC_VOLATILE_ATOMIC_REQ = 0x0000007c, -TCP_PERF_SEL_TCC_DATA_BUS_BUSY = 0x0000007d, -TCP_PERF_SEL_TOTAL_ACCESSES = 0x0000007e, -TCP_PERF_SEL_TOTAL_READ = 0x0000007f, -TCP_PERF_SEL_TOTAL_HIT_LRU_READ = 0x00000080, -TCP_PERF_SEL_TOTAL_HIT_EVICT_READ = 0x00000081, -TCP_PERF_SEL_TOTAL_MISS_LRU_READ = 0x00000082, -TCP_PERF_SEL_TOTAL_MISS_EVICT_READ = 0x00000083, -TCP_PERF_SEL_TOTAL_NON_READ = 0x00000084, -TCP_PERF_SEL_TOTAL_WRITE = 0x00000085, -TCP_PERF_SEL_TOTAL_MISS_LRU_WRITE = 0x00000086, -TCP_PERF_SEL_TOTAL_MISS_EVICT_WRITE = 0x00000087, -TCP_PERF_SEL_TOTAL_WBINVL1_VOL = 0x00000088, -TCP_PERF_SEL_TOTAL_WRITEBACK_INVALIDATES = 0x00000089, -TCP_PERF_SEL_DISPLAY_MICROTILING = 0x0000008a, -TCP_PERF_SEL_THIN_MICROTILING = 0x0000008b, -TCP_PERF_SEL_DEPTH_MICROTILING = 0x0000008c, -TCP_PERF_SEL_ARR_PRT_THIN1 = 0x0000008d, -TCP_PERF_SEL_ARR_PRT_2D_THIN1 = 0x0000008e, -TCP_PERF_SEL_ARR_PRT_3D_THIN1 = 0x0000008f, -TCP_PERF_SEL_ARR_PRT_THICK = 0x00000090, -TCP_PERF_SEL_ARR_PRT_2D_THICK = 0x00000091, -TCP_PERF_SEL_ARR_PRT_3D_THICK = 0x00000092, -TCP_PERF_SEL_CP_TCP_INVALIDATE_VOL = 0x00000093, -TCP_PERF_SEL_SQ_TCP_INVALIDATE_VOL = 0x00000094, -TCP_PERF_SEL_UNALIGNED = 0x00000095, -TCP_PERF_SEL_ROTATED_MICROTILING = 0x00000096, -TCP_PERF_SEL_THICK_MICROTILING = 0x00000097, -TCP_PERF_SEL_ATC = 0x00000098, -TCP_PERF_SEL_POWER_STALL = 0x00000099, -TCP_PERF_SEL_RESERVED_154 = 0x0000009a, -TCP_PERF_SEL_TCC_LRU_REQ = 0x0000009b, -TCP_PERF_SEL_TCC_STREAM_REQ = 0x0000009c, -TCP_PERF_SEL_TCC_NC_READ_REQ = 0x0000009d, -TCP_PERF_SEL_TCC_NC_WRITE_REQ = 0x0000009e, -TCP_PERF_SEL_TCC_NC_ATOMIC_REQ = 0x0000009f, -TCP_PERF_SEL_TCC_UC_READ_REQ = 0x000000a0, -TCP_PERF_SEL_TCC_UC_WRITE_REQ = 0x000000a1, -TCP_PERF_SEL_TCC_UC_ATOMIC_REQ = 0x000000a2, -TCP_PERF_SEL_TCC_CC_READ_REQ = 0x000000a3, -TCP_PERF_SEL_TCC_CC_WRITE_REQ = 0x000000a4, -TCP_PERF_SEL_TCC_CC_ATOMIC_REQ = 0x000000a5, -TCP_PERF_SEL_TCC_DCC_REQ = 0x000000a6, -TCP_PERF_SEL_TCC_PHYSICAL_REQ = 0x000000a7, -TCP_PERF_SEL_UNORDERED_MTYPE_STALL = 0x000000a8, -TCP_PERF_SEL_VOLATILE = 0x000000a9, -TCP_PERF_SEL_TC_TA_XNACK_STALL = 0x000000aa, -TCP_PERF_SEL_UTCL1_SERIALIZATION_STALL = 0x000000ab, -TCP_PERF_SEL_SHOOTDOWN = 0x000000ac, -TCP_PERF_SEL_UTCL1_TRANSLATION_MISS = 0x000000ad, -TCP_PERF_SEL_UTCL1_PERMISSION_MISS = 0x000000ae, -TCP_PERF_SEL_UTCL1_REQUEST = 0x000000af, -TCP_PERF_SEL_UTCL1_STALL_INFLIGHT_MAX = 0x000000b0, -TCP_PERF_SEL_UTCL1_STALL_LRU_INFLIGHT = 0x000000b1, -TCP_PERF_SEL_UTCL1_LFIFO_FULL = 0x000000b2, -TCP_PERF_SEL_UTCL1_STALL_LFIFO_NOT_RES = 0x000000b3, -TCP_PERF_SEL_UTCL1_STALL_UTCL2_REQ_OUT_OF_CREDITS = 0x000000b4, -TCP_PERF_SEL_UTCL1_UTCL2_INFLIGHT = 0x000000b5, -TCP_PERF_SEL_UTCL1_STALL_MISSFIFO_FULL = 0x000000b6, -TCP_PERF_SEL_IMG_READ_FMT_ETC2_RGB = 0x000000b7, -TCP_PERF_SEL_IMG_READ_FMT_ETC2_RGBA = 0x000000b8, -TCP_PERF_SEL_IMG_READ_FMT_ETC2_RGBA1 = 0x000000b9, -TCP_PERF_SEL_IMG_READ_FMT_ETC2_R = 0x000000ba, -TCP_PERF_SEL_IMG_READ_FMT_ETC2_RG = 0x000000bb, -TCP_PERF_SEL_IMG_READ_FMT_8_AS_32 = 0x000000bc, -TCP_PERF_SEL_IMG_READ_FMT_8_AS_64 = 0x000000bd, -TCP_PERF_SEL_IMG_READ_FMT_16_AS_64 = 0x000000be, -TCP_PERF_SEL_IMG_READ_FMT_16_AS_128 = 0x000000bf, -TCP_PERF_SEL_IMG_WRITE_FMT_8_AS_32 = 0x000000c0, -TCP_PERF_SEL_IMG_WRITE_FMT_8_AS_64 = 0x000000c1, -TCP_PERF_SEL_IMG_WRITE_FMT_16_AS_64 = 0x000000c2, -TCP_PERF_SEL_IMG_WRITE_FMT_16_AS_128 = 0x000000c3, -} TCP_PERFCOUNT_SELECT; - -/* - * TCP_CACHE_POLICIES enum - */ - -typedef enum TCP_CACHE_POLICIES { -TCP_CACHE_POLICY_MISS_LRU = 0x00000000, -TCP_CACHE_POLICY_MISS_EVICT = 0x00000001, -TCP_CACHE_POLICY_HIT_LRU = 0x00000002, -TCP_CACHE_POLICY_HIT_EVICT = 0x00000003, -} TCP_CACHE_POLICIES; - -/* - * TCP_CACHE_STORE_POLICIES enum - */ - -typedef enum TCP_CACHE_STORE_POLICIES { -TCP_CACHE_STORE_POLICY_WT_LRU = 0x00000000, -TCP_CACHE_STORE_POLICY_WT_EVICT = 0x00000001, -} TCP_CACHE_STORE_POLICIES; - -/* - * TCP_WATCH_MODES enum - */ - -typedef enum TCP_WATCH_MODES { -TCP_WATCH_MODE_READ = 0x00000000, -TCP_WATCH_MODE_NONREAD = 0x00000001, -TCP_WATCH_MODE_ATOMIC = 0x00000002, -TCP_WATCH_MODE_ALL = 0x00000003, -} TCP_WATCH_MODES; - -/* - * TCP_DSM_DATA_SEL enum - */ - -typedef enum TCP_DSM_DATA_SEL { -TCP_DSM_DISABLE = 0x00000000, -TCP_DSM_SEL0 = 0x00000001, -TCP_DSM_SEL1 = 0x00000002, -TCP_DSM_SEL_BOTH = 0x00000003, -} TCP_DSM_DATA_SEL; - -/* - * TCP_DSM_SINGLE_WRITE enum - */ - -typedef enum TCP_DSM_SINGLE_WRITE { -TCP_DSM_SINGLE_WRITE_DIS = 0x00000000, -TCP_DSM_SINGLE_WRITE_EN = 0x00000001, -} TCP_DSM_SINGLE_WRITE; - -/* - * TCP_DSM_INJECT_SEL enum - */ - -typedef enum TCP_DSM_INJECT_SEL { -TCP_DSM_INJECT_SEL0 = 0x00000000, -TCP_DSM_INJECT_SEL1 = 0x00000001, -TCP_DSM_INJECT_SEL2 = 0x00000002, -TCP_DSM_INJECT_SEL3 = 0x00000003, -} TCP_DSM_INJECT_SEL; - -/******************************************************* - * TCC Enums - *******************************************************/ - -/* - * TCC_PERF_SEL enum - */ - -typedef enum TCC_PERF_SEL { -TCC_PERF_SEL_NONE = 0x00000000, -TCC_PERF_SEL_CYCLE = 0x00000001, -TCC_PERF_SEL_BUSY = 0x00000002, -TCC_PERF_SEL_REQ = 0x00000003, -TCC_PERF_SEL_STREAMING_REQ = 0x00000004, -TCC_PERF_SEL_EXE_REQ = 0x00000005, -TCC_PERF_SEL_COMPRESSED_REQ = 0x00000006, -TCC_PERF_SEL_COMPRESSED_0_REQ = 0x00000007, -TCC_PERF_SEL_METADATA_REQ = 0x00000008, -TCC_PERF_SEL_NC_VIRTUAL_REQ = 0x00000009, -TCC_PERF_SEL_UC_VIRTUAL_REQ = 0x0000000a, -TCC_PERF_SEL_CC_PHYSICAL_REQ = 0x0000000b, -TCC_PERF_SEL_PROBE = 0x0000000c, -TCC_PERF_SEL_PROBE_ALL = 0x0000000d, -TCC_PERF_SEL_READ = 0x0000000e, -TCC_PERF_SEL_WRITE = 0x0000000f, -TCC_PERF_SEL_ATOMIC = 0x00000010, -TCC_PERF_SEL_HIT = 0x00000011, -TCC_PERF_SEL_SECTOR_HIT = 0x00000012, -TCC_PERF_SEL_MISS = 0x00000013, -TCC_PERF_SEL_DEWRITE_ALLOCATE_HIT = 0x00000014, -TCC_PERF_SEL_FULLY_WRITTEN_HIT = 0x00000015, -TCC_PERF_SEL_WRITEBACK = 0x00000016, -TCC_PERF_SEL_LATENCY_FIFO_FULL = 0x00000017, -TCC_PERF_SEL_SRC_FIFO_FULL = 0x00000018, -TCC_PERF_SEL_HOLE_FIFO_FULL = 0x00000019, -TCC_PERF_SEL_EA_WRREQ = 0x0000001a, -TCC_PERF_SEL_EA_WRREQ_64B = 0x0000001b, -TCC_PERF_SEL_EA_WRREQ_PROBE_COMMAND = 0x0000001c, -TCC_PERF_SEL_EA_WR_UNCACHED_32B = 0x0000001d, -TCC_PERF_SEL_EA_WRREQ_STALL = 0x0000001e, -TCC_PERF_SEL_EA_WRREQ_CREDIT_STALL = 0x0000001f, -TCC_PERF_SEL_TOO_MANY_EA_WRREQS_STALL = 0x00000020, -TCC_PERF_SEL_EA_WRREQ_LEVEL = 0x00000021, -TCC_PERF_SEL_EA_ATOMIC = 0x00000022, -TCC_PERF_SEL_EA_ATOMIC_LEVEL = 0x00000023, -TCC_PERF_SEL_EA_RDREQ = 0x00000024, -TCC_PERF_SEL_EA_RDREQ_32B = 0x00000025, -TCC_PERF_SEL_EA_RD_UNCACHED_32B = 0x00000026, -TCC_PERF_SEL_EA_RD_MDC_32B = 0x00000027, -TCC_PERF_SEL_EA_RD_COMPRESSED_32B = 0x00000028, -TCC_PERF_SEL_EA_RDREQ_CREDIT_STALL = 0x00000029, -TCC_PERF_SEL_EA_RDREQ_LEVEL = 0x0000002a, -TCC_PERF_SEL_TAG_STALL = 0x0000002b, -TCC_PERF_SEL_TAG_WRITEBACK_FIFO_FULL_STALL = 0x0000002c, -TCC_PERF_SEL_TAG_MISS_NOTHING_REPLACEABLE_STALL = 0x0000002d, -TCC_PERF_SEL_TAG_UNCACHED_WRITE_ATOMIC_FIFO_FULL_STALL = 0x0000002e, -TCC_PERF_SEL_TAG_NO_UNCACHED_WRITE_ATOMIC_ENTRIES_STALL = 0x0000002f, -TCC_PERF_SEL_TAG_PROBE_STALL = 0x00000030, -TCC_PERF_SEL_TAG_PROBE_FILTER_STALL = 0x00000031, -TCC_PERF_SEL_READ_RETURN_TIMEOUT = 0x00000032, -TCC_PERF_SEL_WRITEBACK_READ_TIMEOUT = 0x00000033, -TCC_PERF_SEL_READ_RETURN_FULL_BUBBLE = 0x00000034, -TCC_PERF_SEL_BUBBLE = 0x00000035, -TCC_PERF_SEL_RETURN_ACK = 0x00000036, -TCC_PERF_SEL_RETURN_DATA = 0x00000037, -TCC_PERF_SEL_RETURN_HOLE = 0x00000038, -TCC_PERF_SEL_RETURN_ACK_HOLE = 0x00000039, -TCC_PERF_SEL_IB_REQ = 0x0000003a, -TCC_PERF_SEL_IB_STALL = 0x0000003b, -TCC_PERF_SEL_IB_TAG_STALL = 0x0000003c, -TCC_PERF_SEL_IB_MDC_STALL = 0x0000003d, -TCC_PERF_SEL_TCA_LEVEL = 0x0000003e, -TCC_PERF_SEL_HOLE_LEVEL = 0x0000003f, -TCC_PERF_SEL_EA_RDRET_NACK = 0x00000040, -TCC_PERF_SEL_EA_WRRET_NACK = 0x00000041, -TCC_PERF_SEL_NORMAL_WRITEBACK = 0x00000042, -TCC_PERF_SEL_TC_OP_WBL2_NC_WRITEBACK = 0x00000043, -TCC_PERF_SEL_TC_OP_WBL2_WC_WRITEBACK = 0x00000044, -TCC_PERF_SEL_TC_OP_WBINVL2_WRITEBACK = 0x00000045, -TCC_PERF_SEL_TC_OP_WBINVL2_NC_WRITEBACK = 0x00000046, -TCC_PERF_SEL_TC_OP_WBINVL2_SD_WRITEBACK = 0x00000047, -TCC_PERF_SEL_ALL_TC_OP_WB_WRITEBACK = 0x00000048, -TCC_PERF_SEL_NORMAL_EVICT = 0x00000049, -TCC_PERF_SEL_TC_OP_WBL2_NC_EVICT = 0x0000004a, -TCC_PERF_SEL_TC_OP_WBL2_WC_EVICT = 0x0000004b, -TCC_PERF_SEL_TC_OP_INVL2_NC_EVICT = 0x0000004c, -TCC_PERF_SEL_TC_OP_WBINVL2_EVICT = 0x0000004d, -TCC_PERF_SEL_TC_OP_WBINVL2_NC_EVICT = 0x0000004e, -TCC_PERF_SEL_TC_OP_WBINVL2_SD_EVICT = 0x0000004f, -TCC_PERF_SEL_ALL_TC_OP_INV_EVICT = 0x00000050, -TCC_PERF_SEL_PROBE_EVICT = 0x00000051, -TCC_PERF_SEL_TC_OP_WBL2_NC_CYCLE = 0x00000052, -TCC_PERF_SEL_TC_OP_WBL2_WC_CYCLE = 0x00000053, -TCC_PERF_SEL_TC_OP_INVL2_NC_CYCLE = 0x00000054, -TCC_PERF_SEL_TC_OP_WBINVL2_CYCLE = 0x00000055, -TCC_PERF_SEL_TC_OP_WBINVL2_NC_CYCLE = 0x00000056, -TCC_PERF_SEL_TC_OP_WBINVL2_SD_CYCLE = 0x00000057, -TCC_PERF_SEL_ALL_TC_OP_WB_OR_INV_CYCLE = 0x00000058, -TCC_PERF_SEL_TC_OP_WBL2_NC_START = 0x00000059, -TCC_PERF_SEL_TC_OP_WBL2_WC_START = 0x0000005a, -TCC_PERF_SEL_TC_OP_INVL2_NC_START = 0x0000005b, -TCC_PERF_SEL_TC_OP_WBINVL2_START = 0x0000005c, -TCC_PERF_SEL_TC_OP_WBINVL2_NC_START = 0x0000005d, -TCC_PERF_SEL_TC_OP_WBINVL2_SD_START = 0x0000005e, -TCC_PERF_SEL_ALL_TC_OP_WB_OR_INV_START = 0x0000005f, -TCC_PERF_SEL_TC_OP_WBL2_NC_FINISH = 0x00000060, -TCC_PERF_SEL_TC_OP_WBL2_WC_FINISH = 0x00000061, -TCC_PERF_SEL_TC_OP_INVL2_NC_FINISH = 0x00000062, -TCC_PERF_SEL_TC_OP_WBINVL2_FINISH = 0x00000063, -TCC_PERF_SEL_TC_OP_WBINVL2_NC_FINISH = 0x00000064, -TCC_PERF_SEL_TC_OP_WBINVL2_SD_FINISH = 0x00000065, -TCC_PERF_SEL_ALL_TC_OP_WB_OR_INV_FINISH = 0x00000066, -TCC_PERF_SEL_MDC_REQ = 0x00000067, -TCC_PERF_SEL_MDC_LEVEL = 0x00000068, -TCC_PERF_SEL_MDC_TAG_HIT = 0x00000069, -TCC_PERF_SEL_MDC_SECTOR_HIT = 0x0000006a, -TCC_PERF_SEL_MDC_SECTOR_MISS = 0x0000006b, -TCC_PERF_SEL_MDC_TAG_STALL = 0x0000006c, -TCC_PERF_SEL_MDC_TAG_REPLACEMENT_LINE_IN_USE_STALL = 0x0000006d, -TCC_PERF_SEL_MDC_TAG_DESECTORIZATION_FIFO_FULL_STALL = 0x0000006e, -TCC_PERF_SEL_MDC_TAG_WAITING_FOR_INVALIDATE_COMPLETION_STALL = 0x0000006f, -TCC_PERF_SEL_PROBE_FILTER_DISABLE_TRANSITION = 0x00000070, -TCC_PERF_SEL_PROBE_FILTER_DISABLED = 0x00000071, -TCC_PERF_SEL_CLIENT0_REQ = 0x00000080, -TCC_PERF_SEL_CLIENT1_REQ = 0x00000081, -TCC_PERF_SEL_CLIENT2_REQ = 0x00000082, -TCC_PERF_SEL_CLIENT3_REQ = 0x00000083, -TCC_PERF_SEL_CLIENT4_REQ = 0x00000084, -TCC_PERF_SEL_CLIENT5_REQ = 0x00000085, -TCC_PERF_SEL_CLIENT6_REQ = 0x00000086, -TCC_PERF_SEL_CLIENT7_REQ = 0x00000087, -TCC_PERF_SEL_CLIENT8_REQ = 0x00000088, -TCC_PERF_SEL_CLIENT9_REQ = 0x00000089, -TCC_PERF_SEL_CLIENT10_REQ = 0x0000008a, -TCC_PERF_SEL_CLIENT11_REQ = 0x0000008b, -TCC_PERF_SEL_CLIENT12_REQ = 0x0000008c, -TCC_PERF_SEL_CLIENT13_REQ = 0x0000008d, -TCC_PERF_SEL_CLIENT14_REQ = 0x0000008e, -TCC_PERF_SEL_CLIENT15_REQ = 0x0000008f, -TCC_PERF_SEL_CLIENT16_REQ = 0x00000090, -TCC_PERF_SEL_CLIENT17_REQ = 0x00000091, -TCC_PERF_SEL_CLIENT18_REQ = 0x00000092, -TCC_PERF_SEL_CLIENT19_REQ = 0x00000093, -TCC_PERF_SEL_CLIENT20_REQ = 0x00000094, -TCC_PERF_SEL_CLIENT21_REQ = 0x00000095, -TCC_PERF_SEL_CLIENT22_REQ = 0x00000096, -TCC_PERF_SEL_CLIENT23_REQ = 0x00000097, -TCC_PERF_SEL_CLIENT24_REQ = 0x00000098, -TCC_PERF_SEL_CLIENT25_REQ = 0x00000099, -TCC_PERF_SEL_CLIENT26_REQ = 0x0000009a, -TCC_PERF_SEL_CLIENT27_REQ = 0x0000009b, -TCC_PERF_SEL_CLIENT28_REQ = 0x0000009c, -TCC_PERF_SEL_CLIENT29_REQ = 0x0000009d, -TCC_PERF_SEL_CLIENT30_REQ = 0x0000009e, -TCC_PERF_SEL_CLIENT31_REQ = 0x0000009f, -TCC_PERF_SEL_CLIENT32_REQ = 0x000000a0, -TCC_PERF_SEL_CLIENT33_REQ = 0x000000a1, -TCC_PERF_SEL_CLIENT34_REQ = 0x000000a2, -TCC_PERF_SEL_CLIENT35_REQ = 0x000000a3, -TCC_PERF_SEL_CLIENT36_REQ = 0x000000a4, -TCC_PERF_SEL_CLIENT37_REQ = 0x000000a5, -TCC_PERF_SEL_CLIENT38_REQ = 0x000000a6, -TCC_PERF_SEL_CLIENT39_REQ = 0x000000a7, -TCC_PERF_SEL_CLIENT40_REQ = 0x000000a8, -TCC_PERF_SEL_CLIENT41_REQ = 0x000000a9, -TCC_PERF_SEL_CLIENT42_REQ = 0x000000aa, -TCC_PERF_SEL_CLIENT43_REQ = 0x000000ab, -TCC_PERF_SEL_CLIENT44_REQ = 0x000000ac, -TCC_PERF_SEL_CLIENT45_REQ = 0x000000ad, -TCC_PERF_SEL_CLIENT46_REQ = 0x000000ae, -TCC_PERF_SEL_CLIENT47_REQ = 0x000000af, -TCC_PERF_SEL_CLIENT48_REQ = 0x000000b0, -TCC_PERF_SEL_CLIENT49_REQ = 0x000000b1, -TCC_PERF_SEL_CLIENT50_REQ = 0x000000b2, -TCC_PERF_SEL_CLIENT51_REQ = 0x000000b3, -TCC_PERF_SEL_CLIENT52_REQ = 0x000000b4, -TCC_PERF_SEL_CLIENT53_REQ = 0x000000b5, -TCC_PERF_SEL_CLIENT54_REQ = 0x000000b6, -TCC_PERF_SEL_CLIENT55_REQ = 0x000000b7, -TCC_PERF_SEL_CLIENT56_REQ = 0x000000b8, -TCC_PERF_SEL_CLIENT57_REQ = 0x000000b9, -TCC_PERF_SEL_CLIENT58_REQ = 0x000000ba, -TCC_PERF_SEL_CLIENT59_REQ = 0x000000bb, -TCC_PERF_SEL_CLIENT60_REQ = 0x000000bc, -TCC_PERF_SEL_CLIENT61_REQ = 0x000000bd, -TCC_PERF_SEL_CLIENT62_REQ = 0x000000be, -TCC_PERF_SEL_CLIENT63_REQ = 0x000000bf, -TCC_PERF_SEL_CLIENT64_REQ = 0x000000c0, -TCC_PERF_SEL_CLIENT65_REQ = 0x000000c1, -TCC_PERF_SEL_CLIENT66_REQ = 0x000000c2, -TCC_PERF_SEL_CLIENT67_REQ = 0x000000c3, -TCC_PERF_SEL_CLIENT68_REQ = 0x000000c4, -TCC_PERF_SEL_CLIENT69_REQ = 0x000000c5, -TCC_PERF_SEL_CLIENT70_REQ = 0x000000c6, -TCC_PERF_SEL_CLIENT71_REQ = 0x000000c7, -TCC_PERF_SEL_CLIENT72_REQ = 0x000000c8, -TCC_PERF_SEL_CLIENT73_REQ = 0x000000c9, -TCC_PERF_SEL_CLIENT74_REQ = 0x000000ca, -TCC_PERF_SEL_CLIENT75_REQ = 0x000000cb, -TCC_PERF_SEL_CLIENT76_REQ = 0x000000cc, -TCC_PERF_SEL_CLIENT77_REQ = 0x000000cd, -TCC_PERF_SEL_CLIENT78_REQ = 0x000000ce, -TCC_PERF_SEL_CLIENT79_REQ = 0x000000cf, -TCC_PERF_SEL_CLIENT80_REQ = 0x000000d0, -TCC_PERF_SEL_CLIENT81_REQ = 0x000000d1, -TCC_PERF_SEL_CLIENT82_REQ = 0x000000d2, -TCC_PERF_SEL_CLIENT83_REQ = 0x000000d3, -TCC_PERF_SEL_CLIENT84_REQ = 0x000000d4, -TCC_PERF_SEL_CLIENT85_REQ = 0x000000d5, -TCC_PERF_SEL_CLIENT86_REQ = 0x000000d6, -TCC_PERF_SEL_CLIENT87_REQ = 0x000000d7, -TCC_PERF_SEL_CLIENT88_REQ = 0x000000d8, -TCC_PERF_SEL_CLIENT89_REQ = 0x000000d9, -TCC_PERF_SEL_CLIENT90_REQ = 0x000000da, -TCC_PERF_SEL_CLIENT91_REQ = 0x000000db, -TCC_PERF_SEL_CLIENT92_REQ = 0x000000dc, -TCC_PERF_SEL_CLIENT93_REQ = 0x000000dd, -TCC_PERF_SEL_CLIENT94_REQ = 0x000000de, -TCC_PERF_SEL_CLIENT95_REQ = 0x000000df, -TCC_PERF_SEL_CLIENT96_REQ = 0x000000e0, -TCC_PERF_SEL_CLIENT97_REQ = 0x000000e1, -TCC_PERF_SEL_CLIENT98_REQ = 0x000000e2, -TCC_PERF_SEL_CLIENT99_REQ = 0x000000e3, -TCC_PERF_SEL_CLIENT100_REQ = 0x000000e4, -TCC_PERF_SEL_CLIENT101_REQ = 0x000000e5, -TCC_PERF_SEL_CLIENT102_REQ = 0x000000e6, -TCC_PERF_SEL_CLIENT103_REQ = 0x000000e7, -TCC_PERF_SEL_CLIENT104_REQ = 0x000000e8, -TCC_PERF_SEL_CLIENT105_REQ = 0x000000e9, -TCC_PERF_SEL_CLIENT106_REQ = 0x000000ea, -TCC_PERF_SEL_CLIENT107_REQ = 0x000000eb, -TCC_PERF_SEL_CLIENT108_REQ = 0x000000ec, -TCC_PERF_SEL_CLIENT109_REQ = 0x000000ed, -TCC_PERF_SEL_CLIENT110_REQ = 0x000000ee, -TCC_PERF_SEL_CLIENT111_REQ = 0x000000ef, -TCC_PERF_SEL_CLIENT112_REQ = 0x000000f0, -TCC_PERF_SEL_CLIENT113_REQ = 0x000000f1, -TCC_PERF_SEL_CLIENT114_REQ = 0x000000f2, -TCC_PERF_SEL_CLIENT115_REQ = 0x000000f3, -TCC_PERF_SEL_CLIENT116_REQ = 0x000000f4, -TCC_PERF_SEL_CLIENT117_REQ = 0x000000f5, -TCC_PERF_SEL_CLIENT118_REQ = 0x000000f6, -TCC_PERF_SEL_CLIENT119_REQ = 0x000000f7, -TCC_PERF_SEL_CLIENT120_REQ = 0x000000f8, -TCC_PERF_SEL_CLIENT121_REQ = 0x000000f9, -TCC_PERF_SEL_CLIENT122_REQ = 0x000000fa, -TCC_PERF_SEL_CLIENT123_REQ = 0x000000fb, -TCC_PERF_SEL_CLIENT124_REQ = 0x000000fc, -TCC_PERF_SEL_CLIENT125_REQ = 0x000000fd, -TCC_PERF_SEL_CLIENT126_REQ = 0x000000fe, -TCC_PERF_SEL_CLIENT127_REQ = 0x000000ff, -} TCC_PERF_SEL; - -/* - * TCA_PERF_SEL enum - */ - -typedef enum TCA_PERF_SEL { -TCA_PERF_SEL_NONE = 0x00000000, -TCA_PERF_SEL_CYCLE = 0x00000001, -TCA_PERF_SEL_BUSY = 0x00000002, -TCA_PERF_SEL_FORCED_HOLE_TCC0 = 0x00000003, -TCA_PERF_SEL_FORCED_HOLE_TCC1 = 0x00000004, -TCA_PERF_SEL_FORCED_HOLE_TCC2 = 0x00000005, -TCA_PERF_SEL_FORCED_HOLE_TCC3 = 0x00000006, -TCA_PERF_SEL_FORCED_HOLE_TCC4 = 0x00000007, -TCA_PERF_SEL_FORCED_HOLE_TCC5 = 0x00000008, -TCA_PERF_SEL_FORCED_HOLE_TCC6 = 0x00000009, -TCA_PERF_SEL_FORCED_HOLE_TCC7 = 0x0000000a, -TCA_PERF_SEL_REQ_TCC0 = 0x0000000b, -TCA_PERF_SEL_REQ_TCC1 = 0x0000000c, -TCA_PERF_SEL_REQ_TCC2 = 0x0000000d, -TCA_PERF_SEL_REQ_TCC3 = 0x0000000e, -TCA_PERF_SEL_REQ_TCC4 = 0x0000000f, -TCA_PERF_SEL_REQ_TCC5 = 0x00000010, -TCA_PERF_SEL_REQ_TCC6 = 0x00000011, -TCA_PERF_SEL_REQ_TCC7 = 0x00000012, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC0 = 0x00000013, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC1 = 0x00000014, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC2 = 0x00000015, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC3 = 0x00000016, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC4 = 0x00000017, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC5 = 0x00000018, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC6 = 0x00000019, -TCA_PERF_SEL_CROSSBAR_DOUBLE_ARB_TCC7 = 0x0000001a, -TCA_PERF_SEL_CROSSBAR_STALL_TCC0 = 0x0000001b, -TCA_PERF_SEL_CROSSBAR_STALL_TCC1 = 0x0000001c, -TCA_PERF_SEL_CROSSBAR_STALL_TCC2 = 0x0000001d, -TCA_PERF_SEL_CROSSBAR_STALL_TCC3 = 0x0000001e, -TCA_PERF_SEL_CROSSBAR_STALL_TCC4 = 0x0000001f, -TCA_PERF_SEL_CROSSBAR_STALL_TCC5 = 0x00000020, -TCA_PERF_SEL_CROSSBAR_STALL_TCC6 = 0x00000021, -TCA_PERF_SEL_CROSSBAR_STALL_TCC7 = 0x00000022, -} TCA_PERF_SEL; - -/******************************************************* - * GRBM Enums - *******************************************************/ - -/* - * GRBM_PERF_SEL enum - */ - -typedef enum GRBM_PERF_SEL { -GRBM_PERF_SEL_COUNT = 0x00000000, -GRBM_PERF_SEL_USER_DEFINED = 0x00000001, -GRBM_PERF_SEL_GUI_ACTIVE = 0x00000002, -GRBM_PERF_SEL_CP_BUSY = 0x00000003, -GRBM_PERF_SEL_CP_COHER_BUSY = 0x00000004, -GRBM_PERF_SEL_CP_DMA_BUSY = 0x00000005, -GRBM_PERF_SEL_CB_BUSY = 0x00000006, -GRBM_PERF_SEL_DB_BUSY = 0x00000007, -GRBM_PERF_SEL_PA_BUSY = 0x00000008, -GRBM_PERF_SEL_SC_BUSY = 0x00000009, -GRBM_PERF_SEL_RESERVED_6 = 0x0000000a, -GRBM_PERF_SEL_SPI_BUSY = 0x0000000b, -GRBM_PERF_SEL_SX_BUSY = 0x0000000c, -GRBM_PERF_SEL_TA_BUSY = 0x0000000d, -GRBM_PERF_SEL_CB_CLEAN = 0x0000000e, -GRBM_PERF_SEL_DB_CLEAN = 0x0000000f, -GRBM_PERF_SEL_RESERVED_5 = 0x00000010, -GRBM_PERF_SEL_VGT_BUSY = 0x00000011, -GRBM_PERF_SEL_RESERVED_4 = 0x00000012, -GRBM_PERF_SEL_RESERVED_3 = 0x00000013, -GRBM_PERF_SEL_RESERVED_2 = 0x00000014, -GRBM_PERF_SEL_RESERVED_1 = 0x00000015, -GRBM_PERF_SEL_RESERVED_0 = 0x00000016, -GRBM_PERF_SEL_IA_BUSY = 0x00000017, -GRBM_PERF_SEL_IA_NO_DMA_BUSY = 0x00000018, -GRBM_PERF_SEL_GDS_BUSY = 0x00000019, -GRBM_PERF_SEL_BCI_BUSY = 0x0000001a, -GRBM_PERF_SEL_RLC_BUSY = 0x0000001b, -GRBM_PERF_SEL_TC_BUSY = 0x0000001c, -GRBM_PERF_SEL_CPG_BUSY = 0x0000001d, -GRBM_PERF_SEL_CPC_BUSY = 0x0000001e, -GRBM_PERF_SEL_CPF_BUSY = 0x0000001f, -GRBM_PERF_SEL_WD_BUSY = 0x00000020, -GRBM_PERF_SEL_WD_NO_DMA_BUSY = 0x00000021, -GRBM_PERF_SEL_UTCL2_BUSY = 0x00000022, -GRBM_PERF_SEL_EA_BUSY = 0x00000023, -GRBM_PERF_SEL_RMI_BUSY = 0x00000024, -GRBM_PERF_SEL_CPAXI_BUSY = 0x00000025, -} GRBM_PERF_SEL; - -/* - * GRBM_SE0_PERF_SEL enum - */ - -typedef enum GRBM_SE0_PERF_SEL { -GRBM_SE0_PERF_SEL_COUNT = 0x00000000, -GRBM_SE0_PERF_SEL_USER_DEFINED = 0x00000001, -GRBM_SE0_PERF_SEL_CB_BUSY = 0x00000002, -GRBM_SE0_PERF_SEL_DB_BUSY = 0x00000003, -GRBM_SE0_PERF_SEL_SC_BUSY = 0x00000004, -GRBM_SE0_PERF_SEL_RESERVED_1 = 0x00000005, -GRBM_SE0_PERF_SEL_SPI_BUSY = 0x00000006, -GRBM_SE0_PERF_SEL_SX_BUSY = 0x00000007, -GRBM_SE0_PERF_SEL_TA_BUSY = 0x00000008, -GRBM_SE0_PERF_SEL_CB_CLEAN = 0x00000009, -GRBM_SE0_PERF_SEL_DB_CLEAN = 0x0000000a, -GRBM_SE0_PERF_SEL_RESERVED_0 = 0x0000000b, -GRBM_SE0_PERF_SEL_PA_BUSY = 0x0000000c, -GRBM_SE0_PERF_SEL_VGT_BUSY = 0x0000000d, -GRBM_SE0_PERF_SEL_BCI_BUSY = 0x0000000e, -GRBM_SE0_PERF_SEL_RMI_BUSY = 0x0000000f, -} GRBM_SE0_PERF_SEL; - -/* - * GRBM_SE1_PERF_SEL enum - */ - -typedef enum GRBM_SE1_PERF_SEL { -GRBM_SE1_PERF_SEL_COUNT = 0x00000000, -GRBM_SE1_PERF_SEL_USER_DEFINED = 0x00000001, -GRBM_SE1_PERF_SEL_CB_BUSY = 0x00000002, -GRBM_SE1_PERF_SEL_DB_BUSY = 0x00000003, -GRBM_SE1_PERF_SEL_SC_BUSY = 0x00000004, -GRBM_SE1_PERF_SEL_RESERVED_1 = 0x00000005, -GRBM_SE1_PERF_SEL_SPI_BUSY = 0x00000006, -GRBM_SE1_PERF_SEL_SX_BUSY = 0x00000007, -GRBM_SE1_PERF_SEL_TA_BUSY = 0x00000008, -GRBM_SE1_PERF_SEL_CB_CLEAN = 0x00000009, -GRBM_SE1_PERF_SEL_DB_CLEAN = 0x0000000a, -GRBM_SE1_PERF_SEL_RESERVED_0 = 0x0000000b, -GRBM_SE1_PERF_SEL_PA_BUSY = 0x0000000c, -GRBM_SE1_PERF_SEL_VGT_BUSY = 0x0000000d, -GRBM_SE1_PERF_SEL_BCI_BUSY = 0x0000000e, -GRBM_SE1_PERF_SEL_RMI_BUSY = 0x0000000f, -} GRBM_SE1_PERF_SEL; - -/* - * GRBM_SE2_PERF_SEL enum - */ - -typedef enum GRBM_SE2_PERF_SEL { -GRBM_SE2_PERF_SEL_COUNT = 0x00000000, -GRBM_SE2_PERF_SEL_USER_DEFINED = 0x00000001, -GRBM_SE2_PERF_SEL_CB_BUSY = 0x00000002, -GRBM_SE2_PERF_SEL_DB_BUSY = 0x00000003, -GRBM_SE2_PERF_SEL_SC_BUSY = 0x00000004, -GRBM_SE2_PERF_SEL_RESERVED_1 = 0x00000005, -GRBM_SE2_PERF_SEL_SPI_BUSY = 0x00000006, -GRBM_SE2_PERF_SEL_SX_BUSY = 0x00000007, -GRBM_SE2_PERF_SEL_TA_BUSY = 0x00000008, -GRBM_SE2_PERF_SEL_CB_CLEAN = 0x00000009, -GRBM_SE2_PERF_SEL_DB_CLEAN = 0x0000000a, -GRBM_SE2_PERF_SEL_RESERVED_0 = 0x0000000b, -GRBM_SE2_PERF_SEL_PA_BUSY = 0x0000000c, -GRBM_SE2_PERF_SEL_VGT_BUSY = 0x0000000d, -GRBM_SE2_PERF_SEL_BCI_BUSY = 0x0000000e, -GRBM_SE2_PERF_SEL_RMI_BUSY = 0x0000000f, -} GRBM_SE2_PERF_SEL; - -/* - * GRBM_SE3_PERF_SEL enum - */ - -typedef enum GRBM_SE3_PERF_SEL { -GRBM_SE3_PERF_SEL_COUNT = 0x00000000, -GRBM_SE3_PERF_SEL_USER_DEFINED = 0x00000001, -GRBM_SE3_PERF_SEL_CB_BUSY = 0x00000002, -GRBM_SE3_PERF_SEL_DB_BUSY = 0x00000003, -GRBM_SE3_PERF_SEL_SC_BUSY = 0x00000004, -GRBM_SE3_PERF_SEL_RESERVED_1 = 0x00000005, -GRBM_SE3_PERF_SEL_SPI_BUSY = 0x00000006, -GRBM_SE3_PERF_SEL_SX_BUSY = 0x00000007, -GRBM_SE3_PERF_SEL_TA_BUSY = 0x00000008, -GRBM_SE3_PERF_SEL_CB_CLEAN = 0x00000009, -GRBM_SE3_PERF_SEL_DB_CLEAN = 0x0000000a, -GRBM_SE3_PERF_SEL_RESERVED_0 = 0x0000000b, -GRBM_SE3_PERF_SEL_PA_BUSY = 0x0000000c, -GRBM_SE3_PERF_SEL_VGT_BUSY = 0x0000000d, -GRBM_SE3_PERF_SEL_BCI_BUSY = 0x0000000e, -GRBM_SE3_PERF_SEL_RMI_BUSY = 0x0000000f, -} GRBM_SE3_PERF_SEL; - -/******************************************************* - * CP Enums - *******************************************************/ - -/* - * CP_RING_ID enum - */ - -typedef enum CP_RING_ID { -RINGID0 = 0x00000000, -RINGID1 = 0x00000001, -RINGID2 = 0x00000002, -RINGID3 = 0x00000003, -} CP_RING_ID; - -/* - * CP_PIPE_ID enum - */ - -typedef enum CP_PIPE_ID { -PIPE_ID0 = 0x00000000, -PIPE_ID1 = 0x00000001, -PIPE_ID2 = 0x00000002, -PIPE_ID3 = 0x00000003, -} CP_PIPE_ID; - -/* - * CP_ME_ID enum - */ - -typedef enum CP_ME_ID { -ME_ID0 = 0x00000000, -ME_ID1 = 0x00000001, -ME_ID2 = 0x00000002, -ME_ID3 = 0x00000003, -} CP_ME_ID; - -/* - * SPM_PERFMON_STATE enum - */ - -typedef enum SPM_PERFMON_STATE { -STRM_PERFMON_STATE_DISABLE_AND_RESET = 0x00000000, -STRM_PERFMON_STATE_START_COUNTING = 0x00000001, -STRM_PERFMON_STATE_STOP_COUNTING = 0x00000002, -STRM_PERFMON_STATE_RESERVED_3 = 0x00000003, -STRM_PERFMON_STATE_DISABLE_AND_RESET_PHANTOM = 0x00000004, -STRM_PERFMON_STATE_COUNT_AND_DUMP_PHANTOM = 0x00000005, -} SPM_PERFMON_STATE; - -/* - * CP_PERFMON_STATE enum - */ - -typedef enum CP_PERFMON_STATE { -CP_PERFMON_STATE_DISABLE_AND_RESET = 0x00000000, -CP_PERFMON_STATE_START_COUNTING = 0x00000001, -CP_PERFMON_STATE_STOP_COUNTING = 0x00000002, -CP_PERFMON_STATE_RESERVED_3 = 0x00000003, -CP_PERFMON_STATE_DISABLE_AND_RESET_PHANTOM = 0x00000004, -CP_PERFMON_STATE_COUNT_AND_DUMP_PHANTOM = 0x00000005, -} CP_PERFMON_STATE; - -/* - * CP_PERFMON_ENABLE_MODE enum - */ - -typedef enum CP_PERFMON_ENABLE_MODE { -CP_PERFMON_ENABLE_MODE_ALWAYS_COUNT = 0x00000000, -CP_PERFMON_ENABLE_MODE_RESERVED_1 = 0x00000001, -CP_PERFMON_ENABLE_MODE_COUNT_CONTEXT_TRUE = 0x00000002, -CP_PERFMON_ENABLE_MODE_COUNT_CONTEXT_FALSE = 0x00000003, -} CP_PERFMON_ENABLE_MODE; - -/* - * CPG_PERFCOUNT_SEL enum - */ - -typedef enum CPG_PERFCOUNT_SEL { -CPG_PERF_SEL_ALWAYS_COUNT = 0x00000000, -CPG_PERF_SEL_RBIU_FIFO_FULL = 0x00000001, -CPG_PERF_SEL_CSF_RTS_BUT_MIU_NOT_RTR = 0x00000002, -CPG_PERF_SEL_CSF_ST_BASE_SIZE_FIFO_FULL = 0x00000003, -CPG_PERF_SEL_CP_GRBM_DWORDS_SENT = 0x00000004, -CPG_PERF_SEL_ME_PARSER_BUSY = 0x00000005, -CPG_PERF_SEL_COUNT_TYPE0_PACKETS = 0x00000006, -CPG_PERF_SEL_COUNT_TYPE3_PACKETS = 0x00000007, -CPG_PERF_SEL_CSF_FETCHING_CMD_BUFFERS = 0x00000008, -CPG_PERF_SEL_CP_GRBM_OUT_OF_CREDITS = 0x00000009, -CPG_PERF_SEL_CP_PFP_GRBM_OUT_OF_CREDITS = 0x0000000a, -CPG_PERF_SEL_CP_GDS_GRBM_OUT_OF_CREDITS = 0x0000000b, -CPG_PERF_SEL_RCIU_STALLED_ON_ME_READ = 0x0000000c, -CPG_PERF_SEL_RCIU_STALLED_ON_DMA_READ = 0x0000000d, -CPG_PERF_SEL_SSU_STALLED_ON_ACTIVE_CNTX = 0x0000000e, -CPG_PERF_SEL_SSU_STALLED_ON_CLEAN_SIGNALS = 0x0000000f, -CPG_PERF_SEL_QU_STALLED_ON_EOP_DONE_PULSE = 0x00000010, -CPG_PERF_SEL_QU_STALLED_ON_EOP_DONE_WR_CONFIRM = 0x00000011, -CPG_PERF_SEL_PFP_STALLED_ON_CSF_READY = 0x00000012, -CPG_PERF_SEL_PFP_STALLED_ON_MEQ_READY = 0x00000013, -CPG_PERF_SEL_PFP_STALLED_ON_RCIU_READY = 0x00000014, -CPG_PERF_SEL_PFP_STALLED_FOR_DATA_FROM_ROQ = 0x00000015, -CPG_PERF_SEL_ME_STALLED_FOR_DATA_FROM_PFP = 0x00000016, -CPG_PERF_SEL_ME_STALLED_FOR_DATA_FROM_STQ = 0x00000017, -CPG_PERF_SEL_ME_STALLED_ON_NO_AVAIL_GFX_CNTX = 0x00000018, -CPG_PERF_SEL_ME_STALLED_WRITING_TO_RCIU = 0x00000019, -CPG_PERF_SEL_ME_STALLED_WRITING_CONSTANTS = 0x0000001a, -CPG_PERF_SEL_ME_STALLED_ON_PARTIAL_FLUSH = 0x0000001b, -CPG_PERF_SEL_ME_WAIT_ON_CE_COUNTER = 0x0000001c, -CPG_PERF_SEL_ME_WAIT_ON_AVAIL_BUFFER = 0x0000001d, -CPG_PERF_SEL_SEMAPHORE_BUSY_POLLING_FOR_PASS = 0x0000001e, -CPG_PERF_SEL_LOAD_STALLED_ON_SET_COHERENCY = 0x0000001f, -CPG_PERF_SEL_DYNAMIC_CLK_VALID = 0x00000020, -CPG_PERF_SEL_REGISTER_CLK_VALID = 0x00000021, -CPG_PERF_SEL_MIU_WRITE_REQUEST_SENT = 0x00000022, -CPG_PERF_SEL_MIU_READ_REQUEST_SENT = 0x00000023, -CPG_PERF_SEL_CE_STALL_RAM_DUMP = 0x00000024, -CPG_PERF_SEL_CE_STALL_RAM_WRITE = 0x00000025, -CPG_PERF_SEL_CE_STALL_ON_INC_FIFO = 0x00000026, -CPG_PERF_SEL_CE_STALL_ON_WR_RAM_FIFO = 0x00000027, -CPG_PERF_SEL_CE_STALL_ON_DATA_FROM_MIU = 0x00000028, -CPG_PERF_SEL_CE_STALL_ON_DATA_FROM_ROQ = 0x00000029, -CPG_PERF_SEL_CE_STALL_ON_CE_BUFFER_FLAG = 0x0000002a, -CPG_PERF_SEL_CE_STALL_ON_DE_COUNTER = 0x0000002b, -CPG_PERF_SEL_TCIU_STALL_WAIT_ON_FREE = 0x0000002c, -CPG_PERF_SEL_TCIU_STALL_WAIT_ON_TAGS = 0x0000002d, -CPG_PERF_SEL_UTCL2IU_STALL_WAIT_ON_FREE = 0x0000002e, -CPG_PERF_SEL_UTCL2IU_STALL_WAIT_ON_TAGS = 0x0000002f, -CPG_PERF_SEL_UTCL1_STALL_ON_TRANSLATION = 0x00000030, -} CPG_PERFCOUNT_SEL; - -/* - * CPF_PERFCOUNT_SEL enum - */ - -typedef enum CPF_PERFCOUNT_SEL { -CPF_PERF_SEL_ALWAYS_COUNT = 0x00000000, -CPF_PERF_SEL_MIU_STALLED_WAITING_RDREQ_FREE = 0x00000001, -CPF_PERF_SEL_TCIU_STALLED_WAITING_ON_FREE = 0x00000002, -CPF_PERF_SEL_TCIU_STALLED_WAITING_ON_TAGS = 0x00000003, -CPF_PERF_SEL_CSF_BUSY_FOR_FETCHING_RING = 0x00000004, -CPF_PERF_SEL_CSF_BUSY_FOR_FETCHING_IB1 = 0x00000005, -CPF_PERF_SEL_CSF_BUSY_FOR_FETCHING_IB2 = 0x00000006, -CPF_PERF_SEL_CSF_BUSY_FOR_FECTHINC_STATE = 0x00000007, -CPF_PERF_SEL_MIU_BUSY_FOR_OUTSTANDING_TAGS = 0x00000008, -CPF_PERF_SEL_CSF_RTS_MIU_NOT_RTR = 0x00000009, -CPF_PERF_SEL_CSF_STATE_FIFO_NOT_RTR = 0x0000000a, -CPF_PERF_SEL_CSF_FETCHING_CMD_BUFFERS = 0x0000000b, -CPF_PERF_SEL_GRBM_DWORDS_SENT = 0x0000000c, -CPF_PERF_SEL_DYNAMIC_CLOCK_VALID = 0x0000000d, -CPF_PERF_SEL_REGISTER_CLOCK_VALID = 0x0000000e, -CPF_PERF_SEL_MIU_WRITE_REQUEST_SEND = 0x0000000f, -CPF_PERF_SEL_MIU_READ_REQUEST_SEND = 0x00000010, -CPF_PERF_SEL_UTCL2IU_STALL_WAIT_ON_FREE = 0x00000011, -CPF_PERF_SEL_UTCL2IU_STALL_WAIT_ON_TAGS = 0x00000012, -CPF_PERF_SEL_UTCL1_STALL_ON_TRANSLATION = 0x00000013, -CPF_PERF_SEL_RCIU_STALL_WAIT_ON_FREE = 0x00000014, -} CPF_PERFCOUNT_SEL; - -/* - * CPC_PERFCOUNT_SEL enum - */ - -typedef enum CPC_PERFCOUNT_SEL { -CPC_PERF_SEL_ALWAYS_COUNT = 0x00000000, -CPC_PERF_SEL_RCIU_STALL_WAIT_ON_FREE = 0x00000001, -CPC_PERF_SEL_RCIU_STALL_PRIV_VIOLATION = 0x00000002, -CPC_PERF_SEL_MIU_STALL_ON_RDREQ_FREE = 0x00000003, -CPC_PERF_SEL_MIU_STALL_ON_WRREQ_FREE = 0x00000004, -CPC_PERF_SEL_TCIU_STALL_WAIT_ON_FREE = 0x00000005, -CPC_PERF_SEL_ME1_STALL_WAIT_ON_RCIU_READY = 0x00000006, -CPC_PERF_SEL_ME1_STALL_WAIT_ON_RCIU_READY_PERF = 0x00000007, -CPC_PERF_SEL_ME1_STALL_WAIT_ON_RCIU_READ = 0x00000008, -CPC_PERF_SEL_ME1_STALL_WAIT_ON_MIU_READ = 0x00000009, -CPC_PERF_SEL_ME1_STALL_WAIT_ON_MIU_WRITE = 0x0000000a, -CPC_PERF_SEL_ME1_STALL_ON_DATA_FROM_ROQ = 0x0000000b, -CPC_PERF_SEL_ME1_STALL_ON_DATA_FROM_ROQ_PERF = 0x0000000c, -CPC_PERF_SEL_ME1_BUSY_FOR_PACKET_DECODE = 0x0000000d, -CPC_PERF_SEL_ME2_STALL_WAIT_ON_RCIU_READY = 0x0000000e, -CPC_PERF_SEL_ME2_STALL_WAIT_ON_RCIU_READY_PERF = 0x0000000f, -CPC_PERF_SEL_ME2_STALL_WAIT_ON_RCIU_READ = 0x00000010, -CPC_PERF_SEL_ME2_STALL_WAIT_ON_MIU_READ = 0x00000011, -CPC_PERF_SEL_ME2_STALL_WAIT_ON_MIU_WRITE = 0x00000012, -CPC_PERF_SEL_ME2_STALL_ON_DATA_FROM_ROQ = 0x00000013, -CPC_PERF_SEL_ME2_STALL_ON_DATA_FROM_ROQ_PERF = 0x00000014, -CPC_PERF_SEL_ME2_BUSY_FOR_PACKET_DECODE = 0x00000015, -CPC_PERF_SEL_UTCL2IU_STALL_WAIT_ON_FREE = 0x00000016, -CPC_PERF_SEL_UTCL2IU_STALL_WAIT_ON_TAGS = 0x00000017, -CPC_PERF_SEL_UTCL1_STALL_ON_TRANSLATION = 0x00000018, -} CPC_PERFCOUNT_SEL; - -/* - * CP_ALPHA_TAG_RAM_SEL enum - */ - -typedef enum CP_ALPHA_TAG_RAM_SEL { -CPG_TAG_RAM = 0x00000000, -CPC_TAG_RAM = 0x00000001, -CPF_TAG_RAM = 0x00000002, -RSV_TAG_RAM = 0x00000003, -} CP_ALPHA_TAG_RAM_SEL; - -/* - * SEM_RESPONSE value - */ - -#define SEM_ECC_ERROR 0x00000000 -#define SEM_TRANS_ERROR 0x00000001 -#define SEM_FAILED 0x00000002 -#define SEM_PASSED 0x00000003 - -/* - * IQ_RETRY_TYPE value - */ - -#define IQ_QUEUE_SLEEP 0x00000000 -#define IQ_OFFLOAD_RETRY 0x00000001 -#define IQ_SCH_WAVE_MSG 0x00000002 -#define IQ_SEM_REARM 0x00000003 -#define IQ_DEQUEUE_RETRY 0x00000004 - -/* - * IQ_INTR_TYPE value - */ - -#define IQ_INTR_TYPE_PQ 0x00000000 -#define IQ_INTR_TYPE_IB 0x00000001 -#define IQ_INTR_TYPE_MQD 0x00000002 - -/* - * VMID_SIZE value - */ - -#define VMID_SZ 0x00000004 - -/* - * CONFIG_SPACE value - */ - -#define CONFIG_SPACE_START 0x00002000 -#define CONFIG_SPACE_END 0x00009fff - -/* - * CONFIG_SPACE1 value - */ - -#define CONFIG_SPACE1_START 0x00002000 -#define CONFIG_SPACE1_END 0x00002bff - -/* - * CONFIG_SPACE2 value - */ - -#define CONFIG_SPACE2_START 0x00003000 -#define CONFIG_SPACE2_END 0x00009fff - -/* - * UCONFIG_SPACE value - */ - -#define UCONFIG_SPACE_START 0x0000c000 -#define UCONFIG_SPACE_END 0x0000ffff - -/* - * PERSISTENT_SPACE value - */ - -#define PERSISTENT_SPACE_START 0x00002c00 -#define PERSISTENT_SPACE_END 0x00002fff - -/* - * CONTEXT_SPACE value - */ - -#define CONTEXT_SPACE_START 0x0000a000 -#define CONTEXT_SPACE_END 0x0000bfff - -/******************************************************* - * SQ_UC Enums - *******************************************************/ - -/* - * VALUE_SQ_ENC_SOP1 value - */ - -#define SQ_ENC_SOP1_BITS 0xbe800000 -#define SQ_ENC_SOP1_MASK 0xff800000 -#define SQ_ENC_SOP1_FIELD 0x0000017d - -/* - * VALUE_SQ_ENC_SOPC value - */ - -#define SQ_ENC_SOPC_BITS 0xbf000000 -#define SQ_ENC_SOPC_MASK 0xff800000 -#define SQ_ENC_SOPC_FIELD 0x0000017e - -/* - * VALUE_SQ_ENC_SOPP value - */ - -#define SQ_ENC_SOPP_BITS 0xbf800000 -#define SQ_ENC_SOPP_MASK 0xff800000 -#define SQ_ENC_SOPP_FIELD 0x0000017f - -/* - * VALUE_SQ_ENC_SOPK value - */ - -#define SQ_ENC_SOPK_BITS 0xb0000000 -#define SQ_ENC_SOPK_MASK 0xf0000000 -#define SQ_ENC_SOPK_FIELD 0x0000000b - -/* - * VALUE_SQ_ENC_SOP2 value - */ - -#define SQ_ENC_SOP2_BITS 0x80000000 -#define SQ_ENC_SOP2_MASK 0xc0000000 -#define SQ_ENC_SOP2_FIELD 0x00000002 - -/* - * VALUE_SQ_ENC_SMEM value - */ - -#define SQ_ENC_SMEM_BITS 0xc0000000 -#define SQ_ENC_SMEM_MASK 0xfc000000 -#define SQ_ENC_SMEM_FIELD 0x00000030 - -/* - * VALUE_SQ_ENC_VOP1 value - */ - -#define SQ_ENC_VOP1_BITS 0x7e000000 -#define SQ_ENC_VOP1_MASK 0xfe000000 -#define SQ_ENC_VOP1_FIELD 0x0000003f - -/* - * VALUE_SQ_ENC_VOPC value - */ - -#define SQ_ENC_VOPC_BITS 0x7c000000 -#define SQ_ENC_VOPC_MASK 0xfe000000 -#define SQ_ENC_VOPC_FIELD 0x0000003e - -/* - * VALUE_SQ_ENC_VOP2 value - */ - -#define SQ_ENC_VOP2_BITS 0x00000000 -#define SQ_ENC_VOP2_MASK 0x80000000 -#define SQ_ENC_VOP2_FIELD 0x00000000 - -/* - * VALUE_SQ_ENC_VINTRP value - */ - -#define SQ_ENC_VINTRP_BITS 0xd4000000 -#define SQ_ENC_VINTRP_MASK 0xfc000000 -#define SQ_ENC_VINTRP_FIELD 0x00000035 - -/* - * VALUE_SQ_ENC_VOP3P value - */ - -#define SQ_ENC_VOP3P_BITS 0xd3800000 -#define SQ_ENC_VOP3P_MASK 0xff800000 -#define SQ_ENC_VOP3P_FIELD 0x000001a7 - -/* - * VALUE_SQ_ENC_VOP3 value - */ - -#define SQ_ENC_VOP3_BITS 0xd0000000 -#define SQ_ENC_VOP3_MASK 0xfc000000 -#define SQ_ENC_VOP3_FIELD 0x00000034 - -/* - * VALUE_SQ_ENC_DS value - */ - -#define SQ_ENC_DS_BITS 0xd8000000 -#define SQ_ENC_DS_MASK 0xfc000000 -#define SQ_ENC_DS_FIELD 0x00000036 - -/* - * VALUE_SQ_ENC_MUBUF value - */ - -#define SQ_ENC_MUBUF_BITS 0xe0000000 -#define SQ_ENC_MUBUF_MASK 0xfc000000 -#define SQ_ENC_MUBUF_FIELD 0x00000038 - -/* - * VALUE_SQ_ENC_MTBUF value - */ - -#define SQ_ENC_MTBUF_BITS 0xe8000000 -#define SQ_ENC_MTBUF_MASK 0xfc000000 -#define SQ_ENC_MTBUF_FIELD 0x0000003a - -/* - * VALUE_SQ_ENC_MIMG value - */ - -#define SQ_ENC_MIMG_BITS 0xf0000000 -#define SQ_ENC_MIMG_MASK 0xfc000000 -#define SQ_ENC_MIMG_FIELD 0x0000003c - -/* - * VALUE_SQ_ENC_EXP value - */ - -#define SQ_ENC_EXP_BITS 0xc4000000 -#define SQ_ENC_EXP_MASK 0xfc000000 -#define SQ_ENC_EXP_FIELD 0x00000031 - -/* - * VALUE_SQ_ENC_FLAT value - */ - -#define SQ_ENC_FLAT_BITS 0xdc000000 -#define SQ_ENC_FLAT_MASK 0xfc000000 -#define SQ_ENC_FLAT_FIELD 0x00000037 - -/* - * VALUE_SQ_HWREG_ID_SHIFT value - */ - -#define SQ_HWREG_ID_SHIFT 0x00000000 - -/* - * VALUE_SQ_V_OP3P_COUNT value - */ - -#define SQ_V_OP3P_COUNT 0x00000080 - -/* - * VALUE_SQ_SENDMSG_SYSTEM_SHIFT value - */ - -#define SQ_SENDMSG_SYSTEM_SHIFT 0x00000004 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOP1_COUNT value - */ - -#define SQ_XLATE_VOP3_TO_VOP1_COUNT 0x00000080 - -/* - * VALUE_SQ_SRC_VGPR_BIT value - */ - -#define SQ_SRC_VGPR_BIT 0x00000100 - -/* - * VALUE_SQ_V_OP1_COUNT value - */ - -#define SQ_V_OP1_COUNT 0x00000080 - -/* - * VALUE_SQ_SENDMSG_STREAMID_SHIFT value - */ - -#define SQ_SENDMSG_STREAMID_SHIFT 0x00000008 - -/* - * VALUE_SQ_HWREG_ID_SIZE value - */ - -#define SQ_HWREG_ID_SIZE 0x00000006 - -/* - * VALUE_SQ_EXP_NUM_MRT value - */ - -#define SQ_EXP_NUM_MRT 0x00000008 - -/* - * VALUE_SQ_V_OP3_3IN_OFFSET value - */ - -#define SQ_V_OP3_3IN_OFFSET 0x000001c0 - -/* - * VALUE_SQ_SENDMSG_STREAMID_SIZE value - */ - -#define SQ_SENDMSG_STREAMID_SIZE 0x00000002 - -/* - * VALUE_SQ_HWREG_OFFSET_SHIFT value - */ - -#define SQ_HWREG_OFFSET_SHIFT 0x00000006 - -/* - * VALUE_SQ_SENDMSG_MSG_SIZE value - */ - -#define SQ_SENDMSG_MSG_SIZE 0x00000004 - -/* - * VALUE_SQ_HWREG_SIZE_SHIFT value - */ - -#define SQ_HWREG_SIZE_SHIFT 0x0000000b - -/* - * VALUE_SQ_SENDMSG_SYSTEM_SIZE value - */ - -#define SQ_SENDMSG_SYSTEM_SIZE 0x00000003 - -/* - * VALUE_SQ_SENDMSG_MSG_SHIFT value - */ - -#define SQ_SENDMSG_MSG_SHIFT 0x00000000 - -/* - * VALUE_SQ_SENDMSG_GSOP_SIZE value - */ - -#define SQ_SENDMSG_GSOP_SIZE 0x00000002 - -/* - * VALUE_SQ_SENDMSG_GSOP_SHIFT value - */ - -#define SQ_SENDMSG_GSOP_SHIFT 0x00000004 - -/* - * VALUE_SQ_NUM_TTMP value - */ - -#define SQ_NUM_TTMP 0x00000010 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOP3P_COUNT value - */ - -#define SQ_XLATE_VOP3_TO_VOP3P_COUNT 0x00000080 - -/* - * VALUE_SQ_EXP_NUM_POS value - */ - -#define SQ_EXP_NUM_POS 0x00000004 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOP3P_OFFSET value - */ - -#define SQ_XLATE_VOP3_TO_VOP3P_OFFSET 0x00000380 - -/* - * VALUE_SQ_WAITCNT_EXP_SIZE value - */ - -#define SQ_WAITCNT_EXP_SIZE 0x00000003 - -/* - * VALUE_SQ_V_OP2_COUNT value - */ - -#define SQ_V_OP2_COUNT 0x00000040 - -/* - * VALUE_SQ_HWREG_SIZE_SIZE value - */ - -#define SQ_HWREG_SIZE_SIZE 0x00000005 - -/* - * VALUE_SQ_WAITCNT_VM_SHIFT value - */ - -#define SQ_WAITCNT_VM_SHIFT 0x00000000 - -/* - * VALUE_SQ_V_OP3_3IN_COUNT value - */ - -#define SQ_V_OP3_3IN_COUNT 0x000000b0 - -/* - * VALUE_SQ_NUM_VGPR value - */ - -#define SQ_NUM_VGPR 0x00000100 - -/* - * VALUE_SQ_EXP_NUM_PARAM value - */ - -#define SQ_EXP_NUM_PARAM 0x00000020 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOPC_OFFSET value - */ - -#define SQ_XLATE_VOP3_TO_VOPC_OFFSET 0x00000000 - -/* - * VALUE_SQ_V_OP3_INTRP_COUNT value - */ - -#define SQ_V_OP3_INTRP_COUNT 0x0000000c - -/* - * VALUE_SQ_WAITCNT_LGKM_SHIFT value - */ - -#define SQ_WAITCNT_LGKM_SHIFT 0x00000008 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOP2_OFFSET value - */ - -#define SQ_XLATE_VOP3_TO_VOP2_OFFSET 0x00000100 - -/* - * VALUE_SQ_V_OP3_2IN_OFFSET value - */ - -#define SQ_V_OP3_2IN_OFFSET 0x00000280 - -/* - * VALUE_SQ_V_INTRP_COUNT value - */ - -#define SQ_V_INTRP_COUNT 0x00000004 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VINTRP_OFFSET value - */ - -#define SQ_XLATE_VOP3_TO_VINTRP_OFFSET 0x00000270 - -/* - * VALUE_SQ_WAITCNT_LGKM_SIZE value - */ - -#define SQ_WAITCNT_LGKM_SIZE 0x00000004 - -/* - * VALUE_SQ_EXP_NUM_GDS value - */ - -#define SQ_EXP_NUM_GDS 0x00000005 - -/* - * VALUE_SQ_HWREG_OFFSET_SIZE value - */ - -#define SQ_HWREG_OFFSET_SIZE 0x00000005 - -/* - * VALUE_SQ_WAITCNT_VM_SIZE value - */ - -#define SQ_WAITCNT_VM_SIZE 0x00000004 - -/* - * VALUE_SQ_V_OP3_2IN_COUNT value - */ - -#define SQ_V_OP3_2IN_COUNT 0x00000080 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VINTRP_COUNT value - */ - -#define SQ_XLATE_VOP3_TO_VINTRP_COUNT 0x00000004 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOPC_COUNT value - */ - -#define SQ_XLATE_VOP3_TO_VOPC_COUNT 0x00000100 - -/* - * VALUE_SQ_NUM_ATTR value - */ - -#define SQ_NUM_ATTR 0x00000021 - -/* - * VALUE_SQ_V_OPC_COUNT value - */ - -#define SQ_V_OPC_COUNT 0x00000100 - -/* - * VALUE_SQ_V_OP3_INTRP_OFFSET value - */ - -#define SQ_V_OP3_INTRP_OFFSET 0x00000274 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOP2_COUNT value - */ - -#define SQ_XLATE_VOP3_TO_VOP2_COUNT 0x00000040 - -/* - * VALUE_SQ_WAITCNT_EXP_SHIFT value - */ - -#define SQ_WAITCNT_EXP_SHIFT 0x00000004 - -/* - * VALUE_SQ_XLATE_VOP3_TO_VOP1_OFFSET value - */ - -#define SQ_XLATE_VOP3_TO_VOP1_OFFSET 0x00000140 - -/* - * VALUE_SQ_NUM_SGPR value - */ - -#define SQ_NUM_SGPR 0x00000066 - -/* - * VALUE_SQ_FLAT_SCRATCH_LOHI value - */ - -#define SQ_FLAT_SCRATCH_LO 0x00000066 -#define SQ_FLAT_SCRATCH_HI 0x00000067 - -/* - * VALUE_SQ_OP_VOP3 value - */ - -#define SQ_V_MAD_LEGACY_F32 0x000001c0 -#define SQ_V_MAD_F32 0x000001c1 -#define SQ_V_MAD_I32_I24 0x000001c2 -#define SQ_V_MAD_U32_U24 0x000001c3 -#define SQ_V_CUBEID_F32 0x000001c4 -#define SQ_V_CUBESC_F32 0x000001c5 -#define SQ_V_CUBETC_F32 0x000001c6 -#define SQ_V_CUBEMA_F32 0x000001c7 -#define SQ_V_BFE_U32 0x000001c8 -#define SQ_V_BFE_I32 0x000001c9 -#define SQ_V_BFI_B32 0x000001ca -#define SQ_V_FMA_F32 0x000001cb -#define SQ_V_FMA_F64 0x000001cc -#define SQ_V_LERP_U8 0x000001cd -#define SQ_V_ALIGNBIT_B32 0x000001ce -#define SQ_V_ALIGNBYTE_B32 0x000001cf -#define SQ_V_MIN3_F32 0x000001d0 -#define SQ_V_MIN3_I32 0x000001d1 -#define SQ_V_MIN3_U32 0x000001d2 -#define SQ_V_MAX3_F32 0x000001d3 -#define SQ_V_MAX3_I32 0x000001d4 -#define SQ_V_MAX3_U32 0x000001d5 -#define SQ_V_MED3_F32 0x000001d6 -#define SQ_V_MED3_I32 0x000001d7 -#define SQ_V_MED3_U32 0x000001d8 -#define SQ_V_SAD_U8 0x000001d9 -#define SQ_V_SAD_HI_U8 0x000001da -#define SQ_V_SAD_U16 0x000001db -#define SQ_V_SAD_U32 0x000001dc -#define SQ_V_CVT_PK_U8_F32 0x000001dd -#define SQ_V_DIV_FIXUP_F32 0x000001de -#define SQ_V_DIV_FIXUP_F64 0x000001df -#define SQ_V_DIV_SCALE_F32 0x000001e0 -#define SQ_V_DIV_SCALE_F64 0x000001e1 -#define SQ_V_DIV_FMAS_F32 0x000001e2 -#define SQ_V_DIV_FMAS_F64 0x000001e3 -#define SQ_V_MSAD_U8 0x000001e4 -#define SQ_V_QSAD_PK_U16_U8 0x000001e5 -#define SQ_V_MQSAD_PK_U16_U8 0x000001e6 -#define SQ_V_MQSAD_U32_U8 0x000001e7 -#define SQ_V_MAD_U64_U32 0x000001e8 -#define SQ_V_MAD_I64_I32 0x000001e9 -#define SQ_V_MAD_LEGACY_F16 0x000001ea -#define SQ_V_MAD_LEGACY_U16 0x000001eb -#define SQ_V_MAD_LEGACY_I16 0x000001ec -#define SQ_V_PERM_B32 0x000001ed -#define SQ_V_FMA_LEGACY_F16 0x000001ee -#define SQ_V_DIV_FIXUP_LEGACY_F16 0x000001ef -#define SQ_V_CVT_PKACCUM_U8_F32 0x000001f0 -#define SQ_V_MAD_U32_U16 0x000001f1 -#define SQ_V_MAD_I32_I16 0x000001f2 -#define SQ_V_XAD_U32 0x000001f3 -#define SQ_V_MIN3_F16 0x000001f4 -#define SQ_V_MIN3_I16 0x000001f5 -#define SQ_V_MIN3_U16 0x000001f6 -#define SQ_V_MAX3_F16 0x000001f7 -#define SQ_V_MAX3_I16 0x000001f8 -#define SQ_V_MAX3_U16 0x000001f9 -#define SQ_V_MED3_F16 0x000001fa -#define SQ_V_MED3_I16 0x000001fb -#define SQ_V_MED3_U16 0x000001fc -#define SQ_V_LSHL_ADD_U32 0x000001fd -#define SQ_V_ADD_LSHL_U32 0x000001fe -#define SQ_V_ADD3_U32 0x000001ff -#define SQ_V_LSHL_OR_B32 0x00000200 -#define SQ_V_AND_OR_B32 0x00000201 -#define SQ_V_OR3_B32 0x00000202 -#define SQ_V_MAD_F16 0x00000203 -#define SQ_V_MAD_U16 0x00000204 -#define SQ_V_MAD_I16 0x00000205 -#define SQ_V_FMA_F16 0x00000206 -#define SQ_V_DIV_FIXUP_F16 0x00000207 -#define SQ_V_INTERP_P1LL_F16 0x00000274 -#define SQ_V_INTERP_P1LV_F16 0x00000275 -#define SQ_V_INTERP_P2_LEGACY_F16 0x00000276 -#define SQ_V_INTERP_P2_F16 0x00000277 -#define SQ_V_ADD_F64 0x00000280 -#define SQ_V_MUL_F64 0x00000281 -#define SQ_V_MIN_F64 0x00000282 -#define SQ_V_MAX_F64 0x00000283 -#define SQ_V_LDEXP_F64 0x00000284 -#define SQ_V_MUL_LO_U32 0x00000285 -#define SQ_V_MUL_HI_U32 0x00000286 -#define SQ_V_MUL_HI_I32 0x00000287 -#define SQ_V_LDEXP_F32 0x00000288 -#define SQ_V_READLANE_B32 0x00000289 -#define SQ_V_WRITELANE_B32 0x0000028a -#define SQ_V_BCNT_U32_B32 0x0000028b -#define SQ_V_MBCNT_LO_U32_B32 0x0000028c -#define SQ_V_MBCNT_HI_U32_B32 0x0000028d -#define SQ_V_MAC_LEGACY_F32 0x0000028e -#define SQ_V_LSHLREV_B64 0x0000028f -#define SQ_V_LSHRREV_B64 0x00000290 -#define SQ_V_ASHRREV_I64 0x00000291 -#define SQ_V_TRIG_PREOP_F64 0x00000292 -#define SQ_V_BFM_B32 0x00000293 -#define SQ_V_CVT_PKNORM_I16_F32 0x00000294 -#define SQ_V_CVT_PKNORM_U16_F32 0x00000295 -#define SQ_V_CVT_PKRTZ_F16_F32 0x00000296 -#define SQ_V_CVT_PK_U16_U32 0x00000297 -#define SQ_V_CVT_PK_I16_I32 0x00000298 -#define SQ_V_CVT_PKNORM_I16_F16 0x00000299 -#define SQ_V_CVT_PKNORM_U16_F16 0x0000029a -#define SQ_V_READLANE_REGRD_B32 0x0000029b -#define SQ_V_ADD_I32 0x0000029c -#define SQ_V_SUB_I32 0x0000029d -#define SQ_V_ADD_I16 0x0000029e -#define SQ_V_SUB_I16 0x0000029f -#define SQ_V_PACK_B32_F16 0x000002a0 - -/* - * VALUE_SQ_OP_VINTRP value - */ - -#define SQ_V_INTERP_P1_F32 0x00000000 -#define SQ_V_INTERP_P2_F32 0x00000001 -#define SQ_V_INTERP_MOV_F32 0x00000002 - -/* - * VALUE_SQ_SSRC_SPECIAL_VCCZ value - */ - -#define SQ_SRC_VCCZ 0x000000fb - -/* - * VALUE_SQ_TGT_INTERNAL value - */ - -#define SQ_EXP_GDS0 0x00000018 - -/* - * VALUE_SQ_OMOD value - */ - -#define SQ_OMOD_OFF 0x00000000 -#define SQ_OMOD_M2 0x00000001 -#define SQ_OMOD_M4 0x00000002 -#define SQ_OMOD_D2 0x00000003 - -/* - * VALUE_SQ_ATTR value - */ - -#define SQ_ATTR0 0x00000000 - -/* - * VALUE_SQ_TGT value - */ - -#define SQ_EXP_MRT0 0x00000000 -#define SQ_EXP_MRTZ 0x00000008 -#define SQ_EXP_NULL 0x00000009 -#define SQ_EXP_POS0 0x0000000c -#define SQ_EXP_PARAM0 0x00000020 - -/* - * VALUE_SQ_OPU_VOP3 value - */ - -#define SQ_V_OPC_OFFSET 0x00000000 -#define SQ_V_OP2_OFFSET 0x00000100 -#define SQ_V_OP1_OFFSET 0x00000140 -#define SQ_V_INTRP_OFFSET 0x00000270 -#define SQ_V_OP3P_OFFSET 0x00000380 - -/* - * VALUE_SQ_OP_SOPK value - */ - -#define SQ_S_MOVK_I32 0x00000000 -#define SQ_S_CMOVK_I32 0x00000001 -#define SQ_S_CMPK_EQ_I32 0x00000002 -#define SQ_S_CMPK_LG_I32 0x00000003 -#define SQ_S_CMPK_GT_I32 0x00000004 -#define SQ_S_CMPK_GE_I32 0x00000005 -#define SQ_S_CMPK_LT_I32 0x00000006 -#define SQ_S_CMPK_LE_I32 0x00000007 -#define SQ_S_CMPK_EQ_U32 0x00000008 -#define SQ_S_CMPK_LG_U32 0x00000009 -#define SQ_S_CMPK_GT_U32 0x0000000a -#define SQ_S_CMPK_GE_U32 0x0000000b -#define SQ_S_CMPK_LT_U32 0x0000000c -#define SQ_S_CMPK_LE_U32 0x0000000d -#define SQ_S_ADDK_I32 0x0000000e -#define SQ_S_MULK_I32 0x0000000f -#define SQ_S_CBRANCH_I_FORK 0x00000010 -#define SQ_S_GETREG_B32 0x00000011 -#define SQ_S_SETREG_B32 0x00000012 -#define SQ_S_GETREG_REGRD_B32 0x00000013 -#define SQ_S_SETREG_IMM32_B32 0x00000014 -#define SQ_S_CALL_B64 0x00000015 - -/* - * VALUE_SQ_COMPF value - */ - -#define SQ_F 0x00000000 -#define SQ_LT 0x00000001 -#define SQ_EQ 0x00000002 -#define SQ_LE 0x00000003 -#define SQ_GT 0x00000004 -#define SQ_LG 0x00000005 -#define SQ_GE 0x00000006 -#define SQ_O 0x00000007 -#define SQ_U 0x00000008 -#define SQ_NGE 0x00000009 -#define SQ_NLG 0x0000000a -#define SQ_NGT 0x0000000b -#define SQ_NLE 0x0000000c -#define SQ_NEQ 0x0000000d -#define SQ_NLT 0x0000000e -#define SQ_TRU 0x0000000f - -/* - * VALUE_SQ_DPP_CTRL value - */ - -#define SQ_DPP_QUAD_PERM 0x00000000 -#define SQ_DPP_ROW_SL1 0x00000101 -#define SQ_DPP_ROW_SL2 0x00000102 -#define SQ_DPP_ROW_SL3 0x00000103 -#define SQ_DPP_ROW_SL4 0x00000104 -#define SQ_DPP_ROW_SL5 0x00000105 -#define SQ_DPP_ROW_SL6 0x00000106 -#define SQ_DPP_ROW_SL7 0x00000107 -#define SQ_DPP_ROW_SL8 0x00000108 -#define SQ_DPP_ROW_SL9 0x00000109 -#define SQ_DPP_ROW_SL10 0x0000010a -#define SQ_DPP_ROW_SL11 0x0000010b -#define SQ_DPP_ROW_SL12 0x0000010c -#define SQ_DPP_ROW_SL13 0x0000010d -#define SQ_DPP_ROW_SL14 0x0000010e -#define SQ_DPP_ROW_SL15 0x0000010f -#define SQ_DPP_ROW_SR1 0x00000111 -#define SQ_DPP_ROW_SR2 0x00000112 -#define SQ_DPP_ROW_SR3 0x00000113 -#define SQ_DPP_ROW_SR4 0x00000114 -#define SQ_DPP_ROW_SR5 0x00000115 -#define SQ_DPP_ROW_SR6 0x00000116 -#define SQ_DPP_ROW_SR7 0x00000117 -#define SQ_DPP_ROW_SR8 0x00000118 -#define SQ_DPP_ROW_SR9 0x00000119 -#define SQ_DPP_ROW_SR10 0x0000011a -#define SQ_DPP_ROW_SR11 0x0000011b -#define SQ_DPP_ROW_SR12 0x0000011c -#define SQ_DPP_ROW_SR13 0x0000011d -#define SQ_DPP_ROW_SR14 0x0000011e -#define SQ_DPP_ROW_SR15 0x0000011f -#define SQ_DPP_ROW_RR1 0x00000121 -#define SQ_DPP_ROW_RR2 0x00000122 -#define SQ_DPP_ROW_RR3 0x00000123 -#define SQ_DPP_ROW_RR4 0x00000124 -#define SQ_DPP_ROW_RR5 0x00000125 -#define SQ_DPP_ROW_RR6 0x00000126 -#define SQ_DPP_ROW_RR7 0x00000127 -#define SQ_DPP_ROW_RR8 0x00000128 -#define SQ_DPP_ROW_RR9 0x00000129 -#define SQ_DPP_ROW_RR10 0x0000012a -#define SQ_DPP_ROW_RR11 0x0000012b -#define SQ_DPP_ROW_RR12 0x0000012c -#define SQ_DPP_ROW_RR13 0x0000012d -#define SQ_DPP_ROW_RR14 0x0000012e -#define SQ_DPP_ROW_RR15 0x0000012f -#define SQ_DPP_WF_SL1 0x00000130 -#define SQ_DPP_WF_RL1 0x00000134 -#define SQ_DPP_WF_SR1 0x00000138 -#define SQ_DPP_WF_RR1 0x0000013c -#define SQ_DPP_ROW_MIRROR 0x00000140 -#define SQ_DPP_ROW_HALF_MIRROR 0x00000141 -#define SQ_DPP_ROW_BCAST15 0x00000142 -#define SQ_DPP_ROW_BCAST31 0x00000143 - -/* - * VALUE_SQ_VCC_LOHI value - */ - -#define SQ_VCC_LO 0x0000006a -#define SQ_VCC_HI 0x0000006b - -/* - * VALUE_SQ_SSRC_SPECIAL_SCC value - */ - -#define SQ_SRC_SCC 0x000000fd - -/* - * VALUE_SQ_OP_SOP1 value - */ - -#define SQ_S_MOV_B32 0x00000000 -#define SQ_S_MOV_B64 0x00000001 -#define SQ_S_CMOV_B32 0x00000002 -#define SQ_S_CMOV_B64 0x00000003 -#define SQ_S_NOT_B32 0x00000004 -#define SQ_S_NOT_B64 0x00000005 -#define SQ_S_WQM_B32 0x00000006 -#define SQ_S_WQM_B64 0x00000007 -#define SQ_S_BREV_B32 0x00000008 -#define SQ_S_BREV_B64 0x00000009 -#define SQ_S_BCNT0_I32_B32 0x0000000a -#define SQ_S_BCNT0_I32_B64 0x0000000b -#define SQ_S_BCNT1_I32_B32 0x0000000c -#define SQ_S_BCNT1_I32_B64 0x0000000d -#define SQ_S_FF0_I32_B32 0x0000000e -#define SQ_S_FF0_I32_B64 0x0000000f -#define SQ_S_FF1_I32_B32 0x00000010 -#define SQ_S_FF1_I32_B64 0x00000011 -#define SQ_S_FLBIT_I32_B32 0x00000012 -#define SQ_S_FLBIT_I32_B64 0x00000013 -#define SQ_S_FLBIT_I32 0x00000014 -#define SQ_S_FLBIT_I32_I64 0x00000015 -#define SQ_S_SEXT_I32_I8 0x00000016 -#define SQ_S_SEXT_I32_I16 0x00000017 -#define SQ_S_BITSET0_B32 0x00000018 -#define SQ_S_BITSET0_B64 0x00000019 -#define SQ_S_BITSET1_B32 0x0000001a -#define SQ_S_BITSET1_B64 0x0000001b -#define SQ_S_GETPC_B64 0x0000001c -#define SQ_S_SETPC_B64 0x0000001d -#define SQ_S_SWAPPC_B64 0x0000001e -#define SQ_S_RFE_B64 0x0000001f -#define SQ_S_AND_SAVEEXEC_B64 0x00000020 -#define SQ_S_OR_SAVEEXEC_B64 0x00000021 -#define SQ_S_XOR_SAVEEXEC_B64 0x00000022 -#define SQ_S_ANDN2_SAVEEXEC_B64 0x00000023 -#define SQ_S_ORN2_SAVEEXEC_B64 0x00000024 -#define SQ_S_NAND_SAVEEXEC_B64 0x00000025 -#define SQ_S_NOR_SAVEEXEC_B64 0x00000026 -#define SQ_S_XNOR_SAVEEXEC_B64 0x00000027 -#define SQ_S_QUADMASK_B32 0x00000028 -#define SQ_S_QUADMASK_B64 0x00000029 -#define SQ_S_MOVRELS_B32 0x0000002a -#define SQ_S_MOVRELS_B64 0x0000002b -#define SQ_S_MOVRELD_B32 0x0000002c -#define SQ_S_MOVRELD_B64 0x0000002d -#define SQ_S_CBRANCH_JOIN 0x0000002e -#define SQ_S_MOV_REGRD_B32 0x0000002f -#define SQ_S_ABS_I32 0x00000030 -#define SQ_S_MOV_FED_B32 0x00000031 -#define SQ_S_SET_GPR_IDX_IDX 0x00000032 -#define SQ_S_ANDN1_SAVEEXEC_B64 0x00000033 -#define SQ_S_ORN1_SAVEEXEC_B64 0x00000034 -#define SQ_S_ANDN1_WREXEC_B64 0x00000035 -#define SQ_S_ANDN2_WREXEC_B64 0x00000036 -#define SQ_S_BITREPLICATE_B64_B32 0x00000037 - -/* - * VALUE_SQ_MSG value - */ - -#define SQ_MSG_INTERRUPT 0x00000001 -#define SQ_MSG_GS 0x00000002 -#define SQ_MSG_GS_DONE 0x00000003 -#define SQ_MSG_SAVEWAVE 0x00000004 -#define SQ_MSG_STALL_WAVE_GEN 0x00000005 -#define SQ_MSG_HALT_WAVES 0x00000006 -#define SQ_MSG_ORDERED_PS_DONE 0x00000007 -#define SQ_MSG_EARLY_PRIM_DEALLOC 0x00000008 -#define SQ_MSG_GS_ALLOC_REQ 0x00000009 -#define SQ_MSG_SYSMSG 0x0000000f - -/* - * VALUE_SQ_OP_FLAT_GLBL value - */ - -#define SQ_GLOBAL_LOAD_UBYTE 0x00000010 -#define SQ_GLOBAL_LOAD_SBYTE 0x00000011 -#define SQ_GLOBAL_LOAD_USHORT 0x00000012 -#define SQ_GLOBAL_LOAD_SSHORT 0x00000013 -#define SQ_GLOBAL_LOAD_DWORD 0x00000014 -#define SQ_GLOBAL_LOAD_DWORDX2 0x00000015 -#define SQ_GLOBAL_LOAD_DWORDX3 0x00000016 -#define SQ_GLOBAL_LOAD_DWORDX4 0x00000017 -#define SQ_GLOBAL_STORE_BYTE 0x00000018 -#define SQ_GLOBAL_STORE_SHORT 0x0000001a -#define SQ_GLOBAL_STORE_DWORD 0x0000001c -#define SQ_GLOBAL_STORE_DWORDX2 0x0000001d -#define SQ_GLOBAL_STORE_DWORDX3 0x0000001e -#define SQ_GLOBAL_STORE_DWORDX4 0x0000001f -#define SQ_GLOBAL_ATOMIC_SWAP 0x00000040 -#define SQ_GLOBAL_ATOMIC_CMPSWAP 0x00000041 -#define SQ_GLOBAL_ATOMIC_ADD 0x00000042 -#define SQ_GLOBAL_ATOMIC_SUB 0x00000043 -#define SQ_GLOBAL_ATOMIC_SMIN 0x00000044 -#define SQ_GLOBAL_ATOMIC_UMIN 0x00000045 -#define SQ_GLOBAL_ATOMIC_SMAX 0x00000046 -#define SQ_GLOBAL_ATOMIC_UMAX 0x00000047 -#define SQ_GLOBAL_ATOMIC_AND 0x00000048 -#define SQ_GLOBAL_ATOMIC_OR 0x00000049 -#define SQ_GLOBAL_ATOMIC_XOR 0x0000004a -#define SQ_GLOBAL_ATOMIC_INC 0x0000004b -#define SQ_GLOBAL_ATOMIC_DEC 0x0000004c -#define SQ_GLOBAL_ATOMIC_SWAP_X2 0x00000060 -#define SQ_GLOBAL_ATOMIC_CMPSWAP_X2 0x00000061 -#define SQ_GLOBAL_ATOMIC_ADD_X2 0x00000062 -#define SQ_GLOBAL_ATOMIC_SUB_X2 0x00000063 -#define SQ_GLOBAL_ATOMIC_SMIN_X2 0x00000064 -#define SQ_GLOBAL_ATOMIC_UMIN_X2 0x00000065 -#define SQ_GLOBAL_ATOMIC_SMAX_X2 0x00000066 -#define SQ_GLOBAL_ATOMIC_UMAX_X2 0x00000067 -#define SQ_GLOBAL_ATOMIC_AND_X2 0x00000068 -#define SQ_GLOBAL_ATOMIC_OR_X2 0x00000069 -#define SQ_GLOBAL_ATOMIC_XOR_X2 0x0000006a -#define SQ_GLOBAL_ATOMIC_INC_X2 0x0000006b -#define SQ_GLOBAL_ATOMIC_DEC_X2 0x0000006c - -/* - * VALUE_SQ_VGPR value - */ - -#define SQ_VGPR0 0x00000000 - -/* - * VALUE_SQ_HW_REG value - */ - -#define SQ_HW_REG_MODE 0x00000001 -#define SQ_HW_REG_STATUS 0x00000002 -#define SQ_HW_REG_TRAPSTS 0x00000003 -#define SQ_HW_REG_HW_ID 0x00000004 -#define SQ_HW_REG_GPR_ALLOC 0x00000005 -#define SQ_HW_REG_LDS_ALLOC 0x00000006 -#define SQ_HW_REG_IB_STS 0x00000007 -#define SQ_HW_REG_PC_LO 0x00000008 -#define SQ_HW_REG_PC_HI 0x00000009 -#define SQ_HW_REG_INST_DW0 0x0000000a -#define SQ_HW_REG_INST_DW1 0x0000000b -#define SQ_HW_REG_IB_DBG0 0x0000000c -#define SQ_HW_REG_IB_DBG1 0x0000000d -#define SQ_HW_REG_FLUSH_IB 0x0000000e -#define SQ_HW_REG_SH_MEM_BASES 0x0000000f -#define SQ_HW_REG_SQ_SHADER_TBA_LO 0x00000010 -#define SQ_HW_REG_SQ_SHADER_TBA_HI 0x00000011 -#define SQ_HW_REG_SQ_SHADER_TMA_LO 0x00000012 -#define SQ_HW_REG_SQ_SHADER_TMA_HI 0x00000013 - -/* - * VALUE_SQ_OP_VOP1 value - */ - -#define SQ_V_NOP 0x00000000 -#define SQ_V_MOV_B32 0x00000001 -#define SQ_V_READFIRSTLANE_B32 0x00000002 -#define SQ_V_CVT_I32_F64 0x00000003 -#define SQ_V_CVT_F64_I32 0x00000004 -#define SQ_V_CVT_F32_I32 0x00000005 -#define SQ_V_CVT_F32_U32 0x00000006 -#define SQ_V_CVT_U32_F32 0x00000007 -#define SQ_V_CVT_I32_F32 0x00000008 -#define SQ_V_MOV_FED_B32 0x00000009 -#define SQ_V_CVT_F16_F32 0x0000000a -#define SQ_V_CVT_F32_F16 0x0000000b -#define SQ_V_CVT_RPI_I32_F32 0x0000000c -#define SQ_V_CVT_FLR_I32_F32 0x0000000d -#define SQ_V_CVT_OFF_F32_I4 0x0000000e -#define SQ_V_CVT_F32_F64 0x0000000f -#define SQ_V_CVT_F64_F32 0x00000010 -#define SQ_V_CVT_F32_UBYTE0 0x00000011 -#define SQ_V_CVT_F32_UBYTE1 0x00000012 -#define SQ_V_CVT_F32_UBYTE2 0x00000013 -#define SQ_V_CVT_F32_UBYTE3 0x00000014 -#define SQ_V_CVT_U32_F64 0x00000015 -#define SQ_V_CVT_F64_U32 0x00000016 -#define SQ_V_TRUNC_F64 0x00000017 -#define SQ_V_CEIL_F64 0x00000018 -#define SQ_V_RNDNE_F64 0x00000019 -#define SQ_V_FLOOR_F64 0x0000001a -#define SQ_V_FRACT_F32 0x0000001b -#define SQ_V_TRUNC_F32 0x0000001c -#define SQ_V_CEIL_F32 0x0000001d -#define SQ_V_RNDNE_F32 0x0000001e -#define SQ_V_FLOOR_F32 0x0000001f -#define SQ_V_EXP_F32 0x00000020 -#define SQ_V_LOG_F32 0x00000021 -#define SQ_V_RCP_F32 0x00000022 -#define SQ_V_RCP_IFLAG_F32 0x00000023 -#define SQ_V_RSQ_F32 0x00000024 -#define SQ_V_RCP_F64 0x00000025 -#define SQ_V_RSQ_F64 0x00000026 -#define SQ_V_SQRT_F32 0x00000027 -#define SQ_V_SQRT_F64 0x00000028 -#define SQ_V_SIN_F32 0x00000029 -#define SQ_V_COS_F32 0x0000002a -#define SQ_V_NOT_B32 0x0000002b -#define SQ_V_BFREV_B32 0x0000002c -#define SQ_V_FFBH_U32 0x0000002d -#define SQ_V_FFBL_B32 0x0000002e -#define SQ_V_FFBH_I32 0x0000002f -#define SQ_V_FREXP_EXP_I32_F64 0x00000030 -#define SQ_V_FREXP_MANT_F64 0x00000031 -#define SQ_V_FRACT_F64 0x00000032 -#define SQ_V_FREXP_EXP_I32_F32 0x00000033 -#define SQ_V_FREXP_MANT_F32 0x00000034 -#define SQ_V_CLREXCP 0x00000035 -#define SQ_V_MOV_PRSV_B32 0x00000036 -#define SQ_V_CVT_F16_U16 0x00000039 -#define SQ_V_CVT_F16_I16 0x0000003a -#define SQ_V_CVT_U16_F16 0x0000003b -#define SQ_V_CVT_I16_F16 0x0000003c -#define SQ_V_RCP_F16 0x0000003d -#define SQ_V_SQRT_F16 0x0000003e -#define SQ_V_RSQ_F16 0x0000003f -#define SQ_V_LOG_F16 0x00000040 -#define SQ_V_EXP_F16 0x00000041 -#define SQ_V_FREXP_MANT_F16 0x00000042 -#define SQ_V_FREXP_EXP_I16_F16 0x00000043 -#define SQ_V_FLOOR_F16 0x00000044 -#define SQ_V_CEIL_F16 0x00000045 -#define SQ_V_TRUNC_F16 0x00000046 -#define SQ_V_RNDNE_F16 0x00000047 -#define SQ_V_FRACT_F16 0x00000048 -#define SQ_V_SIN_F16 0x00000049 -#define SQ_V_COS_F16 0x0000004a -#define SQ_V_EXP_LEGACY_F32 0x0000004b -#define SQ_V_LOG_LEGACY_F32 0x0000004c -#define SQ_V_CVT_NORM_I16_F16 0x0000004d -#define SQ_V_CVT_NORM_U16_F16 0x0000004e -#define SQ_V_SAT_PK_U8_I16 0x0000004f -#define SQ_V_WRITELANE_IMM32 0x00000050 -#define SQ_V_SWAP_B32 0x00000051 - -/* - * VALUE_SQ_OP_MUBUF value - */ - -#define SQ_BUFFER_LOAD_FORMAT_X 0x00000000 -#define SQ_BUFFER_LOAD_FORMAT_XY 0x00000001 -#define SQ_BUFFER_LOAD_FORMAT_XYZ 0x00000002 -#define SQ_BUFFER_LOAD_FORMAT_XYZW 0x00000003 -#define SQ_BUFFER_STORE_FORMAT_X 0x00000004 -#define SQ_BUFFER_STORE_FORMAT_XY 0x00000005 -#define SQ_BUFFER_STORE_FORMAT_XYZ 0x00000006 -#define SQ_BUFFER_STORE_FORMAT_XYZW 0x00000007 -#define SQ_BUFFER_LOAD_FORMAT_D16_X 0x00000008 -#define SQ_BUFFER_LOAD_FORMAT_D16_XY 0x00000009 -#define SQ_BUFFER_LOAD_FORMAT_D16_XYZ 0x0000000a -#define SQ_BUFFER_LOAD_FORMAT_D16_XYZW 0x0000000b -#define SQ_BUFFER_STORE_FORMAT_D16_X 0x0000000c -#define SQ_BUFFER_STORE_FORMAT_D16_XY 0x0000000d -#define SQ_BUFFER_STORE_FORMAT_D16_XYZ 0x0000000e -#define SQ_BUFFER_STORE_FORMAT_D16_XYZW 0x0000000f -#define SQ_BUFFER_LOAD_UBYTE 0x00000010 -#define SQ_BUFFER_LOAD_SBYTE 0x00000011 -#define SQ_BUFFER_LOAD_USHORT 0x00000012 -#define SQ_BUFFER_LOAD_SSHORT 0x00000013 -#define SQ_BUFFER_LOAD_DWORD 0x00000014 -#define SQ_BUFFER_LOAD_DWORDX2 0x00000015 -#define SQ_BUFFER_LOAD_DWORDX3 0x00000016 -#define SQ_BUFFER_LOAD_DWORDX4 0x00000017 -#define SQ_BUFFER_STORE_BYTE 0x00000018 -#define SQ_BUFFER_STORE_SHORT 0x0000001a -#define SQ_BUFFER_STORE_DWORD 0x0000001c -#define SQ_BUFFER_STORE_DWORDX2 0x0000001d -#define SQ_BUFFER_STORE_DWORDX3 0x0000001e -#define SQ_BUFFER_STORE_DWORDX4 0x0000001f -#define SQ_BUFFER_STORE_LDS_DWORD 0x0000003d -#define SQ_BUFFER_WBINVL1 0x0000003e -#define SQ_BUFFER_WBINVL1_VOL 0x0000003f -#define SQ_BUFFER_ATOMIC_SWAP 0x00000040 -#define SQ_BUFFER_ATOMIC_CMPSWAP 0x00000041 -#define SQ_BUFFER_ATOMIC_ADD 0x00000042 -#define SQ_BUFFER_ATOMIC_SUB 0x00000043 -#define SQ_BUFFER_ATOMIC_SMIN 0x00000044 -#define SQ_BUFFER_ATOMIC_UMIN 0x00000045 -#define SQ_BUFFER_ATOMIC_SMAX 0x00000046 -#define SQ_BUFFER_ATOMIC_UMAX 0x00000047 -#define SQ_BUFFER_ATOMIC_AND 0x00000048 -#define SQ_BUFFER_ATOMIC_OR 0x00000049 -#define SQ_BUFFER_ATOMIC_XOR 0x0000004a -#define SQ_BUFFER_ATOMIC_INC 0x0000004b -#define SQ_BUFFER_ATOMIC_DEC 0x0000004c -#define SQ_BUFFER_ATOMIC_SWAP_X2 0x00000060 -#define SQ_BUFFER_ATOMIC_CMPSWAP_X2 0x00000061 -#define SQ_BUFFER_ATOMIC_ADD_X2 0x00000062 -#define SQ_BUFFER_ATOMIC_SUB_X2 0x00000063 -#define SQ_BUFFER_ATOMIC_SMIN_X2 0x00000064 -#define SQ_BUFFER_ATOMIC_UMIN_X2 0x00000065 -#define SQ_BUFFER_ATOMIC_SMAX_X2 0x00000066 -#define SQ_BUFFER_ATOMIC_UMAX_X2 0x00000067 -#define SQ_BUFFER_ATOMIC_AND_X2 0x00000068 -#define SQ_BUFFER_ATOMIC_OR_X2 0x00000069 -#define SQ_BUFFER_ATOMIC_XOR_X2 0x0000006a -#define SQ_BUFFER_ATOMIC_INC_X2 0x0000006b -#define SQ_BUFFER_ATOMIC_DEC_X2 0x0000006c - -/* - * VALUE_SQ_TRAP value - */ - -#define SQ_TTMP0 0x0000006c -#define SQ_TTMP1 0x0000006d -#define SQ_TTMP2 0x0000006e -#define SQ_TTMP3 0x0000006f -#define SQ_TTMP4 0x00000070 -#define SQ_TTMP5 0x00000071 -#define SQ_TTMP6 0x00000072 -#define SQ_TTMP7 0x00000073 -#define SQ_TTMP8 0x00000074 -#define SQ_TTMP9 0x00000075 -#define SQ_TTMP10 0x00000076 -#define SQ_TTMP11 0x00000077 -#define SQ_TTMP12 0x00000078 -#define SQ_TTMP13 0x00000079 -#define SQ_TTMP14 0x0000007a -#define SQ_TTMP15 0x0000007b - -/* - * VALUE_SQ_OP_VOPC value - */ - -#define SQ_V_CMP_CLASS_F32 0x00000010 -#define SQ_V_CMPX_CLASS_F32 0x00000011 -#define SQ_V_CMP_CLASS_F64 0x00000012 -#define SQ_V_CMPX_CLASS_F64 0x00000013 -#define SQ_V_CMP_CLASS_F16 0x00000014 -#define SQ_V_CMPX_CLASS_F16 0x00000015 -#define SQ_V_CMP_F_F16 0x00000020 -#define SQ_V_CMP_LT_F16 0x00000021 -#define SQ_V_CMP_EQ_F16 0x00000022 -#define SQ_V_CMP_LE_F16 0x00000023 -#define SQ_V_CMP_GT_F16 0x00000024 -#define SQ_V_CMP_LG_F16 0x00000025 -#define SQ_V_CMP_GE_F16 0x00000026 -#define SQ_V_CMP_O_F16 0x00000027 -#define SQ_V_CMP_U_F16 0x00000028 -#define SQ_V_CMP_NGE_F16 0x00000029 -#define SQ_V_CMP_NLG_F16 0x0000002a -#define SQ_V_CMP_NGT_F16 0x0000002b -#define SQ_V_CMP_NLE_F16 0x0000002c -#define SQ_V_CMP_NEQ_F16 0x0000002d -#define SQ_V_CMP_NLT_F16 0x0000002e -#define SQ_V_CMP_TRU_F16 0x0000002f -#define SQ_V_CMPX_F_F16 0x00000030 -#define SQ_V_CMPX_LT_F16 0x00000031 -#define SQ_V_CMPX_EQ_F16 0x00000032 -#define SQ_V_CMPX_LE_F16 0x00000033 -#define SQ_V_CMPX_GT_F16 0x00000034 -#define SQ_V_CMPX_LG_F16 0x00000035 -#define SQ_V_CMPX_GE_F16 0x00000036 -#define SQ_V_CMPX_O_F16 0x00000037 -#define SQ_V_CMPX_U_F16 0x00000038 -#define SQ_V_CMPX_NGE_F16 0x00000039 -#define SQ_V_CMPX_NLG_F16 0x0000003a -#define SQ_V_CMPX_NGT_F16 0x0000003b -#define SQ_V_CMPX_NLE_F16 0x0000003c -#define SQ_V_CMPX_NEQ_F16 0x0000003d -#define SQ_V_CMPX_NLT_F16 0x0000003e -#define SQ_V_CMPX_TRU_F16 0x0000003f -#define SQ_V_CMP_F_F32 0x00000040 -#define SQ_V_CMP_LT_F32 0x00000041 -#define SQ_V_CMP_EQ_F32 0x00000042 -#define SQ_V_CMP_LE_F32 0x00000043 -#define SQ_V_CMP_GT_F32 0x00000044 -#define SQ_V_CMP_LG_F32 0x00000045 -#define SQ_V_CMP_GE_F32 0x00000046 -#define SQ_V_CMP_O_F32 0x00000047 -#define SQ_V_CMP_U_F32 0x00000048 -#define SQ_V_CMP_NGE_F32 0x00000049 -#define SQ_V_CMP_NLG_F32 0x0000004a -#define SQ_V_CMP_NGT_F32 0x0000004b -#define SQ_V_CMP_NLE_F32 0x0000004c -#define SQ_V_CMP_NEQ_F32 0x0000004d -#define SQ_V_CMP_NLT_F32 0x0000004e -#define SQ_V_CMP_TRU_F32 0x0000004f -#define SQ_V_CMPX_F_F32 0x00000050 -#define SQ_V_CMPX_LT_F32 0x00000051 -#define SQ_V_CMPX_EQ_F32 0x00000052 -#define SQ_V_CMPX_LE_F32 0x00000053 -#define SQ_V_CMPX_GT_F32 0x00000054 -#define SQ_V_CMPX_LG_F32 0x00000055 -#define SQ_V_CMPX_GE_F32 0x00000056 -#define SQ_V_CMPX_O_F32 0x00000057 -#define SQ_V_CMPX_U_F32 0x00000058 -#define SQ_V_CMPX_NGE_F32 0x00000059 -#define SQ_V_CMPX_NLG_F32 0x0000005a -#define SQ_V_CMPX_NGT_F32 0x0000005b -#define SQ_V_CMPX_NLE_F32 0x0000005c -#define SQ_V_CMPX_NEQ_F32 0x0000005d -#define SQ_V_CMPX_NLT_F32 0x0000005e -#define SQ_V_CMPX_TRU_F32 0x0000005f -#define SQ_V_CMP_F_F64 0x00000060 -#define SQ_V_CMP_LT_F64 0x00000061 -#define SQ_V_CMP_EQ_F64 0x00000062 -#define SQ_V_CMP_LE_F64 0x00000063 -#define SQ_V_CMP_GT_F64 0x00000064 -#define SQ_V_CMP_LG_F64 0x00000065 -#define SQ_V_CMP_GE_F64 0x00000066 -#define SQ_V_CMP_O_F64 0x00000067 -#define SQ_V_CMP_U_F64 0x00000068 -#define SQ_V_CMP_NGE_F64 0x00000069 -#define SQ_V_CMP_NLG_F64 0x0000006a -#define SQ_V_CMP_NGT_F64 0x0000006b -#define SQ_V_CMP_NLE_F64 0x0000006c -#define SQ_V_CMP_NEQ_F64 0x0000006d -#define SQ_V_CMP_NLT_F64 0x0000006e -#define SQ_V_CMP_TRU_F64 0x0000006f -#define SQ_V_CMPX_F_F64 0x00000070 -#define SQ_V_CMPX_LT_F64 0x00000071 -#define SQ_V_CMPX_EQ_F64 0x00000072 -#define SQ_V_CMPX_LE_F64 0x00000073 -#define SQ_V_CMPX_GT_F64 0x00000074 -#define SQ_V_CMPX_LG_F64 0x00000075 -#define SQ_V_CMPX_GE_F64 0x00000076 -#define SQ_V_CMPX_O_F64 0x00000077 -#define SQ_V_CMPX_U_F64 0x00000078 -#define SQ_V_CMPX_NGE_F64 0x00000079 -#define SQ_V_CMPX_NLG_F64 0x0000007a -#define SQ_V_CMPX_NGT_F64 0x0000007b -#define SQ_V_CMPX_NLE_F64 0x0000007c -#define SQ_V_CMPX_NEQ_F64 0x0000007d -#define SQ_V_CMPX_NLT_F64 0x0000007e -#define SQ_V_CMPX_TRU_F64 0x0000007f -#define SQ_V_CMP_F_I16 0x000000a0 -#define SQ_V_CMP_LT_I16 0x000000a1 -#define SQ_V_CMP_EQ_I16 0x000000a2 -#define SQ_V_CMP_LE_I16 0x000000a3 -#define SQ_V_CMP_GT_I16 0x000000a4 -#define SQ_V_CMP_NE_I16 0x000000a5 -#define SQ_V_CMP_GE_I16 0x000000a6 -#define SQ_V_CMP_T_I16 0x000000a7 -#define SQ_V_CMP_F_U16 0x000000a8 -#define SQ_V_CMP_LT_U16 0x000000a9 -#define SQ_V_CMP_EQ_U16 0x000000aa -#define SQ_V_CMP_LE_U16 0x000000ab -#define SQ_V_CMP_GT_U16 0x000000ac -#define SQ_V_CMP_NE_U16 0x000000ad -#define SQ_V_CMP_GE_U16 0x000000ae -#define SQ_V_CMP_T_U16 0x000000af -#define SQ_V_CMPX_F_I16 0x000000b0 -#define SQ_V_CMPX_LT_I16 0x000000b1 -#define SQ_V_CMPX_EQ_I16 0x000000b2 -#define SQ_V_CMPX_LE_I16 0x000000b3 -#define SQ_V_CMPX_GT_I16 0x000000b4 -#define SQ_V_CMPX_NE_I16 0x000000b5 -#define SQ_V_CMPX_GE_I16 0x000000b6 -#define SQ_V_CMPX_T_I16 0x000000b7 -#define SQ_V_CMPX_F_U16 0x000000b8 -#define SQ_V_CMPX_LT_U16 0x000000b9 -#define SQ_V_CMPX_EQ_U16 0x000000ba -#define SQ_V_CMPX_LE_U16 0x000000bb -#define SQ_V_CMPX_GT_U16 0x000000bc -#define SQ_V_CMPX_NE_U16 0x000000bd -#define SQ_V_CMPX_GE_U16 0x000000be -#define SQ_V_CMPX_T_U16 0x000000bf -#define SQ_V_CMP_F_I32 0x000000c0 -#define SQ_V_CMP_LT_I32 0x000000c1 -#define SQ_V_CMP_EQ_I32 0x000000c2 -#define SQ_V_CMP_LE_I32 0x000000c3 -#define SQ_V_CMP_GT_I32 0x000000c4 -#define SQ_V_CMP_NE_I32 0x000000c5 -#define SQ_V_CMP_GE_I32 0x000000c6 -#define SQ_V_CMP_T_I32 0x000000c7 -#define SQ_V_CMP_F_U32 0x000000c8 -#define SQ_V_CMP_LT_U32 0x000000c9 -#define SQ_V_CMP_EQ_U32 0x000000ca -#define SQ_V_CMP_LE_U32 0x000000cb -#define SQ_V_CMP_GT_U32 0x000000cc -#define SQ_V_CMP_NE_U32 0x000000cd -#define SQ_V_CMP_GE_U32 0x000000ce -#define SQ_V_CMP_T_U32 0x000000cf -#define SQ_V_CMPX_F_I32 0x000000d0 -#define SQ_V_CMPX_LT_I32 0x000000d1 -#define SQ_V_CMPX_EQ_I32 0x000000d2 -#define SQ_V_CMPX_LE_I32 0x000000d3 -#define SQ_V_CMPX_GT_I32 0x000000d4 -#define SQ_V_CMPX_NE_I32 0x000000d5 -#define SQ_V_CMPX_GE_I32 0x000000d6 -#define SQ_V_CMPX_T_I32 0x000000d7 -#define SQ_V_CMPX_F_U32 0x000000d8 -#define SQ_V_CMPX_LT_U32 0x000000d9 -#define SQ_V_CMPX_EQ_U32 0x000000da -#define SQ_V_CMPX_LE_U32 0x000000db -#define SQ_V_CMPX_GT_U32 0x000000dc -#define SQ_V_CMPX_NE_U32 0x000000dd -#define SQ_V_CMPX_GE_U32 0x000000de -#define SQ_V_CMPX_T_U32 0x000000df -#define SQ_V_CMP_F_I64 0x000000e0 -#define SQ_V_CMP_LT_I64 0x000000e1 -#define SQ_V_CMP_EQ_I64 0x000000e2 -#define SQ_V_CMP_LE_I64 0x000000e3 -#define SQ_V_CMP_GT_I64 0x000000e4 -#define SQ_V_CMP_NE_I64 0x000000e5 -#define SQ_V_CMP_GE_I64 0x000000e6 -#define SQ_V_CMP_T_I64 0x000000e7 -#define SQ_V_CMP_F_U64 0x000000e8 -#define SQ_V_CMP_LT_U64 0x000000e9 -#define SQ_V_CMP_EQ_U64 0x000000ea -#define SQ_V_CMP_LE_U64 0x000000eb -#define SQ_V_CMP_GT_U64 0x000000ec -#define SQ_V_CMP_NE_U64 0x000000ed -#define SQ_V_CMP_GE_U64 0x000000ee -#define SQ_V_CMP_T_U64 0x000000ef -#define SQ_V_CMPX_F_I64 0x000000f0 -#define SQ_V_CMPX_LT_I64 0x000000f1 -#define SQ_V_CMPX_EQ_I64 0x000000f2 -#define SQ_V_CMPX_LE_I64 0x000000f3 -#define SQ_V_CMPX_GT_I64 0x000000f4 -#define SQ_V_CMPX_NE_I64 0x000000f5 -#define SQ_V_CMPX_GE_I64 0x000000f6 -#define SQ_V_CMPX_T_I64 0x000000f7 -#define SQ_V_CMPX_F_U64 0x000000f8 -#define SQ_V_CMPX_LT_U64 0x000000f9 -#define SQ_V_CMPX_EQ_U64 0x000000fa -#define SQ_V_CMPX_LE_U64 0x000000fb -#define SQ_V_CMPX_GT_U64 0x000000fc -#define SQ_V_CMPX_NE_U64 0x000000fd -#define SQ_V_CMPX_GE_U64 0x000000fe -#define SQ_V_CMPX_T_U64 0x000000ff - -/* - * VALUE_SQ_DPP_CTRL_R_1_15 value - */ - -#define SQ_R1 0x00000001 -#define SQ_R2 0x00000002 -#define SQ_R3 0x00000003 -#define SQ_R4 0x00000004 -#define SQ_R5 0x00000005 -#define SQ_R6 0x00000006 -#define SQ_R7 0x00000007 -#define SQ_R8 0x00000008 -#define SQ_R9 0x00000009 -#define SQ_R10 0x0000000a -#define SQ_R11 0x0000000b -#define SQ_R12 0x0000000c -#define SQ_R13 0x0000000d -#define SQ_R14 0x0000000e -#define SQ_R15 0x0000000f - -/* - * VALUE_SQ_SSRC_SPECIAL_LDS value - */ - -#define SQ_SRC_LDS_DIRECT 0x000000fe - -/* - * VALUE_SQ_OP_EXP value - */ - -#define SQ_EXP 0x00000000 - -/* - * VALUE_SQ_SDST_M0 value - */ - -#define SQ_M0 0x0000007c - -/* - * VALUE_SQ_OP_MIMG value - */ - -#define SQ_IMAGE_LOAD 0x00000000 -#define SQ_IMAGE_LOAD_MIP 0x00000001 -#define SQ_IMAGE_LOAD_PCK 0x00000002 -#define SQ_IMAGE_LOAD_PCK_SGN 0x00000003 -#define SQ_IMAGE_LOAD_MIP_PCK 0x00000004 -#define SQ_IMAGE_LOAD_MIP_PCK_SGN 0x00000005 -#define SQ_IMAGE_STORE 0x00000008 -#define SQ_IMAGE_STORE_MIP 0x00000009 -#define SQ_IMAGE_STORE_PCK 0x0000000a -#define SQ_IMAGE_STORE_MIP_PCK 0x0000000b -#define SQ_IMAGE_GET_RESINFO 0x0000000e -#define SQ_IMAGE_ATOMIC_SWAP 0x00000010 -#define SQ_IMAGE_ATOMIC_CMPSWAP 0x00000011 -#define SQ_IMAGE_ATOMIC_ADD 0x00000012 -#define SQ_IMAGE_ATOMIC_SUB 0x00000013 -#define SQ_IMAGE_ATOMIC_SMIN 0x00000014 -#define SQ_IMAGE_ATOMIC_UMIN 0x00000015 -#define SQ_IMAGE_ATOMIC_SMAX 0x00000016 -#define SQ_IMAGE_ATOMIC_UMAX 0x00000017 -#define SQ_IMAGE_ATOMIC_AND 0x00000018 -#define SQ_IMAGE_ATOMIC_OR 0x00000019 -#define SQ_IMAGE_ATOMIC_XOR 0x0000001a -#define SQ_IMAGE_ATOMIC_INC 0x0000001b -#define SQ_IMAGE_ATOMIC_DEC 0x0000001c -#define SQ_IMAGE_SAMPLE 0x00000020 -#define SQ_IMAGE_SAMPLE_CL 0x00000021 -#define SQ_IMAGE_SAMPLE_D 0x00000022 -#define SQ_IMAGE_SAMPLE_D_CL 0x00000023 -#define SQ_IMAGE_SAMPLE_L 0x00000024 -#define SQ_IMAGE_SAMPLE_B 0x00000025 -#define SQ_IMAGE_SAMPLE_B_CL 0x00000026 -#define SQ_IMAGE_SAMPLE_LZ 0x00000027 -#define SQ_IMAGE_SAMPLE_C 0x00000028 -#define SQ_IMAGE_SAMPLE_C_CL 0x00000029 -#define SQ_IMAGE_SAMPLE_C_D 0x0000002a -#define SQ_IMAGE_SAMPLE_C_D_CL 0x0000002b -#define SQ_IMAGE_SAMPLE_C_L 0x0000002c -#define SQ_IMAGE_SAMPLE_C_B 0x0000002d -#define SQ_IMAGE_SAMPLE_C_B_CL 0x0000002e -#define SQ_IMAGE_SAMPLE_C_LZ 0x0000002f -#define SQ_IMAGE_SAMPLE_O 0x00000030 -#define SQ_IMAGE_SAMPLE_CL_O 0x00000031 -#define SQ_IMAGE_SAMPLE_D_O 0x00000032 -#define SQ_IMAGE_SAMPLE_D_CL_O 0x00000033 -#define SQ_IMAGE_SAMPLE_L_O 0x00000034 -#define SQ_IMAGE_SAMPLE_B_O 0x00000035 -#define SQ_IMAGE_SAMPLE_B_CL_O 0x00000036 -#define SQ_IMAGE_SAMPLE_LZ_O 0x00000037 -#define SQ_IMAGE_SAMPLE_C_O 0x00000038 -#define SQ_IMAGE_SAMPLE_C_CL_O 0x00000039 -#define SQ_IMAGE_SAMPLE_C_D_O 0x0000003a -#define SQ_IMAGE_SAMPLE_C_D_CL_O 0x0000003b -#define SQ_IMAGE_SAMPLE_C_L_O 0x0000003c -#define SQ_IMAGE_SAMPLE_C_B_O 0x0000003d -#define SQ_IMAGE_SAMPLE_C_B_CL_O 0x0000003e -#define SQ_IMAGE_SAMPLE_C_LZ_O 0x0000003f -#define SQ_IMAGE_GATHER4 0x00000040 -#define SQ_IMAGE_GATHER4_CL 0x00000041 -#define SQ_IMAGE_GATHER4H 0x00000042 -#define SQ_IMAGE_GATHER4_L 0x00000044 -#define SQ_IMAGE_GATHER4_B 0x00000045 -#define SQ_IMAGE_GATHER4_B_CL 0x00000046 -#define SQ_IMAGE_GATHER4_LZ 0x00000047 -#define SQ_IMAGE_GATHER4_C 0x00000048 -#define SQ_IMAGE_GATHER4_C_CL 0x00000049 -#define SQ_IMAGE_GATHER4H_PCK 0x0000004a -#define SQ_IMAGE_GATHER8H_PCK 0x0000004b -#define SQ_IMAGE_GATHER4_C_L 0x0000004c -#define SQ_IMAGE_GATHER4_C_B 0x0000004d -#define SQ_IMAGE_GATHER4_C_B_CL 0x0000004e -#define SQ_IMAGE_GATHER4_C_LZ 0x0000004f -#define SQ_IMAGE_GATHER4_O 0x00000050 -#define SQ_IMAGE_GATHER4_CL_O 0x00000051 -#define SQ_IMAGE_GATHER4_L_O 0x00000054 -#define SQ_IMAGE_GATHER4_B_O 0x00000055 -#define SQ_IMAGE_GATHER4_B_CL_O 0x00000056 -#define SQ_IMAGE_GATHER4_LZ_O 0x00000057 -#define SQ_IMAGE_GATHER4_C_O 0x00000058 -#define SQ_IMAGE_GATHER4_C_CL_O 0x00000059 -#define SQ_IMAGE_GATHER4_C_L_O 0x0000005c -#define SQ_IMAGE_GATHER4_C_B_O 0x0000005d -#define SQ_IMAGE_GATHER4_C_B_CL_O 0x0000005e -#define SQ_IMAGE_GATHER4_C_LZ_O 0x0000005f -#define SQ_IMAGE_GET_LOD 0x00000060 -#define SQ_IMAGE_SAMPLE_CD 0x00000068 -#define SQ_IMAGE_SAMPLE_CD_CL 0x00000069 -#define SQ_IMAGE_SAMPLE_C_CD 0x0000006a -#define SQ_IMAGE_SAMPLE_C_CD_CL 0x0000006b -#define SQ_IMAGE_SAMPLE_CD_O 0x0000006c -#define SQ_IMAGE_SAMPLE_CD_CL_O 0x0000006d -#define SQ_IMAGE_SAMPLE_C_CD_O 0x0000006e -#define SQ_IMAGE_SAMPLE_C_CD_CL_O 0x0000006f -#define SQ_IMAGE_RSRC256 0x0000007e -#define SQ_IMAGE_SAMPLER 0x0000007f - -/* - * VALUE_SQ_SSRC_SPECIAL_NOLIT value - */ - -#define SQ_SRC_64_INT 0x000000c0 -#define SQ_SRC_M_1_INT 0x000000c1 -#define SQ_SRC_M_2_INT 0x000000c2 -#define SQ_SRC_M_3_INT 0x000000c3 -#define SQ_SRC_M_4_INT 0x000000c4 -#define SQ_SRC_M_5_INT 0x000000c5 -#define SQ_SRC_M_6_INT 0x000000c6 -#define SQ_SRC_M_7_INT 0x000000c7 -#define SQ_SRC_M_8_INT 0x000000c8 -#define SQ_SRC_M_9_INT 0x000000c9 -#define SQ_SRC_M_10_INT 0x000000ca -#define SQ_SRC_M_11_INT 0x000000cb -#define SQ_SRC_M_12_INT 0x000000cc -#define SQ_SRC_M_13_INT 0x000000cd -#define SQ_SRC_M_14_INT 0x000000ce -#define SQ_SRC_M_15_INT 0x000000cf -#define SQ_SRC_M_16_INT 0x000000d0 -#define SQ_SRC_0_5 0x000000f0 -#define SQ_SRC_M_0_5 0x000000f1 -#define SQ_SRC_1 0x000000f2 -#define SQ_SRC_M_1 0x000000f3 -#define SQ_SRC_2 0x000000f4 -#define SQ_SRC_M_2 0x000000f5 -#define SQ_SRC_4 0x000000f6 -#define SQ_SRC_M_4 0x000000f7 -#define SQ_SRC_INV_2PI 0x000000f8 - -/* - * VALUE_SQ_SSRC_SPECIAL_DPP value - */ - -#define SQ_SRC_DPP 0x000000fa - -/* - * VALUE_SQ_SSRC_SPECIAL_APERTURE value - */ - -#define SQ_SRC_SHARED_BASE 0x000000eb -#define SQ_SRC_SHARED_LIMIT 0x000000ec -#define SQ_SRC_PRIVATE_BASE 0x000000ed -#define SQ_SRC_PRIVATE_LIMIT 0x000000ee - -/* - * VALUE_SQ_DPP_CTRL_L_1_15 value - */ - -#define SQ_L1 0x00000001 -#define SQ_L2 0x00000002 -#define SQ_L3 0x00000003 -#define SQ_L4 0x00000004 -#define SQ_L5 0x00000005 -#define SQ_L6 0x00000006 -#define SQ_L7 0x00000007 -#define SQ_L8 0x00000008 -#define SQ_L9 0x00000009 -#define SQ_L10 0x0000000a -#define SQ_L11 0x0000000b -#define SQ_L12 0x0000000c -#define SQ_L13 0x0000000d -#define SQ_L14 0x0000000e -#define SQ_L15 0x0000000f - -/* - * VALUE_SQ_OP_SOP2 value - */ - -#define SQ_S_ADD_U32 0x00000000 -#define SQ_S_SUB_U32 0x00000001 -#define SQ_S_ADD_I32 0x00000002 -#define SQ_S_SUB_I32 0x00000003 -#define SQ_S_ADDC_U32 0x00000004 -#define SQ_S_SUBB_U32 0x00000005 -#define SQ_S_MIN_I32 0x00000006 -#define SQ_S_MIN_U32 0x00000007 -#define SQ_S_MAX_I32 0x00000008 -#define SQ_S_MAX_U32 0x00000009 -#define SQ_S_CSELECT_B32 0x0000000a -#define SQ_S_CSELECT_B64 0x0000000b -#define SQ_S_AND_B32 0x0000000c -#define SQ_S_AND_B64 0x0000000d -#define SQ_S_OR_B32 0x0000000e -#define SQ_S_OR_B64 0x0000000f -#define SQ_S_XOR_B32 0x00000010 -#define SQ_S_XOR_B64 0x00000011 -#define SQ_S_ANDN2_B32 0x00000012 -#define SQ_S_ANDN2_B64 0x00000013 -#define SQ_S_ORN2_B32 0x00000014 -#define SQ_S_ORN2_B64 0x00000015 -#define SQ_S_NAND_B32 0x00000016 -#define SQ_S_NAND_B64 0x00000017 -#define SQ_S_NOR_B32 0x00000018 -#define SQ_S_NOR_B64 0x00000019 -#define SQ_S_XNOR_B32 0x0000001a -#define SQ_S_XNOR_B64 0x0000001b -#define SQ_S_LSHL_B32 0x0000001c -#define SQ_S_LSHL_B64 0x0000001d -#define SQ_S_LSHR_B32 0x0000001e -#define SQ_S_LSHR_B64 0x0000001f -#define SQ_S_ASHR_I32 0x00000020 -#define SQ_S_ASHR_I64 0x00000021 -#define SQ_S_BFM_B32 0x00000022 -#define SQ_S_BFM_B64 0x00000023 -#define SQ_S_MUL_I32 0x00000024 -#define SQ_S_BFE_U32 0x00000025 -#define SQ_S_BFE_I32 0x00000026 -#define SQ_S_BFE_U64 0x00000027 -#define SQ_S_BFE_I64 0x00000028 -#define SQ_S_CBRANCH_G_FORK 0x00000029 -#define SQ_S_ABSDIFF_I32 0x0000002a -#define SQ_S_RFE_RESTORE_B64 0x0000002b -#define SQ_S_MUL_HI_U32 0x0000002c -#define SQ_S_MUL_HI_I32 0x0000002d -#define SQ_S_LSHL1_ADD_U32 0x0000002e -#define SQ_S_LSHL2_ADD_U32 0x0000002f -#define SQ_S_LSHL3_ADD_U32 0x00000030 -#define SQ_S_LSHL4_ADD_U32 0x00000031 -#define SQ_S_PACK_LL_B32_B16 0x00000032 -#define SQ_S_PACK_LH_B32_B16 0x00000033 -#define SQ_S_PACK_HH_B32_B16 0x00000034 - -/* - * VALUE_SQ_SDST_EXEC value - */ - -#define SQ_EXEC_LO 0x0000007e -#define SQ_EXEC_HI 0x0000007f - -/* - * VALUE_SQ_SSRC_SPECIAL_POPS_EXITING_WAVE_ID value - */ - -#define SQ_SRC_POPS_EXITING_WAVE_ID 0x000000ef - -/* - * VALUE_SQ_COMPI value - */ - -#define SQ_F 0x00000000 -#define SQ_LT 0x00000001 -#define SQ_EQ 0x00000002 -#define SQ_LE 0x00000003 -#define SQ_GT 0x00000004 -#define SQ_NE 0x00000005 -#define SQ_GE 0x00000006 -#define SQ_T 0x00000007 - -/* - * VALUE_SQ_SGPR value - */ - -#define SQ_SGPR0 0x00000000 - -/* - * VALUE_SQ_CHAN value - */ - -#define SQ_CHAN_X 0x00000000 -#define SQ_CHAN_Y 0x00000001 -#define SQ_CHAN_Z 0x00000002 -#define SQ_CHAN_W 0x00000003 - -/* - * VALUE_SQ_SSRC_SPECIAL_SDWA value - */ - -#define SQ_SRC_SDWA 0x000000f9 - -/* - * VALUE_SQ_SSRC_SPECIAL_LIT value - */ - -#define SQ_SRC_LITERAL 0x000000ff - -/* - * VALUE_SQ_DPP_BOUND_CTRL value - */ - -#define SQ_DPP_BOUND_OFF 0x00000000 -#define SQ_DPP_BOUND_ZERO 0x00000001 - -/* - * VALUE_SQ_GS_OP value - */ - -#define SQ_GS_OP_NOP 0x00000000 -#define SQ_GS_OP_CUT 0x00000001 -#define SQ_GS_OP_EMIT 0x00000002 -#define SQ_GS_OP_EMIT_CUT 0x00000003 - -/* - * VALUE_SQ_OP_MTBUF value - */ - -#define SQ_TBUFFER_LOAD_FORMAT_X 0x00000000 -#define SQ_TBUFFER_LOAD_FORMAT_XY 0x00000001 -#define SQ_TBUFFER_LOAD_FORMAT_XYZ 0x00000002 -#define SQ_TBUFFER_LOAD_FORMAT_XYZW 0x00000003 -#define SQ_TBUFFER_STORE_FORMAT_X 0x00000004 -#define SQ_TBUFFER_STORE_FORMAT_XY 0x00000005 -#define SQ_TBUFFER_STORE_FORMAT_XYZ 0x00000006 -#define SQ_TBUFFER_STORE_FORMAT_XYZW 0x00000007 -#define SQ_TBUFFER_LOAD_FORMAT_D16_X 0x00000008 -#define SQ_TBUFFER_LOAD_FORMAT_D16_XY 0x00000009 -#define SQ_TBUFFER_LOAD_FORMAT_D16_XYZ 0x0000000a -#define SQ_TBUFFER_LOAD_FORMAT_D16_XYZW 0x0000000b -#define SQ_TBUFFER_STORE_FORMAT_D16_X 0x0000000c -#define SQ_TBUFFER_STORE_FORMAT_D16_XY 0x0000000d -#define SQ_TBUFFER_STORE_FORMAT_D16_XYZ 0x0000000e -#define SQ_TBUFFER_STORE_FORMAT_D16_XYZW 0x0000000f - -/* - * VALUE_SQ_SSRC_SPECIAL_EXECZ value - */ - -#define SQ_SRC_EXECZ 0x000000fc - -/* - * VALUE_SQ_OP_VOP3P value - */ - -#define SQ_V_PK_MAD_I16 0x00000000 -#define SQ_V_PK_MUL_LO_U16 0x00000001 -#define SQ_V_PK_ADD_I16 0x00000002 -#define SQ_V_PK_SUB_I16 0x00000003 -#define SQ_V_PK_LSHLREV_B16 0x00000004 -#define SQ_V_PK_LSHRREV_B16 0x00000005 -#define SQ_V_PK_ASHRREV_I16 0x00000006 -#define SQ_V_PK_MAX_I16 0x00000007 -#define SQ_V_PK_MIN_I16 0x00000008 -#define SQ_V_PK_MAD_U16 0x00000009 -#define SQ_V_PK_ADD_U16 0x0000000a -#define SQ_V_PK_SUB_U16 0x0000000b -#define SQ_V_PK_MAX_U16 0x0000000c -#define SQ_V_PK_MIN_U16 0x0000000d -#define SQ_V_PK_MAD_F16 0x0000000e -#define SQ_V_PK_ADD_F16 0x0000000f -#define SQ_V_PK_MUL_F16 0x00000010 -#define SQ_V_PK_MIN_F16 0x00000011 -#define SQ_V_PK_MAX_F16 0x00000012 -#define SQ_V_MAD_MIX_F32 0x00000020 -#define SQ_V_MAD_MIXLO_F16 0x00000021 -#define SQ_V_MAD_MIXHI_F16 0x00000022 - -/* - * VALUE_SQ_SYSMSG_OP value - */ - -#define SQ_SYSMSG_OP_ECC_ERR_INTERRUPT 0x00000001 -#define SQ_SYSMSG_OP_REG_RD 0x00000002 -#define SQ_SYSMSG_OP_HOST_TRAP_ACK 0x00000003 -#define SQ_SYSMSG_OP_TTRACE_PC 0x00000004 -#define SQ_SYSMSG_OP_ILLEGAL_INST_INTERRUPT 0x00000005 -#define SQ_SYSMSG_OP_MEMVIOL_INTERRUPT 0x00000006 - -/* - * VALUE_SQ_VCC value - */ - -#define SQ_VCC_ALL 0x00000000 - -/* - * VALUE_SQ_OP_SMEM value - */ - -#define SQ_S_LOAD_DWORD 0x00000000 -#define SQ_S_LOAD_DWORDX2 0x00000001 -#define SQ_S_LOAD_DWORDX4 0x00000002 -#define SQ_S_LOAD_DWORDX8 0x00000003 -#define SQ_S_LOAD_DWORDX16 0x00000004 -#define SQ_S_SCRATCH_LOAD_DWORD 0x00000005 -#define SQ_S_SCRATCH_LOAD_DWORDX2 0x00000006 -#define SQ_S_SCRATCH_LOAD_DWORDX4 0x00000007 -#define SQ_S_BUFFER_LOAD_DWORD 0x00000008 -#define SQ_S_BUFFER_LOAD_DWORDX2 0x00000009 -#define SQ_S_BUFFER_LOAD_DWORDX4 0x0000000a -#define SQ_S_BUFFER_LOAD_DWORDX8 0x0000000b -#define SQ_S_BUFFER_LOAD_DWORDX16 0x0000000c -#define SQ_S_STORE_DWORD 0x00000010 -#define SQ_S_STORE_DWORDX2 0x00000011 -#define SQ_S_STORE_DWORDX4 0x00000012 -#define SQ_S_SCRATCH_STORE_DWORD 0x00000015 -#define SQ_S_SCRATCH_STORE_DWORDX2 0x00000016 -#define SQ_S_SCRATCH_STORE_DWORDX4 0x00000017 -#define SQ_S_BUFFER_STORE_DWORD 0x00000018 -#define SQ_S_BUFFER_STORE_DWORDX2 0x00000019 -#define SQ_S_BUFFER_STORE_DWORDX4 0x0000001a -#define SQ_S_DCACHE_INV 0x00000020 -#define SQ_S_DCACHE_WB 0x00000021 -#define SQ_S_DCACHE_INV_VOL 0x00000022 -#define SQ_S_DCACHE_WB_VOL 0x00000023 -#define SQ_S_MEMTIME 0x00000024 -#define SQ_S_MEMREALTIME 0x00000025 -#define SQ_S_ATC_PROBE 0x00000026 -#define SQ_S_ATC_PROBE_BUFFER 0x00000027 -#define SQ_S_BUFFER_ATOMIC_SWAP 0x00000040 -#define SQ_S_BUFFER_ATOMIC_CMPSWAP 0x00000041 -#define SQ_S_BUFFER_ATOMIC_ADD 0x00000042 -#define SQ_S_BUFFER_ATOMIC_SUB 0x00000043 -#define SQ_S_BUFFER_ATOMIC_SMIN 0x00000044 -#define SQ_S_BUFFER_ATOMIC_UMIN 0x00000045 -#define SQ_S_BUFFER_ATOMIC_SMAX 0x00000046 -#define SQ_S_BUFFER_ATOMIC_UMAX 0x00000047 -#define SQ_S_BUFFER_ATOMIC_AND 0x00000048 -#define SQ_S_BUFFER_ATOMIC_OR 0x00000049 -#define SQ_S_BUFFER_ATOMIC_XOR 0x0000004a -#define SQ_S_BUFFER_ATOMIC_INC 0x0000004b -#define SQ_S_BUFFER_ATOMIC_DEC 0x0000004c -#define SQ_S_BUFFER_ATOMIC_SWAP_X2 0x00000060 -#define SQ_S_BUFFER_ATOMIC_CMPSWAP_X2 0x00000061 -#define SQ_S_BUFFER_ATOMIC_ADD_X2 0x00000062 -#define SQ_S_BUFFER_ATOMIC_SUB_X2 0x00000063 -#define SQ_S_BUFFER_ATOMIC_SMIN_X2 0x00000064 -#define SQ_S_BUFFER_ATOMIC_UMIN_X2 0x00000065 -#define SQ_S_BUFFER_ATOMIC_SMAX_X2 0x00000066 -#define SQ_S_BUFFER_ATOMIC_UMAX_X2 0x00000067 -#define SQ_S_BUFFER_ATOMIC_AND_X2 0x00000068 -#define SQ_S_BUFFER_ATOMIC_OR_X2 0x00000069 -#define SQ_S_BUFFER_ATOMIC_XOR_X2 0x0000006a -#define SQ_S_BUFFER_ATOMIC_INC_X2 0x0000006b -#define SQ_S_BUFFER_ATOMIC_DEC_X2 0x0000006c -#define SQ_S_ATOMIC_SWAP 0x00000080 -#define SQ_S_ATOMIC_CMPSWAP 0x00000081 -#define SQ_S_ATOMIC_ADD 0x00000082 -#define SQ_S_ATOMIC_SUB 0x00000083 -#define SQ_S_ATOMIC_SMIN 0x00000084 -#define SQ_S_ATOMIC_UMIN 0x00000085 -#define SQ_S_ATOMIC_SMAX 0x00000086 -#define SQ_S_ATOMIC_UMAX 0x00000087 -#define SQ_S_ATOMIC_AND 0x00000088 -#define SQ_S_ATOMIC_OR 0x00000089 -#define SQ_S_ATOMIC_XOR 0x0000008a -#define SQ_S_ATOMIC_INC 0x0000008b -#define SQ_S_ATOMIC_DEC 0x0000008c -#define SQ_S_ATOMIC_SWAP_X2 0x000000a0 -#define SQ_S_ATOMIC_CMPSWAP_X2 0x000000a1 -#define SQ_S_ATOMIC_ADD_X2 0x000000a2 -#define SQ_S_ATOMIC_SUB_X2 0x000000a3 -#define SQ_S_ATOMIC_SMIN_X2 0x000000a4 -#define SQ_S_ATOMIC_UMIN_X2 0x000000a5 -#define SQ_S_ATOMIC_SMAX_X2 0x000000a6 -#define SQ_S_ATOMIC_UMAX_X2 0x000000a7 -#define SQ_S_ATOMIC_AND_X2 0x000000a8 -#define SQ_S_ATOMIC_OR_X2 0x000000a9 -#define SQ_S_ATOMIC_XOR_X2 0x000000aa -#define SQ_S_ATOMIC_INC_X2 0x000000ab -#define SQ_S_ATOMIC_DEC_X2 0x000000ac - -/* - * VALUE_SQ_OP_DS value - */ - -#define SQ_DS_ADD_U32 0x00000000 -#define SQ_DS_SUB_U32 0x00000001 -#define SQ_DS_RSUB_U32 0x00000002 -#define SQ_DS_INC_U32 0x00000003 -#define SQ_DS_DEC_U32 0x00000004 -#define SQ_DS_MIN_I32 0x00000005 -#define SQ_DS_MAX_I32 0x00000006 -#define SQ_DS_MIN_U32 0x00000007 -#define SQ_DS_MAX_U32 0x00000008 -#define SQ_DS_AND_B32 0x00000009 -#define SQ_DS_OR_B32 0x0000000a -#define SQ_DS_XOR_B32 0x0000000b -#define SQ_DS_MSKOR_B32 0x0000000c -#define SQ_DS_WRITE_B32 0x0000000d -#define SQ_DS_WRITE2_B32 0x0000000e -#define SQ_DS_WRITE2ST64_B32 0x0000000f -#define SQ_DS_CMPST_B32 0x00000010 -#define SQ_DS_CMPST_F32 0x00000011 -#define SQ_DS_MIN_F32 0x00000012 -#define SQ_DS_MAX_F32 0x00000013 -#define SQ_DS_NOP 0x00000014 -#define SQ_DS_ADD_F32 0x00000015 -#define SQ_DS_WRITE_ADDTID_B32 0x0000001d -#define SQ_DS_WRITE_B8 0x0000001e -#define SQ_DS_WRITE_B16 0x0000001f -#define SQ_DS_ADD_RTN_U32 0x00000020 -#define SQ_DS_SUB_RTN_U32 0x00000021 -#define SQ_DS_RSUB_RTN_U32 0x00000022 -#define SQ_DS_INC_RTN_U32 0x00000023 -#define SQ_DS_DEC_RTN_U32 0x00000024 -#define SQ_DS_MIN_RTN_I32 0x00000025 -#define SQ_DS_MAX_RTN_I32 0x00000026 -#define SQ_DS_MIN_RTN_U32 0x00000027 -#define SQ_DS_MAX_RTN_U32 0x00000028 -#define SQ_DS_AND_RTN_B32 0x00000029 -#define SQ_DS_OR_RTN_B32 0x0000002a -#define SQ_DS_XOR_RTN_B32 0x0000002b -#define SQ_DS_MSKOR_RTN_B32 0x0000002c -#define SQ_DS_WRXCHG_RTN_B32 0x0000002d -#define SQ_DS_WRXCHG2_RTN_B32 0x0000002e -#define SQ_DS_WRXCHG2ST64_RTN_B32 0x0000002f -#define SQ_DS_CMPST_RTN_B32 0x00000030 -#define SQ_DS_CMPST_RTN_F32 0x00000031 -#define SQ_DS_MIN_RTN_F32 0x00000032 -#define SQ_DS_MAX_RTN_F32 0x00000033 -#define SQ_DS_WRAP_RTN_B32 0x00000034 -#define SQ_DS_ADD_RTN_F32 0x00000035 -#define SQ_DS_READ_B32 0x00000036 -#define SQ_DS_READ2_B32 0x00000037 -#define SQ_DS_READ2ST64_B32 0x00000038 -#define SQ_DS_READ_I8 0x00000039 -#define SQ_DS_READ_U8 0x0000003a -#define SQ_DS_READ_I16 0x0000003b -#define SQ_DS_READ_U16 0x0000003c -#define SQ_DS_SWIZZLE_B32 0x0000003d -#define SQ_DS_PERMUTE_B32 0x0000003e -#define SQ_DS_BPERMUTE_B32 0x0000003f -#define SQ_DS_ADD_U64 0x00000040 -#define SQ_DS_SUB_U64 0x00000041 -#define SQ_DS_RSUB_U64 0x00000042 -#define SQ_DS_INC_U64 0x00000043 -#define SQ_DS_DEC_U64 0x00000044 -#define SQ_DS_MIN_I64 0x00000045 -#define SQ_DS_MAX_I64 0x00000046 -#define SQ_DS_MIN_U64 0x00000047 -#define SQ_DS_MAX_U64 0x00000048 -#define SQ_DS_AND_B64 0x00000049 -#define SQ_DS_OR_B64 0x0000004a -#define SQ_DS_XOR_B64 0x0000004b -#define SQ_DS_MSKOR_B64 0x0000004c -#define SQ_DS_WRITE_B64 0x0000004d -#define SQ_DS_WRITE2_B64 0x0000004e -#define SQ_DS_WRITE2ST64_B64 0x0000004f -#define SQ_DS_CMPST_B64 0x00000050 -#define SQ_DS_CMPST_F64 0x00000051 -#define SQ_DS_MIN_F64 0x00000052 -#define SQ_DS_MAX_F64 0x00000053 -#define SQ_DS_ADD_RTN_U64 0x00000060 -#define SQ_DS_SUB_RTN_U64 0x00000061 -#define SQ_DS_RSUB_RTN_U64 0x00000062 -#define SQ_DS_INC_RTN_U64 0x00000063 -#define SQ_DS_DEC_RTN_U64 0x00000064 -#define SQ_DS_MIN_RTN_I64 0x00000065 -#define SQ_DS_MAX_RTN_I64 0x00000066 -#define SQ_DS_MIN_RTN_U64 0x00000067 -#define SQ_DS_MAX_RTN_U64 0x00000068 -#define SQ_DS_AND_RTN_B64 0x00000069 -#define SQ_DS_OR_RTN_B64 0x0000006a -#define SQ_DS_XOR_RTN_B64 0x0000006b -#define SQ_DS_MSKOR_RTN_B64 0x0000006c -#define SQ_DS_WRXCHG_RTN_B64 0x0000006d -#define SQ_DS_WRXCHG2_RTN_B64 0x0000006e -#define SQ_DS_WRXCHG2ST64_RTN_B64 0x0000006f -#define SQ_DS_CMPST_RTN_B64 0x00000070 -#define SQ_DS_CMPST_RTN_F64 0x00000071 -#define SQ_DS_MIN_RTN_F64 0x00000072 -#define SQ_DS_MAX_RTN_F64 0x00000073 -#define SQ_DS_READ_B64 0x00000076 -#define SQ_DS_READ2_B64 0x00000077 -#define SQ_DS_READ2ST64_B64 0x00000078 -#define SQ_DS_CONDXCHG32_RTN_B64 0x0000007e -#define SQ_DS_ADD_SRC2_U32 0x00000080 -#define SQ_DS_SUB_SRC2_U32 0x00000081 -#define SQ_DS_RSUB_SRC2_U32 0x00000082 -#define SQ_DS_INC_SRC2_U32 0x00000083 -#define SQ_DS_DEC_SRC2_U32 0x00000084 -#define SQ_DS_MIN_SRC2_I32 0x00000085 -#define SQ_DS_MAX_SRC2_I32 0x00000086 -#define SQ_DS_MIN_SRC2_U32 0x00000087 -#define SQ_DS_MAX_SRC2_U32 0x00000088 -#define SQ_DS_AND_SRC2_B32 0x00000089 -#define SQ_DS_OR_SRC2_B32 0x0000008a -#define SQ_DS_XOR_SRC2_B32 0x0000008b -#define SQ_DS_WRITE_SRC2_B32 0x0000008d -#define SQ_DS_MIN_SRC2_F32 0x00000092 -#define SQ_DS_MAX_SRC2_F32 0x00000093 -#define SQ_DS_ADD_SRC2_F32 0x00000095 -#define SQ_DS_GWS_SEMA_RELEASE_ALL 0x00000098 -#define SQ_DS_GWS_INIT 0x00000099 -#define SQ_DS_GWS_SEMA_V 0x0000009a -#define SQ_DS_GWS_SEMA_BR 0x0000009b -#define SQ_DS_GWS_SEMA_P 0x0000009c -#define SQ_DS_GWS_BARRIER 0x0000009d -#define SQ_DS_READ_ADDTID_B32 0x000000b6 -#define SQ_DS_CONSUME 0x000000bd -#define SQ_DS_APPEND 0x000000be -#define SQ_DS_ORDERED_COUNT 0x000000bf -#define SQ_DS_ADD_SRC2_U64 0x000000c0 -#define SQ_DS_SUB_SRC2_U64 0x000000c1 -#define SQ_DS_RSUB_SRC2_U64 0x000000c2 -#define SQ_DS_INC_SRC2_U64 0x000000c3 -#define SQ_DS_DEC_SRC2_U64 0x000000c4 -#define SQ_DS_MIN_SRC2_I64 0x000000c5 -#define SQ_DS_MAX_SRC2_I64 0x000000c6 -#define SQ_DS_MIN_SRC2_U64 0x000000c7 -#define SQ_DS_MAX_SRC2_U64 0x000000c8 -#define SQ_DS_AND_SRC2_B64 0x000000c9 -#define SQ_DS_OR_SRC2_B64 0x000000ca -#define SQ_DS_XOR_SRC2_B64 0x000000cb -#define SQ_DS_WRITE_SRC2_B64 0x000000cd -#define SQ_DS_MIN_SRC2_F64 0x000000d2 -#define SQ_DS_MAX_SRC2_F64 0x000000d3 -#define SQ_DS_WRITE_B96 0x000000de -#define SQ_DS_WRITE_B128 0x000000df -#define SQ_DS_CONDXCHG32_RTN_B128 0x000000fd -#define SQ_DS_READ_B96 0x000000fe -#define SQ_DS_READ_B128 0x000000ff - -/* - * VALUE_SQ_SDWA_SEL value - */ - -#define SQ_SDWA_BYTE_0 0x00000000 -#define SQ_SDWA_BYTE_1 0x00000001 -#define SQ_SDWA_BYTE_2 0x00000002 -#define SQ_SDWA_BYTE_3 0x00000003 -#define SQ_SDWA_WORD_0 0x00000004 -#define SQ_SDWA_WORD_1 0x00000005 -#define SQ_SDWA_DWORD 0x00000006 - -/* - * VALUE_SQ_OP_VOP2 value - */ - -#define SQ_V_CNDMASK_B32 0x00000000 -#define SQ_V_ADD_F32 0x00000001 -#define SQ_V_SUB_F32 0x00000002 -#define SQ_V_SUBREV_F32 0x00000003 -#define SQ_V_MUL_LEGACY_F32 0x00000004 -#define SQ_V_MUL_F32 0x00000005 -#define SQ_V_MUL_I32_I24 0x00000006 -#define SQ_V_MUL_HI_I32_I24 0x00000007 -#define SQ_V_MUL_U32_U24 0x00000008 -#define SQ_V_MUL_HI_U32_U24 0x00000009 -#define SQ_V_MIN_F32 0x0000000a -#define SQ_V_MAX_F32 0x0000000b -#define SQ_V_MIN_I32 0x0000000c -#define SQ_V_MAX_I32 0x0000000d -#define SQ_V_MIN_U32 0x0000000e -#define SQ_V_MAX_U32 0x0000000f -#define SQ_V_LSHRREV_B32 0x00000010 -#define SQ_V_ASHRREV_I32 0x00000011 -#define SQ_V_LSHLREV_B32 0x00000012 -#define SQ_V_AND_B32 0x00000013 -#define SQ_V_OR_B32 0x00000014 -#define SQ_V_XOR_B32 0x00000015 -#define SQ_V_MAC_F32 0x00000016 -#define SQ_V_MADMK_F32 0x00000017 -#define SQ_V_MADAK_F32 0x00000018 -#define SQ_V_ADD_CO_U32 0x00000019 -#define SQ_V_SUB_CO_U32 0x0000001a -#define SQ_V_SUBREV_CO_U32 0x0000001b -#define SQ_V_ADDC_CO_U32 0x0000001c -#define SQ_V_SUBB_CO_U32 0x0000001d -#define SQ_V_SUBBREV_CO_U32 0x0000001e -#define SQ_V_ADD_F16 0x0000001f -#define SQ_V_SUB_F16 0x00000020 -#define SQ_V_SUBREV_F16 0x00000021 -#define SQ_V_MUL_F16 0x00000022 -#define SQ_V_MAC_F16 0x00000023 -#define SQ_V_MADMK_F16 0x00000024 -#define SQ_V_MADAK_F16 0x00000025 -#define SQ_V_ADD_U16 0x00000026 -#define SQ_V_SUB_U16 0x00000027 -#define SQ_V_SUBREV_U16 0x00000028 -#define SQ_V_MUL_LO_U16 0x00000029 -#define SQ_V_LSHLREV_B16 0x0000002a -#define SQ_V_LSHRREV_B16 0x0000002b -#define SQ_V_ASHRREV_I16 0x0000002c -#define SQ_V_MAX_F16 0x0000002d -#define SQ_V_MIN_F16 0x0000002e -#define SQ_V_MAX_U16 0x0000002f -#define SQ_V_MAX_I16 0x00000030 -#define SQ_V_MIN_U16 0x00000031 -#define SQ_V_MIN_I16 0x00000032 -#define SQ_V_LDEXP_F16 0x00000033 -#define SQ_V_ADD_U32 0x00000034 -#define SQ_V_SUB_U32 0x00000035 -#define SQ_V_SUBREV_U32 0x00000036 - -/* - * VALUE_SQ_SRC_VGPR value - */ - -#define SQ_SRC_VGPR0 0x00000100 - -/* - * VALUE_SQ_OP_SOPP value - */ - -#define SQ_S_NOP 0x00000000 -#define SQ_S_ENDPGM 0x00000001 -#define SQ_S_BRANCH 0x00000002 -#define SQ_S_WAKEUP 0x00000003 -#define SQ_S_CBRANCH_SCC0 0x00000004 -#define SQ_S_CBRANCH_SCC1 0x00000005 -#define SQ_S_CBRANCH_VCCZ 0x00000006 -#define SQ_S_CBRANCH_VCCNZ 0x00000007 -#define SQ_S_CBRANCH_EXECZ 0x00000008 -#define SQ_S_CBRANCH_EXECNZ 0x00000009 -#define SQ_S_BARRIER 0x0000000a -#define SQ_S_SETKILL 0x0000000b -#define SQ_S_WAITCNT 0x0000000c -#define SQ_S_SETHALT 0x0000000d -#define SQ_S_SLEEP 0x0000000e -#define SQ_S_SETPRIO 0x0000000f -#define SQ_S_SENDMSG 0x00000010 -#define SQ_S_SENDMSGHALT 0x00000011 -#define SQ_S_TRAP 0x00000012 -#define SQ_S_ICACHE_INV 0x00000013 -#define SQ_S_INCPERFLEVEL 0x00000014 -#define SQ_S_DECPERFLEVEL 0x00000015 -#define SQ_S_TTRACEDATA 0x00000016 -#define SQ_S_CBRANCH_CDBGSYS 0x00000017 -#define SQ_S_CBRANCH_CDBGUSER 0x00000018 -#define SQ_S_CBRANCH_CDBGSYS_OR_USER 0x00000019 -#define SQ_S_CBRANCH_CDBGSYS_AND_USER 0x0000001a -#define SQ_S_ENDPGM_SAVED 0x0000001b -#define SQ_S_SET_GPR_IDX_OFF 0x0000001c -#define SQ_S_SET_GPR_IDX_MODE 0x0000001d -#define SQ_S_ENDPGM_ORDERED_PS_DONE 0x0000001e - -/* - * VALUE_SQ_XNACK_MASK_LOHI value - */ - -#define SQ_XNACK_MASK_LO 0x00000068 -#define SQ_XNACK_MASK_HI 0x00000069 - -/* - * VALUE_SQ_SDWA_UNUSED value - */ - -#define SQ_SDWA_UNUSED_PAD 0x00000000 -#define SQ_SDWA_UNUSED_SEXT 0x00000001 -#define SQ_SDWA_UNUSED_PRESERVE 0x00000002 - -/* - * VALUE_SQ_OP_FLAT value - */ - -#define SQ_FLAT_LOAD_UBYTE 0x00000010 -#define SQ_FLAT_LOAD_SBYTE 0x00000011 -#define SQ_FLAT_LOAD_USHORT 0x00000012 -#define SQ_FLAT_LOAD_SSHORT 0x00000013 -#define SQ_FLAT_LOAD_DWORD 0x00000014 -#define SQ_FLAT_LOAD_DWORDX2 0x00000015 -#define SQ_FLAT_LOAD_DWORDX3 0x00000016 -#define SQ_FLAT_LOAD_DWORDX4 0x00000017 -#define SQ_FLAT_STORE_BYTE 0x00000018 -#define SQ_FLAT_STORE_SHORT 0x0000001a -#define SQ_FLAT_STORE_DWORD 0x0000001c -#define SQ_FLAT_STORE_DWORDX2 0x0000001d -#define SQ_FLAT_STORE_DWORDX3 0x0000001e -#define SQ_FLAT_STORE_DWORDX4 0x0000001f -#define SQ_FLAT_ATOMIC_SWAP 0x00000040 -#define SQ_FLAT_ATOMIC_CMPSWAP 0x00000041 -#define SQ_FLAT_ATOMIC_ADD 0x00000042 -#define SQ_FLAT_ATOMIC_SUB 0x00000043 -#define SQ_FLAT_ATOMIC_SMIN 0x00000044 -#define SQ_FLAT_ATOMIC_UMIN 0x00000045 -#define SQ_FLAT_ATOMIC_SMAX 0x00000046 -#define SQ_FLAT_ATOMIC_UMAX 0x00000047 -#define SQ_FLAT_ATOMIC_AND 0x00000048 -#define SQ_FLAT_ATOMIC_OR 0x00000049 -#define SQ_FLAT_ATOMIC_XOR 0x0000004a -#define SQ_FLAT_ATOMIC_INC 0x0000004b -#define SQ_FLAT_ATOMIC_DEC 0x0000004c -#define SQ_FLAT_ATOMIC_SWAP_X2 0x00000060 -#define SQ_FLAT_ATOMIC_CMPSWAP_X2 0x00000061 -#define SQ_FLAT_ATOMIC_ADD_X2 0x00000062 -#define SQ_FLAT_ATOMIC_SUB_X2 0x00000063 -#define SQ_FLAT_ATOMIC_SMIN_X2 0x00000064 -#define SQ_FLAT_ATOMIC_UMIN_X2 0x00000065 -#define SQ_FLAT_ATOMIC_SMAX_X2 0x00000066 -#define SQ_FLAT_ATOMIC_UMAX_X2 0x00000067 -#define SQ_FLAT_ATOMIC_AND_X2 0x00000068 -#define SQ_FLAT_ATOMIC_OR_X2 0x00000069 -#define SQ_FLAT_ATOMIC_XOR_X2 0x0000006a -#define SQ_FLAT_ATOMIC_INC_X2 0x0000006b -#define SQ_FLAT_ATOMIC_DEC_X2 0x0000006c - -/* - * VALUE_SQ_OP_SOPC value - */ - -#define SQ_S_CMP_EQ_I32 0x00000000 -#define SQ_S_CMP_LG_I32 0x00000001 -#define SQ_S_CMP_GT_I32 0x00000002 -#define SQ_S_CMP_GE_I32 0x00000003 -#define SQ_S_CMP_LT_I32 0x00000004 -#define SQ_S_CMP_LE_I32 0x00000005 -#define SQ_S_CMP_EQ_U32 0x00000006 -#define SQ_S_CMP_LG_U32 0x00000007 -#define SQ_S_CMP_GT_U32 0x00000008 -#define SQ_S_CMP_GE_U32 0x00000009 -#define SQ_S_CMP_LT_U32 0x0000000a -#define SQ_S_CMP_LE_U32 0x0000000b -#define SQ_S_BITCMP0_B32 0x0000000c -#define SQ_S_BITCMP1_B32 0x0000000d -#define SQ_S_BITCMP0_B64 0x0000000e -#define SQ_S_BITCMP1_B64 0x0000000f -#define SQ_S_SETVSKIP 0x00000010 -#define SQ_S_SET_GPR_IDX_ON 0x00000011 -#define SQ_S_CMP_EQ_U64 0x00000012 -#define SQ_S_CMP_LG_U64 0x00000013 - -/* - * VALUE_SQ_PARAM value - */ - -#define SQ_PARAM_P10 0x00000000 -#define SQ_PARAM_P20 0x00000001 -#define SQ_PARAM_P0 0x00000002 - -/* - * VALUE_SQ_OP_FLAT_SCRATCH value - */ - -#define SQ_SCRATCH_LOAD_UBYTE 0x00000010 -#define SQ_SCRATCH_LOAD_SBYTE 0x00000011 -#define SQ_SCRATCH_LOAD_USHORT 0x00000012 -#define SQ_SCRATCH_LOAD_SSHORT 0x00000013 -#define SQ_SCRATCH_LOAD_DWORD 0x00000014 -#define SQ_SCRATCH_LOAD_DWORDX2 0x00000015 -#define SQ_SCRATCH_LOAD_DWORDX3 0x00000016 -#define SQ_SCRATCH_LOAD_DWORDX4 0x00000017 -#define SQ_SCRATCH_STORE_BYTE 0x00000018 -#define SQ_SCRATCH_STORE_SHORT 0x0000001a -#define SQ_SCRATCH_STORE_DWORD 0x0000001c -#define SQ_SCRATCH_STORE_DWORDX2 0x0000001d -#define SQ_SCRATCH_STORE_DWORDX3 0x0000001e -#define SQ_SCRATCH_STORE_DWORDX4 0x0000001f - -/* - * VALUE_SQ_SEG value - */ - -#define SQ_FLAT 0x00000000 -#define SQ_SCRATCH 0x00000001 -#define SQ_GLOBAL 0x00000002 - -/* - * VALUE_SQ_SSRC_0_63_INLINES value - */ - -#define SQ_SRC_0 0x00000080 -#define SQ_SRC_1_INT 0x00000081 -#define SQ_SRC_2_INT 0x00000082 -#define SQ_SRC_3_INT 0x00000083 -#define SQ_SRC_4_INT 0x00000084 -#define SQ_SRC_5_INT 0x00000085 -#define SQ_SRC_6_INT 0x00000086 -#define SQ_SRC_7_INT 0x00000087 -#define SQ_SRC_8_INT 0x00000088 -#define SQ_SRC_9_INT 0x00000089 -#define SQ_SRC_10_INT 0x0000008a -#define SQ_SRC_11_INT 0x0000008b -#define SQ_SRC_12_INT 0x0000008c -#define SQ_SRC_13_INT 0x0000008d -#define SQ_SRC_14_INT 0x0000008e -#define SQ_SRC_15_INT 0x0000008f -#define SQ_SRC_16_INT 0x00000090 -#define SQ_SRC_17_INT 0x00000091 -#define SQ_SRC_18_INT 0x00000092 -#define SQ_SRC_19_INT 0x00000093 -#define SQ_SRC_20_INT 0x00000094 -#define SQ_SRC_21_INT 0x00000095 -#define SQ_SRC_22_INT 0x00000096 -#define SQ_SRC_23_INT 0x00000097 -#define SQ_SRC_24_INT 0x00000098 -#define SQ_SRC_25_INT 0x00000099 -#define SQ_SRC_26_INT 0x0000009a -#define SQ_SRC_27_INT 0x0000009b -#define SQ_SRC_28_INT 0x0000009c -#define SQ_SRC_29_INT 0x0000009d -#define SQ_SRC_30_INT 0x0000009e -#define SQ_SRC_31_INT 0x0000009f -#define SQ_SRC_32_INT 0x000000a0 -#define SQ_SRC_33_INT 0x000000a1 -#define SQ_SRC_34_INT 0x000000a2 -#define SQ_SRC_35_INT 0x000000a3 -#define SQ_SRC_36_INT 0x000000a4 -#define SQ_SRC_37_INT 0x000000a5 -#define SQ_SRC_38_INT 0x000000a6 -#define SQ_SRC_39_INT 0x000000a7 -#define SQ_SRC_40_INT 0x000000a8 -#define SQ_SRC_41_INT 0x000000a9 -#define SQ_SRC_42_INT 0x000000aa -#define SQ_SRC_43_INT 0x000000ab -#define SQ_SRC_44_INT 0x000000ac -#define SQ_SRC_45_INT 0x000000ad -#define SQ_SRC_46_INT 0x000000ae -#define SQ_SRC_47_INT 0x000000af -#define SQ_SRC_48_INT 0x000000b0 -#define SQ_SRC_49_INT 0x000000b1 -#define SQ_SRC_50_INT 0x000000b2 -#define SQ_SRC_51_INT 0x000000b3 -#define SQ_SRC_52_INT 0x000000b4 -#define SQ_SRC_53_INT 0x000000b5 -#define SQ_SRC_54_INT 0x000000b6 -#define SQ_SRC_55_INT 0x000000b7 -#define SQ_SRC_56_INT 0x000000b8 -#define SQ_SRC_57_INT 0x000000b9 -#define SQ_SRC_58_INT 0x000000ba -#define SQ_SRC_59_INT 0x000000bb -#define SQ_SRC_60_INT 0x000000bc -#define SQ_SRC_61_INT 0x000000bd -#define SQ_SRC_62_INT 0x000000be -#define SQ_SRC_63_INT 0x000000bf - -/* - * VALUE_SQ_CNT value - */ - -#define SQ_CNT1 0x00000000 -#define SQ_CNT2 0x00000001 -#define SQ_CNT3 0x00000002 -#define SQ_CNT4 0x00000003 - -/******************************************************* - * DIDT Enums - *******************************************************/ - -/******************************************************* - * SX Enums - *******************************************************/ - -/* - * SX_BLEND_OPT enum - */ - -typedef enum SX_BLEND_OPT { -BLEND_OPT_PRESERVE_NONE_IGNORE_ALL = 0x00000000, -BLEND_OPT_PRESERVE_ALL_IGNORE_NONE = 0x00000001, -BLEND_OPT_PRESERVE_C1_IGNORE_C0 = 0x00000002, -BLEND_OPT_PRESERVE_C0_IGNORE_C1 = 0x00000003, -BLEND_OPT_PRESERVE_A1_IGNORE_A0 = 0x00000004, -BLEND_OPT_PRESERVE_A0_IGNORE_A1 = 0x00000005, -BLEND_OPT_PRESERVE_NONE_IGNORE_A0 = 0x00000006, -BLEND_OPT_PRESERVE_NONE_IGNORE_NONE = 0x00000007, -} SX_BLEND_OPT; - -/* - * SX_OPT_COMB_FCN enum - */ - -typedef enum SX_OPT_COMB_FCN { -OPT_COMB_NONE = 0x00000000, -OPT_COMB_ADD = 0x00000001, -OPT_COMB_SUBTRACT = 0x00000002, -OPT_COMB_MIN = 0x00000003, -OPT_COMB_MAX = 0x00000004, -OPT_COMB_REVSUBTRACT = 0x00000005, -OPT_COMB_BLEND_DISABLED = 0x00000006, -OPT_COMB_SAFE_ADD = 0x00000007, -} SX_OPT_COMB_FCN; - -/* - * SX_DOWNCONVERT_FORMAT enum - */ - -typedef enum SX_DOWNCONVERT_FORMAT { -SX_RT_EXPORT_NO_CONVERSION = 0x00000000, -SX_RT_EXPORT_32_R = 0x00000001, -SX_RT_EXPORT_32_A = 0x00000002, -SX_RT_EXPORT_10_11_11 = 0x00000003, -SX_RT_EXPORT_2_10_10_10 = 0x00000004, -SX_RT_EXPORT_8_8_8_8 = 0x00000005, -SX_RT_EXPORT_5_6_5 = 0x00000006, -SX_RT_EXPORT_1_5_5_5 = 0x00000007, -SX_RT_EXPORT_4_4_4_4 = 0x00000008, -SX_RT_EXPORT_16_16_GR = 0x00000009, -SX_RT_EXPORT_16_16_AR = 0x0000000a, -} SX_DOWNCONVERT_FORMAT; - -/* - * SX_PERFCOUNTER_VALS enum - */ - -typedef enum SX_PERFCOUNTER_VALS { -SX_PERF_SEL_PA_IDLE_CYCLES = 0x00000000, -SX_PERF_SEL_PA_REQ = 0x00000001, -SX_PERF_SEL_PA_POS = 0x00000002, -SX_PERF_SEL_CLOCK = 0x00000003, -SX_PERF_SEL_GATE_EN1 = 0x00000004, -SX_PERF_SEL_GATE_EN2 = 0x00000005, -SX_PERF_SEL_GATE_EN3 = 0x00000006, -SX_PERF_SEL_GATE_EN4 = 0x00000007, -SX_PERF_SEL_SH_POS_STARVE = 0x00000008, -SX_PERF_SEL_SH_COLOR_STARVE = 0x00000009, -SX_PERF_SEL_SH_POS_STALL = 0x0000000a, -SX_PERF_SEL_SH_COLOR_STALL = 0x0000000b, -SX_PERF_SEL_DB0_PIXELS = 0x0000000c, -SX_PERF_SEL_DB0_HALF_QUADS = 0x0000000d, -SX_PERF_SEL_DB0_PIXEL_STALL = 0x0000000e, -SX_PERF_SEL_DB0_PIXEL_IDLE = 0x0000000f, -SX_PERF_SEL_DB0_PRED_PIXELS = 0x00000010, -SX_PERF_SEL_DB1_PIXELS = 0x00000011, -SX_PERF_SEL_DB1_HALF_QUADS = 0x00000012, -SX_PERF_SEL_DB1_PIXEL_STALL = 0x00000013, -SX_PERF_SEL_DB1_PIXEL_IDLE = 0x00000014, -SX_PERF_SEL_DB1_PRED_PIXELS = 0x00000015, -SX_PERF_SEL_DB2_PIXELS = 0x00000016, -SX_PERF_SEL_DB2_HALF_QUADS = 0x00000017, -SX_PERF_SEL_DB2_PIXEL_STALL = 0x00000018, -SX_PERF_SEL_DB2_PIXEL_IDLE = 0x00000019, -SX_PERF_SEL_DB2_PRED_PIXELS = 0x0000001a, -SX_PERF_SEL_DB3_PIXELS = 0x0000001b, -SX_PERF_SEL_DB3_HALF_QUADS = 0x0000001c, -SX_PERF_SEL_DB3_PIXEL_STALL = 0x0000001d, -SX_PERF_SEL_DB3_PIXEL_IDLE = 0x0000001e, -SX_PERF_SEL_DB3_PRED_PIXELS = 0x0000001f, -SX_PERF_SEL_COL_BUSY = 0x00000020, -SX_PERF_SEL_POS_BUSY = 0x00000021, -SX_PERF_SEL_DB0_A2M_DISCARD_QUADS = 0x00000022, -SX_PERF_SEL_DB0_MRT0_BLEND_BYPASS = 0x00000023, -SX_PERF_SEL_DB0_MRT0_DONT_RD_DEST = 0x00000024, -SX_PERF_SEL_DB0_MRT0_DISCARD_SRC = 0x00000025, -SX_PERF_SEL_DB0_MRT0_SINGLE_QUADS = 0x00000026, -SX_PERF_SEL_DB0_MRT0_DOUBLE_QUADS = 0x00000027, -SX_PERF_SEL_DB0_MRT1_BLEND_BYPASS = 0x00000028, -SX_PERF_SEL_DB0_MRT1_DONT_RD_DEST = 0x00000029, -SX_PERF_SEL_DB0_MRT1_DISCARD_SRC = 0x0000002a, -SX_PERF_SEL_DB0_MRT1_SINGLE_QUADS = 0x0000002b, -SX_PERF_SEL_DB0_MRT1_DOUBLE_QUADS = 0x0000002c, -SX_PERF_SEL_DB0_MRT2_BLEND_BYPASS = 0x0000002d, -SX_PERF_SEL_DB0_MRT2_DONT_RD_DEST = 0x0000002e, -SX_PERF_SEL_DB0_MRT2_DISCARD_SRC = 0x0000002f, -SX_PERF_SEL_DB0_MRT2_SINGLE_QUADS = 0x00000030, -SX_PERF_SEL_DB0_MRT2_DOUBLE_QUADS = 0x00000031, -SX_PERF_SEL_DB0_MRT3_BLEND_BYPASS = 0x00000032, -SX_PERF_SEL_DB0_MRT3_DONT_RD_DEST = 0x00000033, -SX_PERF_SEL_DB0_MRT3_DISCARD_SRC = 0x00000034, -SX_PERF_SEL_DB0_MRT3_SINGLE_QUADS = 0x00000035, -SX_PERF_SEL_DB0_MRT3_DOUBLE_QUADS = 0x00000036, -SX_PERF_SEL_DB0_MRT4_BLEND_BYPASS = 0x00000037, -SX_PERF_SEL_DB0_MRT4_DONT_RD_DEST = 0x00000038, -SX_PERF_SEL_DB0_MRT4_DISCARD_SRC = 0x00000039, -SX_PERF_SEL_DB0_MRT4_SINGLE_QUADS = 0x0000003a, -SX_PERF_SEL_DB0_MRT4_DOUBLE_QUADS = 0x0000003b, -SX_PERF_SEL_DB0_MRT5_BLEND_BYPASS = 0x0000003c, -SX_PERF_SEL_DB0_MRT5_DONT_RD_DEST = 0x0000003d, -SX_PERF_SEL_DB0_MRT5_DISCARD_SRC = 0x0000003e, -SX_PERF_SEL_DB0_MRT5_SINGLE_QUADS = 0x0000003f, -SX_PERF_SEL_DB0_MRT5_DOUBLE_QUADS = 0x00000040, -SX_PERF_SEL_DB0_MRT6_BLEND_BYPASS = 0x00000041, -SX_PERF_SEL_DB0_MRT6_DONT_RD_DEST = 0x00000042, -SX_PERF_SEL_DB0_MRT6_DISCARD_SRC = 0x00000043, -SX_PERF_SEL_DB0_MRT6_SINGLE_QUADS = 0x00000044, -SX_PERF_SEL_DB0_MRT6_DOUBLE_QUADS = 0x00000045, -SX_PERF_SEL_DB0_MRT7_BLEND_BYPASS = 0x00000046, -SX_PERF_SEL_DB0_MRT7_DONT_RD_DEST = 0x00000047, -SX_PERF_SEL_DB0_MRT7_DISCARD_SRC = 0x00000048, -SX_PERF_SEL_DB0_MRT7_SINGLE_QUADS = 0x00000049, -SX_PERF_SEL_DB0_MRT7_DOUBLE_QUADS = 0x0000004a, -SX_PERF_SEL_DB1_A2M_DISCARD_QUADS = 0x0000004b, -SX_PERF_SEL_DB1_MRT0_BLEND_BYPASS = 0x0000004c, -SX_PERF_SEL_DB1_MRT0_DONT_RD_DEST = 0x0000004d, -SX_PERF_SEL_DB1_MRT0_DISCARD_SRC = 0x0000004e, -SX_PERF_SEL_DB1_MRT0_SINGLE_QUADS = 0x0000004f, -SX_PERF_SEL_DB1_MRT0_DOUBLE_QUADS = 0x00000050, -SX_PERF_SEL_DB1_MRT1_BLEND_BYPASS = 0x00000051, -SX_PERF_SEL_DB1_MRT1_DONT_RD_DEST = 0x00000052, -SX_PERF_SEL_DB1_MRT1_DISCARD_SRC = 0x00000053, -SX_PERF_SEL_DB1_MRT1_SINGLE_QUADS = 0x00000054, -SX_PERF_SEL_DB1_MRT1_DOUBLE_QUADS = 0x00000055, -SX_PERF_SEL_DB1_MRT2_BLEND_BYPASS = 0x00000056, -SX_PERF_SEL_DB1_MRT2_DONT_RD_DEST = 0x00000057, -SX_PERF_SEL_DB1_MRT2_DISCARD_SRC = 0x00000058, -SX_PERF_SEL_DB1_MRT2_SINGLE_QUADS = 0x00000059, -SX_PERF_SEL_DB1_MRT2_DOUBLE_QUADS = 0x0000005a, -SX_PERF_SEL_DB1_MRT3_BLEND_BYPASS = 0x0000005b, -SX_PERF_SEL_DB1_MRT3_DONT_RD_DEST = 0x0000005c, -SX_PERF_SEL_DB1_MRT3_DISCARD_SRC = 0x0000005d, -SX_PERF_SEL_DB1_MRT3_SINGLE_QUADS = 0x0000005e, -SX_PERF_SEL_DB1_MRT3_DOUBLE_QUADS = 0x0000005f, -SX_PERF_SEL_DB1_MRT4_BLEND_BYPASS = 0x00000060, -SX_PERF_SEL_DB1_MRT4_DONT_RD_DEST = 0x00000061, -SX_PERF_SEL_DB1_MRT4_DISCARD_SRC = 0x00000062, -SX_PERF_SEL_DB1_MRT4_SINGLE_QUADS = 0x00000063, -SX_PERF_SEL_DB1_MRT4_DOUBLE_QUADS = 0x00000064, -SX_PERF_SEL_DB1_MRT5_BLEND_BYPASS = 0x00000065, -SX_PERF_SEL_DB1_MRT5_DONT_RD_DEST = 0x00000066, -SX_PERF_SEL_DB1_MRT5_DISCARD_SRC = 0x00000067, -SX_PERF_SEL_DB1_MRT5_SINGLE_QUADS = 0x00000068, -SX_PERF_SEL_DB1_MRT5_DOUBLE_QUADS = 0x00000069, -SX_PERF_SEL_DB1_MRT6_BLEND_BYPASS = 0x0000006a, -SX_PERF_SEL_DB1_MRT6_DONT_RD_DEST = 0x0000006b, -SX_PERF_SEL_DB1_MRT6_DISCARD_SRC = 0x0000006c, -SX_PERF_SEL_DB1_MRT6_SINGLE_QUADS = 0x0000006d, -SX_PERF_SEL_DB1_MRT6_DOUBLE_QUADS = 0x0000006e, -SX_PERF_SEL_DB1_MRT7_BLEND_BYPASS = 0x0000006f, -SX_PERF_SEL_DB1_MRT7_DONT_RD_DEST = 0x00000070, -SX_PERF_SEL_DB1_MRT7_DISCARD_SRC = 0x00000071, -SX_PERF_SEL_DB1_MRT7_SINGLE_QUADS = 0x00000072, -SX_PERF_SEL_DB1_MRT7_DOUBLE_QUADS = 0x00000073, -SX_PERF_SEL_DB2_A2M_DISCARD_QUADS = 0x00000074, -SX_PERF_SEL_DB2_MRT0_BLEND_BYPASS = 0x00000075, -SX_PERF_SEL_DB2_MRT0_DONT_RD_DEST = 0x00000076, -SX_PERF_SEL_DB2_MRT0_DISCARD_SRC = 0x00000077, -SX_PERF_SEL_DB2_MRT0_SINGLE_QUADS = 0x00000078, -SX_PERF_SEL_DB2_MRT0_DOUBLE_QUADS = 0x00000079, -SX_PERF_SEL_DB2_MRT1_BLEND_BYPASS = 0x0000007a, -SX_PERF_SEL_DB2_MRT1_DONT_RD_DEST = 0x0000007b, -SX_PERF_SEL_DB2_MRT1_DISCARD_SRC = 0x0000007c, -SX_PERF_SEL_DB2_MRT1_SINGLE_QUADS = 0x0000007d, -SX_PERF_SEL_DB2_MRT1_DOUBLE_QUADS = 0x0000007e, -SX_PERF_SEL_DB2_MRT2_BLEND_BYPASS = 0x0000007f, -SX_PERF_SEL_DB2_MRT2_DONT_RD_DEST = 0x00000080, -SX_PERF_SEL_DB2_MRT2_DISCARD_SRC = 0x00000081, -SX_PERF_SEL_DB2_MRT2_SINGLE_QUADS = 0x00000082, -SX_PERF_SEL_DB2_MRT2_DOUBLE_QUADS = 0x00000083, -SX_PERF_SEL_DB2_MRT3_BLEND_BYPASS = 0x00000084, -SX_PERF_SEL_DB2_MRT3_DONT_RD_DEST = 0x00000085, -SX_PERF_SEL_DB2_MRT3_DISCARD_SRC = 0x00000086, -SX_PERF_SEL_DB2_MRT3_SINGLE_QUADS = 0x00000087, -SX_PERF_SEL_DB2_MRT3_DOUBLE_QUADS = 0x00000088, -SX_PERF_SEL_DB2_MRT4_BLEND_BYPASS = 0x00000089, -SX_PERF_SEL_DB2_MRT4_DONT_RD_DEST = 0x0000008a, -SX_PERF_SEL_DB2_MRT4_DISCARD_SRC = 0x0000008b, -SX_PERF_SEL_DB2_MRT4_SINGLE_QUADS = 0x0000008c, -SX_PERF_SEL_DB2_MRT4_DOUBLE_QUADS = 0x0000008d, -SX_PERF_SEL_DB2_MRT5_BLEND_BYPASS = 0x0000008e, -SX_PERF_SEL_DB2_MRT5_DONT_RD_DEST = 0x0000008f, -SX_PERF_SEL_DB2_MRT5_DISCARD_SRC = 0x00000090, -SX_PERF_SEL_DB2_MRT5_SINGLE_QUADS = 0x00000091, -SX_PERF_SEL_DB2_MRT5_DOUBLE_QUADS = 0x00000092, -SX_PERF_SEL_DB2_MRT6_BLEND_BYPASS = 0x00000093, -SX_PERF_SEL_DB2_MRT6_DONT_RD_DEST = 0x00000094, -SX_PERF_SEL_DB2_MRT6_DISCARD_SRC = 0x00000095, -SX_PERF_SEL_DB2_MRT6_SINGLE_QUADS = 0x00000096, -SX_PERF_SEL_DB2_MRT6_DOUBLE_QUADS = 0x00000097, -SX_PERF_SEL_DB2_MRT7_BLEND_BYPASS = 0x00000098, -SX_PERF_SEL_DB2_MRT7_DONT_RD_DEST = 0x00000099, -SX_PERF_SEL_DB2_MRT7_DISCARD_SRC = 0x0000009a, -SX_PERF_SEL_DB2_MRT7_SINGLE_QUADS = 0x0000009b, -SX_PERF_SEL_DB2_MRT7_DOUBLE_QUADS = 0x0000009c, -SX_PERF_SEL_DB3_A2M_DISCARD_QUADS = 0x0000009d, -SX_PERF_SEL_DB3_MRT0_BLEND_BYPASS = 0x0000009e, -SX_PERF_SEL_DB3_MRT0_DONT_RD_DEST = 0x0000009f, -SX_PERF_SEL_DB3_MRT0_DISCARD_SRC = 0x000000a0, -SX_PERF_SEL_DB3_MRT0_SINGLE_QUADS = 0x000000a1, -SX_PERF_SEL_DB3_MRT0_DOUBLE_QUADS = 0x000000a2, -SX_PERF_SEL_DB3_MRT1_BLEND_BYPASS = 0x000000a3, -SX_PERF_SEL_DB3_MRT1_DONT_RD_DEST = 0x000000a4, -SX_PERF_SEL_DB3_MRT1_DISCARD_SRC = 0x000000a5, -SX_PERF_SEL_DB3_MRT1_SINGLE_QUADS = 0x000000a6, -SX_PERF_SEL_DB3_MRT1_DOUBLE_QUADS = 0x000000a7, -SX_PERF_SEL_DB3_MRT2_BLEND_BYPASS = 0x000000a8, -SX_PERF_SEL_DB3_MRT2_DONT_RD_DEST = 0x000000a9, -SX_PERF_SEL_DB3_MRT2_DISCARD_SRC = 0x000000aa, -SX_PERF_SEL_DB3_MRT2_SINGLE_QUADS = 0x000000ab, -SX_PERF_SEL_DB3_MRT2_DOUBLE_QUADS = 0x000000ac, -SX_PERF_SEL_DB3_MRT3_BLEND_BYPASS = 0x000000ad, -SX_PERF_SEL_DB3_MRT3_DONT_RD_DEST = 0x000000ae, -SX_PERF_SEL_DB3_MRT3_DISCARD_SRC = 0x000000af, -SX_PERF_SEL_DB3_MRT3_SINGLE_QUADS = 0x000000b0, -SX_PERF_SEL_DB3_MRT3_DOUBLE_QUADS = 0x000000b1, -SX_PERF_SEL_DB3_MRT4_BLEND_BYPASS = 0x000000b2, -SX_PERF_SEL_DB3_MRT4_DONT_RD_DEST = 0x000000b3, -SX_PERF_SEL_DB3_MRT4_DISCARD_SRC = 0x000000b4, -SX_PERF_SEL_DB3_MRT4_SINGLE_QUADS = 0x000000b5, -SX_PERF_SEL_DB3_MRT4_DOUBLE_QUADS = 0x000000b6, -SX_PERF_SEL_DB3_MRT5_BLEND_BYPASS = 0x000000b7, -SX_PERF_SEL_DB3_MRT5_DONT_RD_DEST = 0x000000b8, -SX_PERF_SEL_DB3_MRT5_DISCARD_SRC = 0x000000b9, -SX_PERF_SEL_DB3_MRT5_SINGLE_QUADS = 0x000000ba, -SX_PERF_SEL_DB3_MRT5_DOUBLE_QUADS = 0x000000bb, -SX_PERF_SEL_DB3_MRT6_BLEND_BYPASS = 0x000000bc, -SX_PERF_SEL_DB3_MRT6_DONT_RD_DEST = 0x000000bd, -SX_PERF_SEL_DB3_MRT6_DISCARD_SRC = 0x000000be, -SX_PERF_SEL_DB3_MRT6_SINGLE_QUADS = 0x000000bf, -SX_PERF_SEL_DB3_MRT6_DOUBLE_QUADS = 0x000000c0, -SX_PERF_SEL_DB3_MRT7_BLEND_BYPASS = 0x000000c1, -SX_PERF_SEL_DB3_MRT7_DONT_RD_DEST = 0x000000c2, -SX_PERF_SEL_DB3_MRT7_DISCARD_SRC = 0x000000c3, -SX_PERF_SEL_DB3_MRT7_SINGLE_QUADS = 0x000000c4, -SX_PERF_SEL_DB3_MRT7_DOUBLE_QUADS = 0x000000c5, -} SX_PERFCOUNTER_VALS; - -/******************************************************* - * DB Enums - *******************************************************/ - -/* - * ForceControl enum - */ - -typedef enum ForceControl { -FORCE_OFF = 0x00000000, -FORCE_ENABLE = 0x00000001, -FORCE_DISABLE = 0x00000002, -FORCE_RESERVED = 0x00000003, -} ForceControl; - -/* - * ZSamplePosition enum - */ - -typedef enum ZSamplePosition { -Z_SAMPLE_CENTER = 0x00000000, -Z_SAMPLE_CENTROID = 0x00000001, -} ZSamplePosition; - -/* - * ZOrder enum - */ - -typedef enum ZOrder { -LATE_Z = 0x00000000, -EARLY_Z_THEN_LATE_Z = 0x00000001, -RE_Z = 0x00000002, -EARLY_Z_THEN_RE_Z = 0x00000003, -} ZOrder; - -/* - * ZpassControl enum - */ - -typedef enum ZpassControl { -ZPASS_DISABLE = 0x00000000, -ZPASS_SAMPLES = 0x00000001, -ZPASS_PIXELS = 0x00000002, -} ZpassControl; - -/* - * ZModeForce enum - */ - -typedef enum ZModeForce { -NO_FORCE = 0x00000000, -FORCE_EARLY_Z = 0x00000001, -FORCE_LATE_Z = 0x00000002, -FORCE_RE_Z = 0x00000003, -} ZModeForce; - -/* - * ZLimitSumm enum - */ - -typedef enum ZLimitSumm { -FORCE_SUMM_OFF = 0x00000000, -FORCE_SUMM_MINZ = 0x00000001, -FORCE_SUMM_MAXZ = 0x00000002, -FORCE_SUMM_BOTH = 0x00000003, -} ZLimitSumm; - -/* - * CompareFrag enum - */ - -typedef enum CompareFrag { -FRAG_NEVER = 0x00000000, -FRAG_LESS = 0x00000001, -FRAG_EQUAL = 0x00000002, -FRAG_LEQUAL = 0x00000003, -FRAG_GREATER = 0x00000004, -FRAG_NOTEQUAL = 0x00000005, -FRAG_GEQUAL = 0x00000006, -FRAG_ALWAYS = 0x00000007, -} CompareFrag; - -/* - * StencilOp enum - */ - -typedef enum StencilOp { -STENCIL_KEEP = 0x00000000, -STENCIL_ZERO = 0x00000001, -STENCIL_ONES = 0x00000002, -STENCIL_REPLACE_TEST = 0x00000003, -STENCIL_REPLACE_OP = 0x00000004, -STENCIL_ADD_CLAMP = 0x00000005, -STENCIL_SUB_CLAMP = 0x00000006, -STENCIL_INVERT = 0x00000007, -STENCIL_ADD_WRAP = 0x00000008, -STENCIL_SUB_WRAP = 0x00000009, -STENCIL_AND = 0x0000000a, -STENCIL_OR = 0x0000000b, -STENCIL_XOR = 0x0000000c, -STENCIL_NAND = 0x0000000d, -STENCIL_NOR = 0x0000000e, -STENCIL_XNOR = 0x0000000f, -} StencilOp; - -/* - * ConservativeZExport enum - */ - -typedef enum ConservativeZExport { -EXPORT_ANY_Z = 0x00000000, -EXPORT_LESS_THAN_Z = 0x00000001, -EXPORT_GREATER_THAN_Z = 0x00000002, -EXPORT_RESERVED = 0x00000003, -} ConservativeZExport; - -/* - * DbPSLControl enum - */ - -typedef enum DbPSLControl { -PSLC_AUTO = 0x00000000, -PSLC_ON_HANG_ONLY = 0x00000001, -PSLC_ASAP = 0x00000002, -PSLC_COUNTDOWN = 0x00000003, -} DbPSLControl; - -/* - * DbPRTFaultBehavior enum - */ - -typedef enum DbPRTFaultBehavior { -FAULT_ZERO = 0x00000000, -FAULT_ONE = 0x00000001, -FAULT_FAIL = 0x00000002, -FAULT_PASS = 0x00000003, -} DbPRTFaultBehavior; - -/* - * PerfCounter_Vals enum - */ - -typedef enum PerfCounter_Vals { -DB_PERF_SEL_SC_DB_tile_sends = 0x00000000, -DB_PERF_SEL_SC_DB_tile_busy = 0x00000001, -DB_PERF_SEL_SC_DB_tile_stalls = 0x00000002, -DB_PERF_SEL_SC_DB_tile_events = 0x00000003, -DB_PERF_SEL_SC_DB_tile_tiles = 0x00000004, -DB_PERF_SEL_SC_DB_tile_covered = 0x00000005, -DB_PERF_SEL_hiz_tc_read_starved = 0x00000006, -DB_PERF_SEL_hiz_tc_write_stall = 0x00000007, -DB_PERF_SEL_hiz_qtiles_culled = 0x00000008, -DB_PERF_SEL_his_qtiles_culled = 0x00000009, -DB_PERF_SEL_DB_SC_tile_sends = 0x0000000a, -DB_PERF_SEL_DB_SC_tile_busy = 0x0000000b, -DB_PERF_SEL_DB_SC_tile_stalls = 0x0000000c, -DB_PERF_SEL_DB_SC_tile_df_stalls = 0x0000000d, -DB_PERF_SEL_DB_SC_tile_tiles = 0x0000000e, -DB_PERF_SEL_DB_SC_tile_culled = 0x0000000f, -DB_PERF_SEL_DB_SC_tile_hier_kill = 0x00000010, -DB_PERF_SEL_DB_SC_tile_fast_ops = 0x00000011, -DB_PERF_SEL_DB_SC_tile_no_ops = 0x00000012, -DB_PERF_SEL_DB_SC_tile_tile_rate = 0x00000013, -DB_PERF_SEL_DB_SC_tile_ssaa_kill = 0x00000014, -DB_PERF_SEL_DB_SC_tile_fast_z_ops = 0x00000015, -DB_PERF_SEL_DB_SC_tile_fast_stencil_ops = 0x00000016, -DB_PERF_SEL_SC_DB_quad_sends = 0x00000017, -DB_PERF_SEL_SC_DB_quad_busy = 0x00000018, -DB_PERF_SEL_SC_DB_quad_squads = 0x00000019, -DB_PERF_SEL_SC_DB_quad_tiles = 0x0000001a, -DB_PERF_SEL_SC_DB_quad_pixels = 0x0000001b, -DB_PERF_SEL_SC_DB_quad_killed_tiles = 0x0000001c, -DB_PERF_SEL_DB_SC_quad_sends = 0x0000001d, -DB_PERF_SEL_DB_SC_quad_busy = 0x0000001e, -DB_PERF_SEL_DB_SC_quad_stalls = 0x0000001f, -DB_PERF_SEL_DB_SC_quad_tiles = 0x00000020, -DB_PERF_SEL_DB_SC_quad_lit_quad = 0x00000021, -DB_PERF_SEL_DB_CB_tile_sends = 0x00000022, -DB_PERF_SEL_DB_CB_tile_busy = 0x00000023, -DB_PERF_SEL_DB_CB_tile_stalls = 0x00000024, -DB_PERF_SEL_SX_DB_quad_sends = 0x00000025, -DB_PERF_SEL_SX_DB_quad_busy = 0x00000026, -DB_PERF_SEL_SX_DB_quad_stalls = 0x00000027, -DB_PERF_SEL_SX_DB_quad_quads = 0x00000028, -DB_PERF_SEL_SX_DB_quad_pixels = 0x00000029, -DB_PERF_SEL_SX_DB_quad_exports = 0x0000002a, -DB_PERF_SEL_SH_quads_outstanding_sum = 0x0000002b, -DB_PERF_SEL_DB_CB_lquad_sends = 0x0000002c, -DB_PERF_SEL_DB_CB_lquad_busy = 0x0000002d, -DB_PERF_SEL_DB_CB_lquad_stalls = 0x0000002e, -DB_PERF_SEL_DB_CB_lquad_quads = 0x0000002f, -DB_PERF_SEL_tile_rd_sends = 0x00000030, -DB_PERF_SEL_mi_tile_rd_outstanding_sum = 0x00000031, -DB_PERF_SEL_quad_rd_sends = 0x00000032, -DB_PERF_SEL_quad_rd_busy = 0x00000033, -DB_PERF_SEL_quad_rd_mi_stall = 0x00000034, -DB_PERF_SEL_quad_rd_rw_collision = 0x00000035, -DB_PERF_SEL_quad_rd_tag_stall = 0x00000036, -DB_PERF_SEL_quad_rd_32byte_reqs = 0x00000037, -DB_PERF_SEL_quad_rd_panic = 0x00000038, -DB_PERF_SEL_mi_quad_rd_outstanding_sum = 0x00000039, -DB_PERF_SEL_quad_rdret_sends = 0x0000003a, -DB_PERF_SEL_quad_rdret_busy = 0x0000003b, -DB_PERF_SEL_tile_wr_sends = 0x0000003c, -DB_PERF_SEL_tile_wr_acks = 0x0000003d, -DB_PERF_SEL_mi_tile_wr_outstanding_sum = 0x0000003e, -DB_PERF_SEL_quad_wr_sends = 0x0000003f, -DB_PERF_SEL_quad_wr_busy = 0x00000040, -DB_PERF_SEL_quad_wr_mi_stall = 0x00000041, -DB_PERF_SEL_quad_wr_coherency_stall = 0x00000042, -DB_PERF_SEL_quad_wr_acks = 0x00000043, -DB_PERF_SEL_mi_quad_wr_outstanding_sum = 0x00000044, -DB_PERF_SEL_Tile_Cache_misses = 0x00000045, -DB_PERF_SEL_Tile_Cache_hits = 0x00000046, -DB_PERF_SEL_Tile_Cache_flushes = 0x00000047, -DB_PERF_SEL_Tile_Cache_surface_stall = 0x00000048, -DB_PERF_SEL_Tile_Cache_starves = 0x00000049, -DB_PERF_SEL_Tile_Cache_mem_return_starve = 0x0000004a, -DB_PERF_SEL_tcp_dispatcher_reads = 0x0000004b, -DB_PERF_SEL_tcp_prefetcher_reads = 0x0000004c, -DB_PERF_SEL_tcp_preloader_reads = 0x0000004d, -DB_PERF_SEL_tcp_dispatcher_flushes = 0x0000004e, -DB_PERF_SEL_tcp_prefetcher_flushes = 0x0000004f, -DB_PERF_SEL_tcp_preloader_flushes = 0x00000050, -DB_PERF_SEL_Depth_Tile_Cache_sends = 0x00000051, -DB_PERF_SEL_Depth_Tile_Cache_busy = 0x00000052, -DB_PERF_SEL_Depth_Tile_Cache_starves = 0x00000053, -DB_PERF_SEL_Depth_Tile_Cache_dtile_locked = 0x00000054, -DB_PERF_SEL_Depth_Tile_Cache_alloc_stall = 0x00000055, -DB_PERF_SEL_Depth_Tile_Cache_misses = 0x00000056, -DB_PERF_SEL_Depth_Tile_Cache_hits = 0x00000057, -DB_PERF_SEL_Depth_Tile_Cache_flushes = 0x00000058, -DB_PERF_SEL_Depth_Tile_Cache_noop_tile = 0x00000059, -DB_PERF_SEL_Depth_Tile_Cache_detailed_noop = 0x0000005a, -DB_PERF_SEL_Depth_Tile_Cache_event = 0x0000005b, -DB_PERF_SEL_Depth_Tile_Cache_tile_frees = 0x0000005c, -DB_PERF_SEL_Depth_Tile_Cache_data_frees = 0x0000005d, -DB_PERF_SEL_Depth_Tile_Cache_mem_return_starve = 0x0000005e, -DB_PERF_SEL_Stencil_Cache_misses = 0x0000005f, -DB_PERF_SEL_Stencil_Cache_hits = 0x00000060, -DB_PERF_SEL_Stencil_Cache_flushes = 0x00000061, -DB_PERF_SEL_Stencil_Cache_starves = 0x00000062, -DB_PERF_SEL_Stencil_Cache_frees = 0x00000063, -DB_PERF_SEL_Z_Cache_separate_Z_misses = 0x00000064, -DB_PERF_SEL_Z_Cache_separate_Z_hits = 0x00000065, -DB_PERF_SEL_Z_Cache_separate_Z_flushes = 0x00000066, -DB_PERF_SEL_Z_Cache_separate_Z_starves = 0x00000067, -DB_PERF_SEL_Z_Cache_pmask_misses = 0x00000068, -DB_PERF_SEL_Z_Cache_pmask_hits = 0x00000069, -DB_PERF_SEL_Z_Cache_pmask_flushes = 0x0000006a, -DB_PERF_SEL_Z_Cache_pmask_starves = 0x0000006b, -DB_PERF_SEL_Z_Cache_frees = 0x0000006c, -DB_PERF_SEL_Plane_Cache_misses = 0x0000006d, -DB_PERF_SEL_Plane_Cache_hits = 0x0000006e, -DB_PERF_SEL_Plane_Cache_flushes = 0x0000006f, -DB_PERF_SEL_Plane_Cache_starves = 0x00000070, -DB_PERF_SEL_Plane_Cache_frees = 0x00000071, -DB_PERF_SEL_flush_expanded_stencil = 0x00000072, -DB_PERF_SEL_flush_compressed_stencil = 0x00000073, -DB_PERF_SEL_flush_single_stencil = 0x00000074, -DB_PERF_SEL_planes_flushed = 0x00000075, -DB_PERF_SEL_flush_1plane = 0x00000076, -DB_PERF_SEL_flush_2plane = 0x00000077, -DB_PERF_SEL_flush_3plane = 0x00000078, -DB_PERF_SEL_flush_4plane = 0x00000079, -DB_PERF_SEL_flush_5plane = 0x0000007a, -DB_PERF_SEL_flush_6plane = 0x0000007b, -DB_PERF_SEL_flush_7plane = 0x0000007c, -DB_PERF_SEL_flush_8plane = 0x0000007d, -DB_PERF_SEL_flush_9plane = 0x0000007e, -DB_PERF_SEL_flush_10plane = 0x0000007f, -DB_PERF_SEL_flush_11plane = 0x00000080, -DB_PERF_SEL_flush_12plane = 0x00000081, -DB_PERF_SEL_flush_13plane = 0x00000082, -DB_PERF_SEL_flush_14plane = 0x00000083, -DB_PERF_SEL_flush_15plane = 0x00000084, -DB_PERF_SEL_flush_16plane = 0x00000085, -DB_PERF_SEL_flush_expanded_z = 0x00000086, -DB_PERF_SEL_earlyZ_waiting_for_postZ_done = 0x00000087, -DB_PERF_SEL_reZ_waiting_for_postZ_done = 0x00000088, -DB_PERF_SEL_dk_tile_sends = 0x00000089, -DB_PERF_SEL_dk_tile_busy = 0x0000008a, -DB_PERF_SEL_dk_tile_quad_starves = 0x0000008b, -DB_PERF_SEL_dk_tile_stalls = 0x0000008c, -DB_PERF_SEL_dk_squad_sends = 0x0000008d, -DB_PERF_SEL_dk_squad_busy = 0x0000008e, -DB_PERF_SEL_dk_squad_stalls = 0x0000008f, -DB_PERF_SEL_Op_Pipe_Busy = 0x00000090, -DB_PERF_SEL_Op_Pipe_MC_Read_stall = 0x00000091, -DB_PERF_SEL_qc_busy = 0x00000092, -DB_PERF_SEL_qc_xfc = 0x00000093, -DB_PERF_SEL_qc_conflicts = 0x00000094, -DB_PERF_SEL_qc_full_stall = 0x00000095, -DB_PERF_SEL_qc_in_preZ_tile_stalls_postZ = 0x00000096, -DB_PERF_SEL_qc_in_postZ_tile_stalls_preZ = 0x00000097, -DB_PERF_SEL_tsc_insert_summarize_stall = 0x00000098, -DB_PERF_SEL_tl_busy = 0x00000099, -DB_PERF_SEL_tl_dtc_read_starved = 0x0000009a, -DB_PERF_SEL_tl_z_fetch_stall = 0x0000009b, -DB_PERF_SEL_tl_stencil_stall = 0x0000009c, -DB_PERF_SEL_tl_z_decompress_stall = 0x0000009d, -DB_PERF_SEL_tl_stencil_locked_stall = 0x0000009e, -DB_PERF_SEL_tl_events = 0x0000009f, -DB_PERF_SEL_tl_summarize_squads = 0x000000a0, -DB_PERF_SEL_tl_flush_expand_squads = 0x000000a1, -DB_PERF_SEL_tl_expand_squads = 0x000000a2, -DB_PERF_SEL_tl_preZ_squads = 0x000000a3, -DB_PERF_SEL_tl_postZ_squads = 0x000000a4, -DB_PERF_SEL_tl_preZ_noop_squads = 0x000000a5, -DB_PERF_SEL_tl_postZ_noop_squads = 0x000000a6, -DB_PERF_SEL_tl_tile_ops = 0x000000a7, -DB_PERF_SEL_tl_in_xfc = 0x000000a8, -DB_PERF_SEL_tl_in_single_stencil_expand_stall = 0x000000a9, -DB_PERF_SEL_tl_in_fast_z_stall = 0x000000aa, -DB_PERF_SEL_tl_out_xfc = 0x000000ab, -DB_PERF_SEL_tl_out_squads = 0x000000ac, -DB_PERF_SEL_zf_plane_multicycle = 0x000000ad, -DB_PERF_SEL_PostZ_Samples_passing_Z = 0x000000ae, -DB_PERF_SEL_PostZ_Samples_failing_Z = 0x000000af, -DB_PERF_SEL_PostZ_Samples_failing_S = 0x000000b0, -DB_PERF_SEL_PreZ_Samples_passing_Z = 0x000000b1, -DB_PERF_SEL_PreZ_Samples_failing_Z = 0x000000b2, -DB_PERF_SEL_PreZ_Samples_failing_S = 0x000000b3, -DB_PERF_SEL_ts_tc_update_stall = 0x000000b4, -DB_PERF_SEL_sc_kick_start = 0x000000b5, -DB_PERF_SEL_sc_kick_end = 0x000000b6, -DB_PERF_SEL_clock_reg_active = 0x000000b7, -DB_PERF_SEL_clock_main_active = 0x000000b8, -DB_PERF_SEL_clock_mem_export_active = 0x000000b9, -DB_PERF_SEL_esr_ps_out_busy = 0x000000ba, -DB_PERF_SEL_esr_ps_lqf_busy = 0x000000bb, -DB_PERF_SEL_esr_ps_lqf_stall = 0x000000bc, -DB_PERF_SEL_etr_out_send = 0x000000bd, -DB_PERF_SEL_etr_out_busy = 0x000000be, -DB_PERF_SEL_etr_out_ltile_probe_fifo_full_stall = 0x000000bf, -DB_PERF_SEL_etr_out_cb_tile_stall = 0x000000c0, -DB_PERF_SEL_etr_out_esr_stall = 0x000000c1, -DB_PERF_SEL_esr_ps_sqq_busy = 0x000000c2, -DB_PERF_SEL_esr_ps_sqq_stall = 0x000000c3, -DB_PERF_SEL_esr_eot_fwd_busy = 0x000000c4, -DB_PERF_SEL_esr_eot_fwd_holding_squad = 0x000000c5, -DB_PERF_SEL_esr_eot_fwd_forward = 0x000000c6, -DB_PERF_SEL_esr_sqq_zi_busy = 0x000000c7, -DB_PERF_SEL_esr_sqq_zi_stall = 0x000000c8, -DB_PERF_SEL_postzl_sq_pt_busy = 0x000000c9, -DB_PERF_SEL_postzl_sq_pt_stall = 0x000000ca, -DB_PERF_SEL_postzl_se_busy = 0x000000cb, -DB_PERF_SEL_postzl_se_stall = 0x000000cc, -DB_PERF_SEL_postzl_partial_launch = 0x000000cd, -DB_PERF_SEL_postzl_full_launch = 0x000000ce, -DB_PERF_SEL_postzl_partial_waiting = 0x000000cf, -DB_PERF_SEL_postzl_tile_mem_stall = 0x000000d0, -DB_PERF_SEL_postzl_tile_init_stall = 0x000000d1, -DB_PEFF_SEL_prezl_tile_mem_stall = 0x000000d2, -DB_PERF_SEL_prezl_tile_init_stall = 0x000000d3, -DB_PERF_SEL_dtt_sm_clash_stall = 0x000000d4, -DB_PERF_SEL_dtt_sm_slot_stall = 0x000000d5, -DB_PERF_SEL_dtt_sm_miss_stall = 0x000000d6, -DB_PERF_SEL_mi_rdreq_busy = 0x000000d7, -DB_PERF_SEL_mi_rdreq_stall = 0x000000d8, -DB_PERF_SEL_mi_wrreq_busy = 0x000000d9, -DB_PERF_SEL_mi_wrreq_stall = 0x000000da, -DB_PERF_SEL_recomp_tile_to_1zplane_no_fastop = 0x000000db, -DB_PERF_SEL_dkg_tile_rate_tile = 0x000000dc, -DB_PERF_SEL_prezl_src_in_sends = 0x000000dd, -DB_PERF_SEL_prezl_src_in_stall = 0x000000de, -DB_PERF_SEL_prezl_src_in_squads = 0x000000df, -DB_PERF_SEL_prezl_src_in_squads_unrolled = 0x000000e0, -DB_PERF_SEL_prezl_src_in_tile_rate = 0x000000e1, -DB_PERF_SEL_prezl_src_in_tile_rate_unrolled = 0x000000e2, -DB_PERF_SEL_prezl_src_out_stall = 0x000000e3, -DB_PERF_SEL_postzl_src_in_sends = 0x000000e4, -DB_PERF_SEL_postzl_src_in_stall = 0x000000e5, -DB_PERF_SEL_postzl_src_in_squads = 0x000000e6, -DB_PERF_SEL_postzl_src_in_squads_unrolled = 0x000000e7, -DB_PERF_SEL_postzl_src_in_tile_rate = 0x000000e8, -DB_PERF_SEL_postzl_src_in_tile_rate_unrolled = 0x000000e9, -DB_PERF_SEL_postzl_src_out_stall = 0x000000ea, -DB_PERF_SEL_esr_ps_src_in_sends = 0x000000eb, -DB_PERF_SEL_esr_ps_src_in_stall = 0x000000ec, -DB_PERF_SEL_esr_ps_src_in_squads = 0x000000ed, -DB_PERF_SEL_esr_ps_src_in_squads_unrolled = 0x000000ee, -DB_PERF_SEL_esr_ps_src_in_tile_rate = 0x000000ef, -DB_PERF_SEL_esr_ps_src_in_tile_rate_unrolled = 0x000000f0, -DB_PERF_SEL_esr_ps_src_in_tile_rate_unrolled_to_pixel_rate = 0x000000f1, -DB_PERF_SEL_esr_ps_src_out_stall = 0x000000f2, -DB_PERF_SEL_depth_bounds_qtiles_culled = 0x000000f3, -DB_PERF_SEL_PreZ_Samples_failing_DB = 0x000000f4, -DB_PERF_SEL_PostZ_Samples_failing_DB = 0x000000f5, -DB_PERF_SEL_flush_compressed = 0x000000f6, -DB_PERF_SEL_flush_plane_le4 = 0x000000f7, -DB_PERF_SEL_tiles_z_fully_summarized = 0x000000f8, -DB_PERF_SEL_tiles_stencil_fully_summarized = 0x000000f9, -DB_PERF_SEL_tiles_z_clear_on_expclear = 0x000000fa, -DB_PERF_SEL_tiles_s_clear_on_expclear = 0x000000fb, -DB_PERF_SEL_tiles_decomp_on_expclear = 0x000000fc, -DB_PERF_SEL_tiles_compressed_to_decompressed = 0x000000fd, -DB_PERF_SEL_Op_Pipe_Prez_Busy = 0x000000fe, -DB_PERF_SEL_Op_Pipe_Postz_Busy = 0x000000ff, -DB_PERF_SEL_di_dt_stall = 0x00000100, -DB_PERF_SEL_DB_SC_quad_double_quad = 0x00000101, -DB_PERF_SEL_SX_DB_quad_export_quads = 0x00000102, -DB_PERF_SEL_SX_DB_quad_double_format = 0x00000103, -DB_PERF_SEL_SX_DB_quad_fast_format = 0x00000104, -DB_PERF_SEL_SX_DB_quad_slow_format = 0x00000105, -DB_PERF_SEL_DB_CB_lquad_export_quads = 0x00000106, -DB_PERF_SEL_DB_CB_lquad_double_format = 0x00000107, -DB_PERF_SEL_DB_CB_lquad_fast_format = 0x00000108, -DB_PERF_SEL_DB_CB_lquad_slow_format = 0x00000109, -DB_PERF_SEL_CB_DB_rdreq_sends = 0x0000010a, -DB_PERF_SEL_CB_DB_rdreq_prt_sends = 0x0000010b, -DB_PERF_SEL_CB_DB_wrreq_sends = 0x0000010c, -DB_PERF_SEL_CB_DB_wrreq_prt_sends = 0x0000010d, -DB_PERF_SEL_DB_CB_rdret_ack = 0x0000010e, -DB_PERF_SEL_DB_CB_rdret_nack = 0x0000010f, -DB_PERF_SEL_DB_CB_wrret_ack = 0x00000110, -DB_PERF_SEL_DB_CB_wrret_nack = 0x00000111, -DB_PERF_SEL_DFSM_squads_in = 0x00000112, -DB_PERF_SEL_DFSM_full_cleared_squads_out = 0x00000113, -DB_PERF_SEL_DFSM_quads_in = 0x00000114, -DB_PERF_SEL_DFSM_fully_cleared_quads_out = 0x00000115, -DB_PERF_SEL_DFSM_lit_pixels_in = 0x00000116, -DB_PERF_SEL_DFSM_fully_cleared_pixels_out = 0x00000117, -DB_PERF_SEL_DFSM_lit_samples_in = 0x00000118, -DB_PERF_SEL_DFSM_lit_samples_out = 0x00000119, -DB_PERF_SEL_DFSM_cycles_above_watermark = 0x0000011a, -DB_PERF_SEL_DFSM_cant_accept_squads_but_not_stalled_by_downstream = 0x0000011b, -DB_PERF_SEL_DFSM_stalled_by_downstream = 0x0000011c, -DB_PERF_SEL_DFSM_evicted_squads_above_watermark = 0x0000011d, -DB_PERF_SEL_DFSM_collisions_due_to_POPS_overflow = 0x0000011e, -DB_PERF_SEL_DFSM_collisions_detected_within_POPS_FIFO = 0x0000011f, -DB_PERF_SEL_DFSM_evicted_squads_due_to_prim_watermark = 0x00000120, -} PerfCounter_Vals; - -/* - * RingCounterControl enum - */ - -typedef enum RingCounterControl { -COUNTER_RING_SPLIT = 0x00000000, -COUNTER_RING_0 = 0x00000001, -COUNTER_RING_1 = 0x00000002, -} RingCounterControl; - -/* - * DbMemArbWatermarks enum - */ - -typedef enum DbMemArbWatermarks { -TRANSFERRED_64_BYTES = 0x00000000, -TRANSFERRED_128_BYTES = 0x00000001, -TRANSFERRED_256_BYTES = 0x00000002, -TRANSFERRED_512_BYTES = 0x00000003, -TRANSFERRED_1024_BYTES = 0x00000004, -TRANSFERRED_2048_BYTES = 0x00000005, -TRANSFERRED_4096_BYTES = 0x00000006, -TRANSFERRED_8192_BYTES = 0x00000007, -} DbMemArbWatermarks; - -/* - * DFSMFlushEvents enum - */ - -typedef enum DFSMFlushEvents { -DB_FLUSH_AND_INV_DB_DATA_TS = 0x00000000, -DB_FLUSH_AND_INV_DB_META = 0x00000001, -DB_CACHE_FLUSH = 0x00000002, -DB_CACHE_FLUSH_TS = 0x00000003, -DB_CACHE_FLUSH_AND_INV_EVENT = 0x00000004, -DB_CACHE_FLUSH_AND_INV_TS_EVENT = 0x00000005, -} DFSMFlushEvents; - -/* - * PixelPipeCounterId enum - */ - -typedef enum PixelPipeCounterId { -PIXEL_PIPE_OCCLUSION_COUNT_0 = 0x00000000, -PIXEL_PIPE_OCCLUSION_COUNT_1 = 0x00000001, -PIXEL_PIPE_OCCLUSION_COUNT_2 = 0x00000002, -PIXEL_PIPE_OCCLUSION_COUNT_3 = 0x00000003, -PIXEL_PIPE_SCREEN_MIN_EXTENTS_0 = 0x00000004, -PIXEL_PIPE_SCREEN_MAX_EXTENTS_0 = 0x00000005, -PIXEL_PIPE_SCREEN_MIN_EXTENTS_1 = 0x00000006, -PIXEL_PIPE_SCREEN_MAX_EXTENTS_1 = 0x00000007, -} PixelPipeCounterId; - -/* - * PixelPipeStride enum - */ - -typedef enum PixelPipeStride { -PIXEL_PIPE_STRIDE_32_BITS = 0x00000000, -PIXEL_PIPE_STRIDE_64_BITS = 0x00000001, -PIXEL_PIPE_STRIDE_128_BITS = 0x00000002, -PIXEL_PIPE_STRIDE_256_BITS = 0x00000003, -} PixelPipeStride; - -/******************************************************* - * TA Enums - *******************************************************/ - -/* - * TEX_BORDER_COLOR_TYPE enum - */ - -typedef enum TEX_BORDER_COLOR_TYPE { -TEX_BorderColor_TransparentBlack = 0x00000000, -TEX_BorderColor_OpaqueBlack = 0x00000001, -TEX_BorderColor_OpaqueWhite = 0x00000002, -TEX_BorderColor_Register = 0x00000003, -} TEX_BORDER_COLOR_TYPE; - -/* - * TEX_CHROMA_KEY enum - */ - -typedef enum TEX_CHROMA_KEY { -TEX_ChromaKey_Disabled = 0x00000000, -TEX_ChromaKey_Kill = 0x00000001, -TEX_ChromaKey_Blend = 0x00000002, -TEX_ChromaKey_RESERVED_3 = 0x00000003, -} TEX_CHROMA_KEY; - -/* - * TEX_CLAMP enum - */ - -typedef enum TEX_CLAMP { -TEX_Clamp_Repeat = 0x00000000, -TEX_Clamp_Mirror = 0x00000001, -TEX_Clamp_ClampToLast = 0x00000002, -TEX_Clamp_MirrorOnceToLast = 0x00000003, -TEX_Clamp_ClampHalfToBorder = 0x00000004, -TEX_Clamp_MirrorOnceHalfToBorder = 0x00000005, -TEX_Clamp_ClampToBorder = 0x00000006, -TEX_Clamp_MirrorOnceToBorder = 0x00000007, -} TEX_CLAMP; - -/* - * TEX_COORD_TYPE enum - */ - -typedef enum TEX_COORD_TYPE { -TEX_CoordType_Unnormalized = 0x00000000, -TEX_CoordType_Normalized = 0x00000001, -} TEX_COORD_TYPE; - -/* - * TEX_DEPTH_COMPARE_FUNCTION enum - */ - -typedef enum TEX_DEPTH_COMPARE_FUNCTION { -TEX_DepthCompareFunction_Never = 0x00000000, -TEX_DepthCompareFunction_Less = 0x00000001, -TEX_DepthCompareFunction_Equal = 0x00000002, -TEX_DepthCompareFunction_LessEqual = 0x00000003, -TEX_DepthCompareFunction_Greater = 0x00000004, -TEX_DepthCompareFunction_NotEqual = 0x00000005, -TEX_DepthCompareFunction_GreaterEqual = 0x00000006, -TEX_DepthCompareFunction_Always = 0x00000007, -} TEX_DEPTH_COMPARE_FUNCTION; - -/* - * TEX_DIM enum - */ - -typedef enum TEX_DIM { -TEX_Dim_1D = 0x00000000, -TEX_Dim_2D = 0x00000001, -TEX_Dim_3D = 0x00000002, -TEX_Dim_CubeMap = 0x00000003, -TEX_Dim_1DArray = 0x00000004, -TEX_Dim_2DArray = 0x00000005, -TEX_Dim_2D_MSAA = 0x00000006, -TEX_Dim_2DArray_MSAA = 0x00000007, -} TEX_DIM; - -/* - * TEX_FORMAT_COMP enum - */ - -typedef enum TEX_FORMAT_COMP { -TEX_FormatComp_Unsigned = 0x00000000, -TEX_FormatComp_Signed = 0x00000001, -TEX_FormatComp_UnsignedBiased = 0x00000002, -TEX_FormatComp_RESERVED_3 = 0x00000003, -} TEX_FORMAT_COMP; - -/* - * TEX_MAX_ANISO_RATIO enum - */ - -typedef enum TEX_MAX_ANISO_RATIO { -TEX_MaxAnisoRatio_1to1 = 0x00000000, -TEX_MaxAnisoRatio_2to1 = 0x00000001, -TEX_MaxAnisoRatio_4to1 = 0x00000002, -TEX_MaxAnisoRatio_8to1 = 0x00000003, -TEX_MaxAnisoRatio_16to1 = 0x00000004, -TEX_MaxAnisoRatio_RESERVED_5 = 0x00000005, -TEX_MaxAnisoRatio_RESERVED_6 = 0x00000006, -TEX_MaxAnisoRatio_RESERVED_7 = 0x00000007, -} TEX_MAX_ANISO_RATIO; - -/* - * TEX_MIP_FILTER enum - */ - -typedef enum TEX_MIP_FILTER { -TEX_MipFilter_None = 0x00000000, -TEX_MipFilter_Point = 0x00000001, -TEX_MipFilter_Linear = 0x00000002, -TEX_MipFilter_Point_Aniso_Adj = 0x00000003, -} TEX_MIP_FILTER; - -/* - * TEX_REQUEST_SIZE enum - */ - -typedef enum TEX_REQUEST_SIZE { -TEX_RequestSize_32B = 0x00000000, -TEX_RequestSize_64B = 0x00000001, -TEX_RequestSize_128B = 0x00000002, -TEX_RequestSize_2X64B = 0x00000003, -} TEX_REQUEST_SIZE; - -/* - * TEX_SAMPLER_TYPE enum - */ - -typedef enum TEX_SAMPLER_TYPE { -TEX_SamplerType_Invalid = 0x00000000, -TEX_SamplerType_Valid = 0x00000001, -} TEX_SAMPLER_TYPE; - -/* - * TEX_XY_FILTER enum - */ - -typedef enum TEX_XY_FILTER { -TEX_XYFilter_Point = 0x00000000, -TEX_XYFilter_Linear = 0x00000001, -TEX_XYFilter_AnisoPoint = 0x00000002, -TEX_XYFilter_AnisoLinear = 0x00000003, -} TEX_XY_FILTER; - -/* - * TEX_Z_FILTER enum - */ - -typedef enum TEX_Z_FILTER { -TEX_ZFilter_None = 0x00000000, -TEX_ZFilter_Point = 0x00000001, -TEX_ZFilter_Linear = 0x00000002, -TEX_ZFilter_RESERVED_3 = 0x00000003, -} TEX_Z_FILTER; - -/* - * VTX_CLAMP enum - */ - -typedef enum VTX_CLAMP { -VTX_Clamp_ClampToZero = 0x00000000, -VTX_Clamp_ClampToNAN = 0x00000001, -} VTX_CLAMP; - -/* - * VTX_FETCH_TYPE enum - */ - -typedef enum VTX_FETCH_TYPE { -VTX_FetchType_VertexData = 0x00000000, -VTX_FetchType_InstanceData = 0x00000001, -VTX_FetchType_NoIndexOffset = 0x00000002, -VTX_FetchType_RESERVED_3 = 0x00000003, -} VTX_FETCH_TYPE; - -/* - * VTX_FORMAT_COMP_ALL enum - */ - -typedef enum VTX_FORMAT_COMP_ALL { -VTX_FormatCompAll_Unsigned = 0x00000000, -VTX_FormatCompAll_Signed = 0x00000001, -} VTX_FORMAT_COMP_ALL; - -/* - * VTX_MEM_REQUEST_SIZE enum - */ - -typedef enum VTX_MEM_REQUEST_SIZE { -VTX_MemRequestSize_32B = 0x00000000, -VTX_MemRequestSize_64B = 0x00000001, -} VTX_MEM_REQUEST_SIZE; - -/* - * TVX_DATA_FORMAT enum - */ - -typedef enum TVX_DATA_FORMAT { -TVX_FMT_INVALID = 0x00000000, -TVX_FMT_8 = 0x00000001, -TVX_FMT_4_4 = 0x00000002, -TVX_FMT_3_3_2 = 0x00000003, -TVX_FMT_RESERVED_4 = 0x00000004, -TVX_FMT_16 = 0x00000005, -TVX_FMT_16_FLOAT = 0x00000006, -TVX_FMT_8_8 = 0x00000007, -TVX_FMT_5_6_5 = 0x00000008, -TVX_FMT_6_5_5 = 0x00000009, -TVX_FMT_1_5_5_5 = 0x0000000a, -TVX_FMT_4_4_4_4 = 0x0000000b, -TVX_FMT_5_5_5_1 = 0x0000000c, -TVX_FMT_32 = 0x0000000d, -TVX_FMT_32_FLOAT = 0x0000000e, -TVX_FMT_16_16 = 0x0000000f, -TVX_FMT_16_16_FLOAT = 0x00000010, -TVX_FMT_8_24 = 0x00000011, -TVX_FMT_8_24_FLOAT = 0x00000012, -TVX_FMT_24_8 = 0x00000013, -TVX_FMT_24_8_FLOAT = 0x00000014, -TVX_FMT_10_11_11 = 0x00000015, -TVX_FMT_10_11_11_FLOAT = 0x00000016, -TVX_FMT_11_11_10 = 0x00000017, -TVX_FMT_11_11_10_FLOAT = 0x00000018, -TVX_FMT_2_10_10_10 = 0x00000019, -TVX_FMT_8_8_8_8 = 0x0000001a, -TVX_FMT_10_10_10_2 = 0x0000001b, -TVX_FMT_X24_8_32_FLOAT = 0x0000001c, -TVX_FMT_32_32 = 0x0000001d, -TVX_FMT_32_32_FLOAT = 0x0000001e, -TVX_FMT_16_16_16_16 = 0x0000001f, -TVX_FMT_16_16_16_16_FLOAT = 0x00000020, -TVX_FMT_RESERVED_33 = 0x00000021, -TVX_FMT_32_32_32_32 = 0x00000022, -TVX_FMT_32_32_32_32_FLOAT = 0x00000023, -TVX_FMT_RESERVED_36 = 0x00000024, -TVX_FMT_1 = 0x00000025, -TVX_FMT_1_REVERSED = 0x00000026, -TVX_FMT_GB_GR = 0x00000027, -TVX_FMT_BG_RG = 0x00000028, -TVX_FMT_32_AS_8 = 0x00000029, -TVX_FMT_32_AS_8_8 = 0x0000002a, -TVX_FMT_5_9_9_9_SHAREDEXP = 0x0000002b, -TVX_FMT_8_8_8 = 0x0000002c, -TVX_FMT_16_16_16 = 0x0000002d, -TVX_FMT_16_16_16_FLOAT = 0x0000002e, -TVX_FMT_32_32_32 = 0x0000002f, -TVX_FMT_32_32_32_FLOAT = 0x00000030, -TVX_FMT_BC1 = 0x00000031, -TVX_FMT_BC2 = 0x00000032, -TVX_FMT_BC3 = 0x00000033, -TVX_FMT_BC4 = 0x00000034, -TVX_FMT_BC5 = 0x00000035, -TVX_FMT_APC0 = 0x00000036, -TVX_FMT_APC1 = 0x00000037, -TVX_FMT_APC2 = 0x00000038, -TVX_FMT_APC3 = 0x00000039, -TVX_FMT_APC4 = 0x0000003a, -TVX_FMT_APC5 = 0x0000003b, -TVX_FMT_APC6 = 0x0000003c, -TVX_FMT_APC7 = 0x0000003d, -TVX_FMT_CTX1 = 0x0000003e, -TVX_FMT_RESERVED_63 = 0x0000003f, -} TVX_DATA_FORMAT; - -/* - * TVX_DST_SEL enum - */ - -typedef enum TVX_DST_SEL { -TVX_DstSel_X = 0x00000000, -TVX_DstSel_Y = 0x00000001, -TVX_DstSel_Z = 0x00000002, -TVX_DstSel_W = 0x00000003, -TVX_DstSel_0f = 0x00000004, -TVX_DstSel_1f = 0x00000005, -TVX_DstSel_RESERVED_6 = 0x00000006, -TVX_DstSel_Mask = 0x00000007, -} TVX_DST_SEL; - -/* - * TVX_ENDIAN_SWAP enum - */ - -typedef enum TVX_ENDIAN_SWAP { -TVX_EndianSwap_None = 0x00000000, -TVX_EndianSwap_8in16 = 0x00000001, -TVX_EndianSwap_8in32 = 0x00000002, -TVX_EndianSwap_8in64 = 0x00000003, -} TVX_ENDIAN_SWAP; - -/* - * TVX_INST enum - */ - -typedef enum TVX_INST { -TVX_Inst_NormalVertexFetch = 0x00000000, -TVX_Inst_SemanticVertexFetch = 0x00000001, -TVX_Inst_RESERVED_2 = 0x00000002, -TVX_Inst_LD = 0x00000003, -TVX_Inst_GetTextureResInfo = 0x00000004, -TVX_Inst_GetNumberOfSamples = 0x00000005, -TVX_Inst_GetLOD = 0x00000006, -TVX_Inst_GetGradientsH = 0x00000007, -TVX_Inst_GetGradientsV = 0x00000008, -TVX_Inst_SetTextureOffsets = 0x00000009, -TVX_Inst_KeepGradients = 0x0000000a, -TVX_Inst_SetGradientsH = 0x0000000b, -TVX_Inst_SetGradientsV = 0x0000000c, -TVX_Inst_Pass = 0x0000000d, -TVX_Inst_GetBufferResInfo = 0x0000000e, -TVX_Inst_RESERVED_15 = 0x0000000f, -TVX_Inst_Sample = 0x00000010, -TVX_Inst_Sample_L = 0x00000011, -TVX_Inst_Sample_LB = 0x00000012, -TVX_Inst_Sample_LZ = 0x00000013, -TVX_Inst_Sample_G = 0x00000014, -TVX_Inst_Gather4 = 0x00000015, -TVX_Inst_Sample_G_LB = 0x00000016, -TVX_Inst_Gather4_O = 0x00000017, -TVX_Inst_Sample_C = 0x00000018, -TVX_Inst_Sample_C_L = 0x00000019, -TVX_Inst_Sample_C_LB = 0x0000001a, -TVX_Inst_Sample_C_LZ = 0x0000001b, -TVX_Inst_Sample_C_G = 0x0000001c, -TVX_Inst_Gather4_C = 0x0000001d, -TVX_Inst_Sample_C_G_LB = 0x0000001e, -TVX_Inst_Gather4_C_O = 0x0000001f, -} TVX_INST; - -/* - * TVX_NUM_FORMAT_ALL enum - */ - -typedef enum TVX_NUM_FORMAT_ALL { -TVX_NumFormatAll_Norm = 0x00000000, -TVX_NumFormatAll_Int = 0x00000001, -TVX_NumFormatAll_Scaled = 0x00000002, -TVX_NumFormatAll_RESERVED_3 = 0x00000003, -} TVX_NUM_FORMAT_ALL; - -/* - * TVX_SRC_SEL enum - */ - -typedef enum TVX_SRC_SEL { -TVX_SrcSel_X = 0x00000000, -TVX_SrcSel_Y = 0x00000001, -TVX_SrcSel_Z = 0x00000002, -TVX_SrcSel_W = 0x00000003, -TVX_SrcSel_0f = 0x00000004, -TVX_SrcSel_1f = 0x00000005, -} TVX_SRC_SEL; - -/* - * TVX_SRF_MODE_ALL enum - */ - -typedef enum TVX_SRF_MODE_ALL { -TVX_SRFModeAll_ZCMO = 0x00000000, -TVX_SRFModeAll_NZ = 0x00000001, -} TVX_SRF_MODE_ALL; - -/* - * TVX_TYPE enum - */ - -typedef enum TVX_TYPE { -TVX_Type_InvalidTextureResource = 0x00000000, -TVX_Type_InvalidVertexBuffer = 0x00000001, -TVX_Type_ValidTextureResource = 0x00000002, -TVX_Type_ValidVertexBuffer = 0x00000003, -} TVX_TYPE; - -/******************************************************* - * PA Enums - *******************************************************/ - -/* - * SU_PERFCNT_SEL enum - */ - -typedef enum SU_PERFCNT_SEL { -PERF_PAPC_PASX_REQ = 0x00000000, -PERF_PAPC_PASX_DISABLE_PIPE = 0x00000001, -PERF_PAPC_PASX_FIRST_VECTOR = 0x00000002, -PERF_PAPC_PASX_SECOND_VECTOR = 0x00000003, -PERF_PAPC_PASX_FIRST_DEAD = 0x00000004, -PERF_PAPC_PASX_SECOND_DEAD = 0x00000005, -PERF_PAPC_PASX_VTX_KILL_DISCARD = 0x00000006, -PERF_PAPC_PASX_VTX_NAN_DISCARD = 0x00000007, -PERF_PAPC_PA_INPUT_PRIM = 0x00000008, -PERF_PAPC_PA_INPUT_NULL_PRIM = 0x00000009, -PERF_PAPC_PA_INPUT_EVENT_FLAG = 0x0000000a, -PERF_PAPC_PA_INPUT_FIRST_PRIM_SLOT = 0x0000000b, -PERF_PAPC_PA_INPUT_END_OF_PACKET = 0x0000000c, -PERF_PAPC_PA_INPUT_EXTENDED_EVENT = 0x0000000d, -PERF_PAPC_CLPR_CULL_PRIM = 0x0000000e, -PERF_PAPC_CLPR_VVUCP_CULL_PRIM = 0x0000000f, -PERF_PAPC_CLPR_VV_CULL_PRIM = 0x00000010, -PERF_PAPC_CLPR_UCP_CULL_PRIM = 0x00000011, -PERF_PAPC_CLPR_VTX_KILL_CULL_PRIM = 0x00000012, -PERF_PAPC_CLPR_VTX_NAN_CULL_PRIM = 0x00000013, -PERF_PAPC_CLPR_CULL_TO_NULL_PRIM = 0x00000014, -PERF_PAPC_CLPR_VVUCP_CLIP_PRIM = 0x00000015, -PERF_PAPC_CLPR_VV_CLIP_PRIM = 0x00000016, -PERF_PAPC_CLPR_UCP_CLIP_PRIM = 0x00000017, -PERF_PAPC_CLPR_POINT_CLIP_CANDIDATE = 0x00000018, -PERF_PAPC_CLPR_CLIP_PLANE_CNT_1 = 0x00000019, -PERF_PAPC_CLPR_CLIP_PLANE_CNT_2 = 0x0000001a, -PERF_PAPC_CLPR_CLIP_PLANE_CNT_3 = 0x0000001b, -PERF_PAPC_CLPR_CLIP_PLANE_CNT_4 = 0x0000001c, -PERF_PAPC_CLPR_CLIP_PLANE_CNT_5_8 = 0x0000001d, -PERF_PAPC_CLPR_CLIP_PLANE_CNT_9_12 = 0x0000001e, -PERF_PAPC_CLPR_CLIP_PLANE_NEAR = 0x0000001f, -PERF_PAPC_CLPR_CLIP_PLANE_FAR = 0x00000020, -PERF_PAPC_CLPR_CLIP_PLANE_LEFT = 0x00000021, -PERF_PAPC_CLPR_CLIP_PLANE_RIGHT = 0x00000022, -PERF_PAPC_CLPR_CLIP_PLANE_TOP = 0x00000023, -PERF_PAPC_CLPR_CLIP_PLANE_BOTTOM = 0x00000024, -PERF_PAPC_CLPR_GSC_KILL_CULL_PRIM = 0x00000025, -PERF_PAPC_CLPR_RASTER_KILL_CULL_PRIM = 0x00000026, -PERF_PAPC_CLSM_NULL_PRIM = 0x00000027, -PERF_PAPC_CLSM_TOTALLY_VISIBLE_PRIM = 0x00000028, -PERF_PAPC_CLSM_CULL_TO_NULL_PRIM = 0x00000029, -PERF_PAPC_CLSM_OUT_PRIM_CNT_1 = 0x0000002a, -PERF_PAPC_CLSM_OUT_PRIM_CNT_2 = 0x0000002b, -PERF_PAPC_CLSM_OUT_PRIM_CNT_3 = 0x0000002c, -PERF_PAPC_CLSM_OUT_PRIM_CNT_4 = 0x0000002d, -PERF_PAPC_CLSM_OUT_PRIM_CNT_5_8 = 0x0000002e, -PERF_PAPC_CLSM_OUT_PRIM_CNT_9_13 = 0x0000002f, -PERF_PAPC_CLIPGA_VTE_KILL_PRIM = 0x00000030, -PERF_PAPC_SU_INPUT_PRIM = 0x00000031, -PERF_PAPC_SU_INPUT_CLIP_PRIM = 0x00000032, -PERF_PAPC_SU_INPUT_NULL_PRIM = 0x00000033, -PERF_PAPC_SU_INPUT_PRIM_DUAL = 0x00000034, -PERF_PAPC_SU_INPUT_CLIP_PRIM_DUAL = 0x00000035, -PERF_PAPC_SU_ZERO_AREA_CULL_PRIM = 0x00000036, -PERF_PAPC_SU_BACK_FACE_CULL_PRIM = 0x00000037, -PERF_PAPC_SU_FRONT_FACE_CULL_PRIM = 0x00000038, -PERF_PAPC_SU_POLYMODE_FACE_CULL = 0x00000039, -PERF_PAPC_SU_POLYMODE_BACK_CULL = 0x0000003a, -PERF_PAPC_SU_POLYMODE_FRONT_CULL = 0x0000003b, -PERF_PAPC_SU_POLYMODE_INVALID_FILL = 0x0000003c, -PERF_PAPC_SU_OUTPUT_PRIM = 0x0000003d, -PERF_PAPC_SU_OUTPUT_CLIP_PRIM = 0x0000003e, -PERF_PAPC_SU_OUTPUT_NULL_PRIM = 0x0000003f, -PERF_PAPC_SU_OUTPUT_EVENT_FLAG = 0x00000040, -PERF_PAPC_SU_OUTPUT_FIRST_PRIM_SLOT = 0x00000041, -PERF_PAPC_SU_OUTPUT_END_OF_PACKET = 0x00000042, -PERF_PAPC_SU_OUTPUT_POLYMODE_FACE = 0x00000043, -PERF_PAPC_SU_OUTPUT_POLYMODE_BACK = 0x00000044, -PERF_PAPC_SU_OUTPUT_POLYMODE_FRONT = 0x00000045, -PERF_PAPC_SU_OUT_CLIP_POLYMODE_FACE = 0x00000046, -PERF_PAPC_SU_OUT_CLIP_POLYMODE_BACK = 0x00000047, -PERF_PAPC_SU_OUT_CLIP_POLYMODE_FRONT = 0x00000048, -PERF_PAPC_SU_OUTPUT_PRIM_DUAL = 0x00000049, -PERF_PAPC_SU_OUTPUT_CLIP_PRIM_DUAL = 0x0000004a, -PERF_PAPC_SU_OUTPUT_POLYMODE_DUAL = 0x0000004b, -PERF_PAPC_SU_OUTPUT_CLIP_POLYMODE_DUAL = 0x0000004c, -PERF_PAPC_PASX_REQ_IDLE = 0x0000004d, -PERF_PAPC_PASX_REQ_BUSY = 0x0000004e, -PERF_PAPC_PASX_REQ_STALLED = 0x0000004f, -PERF_PAPC_PASX_REC_IDLE = 0x00000050, -PERF_PAPC_PASX_REC_BUSY = 0x00000051, -PERF_PAPC_PASX_REC_STARVED_SX = 0x00000052, -PERF_PAPC_PASX_REC_STALLED = 0x00000053, -PERF_PAPC_PASX_REC_STALLED_POS_MEM = 0x00000054, -PERF_PAPC_PASX_REC_STALLED_CCGSM_IN = 0x00000055, -PERF_PAPC_CCGSM_IDLE = 0x00000056, -PERF_PAPC_CCGSM_BUSY = 0x00000057, -PERF_PAPC_CCGSM_STALLED = 0x00000058, -PERF_PAPC_CLPRIM_IDLE = 0x00000059, -PERF_PAPC_CLPRIM_BUSY = 0x0000005a, -PERF_PAPC_CLPRIM_STALLED = 0x0000005b, -PERF_PAPC_CLPRIM_STARVED_CCGSM = 0x0000005c, -PERF_PAPC_CLIPSM_IDLE = 0x0000005d, -PERF_PAPC_CLIPSM_BUSY = 0x0000005e, -PERF_PAPC_CLIPSM_WAIT_CLIP_VERT_ENGH = 0x0000005f, -PERF_PAPC_CLIPSM_WAIT_HIGH_PRI_SEQ = 0x00000060, -PERF_PAPC_CLIPSM_WAIT_CLIPGA = 0x00000061, -PERF_PAPC_CLIPSM_WAIT_AVAIL_VTE_CLIP = 0x00000062, -PERF_PAPC_CLIPSM_WAIT_CLIP_OUTSM = 0x00000063, -PERF_PAPC_CLIPGA_IDLE = 0x00000064, -PERF_PAPC_CLIPGA_BUSY = 0x00000065, -PERF_PAPC_CLIPGA_STARVED_VTE_CLIP = 0x00000066, -PERF_PAPC_CLIPGA_STALLED = 0x00000067, -PERF_PAPC_CLIP_IDLE = 0x00000068, -PERF_PAPC_CLIP_BUSY = 0x00000069, -PERF_PAPC_SU_IDLE = 0x0000006a, -PERF_PAPC_SU_BUSY = 0x0000006b, -PERF_PAPC_SU_STARVED_CLIP = 0x0000006c, -PERF_PAPC_SU_STALLED_SC = 0x0000006d, -PERF_PAPC_CL_DYN_SCLK_VLD = 0x0000006e, -PERF_PAPC_SU_DYN_SCLK_VLD = 0x0000006f, -PERF_PAPC_PA_REG_SCLK_VLD = 0x00000070, -PERF_PAPC_SU_MULTI_GPU_PRIM_FILTER_CULL = 0x00000071, -PERF_PAPC_PASX_SE0_REQ = 0x00000072, -PERF_PAPC_PASX_SE1_REQ = 0x00000073, -PERF_PAPC_PASX_SE0_FIRST_VECTOR = 0x00000074, -PERF_PAPC_PASX_SE0_SECOND_VECTOR = 0x00000075, -PERF_PAPC_PASX_SE1_FIRST_VECTOR = 0x00000076, -PERF_PAPC_PASX_SE1_SECOND_VECTOR = 0x00000077, -PERF_PAPC_SU_SE0_PRIM_FILTER_CULL = 0x00000078, -PERF_PAPC_SU_SE1_PRIM_FILTER_CULL = 0x00000079, -PERF_PAPC_SU_SE01_PRIM_FILTER_CULL = 0x0000007a, -PERF_PAPC_SU_SE0_OUTPUT_PRIM = 0x0000007b, -PERF_PAPC_SU_SE1_OUTPUT_PRIM = 0x0000007c, -PERF_PAPC_SU_SE01_OUTPUT_PRIM = 0x0000007d, -PERF_PAPC_SU_SE0_OUTPUT_NULL_PRIM = 0x0000007e, -PERF_PAPC_SU_SE1_OUTPUT_NULL_PRIM = 0x0000007f, -PERF_PAPC_SU_SE01_OUTPUT_NULL_PRIM = 0x00000080, -PERF_PAPC_SU_SE0_OUTPUT_FIRST_PRIM_SLOT = 0x00000081, -PERF_PAPC_SU_SE1_OUTPUT_FIRST_PRIM_SLOT = 0x00000082, -PERF_PAPC_SU_SE0_STALLED_SC = 0x00000083, -PERF_PAPC_SU_SE1_STALLED_SC = 0x00000084, -PERF_PAPC_SU_SE01_STALLED_SC = 0x00000085, -PERF_PAPC_CLSM_CLIPPING_PRIM = 0x00000086, -PERF_PAPC_SU_CULLED_PRIM = 0x00000087, -PERF_PAPC_SU_OUTPUT_EOPG = 0x00000088, -PERF_PAPC_SU_SE2_PRIM_FILTER_CULL = 0x00000089, -PERF_PAPC_SU_SE3_PRIM_FILTER_CULL = 0x0000008a, -PERF_PAPC_SU_SE2_OUTPUT_PRIM = 0x0000008b, -PERF_PAPC_SU_SE3_OUTPUT_PRIM = 0x0000008c, -PERF_PAPC_SU_SE2_OUTPUT_NULL_PRIM = 0x0000008d, -PERF_PAPC_SU_SE3_OUTPUT_NULL_PRIM = 0x0000008e, -PERF_PAPC_SU_SE0_OUTPUT_END_OF_PACKET = 0x0000008f, -PERF_PAPC_SU_SE1_OUTPUT_END_OF_PACKET = 0x00000090, -PERF_PAPC_SU_SE2_OUTPUT_END_OF_PACKET = 0x00000091, -PERF_PAPC_SU_SE3_OUTPUT_END_OF_PACKET = 0x00000092, -PERF_PAPC_SU_SE0_OUTPUT_EOPG = 0x00000093, -PERF_PAPC_SU_SE1_OUTPUT_EOPG = 0x00000094, -PERF_PAPC_SU_SE2_OUTPUT_EOPG = 0x00000095, -PERF_PAPC_SU_SE3_OUTPUT_EOPG = 0x00000096, -PERF_PAPC_SU_SE2_STALLED_SC = 0x00000097, -PERF_PAPC_SU_SE3_STALLED_SC = 0x00000098, -} SU_PERFCNT_SEL; - -/* - * SC_PERFCNT_SEL enum - */ - -typedef enum SC_PERFCNT_SEL { -SC_SRPS_WINDOW_VALID = 0x00000000, -SC_PSSW_WINDOW_VALID = 0x00000001, -SC_TPQZ_WINDOW_VALID = 0x00000002, -SC_QZQP_WINDOW_VALID = 0x00000003, -SC_TRPK_WINDOW_VALID = 0x00000004, -SC_SRPS_WINDOW_VALID_BUSY = 0x00000005, -SC_PSSW_WINDOW_VALID_BUSY = 0x00000006, -SC_TPQZ_WINDOW_VALID_BUSY = 0x00000007, -SC_QZQP_WINDOW_VALID_BUSY = 0x00000008, -SC_TRPK_WINDOW_VALID_BUSY = 0x00000009, -SC_STARVED_BY_PA = 0x0000000a, -SC_STALLED_BY_PRIMFIFO = 0x0000000b, -SC_STALLED_BY_DB_TILE = 0x0000000c, -SC_STARVED_BY_DB_TILE = 0x0000000d, -SC_STALLED_BY_TILEORDERFIFO = 0x0000000e, -SC_STALLED_BY_TILEFIFO = 0x0000000f, -SC_STALLED_BY_DB_QUAD = 0x00000010, -SC_STARVED_BY_DB_QUAD = 0x00000011, -SC_STALLED_BY_QUADFIFO = 0x00000012, -SC_STALLED_BY_BCI = 0x00000013, -SC_STALLED_BY_SPI = 0x00000014, -SC_SCISSOR_DISCARD = 0x00000015, -SC_BB_DISCARD = 0x00000016, -SC_SUPERTILE_COUNT = 0x00000017, -SC_SUPERTILE_PER_PRIM_H0 = 0x00000018, -SC_SUPERTILE_PER_PRIM_H1 = 0x00000019, -SC_SUPERTILE_PER_PRIM_H2 = 0x0000001a, -SC_SUPERTILE_PER_PRIM_H3 = 0x0000001b, -SC_SUPERTILE_PER_PRIM_H4 = 0x0000001c, -SC_SUPERTILE_PER_PRIM_H5 = 0x0000001d, -SC_SUPERTILE_PER_PRIM_H6 = 0x0000001e, -SC_SUPERTILE_PER_PRIM_H7 = 0x0000001f, -SC_SUPERTILE_PER_PRIM_H8 = 0x00000020, -SC_SUPERTILE_PER_PRIM_H9 = 0x00000021, -SC_SUPERTILE_PER_PRIM_H10 = 0x00000022, -SC_SUPERTILE_PER_PRIM_H11 = 0x00000023, -SC_SUPERTILE_PER_PRIM_H12 = 0x00000024, -SC_SUPERTILE_PER_PRIM_H13 = 0x00000025, -SC_SUPERTILE_PER_PRIM_H14 = 0x00000026, -SC_SUPERTILE_PER_PRIM_H15 = 0x00000027, -SC_SUPERTILE_PER_PRIM_H16 = 0x00000028, -SC_TILE_PER_PRIM_H0 = 0x00000029, -SC_TILE_PER_PRIM_H1 = 0x0000002a, -SC_TILE_PER_PRIM_H2 = 0x0000002b, -SC_TILE_PER_PRIM_H3 = 0x0000002c, -SC_TILE_PER_PRIM_H4 = 0x0000002d, -SC_TILE_PER_PRIM_H5 = 0x0000002e, -SC_TILE_PER_PRIM_H6 = 0x0000002f, -SC_TILE_PER_PRIM_H7 = 0x00000030, -SC_TILE_PER_PRIM_H8 = 0x00000031, -SC_TILE_PER_PRIM_H9 = 0x00000032, -SC_TILE_PER_PRIM_H10 = 0x00000033, -SC_TILE_PER_PRIM_H11 = 0x00000034, -SC_TILE_PER_PRIM_H12 = 0x00000035, -SC_TILE_PER_PRIM_H13 = 0x00000036, -SC_TILE_PER_PRIM_H14 = 0x00000037, -SC_TILE_PER_PRIM_H15 = 0x00000038, -SC_TILE_PER_PRIM_H16 = 0x00000039, -SC_TILE_PER_SUPERTILE_H0 = 0x0000003a, -SC_TILE_PER_SUPERTILE_H1 = 0x0000003b, -SC_TILE_PER_SUPERTILE_H2 = 0x0000003c, -SC_TILE_PER_SUPERTILE_H3 = 0x0000003d, -SC_TILE_PER_SUPERTILE_H4 = 0x0000003e, -SC_TILE_PER_SUPERTILE_H5 = 0x0000003f, -SC_TILE_PER_SUPERTILE_H6 = 0x00000040, -SC_TILE_PER_SUPERTILE_H7 = 0x00000041, -SC_TILE_PER_SUPERTILE_H8 = 0x00000042, -SC_TILE_PER_SUPERTILE_H9 = 0x00000043, -SC_TILE_PER_SUPERTILE_H10 = 0x00000044, -SC_TILE_PER_SUPERTILE_H11 = 0x00000045, -SC_TILE_PER_SUPERTILE_H12 = 0x00000046, -SC_TILE_PER_SUPERTILE_H13 = 0x00000047, -SC_TILE_PER_SUPERTILE_H14 = 0x00000048, -SC_TILE_PER_SUPERTILE_H15 = 0x00000049, -SC_TILE_PER_SUPERTILE_H16 = 0x0000004a, -SC_TILE_PICKED_H1 = 0x0000004b, -SC_TILE_PICKED_H2 = 0x0000004c, -SC_TILE_PICKED_H3 = 0x0000004d, -SC_TILE_PICKED_H4 = 0x0000004e, -SC_QZ0_TILE_COUNT = 0x0000004f, -SC_QZ1_TILE_COUNT = 0x00000050, -SC_QZ2_TILE_COUNT = 0x00000051, -SC_QZ3_TILE_COUNT = 0x00000052, -SC_QZ0_TILE_COVERED_COUNT = 0x00000053, -SC_QZ1_TILE_COVERED_COUNT = 0x00000054, -SC_QZ2_TILE_COVERED_COUNT = 0x00000055, -SC_QZ3_TILE_COVERED_COUNT = 0x00000056, -SC_QZ0_TILE_NOT_COVERED_COUNT = 0x00000057, -SC_QZ1_TILE_NOT_COVERED_COUNT = 0x00000058, -SC_QZ2_TILE_NOT_COVERED_COUNT = 0x00000059, -SC_QZ3_TILE_NOT_COVERED_COUNT = 0x0000005a, -SC_QZ0_QUAD_PER_TILE_H0 = 0x0000005b, -SC_QZ0_QUAD_PER_TILE_H1 = 0x0000005c, -SC_QZ0_QUAD_PER_TILE_H2 = 0x0000005d, -SC_QZ0_QUAD_PER_TILE_H3 = 0x0000005e, -SC_QZ0_QUAD_PER_TILE_H4 = 0x0000005f, -SC_QZ0_QUAD_PER_TILE_H5 = 0x00000060, -SC_QZ0_QUAD_PER_TILE_H6 = 0x00000061, -SC_QZ0_QUAD_PER_TILE_H7 = 0x00000062, -SC_QZ0_QUAD_PER_TILE_H8 = 0x00000063, -SC_QZ0_QUAD_PER_TILE_H9 = 0x00000064, -SC_QZ0_QUAD_PER_TILE_H10 = 0x00000065, -SC_QZ0_QUAD_PER_TILE_H11 = 0x00000066, -SC_QZ0_QUAD_PER_TILE_H12 = 0x00000067, -SC_QZ0_QUAD_PER_TILE_H13 = 0x00000068, -SC_QZ0_QUAD_PER_TILE_H14 = 0x00000069, -SC_QZ0_QUAD_PER_TILE_H15 = 0x0000006a, -SC_QZ0_QUAD_PER_TILE_H16 = 0x0000006b, -SC_QZ1_QUAD_PER_TILE_H0 = 0x0000006c, -SC_QZ1_QUAD_PER_TILE_H1 = 0x0000006d, -SC_QZ1_QUAD_PER_TILE_H2 = 0x0000006e, -SC_QZ1_QUAD_PER_TILE_H3 = 0x0000006f, -SC_QZ1_QUAD_PER_TILE_H4 = 0x00000070, -SC_QZ1_QUAD_PER_TILE_H5 = 0x00000071, -SC_QZ1_QUAD_PER_TILE_H6 = 0x00000072, -SC_QZ1_QUAD_PER_TILE_H7 = 0x00000073, -SC_QZ1_QUAD_PER_TILE_H8 = 0x00000074, -SC_QZ1_QUAD_PER_TILE_H9 = 0x00000075, -SC_QZ1_QUAD_PER_TILE_H10 = 0x00000076, -SC_QZ1_QUAD_PER_TILE_H11 = 0x00000077, -SC_QZ1_QUAD_PER_TILE_H12 = 0x00000078, -SC_QZ1_QUAD_PER_TILE_H13 = 0x00000079, -SC_QZ1_QUAD_PER_TILE_H14 = 0x0000007a, -SC_QZ1_QUAD_PER_TILE_H15 = 0x0000007b, -SC_QZ1_QUAD_PER_TILE_H16 = 0x0000007c, -SC_QZ2_QUAD_PER_TILE_H0 = 0x0000007d, -SC_QZ2_QUAD_PER_TILE_H1 = 0x0000007e, -SC_QZ2_QUAD_PER_TILE_H2 = 0x0000007f, -SC_QZ2_QUAD_PER_TILE_H3 = 0x00000080, -SC_QZ2_QUAD_PER_TILE_H4 = 0x00000081, -SC_QZ2_QUAD_PER_TILE_H5 = 0x00000082, -SC_QZ2_QUAD_PER_TILE_H6 = 0x00000083, -SC_QZ2_QUAD_PER_TILE_H7 = 0x00000084, -SC_QZ2_QUAD_PER_TILE_H8 = 0x00000085, -SC_QZ2_QUAD_PER_TILE_H9 = 0x00000086, -SC_QZ2_QUAD_PER_TILE_H10 = 0x00000087, -SC_QZ2_QUAD_PER_TILE_H11 = 0x00000088, -SC_QZ2_QUAD_PER_TILE_H12 = 0x00000089, -SC_QZ2_QUAD_PER_TILE_H13 = 0x0000008a, -SC_QZ2_QUAD_PER_TILE_H14 = 0x0000008b, -SC_QZ2_QUAD_PER_TILE_H15 = 0x0000008c, -SC_QZ2_QUAD_PER_TILE_H16 = 0x0000008d, -SC_QZ3_QUAD_PER_TILE_H0 = 0x0000008e, -SC_QZ3_QUAD_PER_TILE_H1 = 0x0000008f, -SC_QZ3_QUAD_PER_TILE_H2 = 0x00000090, -SC_QZ3_QUAD_PER_TILE_H3 = 0x00000091, -SC_QZ3_QUAD_PER_TILE_H4 = 0x00000092, -SC_QZ3_QUAD_PER_TILE_H5 = 0x00000093, -SC_QZ3_QUAD_PER_TILE_H6 = 0x00000094, -SC_QZ3_QUAD_PER_TILE_H7 = 0x00000095, -SC_QZ3_QUAD_PER_TILE_H8 = 0x00000096, -SC_QZ3_QUAD_PER_TILE_H9 = 0x00000097, -SC_QZ3_QUAD_PER_TILE_H10 = 0x00000098, -SC_QZ3_QUAD_PER_TILE_H11 = 0x00000099, -SC_QZ3_QUAD_PER_TILE_H12 = 0x0000009a, -SC_QZ3_QUAD_PER_TILE_H13 = 0x0000009b, -SC_QZ3_QUAD_PER_TILE_H14 = 0x0000009c, -SC_QZ3_QUAD_PER_TILE_H15 = 0x0000009d, -SC_QZ3_QUAD_PER_TILE_H16 = 0x0000009e, -SC_QZ0_QUAD_COUNT = 0x0000009f, -SC_QZ1_QUAD_COUNT = 0x000000a0, -SC_QZ2_QUAD_COUNT = 0x000000a1, -SC_QZ3_QUAD_COUNT = 0x000000a2, -SC_P0_HIZ_TILE_COUNT = 0x000000a3, -SC_P1_HIZ_TILE_COUNT = 0x000000a4, -SC_P2_HIZ_TILE_COUNT = 0x000000a5, -SC_P3_HIZ_TILE_COUNT = 0x000000a6, -SC_P0_HIZ_QUAD_PER_TILE_H0 = 0x000000a7, -SC_P0_HIZ_QUAD_PER_TILE_H1 = 0x000000a8, -SC_P0_HIZ_QUAD_PER_TILE_H2 = 0x000000a9, -SC_P0_HIZ_QUAD_PER_TILE_H3 = 0x000000aa, -SC_P0_HIZ_QUAD_PER_TILE_H4 = 0x000000ab, -SC_P0_HIZ_QUAD_PER_TILE_H5 = 0x000000ac, -SC_P0_HIZ_QUAD_PER_TILE_H6 = 0x000000ad, -SC_P0_HIZ_QUAD_PER_TILE_H7 = 0x000000ae, -SC_P0_HIZ_QUAD_PER_TILE_H8 = 0x000000af, -SC_P0_HIZ_QUAD_PER_TILE_H9 = 0x000000b0, -SC_P0_HIZ_QUAD_PER_TILE_H10 = 0x000000b1, -SC_P0_HIZ_QUAD_PER_TILE_H11 = 0x000000b2, -SC_P0_HIZ_QUAD_PER_TILE_H12 = 0x000000b3, -SC_P0_HIZ_QUAD_PER_TILE_H13 = 0x000000b4, -SC_P0_HIZ_QUAD_PER_TILE_H14 = 0x000000b5, -SC_P0_HIZ_QUAD_PER_TILE_H15 = 0x000000b6, -SC_P0_HIZ_QUAD_PER_TILE_H16 = 0x000000b7, -SC_P1_HIZ_QUAD_PER_TILE_H0 = 0x000000b8, -SC_P1_HIZ_QUAD_PER_TILE_H1 = 0x000000b9, -SC_P1_HIZ_QUAD_PER_TILE_H2 = 0x000000ba, -SC_P1_HIZ_QUAD_PER_TILE_H3 = 0x000000bb, -SC_P1_HIZ_QUAD_PER_TILE_H4 = 0x000000bc, -SC_P1_HIZ_QUAD_PER_TILE_H5 = 0x000000bd, -SC_P1_HIZ_QUAD_PER_TILE_H6 = 0x000000be, -SC_P1_HIZ_QUAD_PER_TILE_H7 = 0x000000bf, -SC_P1_HIZ_QUAD_PER_TILE_H8 = 0x000000c0, -SC_P1_HIZ_QUAD_PER_TILE_H9 = 0x000000c1, -SC_P1_HIZ_QUAD_PER_TILE_H10 = 0x000000c2, -SC_P1_HIZ_QUAD_PER_TILE_H11 = 0x000000c3, -SC_P1_HIZ_QUAD_PER_TILE_H12 = 0x000000c4, -SC_P1_HIZ_QUAD_PER_TILE_H13 = 0x000000c5, -SC_P1_HIZ_QUAD_PER_TILE_H14 = 0x000000c6, -SC_P1_HIZ_QUAD_PER_TILE_H15 = 0x000000c7, -SC_P1_HIZ_QUAD_PER_TILE_H16 = 0x000000c8, -SC_P2_HIZ_QUAD_PER_TILE_H0 = 0x000000c9, -SC_P2_HIZ_QUAD_PER_TILE_H1 = 0x000000ca, -SC_P2_HIZ_QUAD_PER_TILE_H2 = 0x000000cb, -SC_P2_HIZ_QUAD_PER_TILE_H3 = 0x000000cc, -SC_P2_HIZ_QUAD_PER_TILE_H4 = 0x000000cd, -SC_P2_HIZ_QUAD_PER_TILE_H5 = 0x000000ce, -SC_P2_HIZ_QUAD_PER_TILE_H6 = 0x000000cf, -SC_P2_HIZ_QUAD_PER_TILE_H7 = 0x000000d0, -SC_P2_HIZ_QUAD_PER_TILE_H8 = 0x000000d1, -SC_P2_HIZ_QUAD_PER_TILE_H9 = 0x000000d2, -SC_P2_HIZ_QUAD_PER_TILE_H10 = 0x000000d3, -SC_P2_HIZ_QUAD_PER_TILE_H11 = 0x000000d4, -SC_P2_HIZ_QUAD_PER_TILE_H12 = 0x000000d5, -SC_P2_HIZ_QUAD_PER_TILE_H13 = 0x000000d6, -SC_P2_HIZ_QUAD_PER_TILE_H14 = 0x000000d7, -SC_P2_HIZ_QUAD_PER_TILE_H15 = 0x000000d8, -SC_P2_HIZ_QUAD_PER_TILE_H16 = 0x000000d9, -SC_P3_HIZ_QUAD_PER_TILE_H0 = 0x000000da, -SC_P3_HIZ_QUAD_PER_TILE_H1 = 0x000000db, -SC_P3_HIZ_QUAD_PER_TILE_H2 = 0x000000dc, -SC_P3_HIZ_QUAD_PER_TILE_H3 = 0x000000dd, -SC_P3_HIZ_QUAD_PER_TILE_H4 = 0x000000de, -SC_P3_HIZ_QUAD_PER_TILE_H5 = 0x000000df, -SC_P3_HIZ_QUAD_PER_TILE_H6 = 0x000000e0, -SC_P3_HIZ_QUAD_PER_TILE_H7 = 0x000000e1, -SC_P3_HIZ_QUAD_PER_TILE_H8 = 0x000000e2, -SC_P3_HIZ_QUAD_PER_TILE_H9 = 0x000000e3, -SC_P3_HIZ_QUAD_PER_TILE_H10 = 0x000000e4, -SC_P3_HIZ_QUAD_PER_TILE_H11 = 0x000000e5, -SC_P3_HIZ_QUAD_PER_TILE_H12 = 0x000000e6, -SC_P3_HIZ_QUAD_PER_TILE_H13 = 0x000000e7, -SC_P3_HIZ_QUAD_PER_TILE_H14 = 0x000000e8, -SC_P3_HIZ_QUAD_PER_TILE_H15 = 0x000000e9, -SC_P3_HIZ_QUAD_PER_TILE_H16 = 0x000000ea, -SC_P0_HIZ_QUAD_COUNT = 0x000000eb, -SC_P1_HIZ_QUAD_COUNT = 0x000000ec, -SC_P2_HIZ_QUAD_COUNT = 0x000000ed, -SC_P3_HIZ_QUAD_COUNT = 0x000000ee, -SC_P0_DETAIL_QUAD_COUNT = 0x000000ef, -SC_P1_DETAIL_QUAD_COUNT = 0x000000f0, -SC_P2_DETAIL_QUAD_COUNT = 0x000000f1, -SC_P3_DETAIL_QUAD_COUNT = 0x000000f2, -SC_P0_DETAIL_QUAD_WITH_1_PIX = 0x000000f3, -SC_P0_DETAIL_QUAD_WITH_2_PIX = 0x000000f4, -SC_P0_DETAIL_QUAD_WITH_3_PIX = 0x000000f5, -SC_P0_DETAIL_QUAD_WITH_4_PIX = 0x000000f6, -SC_P1_DETAIL_QUAD_WITH_1_PIX = 0x000000f7, -SC_P1_DETAIL_QUAD_WITH_2_PIX = 0x000000f8, -SC_P1_DETAIL_QUAD_WITH_3_PIX = 0x000000f9, -SC_P1_DETAIL_QUAD_WITH_4_PIX = 0x000000fa, -SC_P2_DETAIL_QUAD_WITH_1_PIX = 0x000000fb, -SC_P2_DETAIL_QUAD_WITH_2_PIX = 0x000000fc, -SC_P2_DETAIL_QUAD_WITH_3_PIX = 0x000000fd, -SC_P2_DETAIL_QUAD_WITH_4_PIX = 0x000000fe, -SC_P3_DETAIL_QUAD_WITH_1_PIX = 0x000000ff, -SC_P3_DETAIL_QUAD_WITH_2_PIX = 0x00000100, -SC_P3_DETAIL_QUAD_WITH_3_PIX = 0x00000101, -SC_P3_DETAIL_QUAD_WITH_4_PIX = 0x00000102, -SC_EARLYZ_QUAD_COUNT = 0x00000103, -SC_EARLYZ_QUAD_WITH_1_PIX = 0x00000104, -SC_EARLYZ_QUAD_WITH_2_PIX = 0x00000105, -SC_EARLYZ_QUAD_WITH_3_PIX = 0x00000106, -SC_EARLYZ_QUAD_WITH_4_PIX = 0x00000107, -SC_PKR_QUAD_PER_ROW_H1 = 0x00000108, -SC_PKR_QUAD_PER_ROW_H2 = 0x00000109, -SC_PKR_4X2_QUAD_SPLIT = 0x0000010a, -SC_PKR_4X2_FILL_QUAD = 0x0000010b, -SC_PKR_END_OF_VECTOR = 0x0000010c, -SC_PKR_CONTROL_XFER = 0x0000010d, -SC_PKR_DBHANG_FORCE_EOV = 0x0000010e, -SC_REG_SCLK_BUSY = 0x0000010f, -SC_GRP0_DYN_SCLK_BUSY = 0x00000110, -SC_GRP1_DYN_SCLK_BUSY = 0x00000111, -SC_GRP2_DYN_SCLK_BUSY = 0x00000112, -SC_GRP3_DYN_SCLK_BUSY = 0x00000113, -SC_GRP4_DYN_SCLK_BUSY = 0x00000114, -SC_PA0_SC_DATA_FIFO_RD = 0x00000115, -SC_PA0_SC_DATA_FIFO_WE = 0x00000116, -SC_PA1_SC_DATA_FIFO_RD = 0x00000117, -SC_PA1_SC_DATA_FIFO_WE = 0x00000118, -SC_PS_ARB_XFC_ALL_EVENT_OR_PRIM_CYCLES = 0x00000119, -SC_PS_ARB_XFC_ONLY_PRIM_CYCLES = 0x0000011a, -SC_PS_ARB_XFC_ONLY_ONE_INC_PER_PRIM = 0x0000011b, -SC_PS_ARB_STALLED_FROM_BELOW = 0x0000011c, -SC_PS_ARB_STARVED_FROM_ABOVE = 0x0000011d, -SC_PS_ARB_SC_BUSY = 0x0000011e, -SC_PS_ARB_PA_SC_BUSY = 0x0000011f, -SC_PA2_SC_DATA_FIFO_RD = 0x00000120, -SC_PA2_SC_DATA_FIFO_WE = 0x00000121, -SC_PA3_SC_DATA_FIFO_RD = 0x00000122, -SC_PA3_SC_DATA_FIFO_WE = 0x00000123, -SC_PA_SC_DEALLOC_0_0_WE = 0x00000124, -SC_PA_SC_DEALLOC_0_1_WE = 0x00000125, -SC_PA_SC_DEALLOC_1_0_WE = 0x00000126, -SC_PA_SC_DEALLOC_1_1_WE = 0x00000127, -SC_PA_SC_DEALLOC_2_0_WE = 0x00000128, -SC_PA_SC_DEALLOC_2_1_WE = 0x00000129, -SC_PA_SC_DEALLOC_3_0_WE = 0x0000012a, -SC_PA_SC_DEALLOC_3_1_WE = 0x0000012b, -SC_PA0_SC_EOP_WE = 0x0000012c, -SC_PA0_SC_EOPG_WE = 0x0000012d, -SC_PA0_SC_EVENT_WE = 0x0000012e, -SC_PA1_SC_EOP_WE = 0x0000012f, -SC_PA1_SC_EOPG_WE = 0x00000130, -SC_PA1_SC_EVENT_WE = 0x00000131, -SC_PA2_SC_EOP_WE = 0x00000132, -SC_PA2_SC_EOPG_WE = 0x00000133, -SC_PA2_SC_EVENT_WE = 0x00000134, -SC_PA3_SC_EOP_WE = 0x00000135, -SC_PA3_SC_EOPG_WE = 0x00000136, -SC_PA3_SC_EVENT_WE = 0x00000137, -SC_PS_ARB_OOO_THRESHOLD_SWITCH_TO_DESIRED_FIFO = 0x00000138, -SC_PS_ARB_OOO_FIFO_EMPTY_SWITCH = 0x00000139, -SC_PS_ARB_NULL_PRIM_BUBBLE_POP = 0x0000013a, -SC_PS_ARB_EOP_POP_SYNC_POP = 0x0000013b, -SC_PS_ARB_EVENT_SYNC_POP = 0x0000013c, -SC_SC_PS_ENG_MULTICYCLE_BUBBLE = 0x0000013d, -SC_PA0_SC_FPOV_WE = 0x0000013e, -SC_PA1_SC_FPOV_WE = 0x0000013f, -SC_PA2_SC_FPOV_WE = 0x00000140, -SC_PA3_SC_FPOV_WE = 0x00000141, -SC_PA0_SC_LPOV_WE = 0x00000142, -SC_PA1_SC_LPOV_WE = 0x00000143, -SC_PA2_SC_LPOV_WE = 0x00000144, -SC_PA3_SC_LPOV_WE = 0x00000145, -SC_SC_SPI_DEALLOC_0_0 = 0x00000146, -SC_SC_SPI_DEALLOC_0_1 = 0x00000147, -SC_SC_SPI_DEALLOC_0_2 = 0x00000148, -SC_SC_SPI_DEALLOC_1_0 = 0x00000149, -SC_SC_SPI_DEALLOC_1_1 = 0x0000014a, -SC_SC_SPI_DEALLOC_1_2 = 0x0000014b, -SC_SC_SPI_DEALLOC_2_0 = 0x0000014c, -SC_SC_SPI_DEALLOC_2_1 = 0x0000014d, -SC_SC_SPI_DEALLOC_2_2 = 0x0000014e, -SC_SC_SPI_DEALLOC_3_0 = 0x0000014f, -SC_SC_SPI_DEALLOC_3_1 = 0x00000150, -SC_SC_SPI_DEALLOC_3_2 = 0x00000151, -SC_SC_SPI_FPOV_0 = 0x00000152, -SC_SC_SPI_FPOV_1 = 0x00000153, -SC_SC_SPI_FPOV_2 = 0x00000154, -SC_SC_SPI_FPOV_3 = 0x00000155, -SC_SC_SPI_EVENT = 0x00000156, -SC_PS_TS_EVENT_FIFO_PUSH = 0x00000157, -SC_PS_TS_EVENT_FIFO_POP = 0x00000158, -SC_PS_CTX_DONE_FIFO_PUSH = 0x00000159, -SC_PS_CTX_DONE_FIFO_POP = 0x0000015a, -SC_MULTICYCLE_BUBBLE_FREEZE = 0x0000015b, -SC_EOP_SYNC_WINDOW = 0x0000015c, -SC_PA0_SC_NULL_WE = 0x0000015d, -SC_PA0_SC_NULL_DEALLOC_WE = 0x0000015e, -SC_PA0_SC_DATA_FIFO_EOPG_RD = 0x0000015f, -SC_PA0_SC_DATA_FIFO_EOP_RD = 0x00000160, -SC_PA0_SC_DEALLOC_0_RD = 0x00000161, -SC_PA0_SC_DEALLOC_1_RD = 0x00000162, -SC_PA1_SC_DATA_FIFO_EOPG_RD = 0x00000163, -SC_PA1_SC_DATA_FIFO_EOP_RD = 0x00000164, -SC_PA1_SC_DEALLOC_0_RD = 0x00000165, -SC_PA1_SC_DEALLOC_1_RD = 0x00000166, -SC_PA1_SC_NULL_WE = 0x00000167, -SC_PA1_SC_NULL_DEALLOC_WE = 0x00000168, -SC_PA2_SC_DATA_FIFO_EOPG_RD = 0x00000169, -SC_PA2_SC_DATA_FIFO_EOP_RD = 0x0000016a, -SC_PA2_SC_DEALLOC_0_RD = 0x0000016b, -SC_PA2_SC_DEALLOC_1_RD = 0x0000016c, -SC_PA2_SC_NULL_WE = 0x0000016d, -SC_PA2_SC_NULL_DEALLOC_WE = 0x0000016e, -SC_PA3_SC_DATA_FIFO_EOPG_RD = 0x0000016f, -SC_PA3_SC_DATA_FIFO_EOP_RD = 0x00000170, -SC_PA3_SC_DEALLOC_0_RD = 0x00000171, -SC_PA3_SC_DEALLOC_1_RD = 0x00000172, -SC_PA3_SC_NULL_WE = 0x00000173, -SC_PA3_SC_NULL_DEALLOC_WE = 0x00000174, -SC_PS_PA0_SC_FIFO_EMPTY = 0x00000175, -SC_PS_PA0_SC_FIFO_FULL = 0x00000176, -SC_PA0_PS_DATA_SEND = 0x00000177, -SC_PS_PA1_SC_FIFO_EMPTY = 0x00000178, -SC_PS_PA1_SC_FIFO_FULL = 0x00000179, -SC_PA1_PS_DATA_SEND = 0x0000017a, -SC_PS_PA2_SC_FIFO_EMPTY = 0x0000017b, -SC_PS_PA2_SC_FIFO_FULL = 0x0000017c, -SC_PA2_PS_DATA_SEND = 0x0000017d, -SC_PS_PA3_SC_FIFO_EMPTY = 0x0000017e, -SC_PS_PA3_SC_FIFO_FULL = 0x0000017f, -SC_PA3_PS_DATA_SEND = 0x00000180, -SC_BUSY_PROCESSING_MULTICYCLE_PRIM = 0x00000181, -SC_BUSY_CNT_NOT_ZERO = 0x00000182, -SC_BM_BUSY = 0x00000183, -SC_BACKEND_BUSY = 0x00000184, -SC_SCF_SCB_INTERFACE_BUSY = 0x00000185, -SC_SCB_BUSY = 0x00000186, -SC_STARVED_BY_PA_WITH_UNSELECTED_PA_NOT_EMPTY = 0x00000187, -SC_STARVED_BY_PA_WITH_UNSELECTED_PA_FULL = 0x00000188, -SC_PBB_BIN_HIST_NUM_PRIMS = 0x00000189, -SC_PBB_BATCH_HIST_NUM_PRIMS = 0x0000018a, -SC_PBB_BIN_HIST_NUM_CONTEXTS = 0x0000018b, -SC_PBB_BATCH_HIST_NUM_CONTEXTS = 0x0000018c, -SC_PBB_BIN_HIST_NUM_PERSISTENT_STATES = 0x0000018d, -SC_PBB_BATCH_HIST_NUM_PERSISTENT_STATES = 0x0000018e, -SC_PBB_BATCH_HIST_NUM_PS_WAVE_BREAKS = 0x0000018f, -SC_PBB_BATCH_HIST_NUM_TRIV_REJECTED_PRIMS = 0x00000190, -SC_PBB_BATCH_HIST_NUM_ROWS_PER_PRIM = 0x00000191, -SC_PBB_BATCH_HIST_NUM_COLUMNS_PER_ROW = 0x00000192, -SC_PBB_BUSY = 0x00000193, -SC_PBB_BUSY_AND_RTR = 0x00000194, -SC_PBB_STALLS_PA_DUE_TO_NO_TILES = 0x00000195, -SC_PBB_NUM_BINS = 0x00000196, -SC_PBB_END_OF_BIN = 0x00000197, -SC_PBB_END_OF_BATCH = 0x00000198, -SC_PBB_PRIMBIN_PROCESSED = 0x00000199, -SC_PBB_PRIM_ADDED_TO_BATCH = 0x0000019a, -SC_PBB_NONBINNED_PRIM = 0x0000019b, -SC_PBB_TOTAL_REAL_PRIMS_OUT_OF_PBB = 0x0000019c, -SC_PBB_TOTAL_NULL_PRIMS_OUT_OF_PBB = 0x0000019d, -SC_PBB_IDLE_CLK_DUE_TO_ROW_TO_COLUMN_TRANSITION = 0x0000019e, -SC_PBB_IDLE_CLK_DUE_TO_FALSE_POSITIVE_ON_ROW = 0x0000019f, -SC_PBB_IDLE_CLK_DUE_TO_FALSE_POSITIVE_ON_COLUMN = 0x000001a0, -SC_PBB_BATCH_BREAK_DUE_TO_PERSISTENT_STATE = 0x000001a1, -SC_PBB_BATCH_BREAK_DUE_TO_CONTEXT_STATE = 0x000001a2, -SC_PBB_BATCH_BREAK_DUE_TO_PRIM = 0x000001a3, -SC_PBB_BATCH_BREAK_DUE_TO_PC_STORAGE = 0x000001a4, -SC_PBB_BATCH_BREAK_DUE_TO_EVENT = 0x000001a5, -SC_PBB_BATCH_BREAK_DUE_TO_FPOV_LIMIT = 0x000001a6, -SC_POPS_INTRA_WAVE_OVERLAPS = 0x000001a7, -SC_POPS_FORCE_EOV = 0x000001a8, -SC_PKR_QUAD_OVERLAP_NOT_FOUND_IN_WAVE_TABLE = 0x000001a9, -SC_PKR_QUAD_OVERLAP_FOUND_IN_WAVE_TABLE = 0x000001aa, -} SC_PERFCNT_SEL; - -/* - * SePairXsel enum - */ - -typedef enum SePairXsel { -RASTER_CONFIG_SE_PAIR_XSEL_8_WIDE_TILE = 0x00000000, -RASTER_CONFIG_SE_PAIR_XSEL_16_WIDE_TILE = 0x00000001, -RASTER_CONFIG_SE_PAIR_XSEL_32_WIDE_TILE = 0x00000002, -RASTER_CONFIG_SE_PAIR_XSEL_64_WIDE_TILE = 0x00000003, -RASTER_CONFIG_SE_PAIR_XSEL_128_WIDE_TILE = 0x00000004, -} SePairXsel; - -/* - * SePairYsel enum - */ - -typedef enum SePairYsel { -RASTER_CONFIG_SE_PAIR_YSEL_8_WIDE_TILE = 0x00000000, -RASTER_CONFIG_SE_PAIR_YSEL_16_WIDE_TILE = 0x00000001, -RASTER_CONFIG_SE_PAIR_YSEL_32_WIDE_TILE = 0x00000002, -RASTER_CONFIG_SE_PAIR_YSEL_64_WIDE_TILE = 0x00000003, -RASTER_CONFIG_SE_PAIR_YSEL_128_WIDE_TILE = 0x00000004, -} SePairYsel; - -/* - * SePairMap enum - */ - -typedef enum SePairMap { -RASTER_CONFIG_SE_PAIR_MAP_0 = 0x00000000, -RASTER_CONFIG_SE_PAIR_MAP_1 = 0x00000001, -RASTER_CONFIG_SE_PAIR_MAP_2 = 0x00000002, -RASTER_CONFIG_SE_PAIR_MAP_3 = 0x00000003, -} SePairMap; - -/* - * SeXsel enum - */ - -typedef enum SeXsel { -RASTER_CONFIG_SE_XSEL_8_WIDE_TILE = 0x00000000, -RASTER_CONFIG_SE_XSEL_16_WIDE_TILE = 0x00000001, -RASTER_CONFIG_SE_XSEL_32_WIDE_TILE = 0x00000002, -RASTER_CONFIG_SE_XSEL_64_WIDE_TILE = 0x00000003, -RASTER_CONFIG_SE_XSEL_128_WIDE_TILE = 0x00000004, -} SeXsel; - -/* - * SeYsel enum - */ - -typedef enum SeYsel { -RASTER_CONFIG_SE_YSEL_8_WIDE_TILE = 0x00000000, -RASTER_CONFIG_SE_YSEL_16_WIDE_TILE = 0x00000001, -RASTER_CONFIG_SE_YSEL_32_WIDE_TILE = 0x00000002, -RASTER_CONFIG_SE_YSEL_64_WIDE_TILE = 0x00000003, -RASTER_CONFIG_SE_YSEL_128_WIDE_TILE = 0x00000004, -} SeYsel; - -/* - * SeMap enum - */ - -typedef enum SeMap { -RASTER_CONFIG_SE_MAP_0 = 0x00000000, -RASTER_CONFIG_SE_MAP_1 = 0x00000001, -RASTER_CONFIG_SE_MAP_2 = 0x00000002, -RASTER_CONFIG_SE_MAP_3 = 0x00000003, -} SeMap; - -/* - * ScXsel enum - */ - -typedef enum ScXsel { -RASTER_CONFIG_SC_XSEL_8_WIDE_TILE = 0x00000000, -RASTER_CONFIG_SC_XSEL_16_WIDE_TILE = 0x00000001, -RASTER_CONFIG_SC_XSEL_32_WIDE_TILE = 0x00000002, -RASTER_CONFIG_SC_XSEL_64_WIDE_TILE = 0x00000003, -} ScXsel; - -/* - * ScYsel enum - */ - -typedef enum ScYsel { -RASTER_CONFIG_SC_YSEL_8_WIDE_TILE = 0x00000000, -RASTER_CONFIG_SC_YSEL_16_WIDE_TILE = 0x00000001, -RASTER_CONFIG_SC_YSEL_32_WIDE_TILE = 0x00000002, -RASTER_CONFIG_SC_YSEL_64_WIDE_TILE = 0x00000003, -} ScYsel; - -/* - * ScMap enum - */ - -typedef enum ScMap { -RASTER_CONFIG_SC_MAP_0 = 0x00000000, -RASTER_CONFIG_SC_MAP_1 = 0x00000001, -RASTER_CONFIG_SC_MAP_2 = 0x00000002, -RASTER_CONFIG_SC_MAP_3 = 0x00000003, -} ScMap; - -/* - * PkrXsel2 enum - */ - -typedef enum PkrXsel2 { -RASTER_CONFIG_PKR_XSEL2_0 = 0x00000000, -RASTER_CONFIG_PKR_XSEL2_1 = 0x00000001, -RASTER_CONFIG_PKR_XSEL2_2 = 0x00000002, -RASTER_CONFIG_PKR_XSEL2_3 = 0x00000003, -} PkrXsel2; - -/* - * PkrXsel enum - */ - -typedef enum PkrXsel { -RASTER_CONFIG_PKR_XSEL_0 = 0x00000000, -RASTER_CONFIG_PKR_XSEL_1 = 0x00000001, -RASTER_CONFIG_PKR_XSEL_2 = 0x00000002, -RASTER_CONFIG_PKR_XSEL_3 = 0x00000003, -} PkrXsel; - -/* - * PkrYsel enum - */ - -typedef enum PkrYsel { -RASTER_CONFIG_PKR_YSEL_0 = 0x00000000, -RASTER_CONFIG_PKR_YSEL_1 = 0x00000001, -RASTER_CONFIG_PKR_YSEL_2 = 0x00000002, -RASTER_CONFIG_PKR_YSEL_3 = 0x00000003, -} PkrYsel; - -/* - * PkrMap enum - */ - -typedef enum PkrMap { -RASTER_CONFIG_PKR_MAP_0 = 0x00000000, -RASTER_CONFIG_PKR_MAP_1 = 0x00000001, -RASTER_CONFIG_PKR_MAP_2 = 0x00000002, -RASTER_CONFIG_PKR_MAP_3 = 0x00000003, -} PkrMap; - -/* - * RbXsel enum - */ - -typedef enum RbXsel { -RASTER_CONFIG_RB_XSEL_0 = 0x00000000, -RASTER_CONFIG_RB_XSEL_1 = 0x00000001, -} RbXsel; - -/* - * RbYsel enum - */ - -typedef enum RbYsel { -RASTER_CONFIG_RB_YSEL_0 = 0x00000000, -RASTER_CONFIG_RB_YSEL_1 = 0x00000001, -} RbYsel; - -/* - * RbXsel2 enum - */ - -typedef enum RbXsel2 { -RASTER_CONFIG_RB_XSEL2_0 = 0x00000000, -RASTER_CONFIG_RB_XSEL2_1 = 0x00000001, -RASTER_CONFIG_RB_XSEL2_2 = 0x00000002, -RASTER_CONFIG_RB_XSEL2_3 = 0x00000003, -} RbXsel2; - -/* - * RbMap enum - */ - -typedef enum RbMap { -RASTER_CONFIG_RB_MAP_0 = 0x00000000, -RASTER_CONFIG_RB_MAP_1 = 0x00000001, -RASTER_CONFIG_RB_MAP_2 = 0x00000002, -RASTER_CONFIG_RB_MAP_3 = 0x00000003, -} RbMap; - -/* - * BinningMode enum - */ - -typedef enum BinningMode { -BINNING_ALLOWED = 0x00000000, -FORCE_BINNING_ON = 0x00000001, -DISABLE_BINNING_USE_NEW_SC = 0x00000002, -DISABLE_BINNING_USE_LEGACY_SC = 0x00000003, -} BinningMode; - -/* - * BinEventCntl enum - */ - -typedef enum BinEventCntl { -BINNER_BREAK_BATCH = 0x00000000, -BINNER_PIPELINE = 0x00000001, -BINNER_DROP_ASSERT = 0x00000002, -} BinEventCntl; - -/* - * CovToShaderSel enum - */ - -typedef enum CovToShaderSel { -INPUT_COVERAGE = 0x00000000, -INPUT_INNER_COVERAGE = 0x00000001, -INPUT_DEPTH_COVERAGE = 0x00000002, -RAW = 0x00000003, -} CovToShaderSel; - -/******************************************************* - * RMI Enums - *******************************************************/ - -/* - * RMIPerfSel enum - */ - -typedef enum RMIPerfSel { -RMI_PERF_SEL_NONE = 0x00000000, -RMI_PERF_SEL_BUSY = 0x00000001, -RMI_PERF_SEL_REG_CLK_VLD = 0x00000002, -RMI_PERF_SEL_DYN_CLK_CMN_VLD = 0x00000003, -RMI_PERF_SEL_DYN_CLK_RB_VLD = 0x00000004, -RMI_PERF_SEL_DYN_CLK_PERF_VLD = 0x00000005, -RMI_PERF_SEL_PERF_WINDOW = 0x00000006, -RMI_PERF_SEL_EVENT_SEND = 0x00000007, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID0 = 0x00000008, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID1 = 0x00000009, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID2 = 0x0000000a, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID3 = 0x0000000b, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID4 = 0x0000000c, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID5 = 0x0000000d, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID6 = 0x0000000e, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID7 = 0x0000000f, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID8 = 0x00000010, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID9 = 0x00000011, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID10 = 0x00000012, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID11 = 0x00000013, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID12 = 0x00000014, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID13 = 0x00000015, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID14 = 0x00000016, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID15 = 0x00000017, -RMI_PERF_SEL_RMI_INVALIDATION_ATC_REQ_VMID_ALL = 0x00000018, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID0 = 0x00000019, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID1 = 0x0000001a, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID2 = 0x0000001b, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID3 = 0x0000001c, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID4 = 0x0000001d, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID5 = 0x0000001e, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID6 = 0x0000001f, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID7 = 0x00000020, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID8 = 0x00000021, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID9 = 0x00000022, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID10 = 0x00000023, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID11 = 0x00000024, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID12 = 0x00000025, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID13 = 0x00000026, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID14 = 0x00000027, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID15 = 0x00000028, -RMI_PERF_SEL_RMI_INVALIDATION_REQ_START_FINISH_VMID_ALL = 0x00000029, -RMI_PERF_SEL_UTCL1_TRANSLATION_MISS = 0x0000002a, -RMI_PERF_SEL_UTCL1_PERMISSION_MISS = 0x0000002b, -RMI_PERF_SEL_UTCL1_REQUEST = 0x0000002c, -RMI_PERF_SEL_UTCL1_STALL_INFLIGHT_MAX = 0x0000002d, -RMI_PERF_SEL_UTCL1_STALL_LRU_INFLIGHT = 0x0000002e, -RMI_PERF_SEL_UTCL1_LFIFO_FULL = 0x0000002f, -RMI_PERF_SEL_UTCL1_STALL_LFIFO_NOT_RES = 0x00000030, -RMI_PERF_SEL_UTCL1_STALL_UTCL2_REQ_OUT_OF_CREDITS = 0x00000031, -RMI_PERF_SEL_UTCL1_STALL_MISSFIFO_FULL = 0x00000032, -RMI_PERF_SEL_UTCL1_HIT_FIFO_FULL = 0x00000033, -RMI_PERF_SEL_UTCL1_STALL_MULTI_MISS = 0x00000034, -RMI_PERF_SEL_RB_RMI_WRREQ_ALL_CID = 0x00000035, -RMI_PERF_SEL_RB_RMI_WRREQ_BUSY = 0x00000036, -RMI_PERF_SEL_RB_RMI_WRREQ_CID0 = 0x00000037, -RMI_PERF_SEL_RB_RMI_WRREQ_CID1 = 0x00000038, -RMI_PERF_SEL_RB_RMI_WRREQ_CID2 = 0x00000039, -RMI_PERF_SEL_RB_RMI_WRREQ_CID3 = 0x0000003a, -RMI_PERF_SEL_RB_RMI_WRREQ_CID4 = 0x0000003b, -RMI_PERF_SEL_RB_RMI_WRREQ_CID5 = 0x0000003c, -RMI_PERF_SEL_RB_RMI_WRREQ_CID6 = 0x0000003d, -RMI_PERF_SEL_RB_RMI_WRREQ_CID7 = 0x0000003e, -RMI_PERF_SEL_RB_RMI_WRREQ_INFLIGHT_ALL_ORONE_CID = 0x0000003f, -RMI_PERF_SEL_RB_RMI_WRREQ_BURST_LENGTH_ALL_ORONE_CID = 0x00000040, -RMI_PERF_SEL_RB_RMI_WRREQ_BURST_ALL_ORONE_CID = 0x00000041, -RMI_PERF_SEL_RB_RMI_WRREQ_RESIDENCY = 0x00000042, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_ALL_CID = 0x00000043, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID0 = 0x00000044, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID1 = 0x00000045, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID2 = 0x00000046, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID3 = 0x00000047, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID4 = 0x00000048, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID5 = 0x00000049, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID6 = 0x0000004a, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_CID7 = 0x0000004b, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_NACK0 = 0x0000004c, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_NACK1 = 0x0000004d, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_NACK2 = 0x0000004e, -RMI_PERF_SEL_RMI_RB_WRRET_VALID_NACK3 = 0x0000004f, -RMI_PERF_SEL_RB_RMI_32BRDREQ_ALL_CID = 0x00000050, -RMI_PERF_SEL_RB_RMI_RDREQ_ALL_CID = 0x00000051, -RMI_PERF_SEL_RB_RMI_RDREQ_BUSY = 0x00000052, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID0 = 0x00000053, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID1 = 0x00000054, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID2 = 0x00000055, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID3 = 0x00000056, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID4 = 0x00000057, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID5 = 0x00000058, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID6 = 0x00000059, -RMI_PERF_SEL_RB_RMI_32BRDREQ_CID7 = 0x0000005a, -RMI_PERF_SEL_RB_RMI_RDREQ_CID0 = 0x0000005b, -RMI_PERF_SEL_RB_RMI_RDREQ_CID1 = 0x0000005c, -RMI_PERF_SEL_RB_RMI_RDREQ_CID2 = 0x0000005d, -RMI_PERF_SEL_RB_RMI_RDREQ_CID3 = 0x0000005e, -RMI_PERF_SEL_RB_RMI_RDREQ_CID4 = 0x0000005f, -RMI_PERF_SEL_RB_RMI_RDREQ_CID5 = 0x00000060, -RMI_PERF_SEL_RB_RMI_RDREQ_CID6 = 0x00000061, -RMI_PERF_SEL_RB_RMI_RDREQ_CID7 = 0x00000062, -RMI_PERF_SEL_RB_RMI_32BRDREQ_INFLIGHT_ALL_ORONE_CID = 0x00000063, -RMI_PERF_SEL_RB_RMI_RDREQ_BURST_LENGTH_ALL_ORONE_CID = 0x00000064, -RMI_PERF_SEL_RB_RMI_RDREQ_BURST_ALL_ORONE_CID = 0x00000065, -RMI_PERF_SEL_RB_RMI_RDREQ_RESIDENCY = 0x00000066, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_ALL_CID = 0x00000067, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID0 = 0x00000068, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID1 = 0x00000069, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID2 = 0x0000006a, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID3 = 0x0000006b, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID4 = 0x0000006c, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID5 = 0x0000006d, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID6 = 0x0000006e, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_CID7 = 0x0000006f, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_NACK0 = 0x00000070, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_NACK1 = 0x00000071, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_NACK2 = 0x00000072, -RMI_PERF_SEL_RMI_RB_32BRDRET_VALID_NACK3 = 0x00000073, -RMI_PERF_SEL_RMI_TC_WRREQ_ALL_CID = 0x00000074, -RMI_PERF_SEL_RMI_TC_REQ_BUSY = 0x00000075, -RMI_PERF_SEL_RMI_TC_WRREQ_CID0 = 0x00000076, -RMI_PERF_SEL_RMI_TC_WRREQ_CID1 = 0x00000077, -RMI_PERF_SEL_RMI_TC_WRREQ_CID2 = 0x00000078, -RMI_PERF_SEL_RMI_TC_WRREQ_CID3 = 0x00000079, -RMI_PERF_SEL_RMI_TC_WRREQ_CID4 = 0x0000007a, -RMI_PERF_SEL_RMI_TC_WRREQ_CID5 = 0x0000007b, -RMI_PERF_SEL_RMI_TC_WRREQ_CID6 = 0x0000007c, -RMI_PERF_SEL_RMI_TC_WRREQ_CID7 = 0x0000007d, -RMI_PERF_SEL_RMI_TC_WRREQ_INFLIGHT_ALL_CID = 0x0000007e, -RMI_PERF_SEL_TC_RMI_WRRET_VALID_ALL_CID = 0x0000007f, -RMI_PERF_SEL_RMI_TC_RDREQ_ALL_CID = 0x00000080, -RMI_PERF_SEL_RMI_TC_RDREQ_CID0 = 0x00000081, -RMI_PERF_SEL_RMI_TC_RDREQ_CID1 = 0x00000082, -RMI_PERF_SEL_RMI_TC_RDREQ_CID2 = 0x00000083, -RMI_PERF_SEL_RMI_TC_RDREQ_CID3 = 0x00000084, -RMI_PERF_SEL_RMI_TC_RDREQ_CID4 = 0x00000085, -RMI_PERF_SEL_RMI_TC_RDREQ_CID5 = 0x00000086, -RMI_PERF_SEL_RMI_TC_RDREQ_CID6 = 0x00000087, -RMI_PERF_SEL_RMI_TC_RDREQ_CID7 = 0x00000088, -RMI_PERF_SEL_RMI_TC_RDREQ_INFLIGHT_ALL_CID = 0x00000089, -RMI_PERF_SEL_TC_RMI_RDRET_VALID_ALL_CID = 0x0000008a, -RMI_PERF_SEL_UTCL1_BUSY = 0x0000008b, -RMI_PERF_SEL_RMI_UTC_REQ = 0x0000008c, -RMI_PERF_SEL_RMI_UTC_BUSY = 0x0000008d, -RMI_PERF_SEL_UTCL1_UTCL2_REQ = 0x0000008e, -RMI_PERF_SEL_PROBE_UTCL1_XNACK_RETRY = 0x0000008f, -RMI_PERF_SEL_PROBE_UTCL1_ALL_FAULT = 0x00000090, -RMI_PERF_SEL_PROBE_UTCL1_PRT_FAULT = 0x00000091, -RMI_PERF_SEL_PROBE_UTCL1_VMID_BYPASS = 0x00000092, -RMI_PERF_SEL_PROBE_UTCL1_XNACK_NORETRY_FAULT = 0x00000093, -RMI_PERF_SEL_XNACK_FIFO_NUM_USED = 0x00000094, -RMI_PERF_SEL_LAT_FIFO_NUM_USED = 0x00000095, -RMI_PERF_SEL_LAT_FIFO_BLOCKING_REQ = 0x00000096, -RMI_PERF_SEL_LAT_FIFO_NONBLOCKING_REQ = 0x00000097, -RMI_PERF_SEL_XNACK_FIFO_FULL = 0x00000098, -RMI_PERF_SEL_XNACK_FIFO_BUSY = 0x00000099, -RMI_PERF_SEL_LAT_FIFO_FULL = 0x0000009a, -RMI_PERF_SEL_SKID_FIFO_DEPTH = 0x0000009b, -RMI_PERF_SEL_TCIW_INFLIGHT_COUNT = 0x0000009c, -RMI_PERF_SEL_PRT_FIFO_NUM_USED = 0x0000009d, -RMI_PERF_SEL_PRT_FIFO_REQ = 0x0000009e, -RMI_PERF_SEL_PRT_FIFO_BUSY = 0x0000009f, -RMI_PERF_SEL_TCIW_REQ = 0x000000a0, -RMI_PERF_SEL_TCIW_BUSY = 0x000000a1, -RMI_PERF_SEL_SKID_FIFO_REQ = 0x000000a2, -RMI_PERF_SEL_SKID_FIFO_BUSY = 0x000000a3, -RMI_PERF_SEL_DEMUX_TCIW_RESIDENCY_NACK0 = 0x000000a4, -RMI_PERF_SEL_DEMUX_TCIW_RESIDENCY_NACK1 = 0x000000a5, -RMI_PERF_SEL_DEMUX_TCIW_RESIDENCY_NACK2 = 0x000000a6, -RMI_PERF_SEL_DEMUX_TCIW_RESIDENCY_NACK3 = 0x000000a7, -RMI_PERF_SEL_XBAR_PROBEGEN_RTS_RTR = 0x000000a8, -RMI_PERF_SEL_XBAR_PROBEGEN_RTSB_RTR = 0x000000a9, -RMI_PERF_SEL_XBAR_PROBEGEN_RTS_RTRB = 0x000000aa, -RMI_PERF_SEL_XBAR_PROBEGEN_RTSB_RTRB = 0x000000ab, -RMI_PERF_SEL_DEMUX_TCIW_FORMATTER_RTS_RTR = 0x000000ac, -RMI_PERF_SEL_DEMUX_TCIW_FORMATTER_RTSB_RTR = 0x000000ad, -RMI_PERF_SEL_DEMUX_TCIW_FORMATTER_RTS_RTRB = 0x000000ae, -RMI_PERF_SEL_DEMUX_TCIW_FORMATTER_RTSB_RTRB = 0x000000af, -RMI_PERF_SEL_WRREQCONSUMER_XBAR_WRREQ_RTS_RTR = 0x000000b0, -RMI_PERF_SEL_WRREQCONSUMER_XBAR_WRREQ_RTSB_RTR = 0x000000b1, -RMI_PERF_SEL_WRREQCONSUMER_XBAR_WRREQ_RTS_RTRB = 0x000000b2, -RMI_PERF_SEL_WRREQCONSUMER_XBAR_WRREQ_RTSB_RTRB = 0x000000b3, -RMI_PERF_SEL_RDREQCONSUMER_XBAR_RDREQ_RTS_RTR = 0x000000b4, -RMI_PERF_SEL_RDREQCONSUMER_XBAR_RDREQ_RTSB_RTR = 0x000000b5, -RMI_PERF_SEL_RDREQCONSUMER_XBAR_RDREQ_RTS_RTRB = 0x000000b6, -RMI_PERF_SEL_RDREQCONSUMER_XBAR_RDREQ_RTSB_RTRB = 0x000000b7, -RMI_PERF_SEL_POP_DEMUX_RTS_RTR = 0x000000b8, -RMI_PERF_SEL_POP_DEMUX_RTSB_RTR = 0x000000b9, -RMI_PERF_SEL_POP_DEMUX_RTS_RTRB = 0x000000ba, -RMI_PERF_SEL_POP_DEMUX_RTSB_RTRB = 0x000000bb, -RMI_PERF_SEL_PROBEGEN_UTC_RTS_RTR = 0x000000bc, -RMI_PERF_SEL_PROBEGEN_UTC_RTSB_RTR = 0x000000bd, -RMI_PERF_SEL_PROBEGEN_UTC_RTS_RTRB = 0x000000be, -RMI_PERF_SEL_PROBEGEN_UTC_RTSB_RTRB = 0x000000bf, -RMI_PERF_SEL_UTC_POP_RTS_RTR = 0x000000c0, -RMI_PERF_SEL_UTC_POP_RTSB_RTR = 0x000000c1, -RMI_PERF_SEL_UTC_POP_RTS_RTRB = 0x000000c2, -RMI_PERF_SEL_UTC_POP_RTSB_RTRB = 0x000000c3, -RMI_PERF_SEL_POP_XNACK_RTS_RTR = 0x000000c4, -RMI_PERF_SEL_POP_XNACK_RTSB_RTR = 0x000000c5, -RMI_PERF_SEL_POP_XNACK_RTS_RTRB = 0x000000c6, -RMI_PERF_SEL_POP_XNACK_RTSB_RTRB = 0x000000c7, -RMI_PERF_SEL_XNACK_PROBEGEN_RTS_RTR = 0x000000c8, -RMI_PERF_SEL_XNACK_PROBEGEN_RTSB_RTR = 0x000000c9, -RMI_PERF_SEL_XNACK_PROBEGEN_RTS_RTRB = 0x000000ca, -RMI_PERF_SEL_XNACK_PROBEGEN_RTSB_RTRB = 0x000000cb, -RMI_PERF_SEL_PRTFIFO_RTNFORMATTER_RTS_RTR = 0x000000cc, -RMI_PERF_SEL_PRTFIFO_RTNFORMATTER_RTSB_RTR = 0x000000cd, -RMI_PERF_SEL_PRTFIFO_RTNFORMATTER_RTS_RTRB = 0x000000ce, -RMI_PERF_SEL_PRTFIFO_RTNFORMATTER_RTSB_RTRB = 0x000000cf, -RMI_PERF_SEL_SKID_FIFO_IN_RTS = 0x000000d0, -RMI_PERF_SEL_SKID_FIFO_IN_RTSB = 0x000000d1, -RMI_PERF_SEL_SKID_FIFO_OUT_RTS = 0x000000d2, -RMI_PERF_SEL_SKID_FIFO_OUT_RTSB = 0x000000d3, -RMI_PERF_SEL_XBAR_PROBEGEN_READ_RTS_RTR = 0x000000d4, -RMI_PERF_SEL_XBAR_PROBEGEN_WRITE_RTS_RTR = 0x000000d5, -RMI_PERF_SEL_XBAR_PROBEGEN_IN0_RTS_RTR = 0x000000d6, -RMI_PERF_SEL_XBAR_PROBEGEN_IN1_RTS_RTR = 0x000000d7, -RMI_PERF_SEL_XBAR_PROBEGEN_CB_RTS_RTR = 0x000000d8, -RMI_PERF_SEL_XBAR_PROBEGEN_DB_RTS_RTR = 0x000000d9, -RMI_PERF_SEL_REORDER_FIFO_REQ = 0x000000da, -RMI_PERF_SEL_REORDER_FIFO_BUSY = 0x000000db, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_ALL_CID = 0x000000dc, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID0 = 0x000000dd, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID1 = 0x000000de, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID2 = 0x000000df, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID3 = 0x000000e0, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID4 = 0x000000e1, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID5 = 0x000000e2, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID6 = 0x000000e3, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_CID7 = 0x000000e4, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_NACK0 = 0x000000e5, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_NACK1 = 0x000000e6, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_NACK2 = 0x000000e7, -RMI_PERF_SEL_RMI_RB_EARLY_WRACK_NACK3 = 0x000000e8, -} RMIPerfSel; - - -#endif /*_vega10_ENUM_HEADER*/ - diff --git a/src/amd/addrlib/gfx9/coord.cpp b/src/amd/addrlib/gfx9/coord.cpp deleted file mode 100644 index 228d8f1872b..00000000000 --- a/src/amd/addrlib/gfx9/coord.cpp +++ /dev/null @@ -1,707 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -// Coordinate class implementation -#include "addrcommon.h" -#include "coord.h" - -Coordinate::Coordinate() -{ - dim = 'x'; - ord = 0; -} - -Coordinate::Coordinate(INT_8 c, INT_32 n) -{ - set(c, n); -} - -VOID Coordinate::set(INT_8 c, INT_32 n) -{ - dim = c; - ord = static_cast(n); -} - -UINT_32 Coordinate::ison(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const -{ - UINT_32 bit = static_cast(1ull << static_cast(ord)); - UINT_32 out = 0; - - switch (dim) - { - case 'm': out = m & bit; break; - case 's': out = s & bit; break; - case 'x': out = x & bit; break; - case 'y': out = y & bit; break; - case 'z': out = z & bit; break; - } - return (out != 0) ? 1 : 0; -} - -INT_8 Coordinate::getdim() -{ - return dim; -} - -INT_8 Coordinate::getord() -{ - return ord; -} - -BOOL_32 Coordinate::operator==(const Coordinate& b) -{ - return (dim == b.dim) && (ord == b.ord); -} - -BOOL_32 Coordinate::operator<(const Coordinate& b) -{ - BOOL_32 ret; - - if (dim == b.dim) - { - ret = ord < b.ord; - } - else - { - if (dim == 's' || b.dim == 'm') - { - ret = TRUE; - } - else if (b.dim == 's' || dim == 'm') - { - ret = FALSE; - } - else if (ord == b.ord) - { - ret = dim < b.dim; - } - else - { - ret = ord < b.ord; - } - } - - return ret; -} - -BOOL_32 Coordinate::operator>(const Coordinate& b) -{ - BOOL_32 lt = *this < b; - BOOL_32 eq = *this == b; - return !lt && !eq; -} - -BOOL_32 Coordinate::operator<=(const Coordinate& b) -{ - return (*this < b) || (*this == b); -} - -BOOL_32 Coordinate::operator>=(const Coordinate& b) -{ - return !(*this < b); -} - -BOOL_32 Coordinate::operator!=(const Coordinate& b) -{ - return !(*this == b); -} - -Coordinate& Coordinate::operator++(INT_32) -{ - ord++; - return *this; -} - -// CoordTerm - -CoordTerm::CoordTerm() -{ - num_coords = 0; -} - -VOID CoordTerm::Clear() -{ - num_coords = 0; -} - -VOID CoordTerm::add(Coordinate& co) -{ - // This function adds a coordinate INT_32o the list - // It will prevent the same coordinate from appearing, - // and will keep the list ordered from smallest to largest - UINT_32 i; - - for (i = 0; i < num_coords; i++) - { - if (m_coord[i] == co) - { - break; - } - if (m_coord[i] > co) - { - for (UINT_32 j = num_coords; j > i; j--) - { - m_coord[j] = m_coord[j - 1]; - } - m_coord[i] = co; - num_coords++; - break; - } - } - - if (i == num_coords) - { - m_coord[num_coords] = co; - num_coords++; - } -} - -VOID CoordTerm::add(CoordTerm& cl) -{ - for (UINT_32 i = 0; i < cl.num_coords; i++) - { - add(cl.m_coord[i]); - } -} - -BOOL_32 CoordTerm::remove(Coordinate& co) -{ - BOOL_32 remove = FALSE; - for (UINT_32 i = 0; i < num_coords; i++) - { - if (m_coord[i] == co) - { - remove = TRUE; - num_coords--; - } - - if (remove) - { - m_coord[i] = m_coord[i + 1]; - } - } - return remove; -} - -BOOL_32 CoordTerm::Exists(Coordinate& co) -{ - BOOL_32 exists = FALSE; - for (UINT_32 i = 0; i < num_coords; i++) - { - if (m_coord[i] == co) - { - exists = TRUE; - break; - } - } - return exists; -} - -VOID CoordTerm::copyto(CoordTerm& cl) -{ - cl.num_coords = num_coords; - for (UINT_32 i = 0; i < num_coords; i++) - { - cl.m_coord[i] = m_coord[i]; - } -} - -UINT_32 CoordTerm::getsize() -{ - return num_coords; -} - -UINT_32 CoordTerm::getxor(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const -{ - UINT_32 out = 0; - for (UINT_32 i = 0; i < num_coords; i++) - { - out = out ^ m_coord[i].ison(x, y, z, s, m); - } - return out; -} - -VOID CoordTerm::getsmallest(Coordinate& co) -{ - co = m_coord[0]; -} - -UINT_32 CoordTerm::Filter(INT_8 f, Coordinate& co, UINT_32 start, INT_8 axis) -{ - for (UINT_32 i = start; i < num_coords;) - { - if (((f == '<' && m_coord[i] < co) || - (f == '>' && m_coord[i] > co) || - (f == '=' && m_coord[i] == co)) && - (axis == '\0' || axis == m_coord[i].getdim())) - { - for (UINT_32 j = i; j < num_coords - 1; j++) - { - m_coord[j] = m_coord[j + 1]; - } - num_coords--; - } - else - { - i++; - } - } - return num_coords; -} - -Coordinate& CoordTerm::operator[](UINT_32 i) -{ - return m_coord[i]; -} - -BOOL_32 CoordTerm::operator==(const CoordTerm& b) -{ - BOOL_32 ret = TRUE; - - if (num_coords != b.num_coords) - { - ret = FALSE; - } - else - { - for (UINT_32 i = 0; i < num_coords; i++) - { - // Note: the lists will always be in order, so we can compare the two lists at time - if (m_coord[i] != b.m_coord[i]) - { - ret = FALSE; - break; - } - } - } - return ret; -} - -BOOL_32 CoordTerm::operator!=(const CoordTerm& b) -{ - return !(*this == b); -} - -BOOL_32 CoordTerm::exceedRange(UINT_32 xRange, UINT_32 yRange, UINT_32 zRange, UINT_32 sRange) -{ - BOOL_32 exceed = FALSE; - for (UINT_32 i = 0; (i < num_coords) && (exceed == FALSE); i++) - { - UINT_32 subject; - switch (m_coord[i].getdim()) - { - case 'x': - subject = xRange; - break; - case 'y': - subject = yRange; - break; - case 'z': - subject = zRange; - break; - case 's': - subject = sRange; - break; - case 'm': - subject = 0; - break; - default: - // Invalid input! - ADDR_ASSERT_ALWAYS(); - subject = 0; - break; - } - - exceed = ((1u << m_coord[i].getord()) <= subject); - } - - return exceed; -} - -// coordeq -CoordEq::CoordEq() -{ - m_numBits = 0; -} - -VOID CoordEq::remove(Coordinate& co) -{ - for (UINT_32 i = 0; i < m_numBits; i++) - { - m_eq[i].remove(co); - } -} - -BOOL_32 CoordEq::Exists(Coordinate& co) -{ - BOOL_32 exists = FALSE; - - for (UINT_32 i = 0; i < m_numBits; i++) - { - if (m_eq[i].Exists(co)) - { - exists = TRUE; - } - } - return exists; -} - -VOID CoordEq::resize(UINT_32 n) -{ - if (n > m_numBits) - { - for (UINT_32 i = m_numBits; i < n; i++) - { - m_eq[i].Clear(); - } - } - m_numBits = n; -} - -UINT_32 CoordEq::getsize() -{ - return m_numBits; -} - -UINT_64 CoordEq::solve(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const -{ - UINT_64 out = 0; - for (UINT_32 i = 0; i < m_numBits; i++) - { - if (m_eq[i].getxor(x, y, z, s, m) != 0) - { - out |= (1ULL << i); - } - } - return out; -} - -VOID CoordEq::solveAddr( - UINT_64 addr, UINT_32 sliceInM, - UINT_32& x, UINT_32& y, UINT_32& z, UINT_32& s, UINT_32& m) const -{ - UINT_32 xBitsValid = 0; - UINT_32 yBitsValid = 0; - UINT_32 zBitsValid = 0; - UINT_32 sBitsValid = 0; - UINT_32 mBitsValid = 0; - - CoordEq temp = *this; - - x = y = z = s = m = 0; - - UINT_32 bitsLeft = 0; - - for (UINT_32 i = 0; i < temp.m_numBits; i++) - { - UINT_32 termSize = temp.m_eq[i].getsize(); - - if (termSize == 1) - { - INT_8 bit = (addr >> i) & 1; - INT_8 dim = temp.m_eq[i][0].getdim(); - INT_8 ord = temp.m_eq[i][0].getord(); - - ADDR_ASSERT((ord < 32) || (bit == 0)); - - switch (dim) - { - case 'x': - xBitsValid |= (1 << ord); - x |= (bit << ord); - break; - case 'y': - yBitsValid |= (1 << ord); - y |= (bit << ord); - break; - case 'z': - zBitsValid |= (1 << ord); - z |= (bit << ord); - break; - case 's': - sBitsValid |= (1 << ord); - s |= (bit << ord); - break; - case 'm': - mBitsValid |= (1 << ord); - m |= (bit << ord); - break; - default: - break; - } - - temp.m_eq[i].Clear(); - } - else if (termSize > 1) - { - bitsLeft++; - } - } - - if (bitsLeft > 0) - { - if (sliceInM != 0) - { - z = m / sliceInM; - zBitsValid = 0xffffffff; - } - - do - { - bitsLeft = 0; - - for (UINT_32 i = 0; i < temp.m_numBits; i++) - { - UINT_32 termSize = temp.m_eq[i].getsize(); - - if (termSize == 1) - { - INT_8 bit = (addr >> i) & 1; - INT_8 dim = temp.m_eq[i][0].getdim(); - INT_8 ord = temp.m_eq[i][0].getord(); - - ADDR_ASSERT((ord < 32) || (bit == 0)); - - switch (dim) - { - case 'x': - xBitsValid |= (1 << ord); - x |= (bit << ord); - break; - case 'y': - yBitsValid |= (1 << ord); - y |= (bit << ord); - break; - case 'z': - zBitsValid |= (1 << ord); - z |= (bit << ord); - break; - case 's': - ADDR_ASSERT_ALWAYS(); - break; - case 'm': - ADDR_ASSERT_ALWAYS(); - break; - default: - break; - } - - temp.m_eq[i].Clear(); - } - else if (termSize > 1) - { - CoordTerm tmpTerm = temp.m_eq[i]; - - for (UINT_32 j = 0; j < termSize; j++) - { - INT_8 dim = temp.m_eq[i][j].getdim(); - INT_8 ord = temp.m_eq[i][j].getord(); - - switch (dim) - { - case 'x': - if (xBitsValid & (1 << ord)) - { - UINT_32 v = (((x >> ord) & 1) << i); - addr ^= static_cast(v); - tmpTerm.remove(temp.m_eq[i][j]); - } - break; - case 'y': - if (yBitsValid & (1 << ord)) - { - UINT_32 v = (((y >> ord) & 1) << i); - addr ^= static_cast(v); - tmpTerm.remove(temp.m_eq[i][j]); - } - break; - case 'z': - if (zBitsValid & (1 << ord)) - { - UINT_32 v = (((z >> ord) & 1) << i); - addr ^= static_cast(v); - tmpTerm.remove(temp.m_eq[i][j]); - } - break; - case 's': - ADDR_ASSERT_ALWAYS(); - break; - case 'm': - ADDR_ASSERT_ALWAYS(); - break; - default: - break; - } - } - - temp.m_eq[i] = tmpTerm; - - bitsLeft++; - } - } - } while (bitsLeft > 0); - } -} - -VOID CoordEq::copy(CoordEq& o, UINT_32 start, UINT_32 num) -{ - o.m_numBits = (num == 0xFFFFFFFF) ? m_numBits : num; - for (UINT_32 i = 0; i < o.m_numBits; i++) - { - m_eq[start + i].copyto(o.m_eq[i]); - } -} - -VOID CoordEq::reverse(UINT_32 start, UINT_32 num) -{ - UINT_32 n = (num == 0xFFFFFFFF) ? m_numBits : num; - - for (UINT_32 i = 0; i < n / 2; i++) - { - CoordTerm temp; - m_eq[start + i].copyto(temp); - m_eq[start + n - 1 - i].copyto(m_eq[start + i]); - temp.copyto(m_eq[start + n - 1 - i]); - } -} - -VOID CoordEq::xorin(CoordEq& x, UINT_32 start) -{ - UINT_32 n = ((m_numBits - start) < x.m_numBits) ? (m_numBits - start) : x.m_numBits; - for (UINT_32 i = 0; i < n; i++) - { - m_eq[start + i].add(x.m_eq[i]); - } -} - -UINT_32 CoordEq::Filter(INT_8 f, Coordinate& co, UINT_32 start, INT_8 axis) -{ - for (UINT_32 i = start; i < m_numBits;) - { - UINT_32 m = m_eq[i].Filter(f, co, 0, axis); - if (m == 0) - { - for (UINT_32 j = i; j < m_numBits - 1; j++) - { - m_eq[j] = m_eq[j + 1]; - } - m_numBits--; - } - else - { - i++; - } - } - return m_numBits; -} - -VOID CoordEq::shift(INT_32 amount, INT_32 start) -{ - if (amount != 0) - { - INT_32 numBits = static_cast(m_numBits); - amount = -amount; - INT_32 inc = (amount < 0) ? -1 : 1; - INT_32 i = (amount < 0) ? numBits - 1 : start; - INT_32 end = (amount < 0) ? start - 1 : numBits; - for (; (inc > 0) ? i < end : i > end; i += inc) - { - if ((i + amount < start) || (i + amount >= numBits)) - { - m_eq[i].Clear(); - } - else - { - m_eq[i + amount].copyto(m_eq[i]); - } - } - } -} - -CoordTerm& CoordEq::operator[](UINT_32 i) -{ - return m_eq[i]; -} - -VOID CoordEq::mort2d(Coordinate& c0, Coordinate& c1, UINT_32 start, UINT_32 end) -{ - if (end == 0) - { - ADDR_ASSERT(m_numBits > 0); - end = m_numBits - 1; - } - for (UINT_32 i = start; i <= end; i++) - { - UINT_32 select = (i - start) % 2; - Coordinate& c = (select == 0) ? c0 : c1; - m_eq[i].add(c); - c++; - } -} - -VOID CoordEq::mort3d(Coordinate& c0, Coordinate& c1, Coordinate& c2, UINT_32 start, UINT_32 end) -{ - if (end == 0) - { - ADDR_ASSERT(m_numBits > 0); - end = m_numBits - 1; - } - for (UINT_32 i = start; i <= end; i++) - { - UINT_32 select = (i - start) % 3; - Coordinate& c = (select == 0) ? c0 : ((select == 1) ? c1 : c2); - m_eq[i].add(c); - c++; - } -} - -BOOL_32 CoordEq::operator==(const CoordEq& b) -{ - BOOL_32 ret = TRUE; - - if (m_numBits != b.m_numBits) - { - ret = FALSE; - } - else - { - for (UINT_32 i = 0; i < m_numBits; i++) - { - if (m_eq[i] != b.m_eq[i]) - { - ret = FALSE; - break; - } - } - } - return ret; -} - -BOOL_32 CoordEq::operator!=(const CoordEq& b) -{ - return !(*this == b); -} - diff --git a/src/amd/addrlib/gfx9/coord.h b/src/amd/addrlib/gfx9/coord.h deleted file mode 100644 index 4243d3069a9..00000000000 --- a/src/amd/addrlib/gfx9/coord.h +++ /dev/null @@ -1,114 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -// Class used to define a coordinate bit - -#ifndef __COORD_H -#define __COORD_H - -class Coordinate -{ -public: - Coordinate(); - Coordinate(INT_8 c, INT_32 n); - - VOID set(INT_8 c, INT_32 n); - UINT_32 ison(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; - INT_8 getdim(); - INT_8 getord(); - - BOOL_32 operator==(const Coordinate& b); - BOOL_32 operator<(const Coordinate& b); - BOOL_32 operator>(const Coordinate& b); - BOOL_32 operator<=(const Coordinate& b); - BOOL_32 operator>=(const Coordinate& b); - BOOL_32 operator!=(const Coordinate& b); - Coordinate& operator++(INT_32); - -private: - INT_8 dim; - INT_8 ord; -}; - -class CoordTerm -{ -public: - CoordTerm(); - VOID Clear(); - VOID add(Coordinate& co); - VOID add(CoordTerm& cl); - BOOL_32 remove(Coordinate& co); - BOOL_32 Exists(Coordinate& co); - VOID copyto(CoordTerm& cl); - UINT_32 getsize(); - UINT_32 getxor(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; - - VOID getsmallest(Coordinate& co); - UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, INT_8 axis = '\0'); - Coordinate& operator[](UINT_32 i); - BOOL_32 operator==(const CoordTerm& b); - BOOL_32 operator!=(const CoordTerm& b); - BOOL_32 exceedRange(UINT_32 xRange, UINT_32 yRange = 0, UINT_32 zRange = 0, UINT_32 sRange = 0); - -private: - static const UINT_32 MaxCoords = 8; - UINT_32 num_coords; - Coordinate m_coord[MaxCoords]; -}; - -class CoordEq -{ -public: - CoordEq(); - VOID remove(Coordinate& co); - BOOL_32 Exists(Coordinate& co); - VOID resize(UINT_32 n); - UINT_32 getsize(); - virtual UINT_64 solve(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; - virtual VOID solveAddr(UINT_64 addr, UINT_32 sliceInM, - UINT_32& x, UINT_32& y, UINT_32& z, UINT_32& s, UINT_32& m) const; - - VOID copy(CoordEq& o, UINT_32 start = 0, UINT_32 num = 0xFFFFFFFF); - VOID reverse(UINT_32 start = 0, UINT_32 num = 0xFFFFFFFF); - VOID xorin(CoordEq& x, UINT_32 start = 0); - UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, INT_8 axis = '\0'); - VOID shift(INT_32 amount, INT_32 start = 0); - virtual CoordTerm& operator[](UINT_32 i); - VOID mort2d(Coordinate& c0, Coordinate& c1, UINT_32 start = 0, UINT_32 end = 0); - VOID mort3d(Coordinate& c0, Coordinate& c1, Coordinate& c2, UINT_32 start = 0, UINT_32 end = 0); - - BOOL_32 operator==(const CoordEq& b); - BOOL_32 operator!=(const CoordEq& b); - -private: - static const UINT_32 MaxEqBits = 64; - UINT_32 m_numBits; - - CoordTerm m_eq[MaxEqBits]; -}; - -#endif - diff --git a/src/amd/addrlib/gfx9/gfx9addrlib.cpp b/src/amd/addrlib/gfx9/gfx9addrlib.cpp deleted file mode 100644 index f115242c89c..00000000000 --- a/src/amd/addrlib/gfx9/gfx9addrlib.cpp +++ /dev/null @@ -1,5016 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -************************************************************************************************************************ -* @file gfx9addrlib.cpp -* @brief Contgfx9ns the implementation for the Gfx9Lib class. -************************************************************************************************************************ -*/ - -#include "gfx9addrlib.h" - -#include "gfx9_gb_reg.h" - -#include "amdgpu_asic_addr.h" - -#include "util/macros.h" - -//////////////////////////////////////////////////////////////////////////////////////////////////// -//////////////////////////////////////////////////////////////////////////////////////////////////// - -namespace Addr -{ - -/** -************************************************************************************************************************ -* Gfx9HwlInit -* -* @brief -* Creates an Gfx9Lib object. -* -* @return -* Returns an Gfx9Lib object pointer. -************************************************************************************************************************ -*/ -Addr::Lib* Gfx9HwlInit(const Client* pClient) -{ - return V2::Gfx9Lib::CreateObj(pClient); -} - -namespace V2 -{ - -//////////////////////////////////////////////////////////////////////////////////////////////////// -// Static Const Member -//////////////////////////////////////////////////////////////////////////////////////////////////// - -const SwizzleModeFlags Gfx9Lib::SwizzleModeTable[ADDR_SW_MAX_TYPE] = -{//Linear 256B 4KB 64KB Var Z Std Disp Rot XOR T RtOpt - {1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, // ADDR_SW_LINEAR - {0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_256B_S - {0, 1, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_256B_D - {0, 1, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_256B_R - - {0, 0, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0}, // ADDR_SW_4KB_Z - {0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_4KB_S - {0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_4KB_D - {0, 0, 1, 0, 0, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_4KB_R - - {0, 0, 0, 1, 0, 1, 0, 0, 0, 0, 0, 0}, // ADDR_SW_64KB_Z - {0, 0, 0, 1, 0, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_64KB_S - {0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_64KB_D - {0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_64KB_R - - {0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0}, // ADDR_SW_VAR_Z - {0, 0, 0, 0, 1, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_VAR_S - {0, 0, 0, 0, 1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_VAR_D - {0, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_VAR_R - - {0, 0, 0, 1, 0, 1, 0, 0, 0, 1, 1, 0}, // ADDR_SW_64KB_Z_T - {0, 0, 0, 1, 0, 0, 1, 0, 0, 1, 1, 0}, // ADDR_SW_64KB_S_T - {0, 0, 0, 1, 0, 0, 0, 1, 0, 1, 1, 0}, // ADDR_SW_64KB_D_T - {0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 1, 0}, // ADDR_SW_64KB_R_T - - {0, 0, 1, 0, 0, 1, 0, 0, 0, 1, 0, 0}, // ADDR_SW_4KB_Z_x - {0, 0, 1, 0, 0, 0, 1, 0, 0, 1, 0, 0}, // ADDR_SW_4KB_S_x - {0, 0, 1, 0, 0, 0, 0, 1, 0, 1, 0, 0}, // ADDR_SW_4KB_D_x - {0, 0, 1, 0, 0, 0, 0, 0, 1, 1, 0, 0}, // ADDR_SW_4KB_R_x - - {0, 0, 0, 1, 0, 1, 0, 0, 0, 1, 0, 0}, // ADDR_SW_64KB_Z_X - {0, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0}, // ADDR_SW_64KB_S_X - {0, 0, 0, 1, 0, 0, 0, 1, 0, 1, 0, 0}, // ADDR_SW_64KB_D_X - {0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 0, 0}, // ADDR_SW_64KB_R_X - - {0, 0, 0, 0, 1, 1, 0, 0, 0, 1, 0, 0}, // ADDR_SW_VAR_Z_X - {0, 0, 0, 0, 1, 0, 1, 0, 0, 1, 0, 0}, // ADDR_SW_VAR_S_X - {0, 0, 0, 0, 1, 0, 0, 1, 0, 1, 0, 0}, // ADDR_SW_VAR_D_X - {0, 0, 0, 0, 1, 0, 0, 0, 1, 1, 0, 0}, // ADDR_SW_VAR_R_X - {1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, // ADDR_SW_LINEAR_GENERAL -}; - -const UINT_32 Gfx9Lib::MipTailOffset256B[] = {2048, 1024, 512, 256, 128, 64, 32, 16, - 8, 6, 5, 4, 3, 2, 1, 0}; - -const Dim3d Gfx9Lib::Block256_3dS[] = {{16, 4, 4}, {8, 4, 4}, {4, 4, 4}, {2, 4, 4}, {1, 4, 4}}; - -const Dim3d Gfx9Lib::Block256_3dZ[] = {{8, 4, 8}, {4, 4, 8}, {4, 4, 4}, {4, 2, 4}, {2, 2, 4}}; - -/** -************************************************************************************************************************ -* Gfx9Lib::Gfx9Lib -* -* @brief -* Constructor -* -************************************************************************************************************************ -*/ -Gfx9Lib::Gfx9Lib(const Client* pClient) - : - Lib(pClient), - m_numEquations(0) -{ - m_class = AI_ADDRLIB; - memset(&m_settings, 0, sizeof(m_settings)); - memcpy(m_swizzleModeTable, SwizzleModeTable, sizeof(SwizzleModeTable)); -} - -/** -************************************************************************************************************************ -* Gfx9Lib::~Gfx9Lib -* -* @brief -* Destructor -************************************************************************************************************************ -*/ -Gfx9Lib::~Gfx9Lib() -{ -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeHtileInfo -* -* @brief -* Interface function stub of AddrComputeHtilenfo -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileInfo( - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - UINT_32 numPipeTotal = GetPipeNumForMetaAddressing(pIn->hTileFlags.pipeAligned, - pIn->swizzleMode); - - UINT_32 numRbTotal = pIn->hTileFlags.rbAligned ? m_se * m_rbPerSe : 1; - - UINT_32 numCompressBlkPerMetaBlk, numCompressBlkPerMetaBlkLog2; - - if ((numPipeTotal == 1) && (numRbTotal == 1)) - { - numCompressBlkPerMetaBlkLog2 = 10; - } - else - { - if (m_settings.applyAliasFix) - { - numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + Max(10u, m_pipeInterleaveLog2); - } - else - { - numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + 10; - } - } - - numCompressBlkPerMetaBlk = 1 << numCompressBlkPerMetaBlkLog2; - - Dim3d metaBlkDim = {8, 8, 1}; - UINT_32 totalAmpBits = numCompressBlkPerMetaBlkLog2; - UINT_32 widthAmp = (pIn->numMipLevels > 1) ? (totalAmpBits >> 1) : RoundHalf(totalAmpBits); - UINT_32 heightAmp = totalAmpBits - widthAmp; - metaBlkDim.w <<= widthAmp; - metaBlkDim.h <<= heightAmp; - -#if DEBUG - Dim3d metaBlkDimDbg = {8, 8, 1}; - for (UINT_32 index = 0; index < numCompressBlkPerMetaBlkLog2; index++) - { - if ((metaBlkDimDbg.h < metaBlkDimDbg.w) || - ((pIn->numMipLevels > 1) && (metaBlkDimDbg.h == metaBlkDimDbg.w))) - { - metaBlkDimDbg.h <<= 1; - } - else - { - metaBlkDimDbg.w <<= 1; - } - } - ADDR_ASSERT((metaBlkDimDbg.w == metaBlkDim.w) && (metaBlkDimDbg.h == metaBlkDim.h)); -#endif - - UINT_32 numMetaBlkX; - UINT_32 numMetaBlkY; - UINT_32 numMetaBlkZ; - - GetMetaMipInfo(pIn->numMipLevels, &metaBlkDim, FALSE, pOut->pMipInfo, - pIn->unalignedWidth, pIn->unalignedHeight, pIn->numSlices, - &numMetaBlkX, &numMetaBlkY, &numMetaBlkZ); - - const UINT_32 metaBlkSize = numCompressBlkPerMetaBlk << 2; - UINT_32 align = numPipeTotal * numRbTotal * m_pipeInterleaveBytes; - - if ((IsXor(pIn->swizzleMode) == FALSE) && (numPipeTotal > 2)) - { - align *= (numPipeTotal >> 1); - } - - align = Max(align, metaBlkSize); - - if (m_settings.metaBaseAlignFix) - { - align = Max(align, GetBlockSize(pIn->swizzleMode)); - } - - if (m_settings.htileAlignFix) - { - const INT_32 metaBlkSizeLog2 = numCompressBlkPerMetaBlkLog2 + 2; - const INT_32 htileCachelineSizeLog2 = 11; - const INT_32 maxNumOfRbMaskBits = 1 + Log2(numPipeTotal) + Log2(numRbTotal); - - INT_32 rbMaskPadding = Max(0, htileCachelineSizeLog2 - (metaBlkSizeLog2 - maxNumOfRbMaskBits)); - - align <<= rbMaskPadding; - } - - pOut->pitch = numMetaBlkX * metaBlkDim.w; - pOut->height = numMetaBlkY * metaBlkDim.h; - pOut->sliceSize = numMetaBlkX * numMetaBlkY * metaBlkSize; - - pOut->metaBlkWidth = metaBlkDim.w; - pOut->metaBlkHeight = metaBlkDim.h; - pOut->metaBlkNumPerSlice = numMetaBlkX * numMetaBlkY; - - pOut->baseAlign = align; - pOut->htileBytes = PowTwoAlign(pOut->sliceSize * numMetaBlkZ, align); - - return ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeCmaskInfo -* -* @brief -* Interface function stub of AddrComputeCmaskInfo -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeCmaskInfo( - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ -// TODO: Clarify with AddrLib team -// ADDR_ASSERT(pIn->resourceType == ADDR_RSRC_TEX_2D); - - UINT_32 numPipeTotal = GetPipeNumForMetaAddressing(pIn->cMaskFlags.pipeAligned, - pIn->swizzleMode); - - UINT_32 numRbTotal = pIn->cMaskFlags.rbAligned ? m_se * m_rbPerSe : 1; - - UINT_32 numCompressBlkPerMetaBlkLog2, numCompressBlkPerMetaBlk; - - if ((numPipeTotal == 1) && (numRbTotal == 1)) - { - numCompressBlkPerMetaBlkLog2 = 13; - } - else - { - if (m_settings.applyAliasFix) - { - numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + Max(10u, m_pipeInterleaveLog2); - } - else - { - numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + 10; - } - - numCompressBlkPerMetaBlkLog2 = Max(numCompressBlkPerMetaBlkLog2, 13u); - } - - numCompressBlkPerMetaBlk = 1 << numCompressBlkPerMetaBlkLog2; - - Dim2d metaBlkDim = {8, 8}; - UINT_32 totalAmpBits = numCompressBlkPerMetaBlkLog2; - UINT_32 heightAmp = totalAmpBits >> 1; - UINT_32 widthAmp = totalAmpBits - heightAmp; - metaBlkDim.w <<= widthAmp; - metaBlkDim.h <<= heightAmp; - -#if DEBUG - Dim2d metaBlkDimDbg = {8, 8}; - for (UINT_32 index = 0; index < numCompressBlkPerMetaBlkLog2; index++) - { - if (metaBlkDimDbg.h < metaBlkDimDbg.w) - { - metaBlkDimDbg.h <<= 1; - } - else - { - metaBlkDimDbg.w <<= 1; - } - } - ADDR_ASSERT((metaBlkDimDbg.w == metaBlkDim.w) && (metaBlkDimDbg.h == metaBlkDim.h)); -#endif - - UINT_32 numMetaBlkX = (pIn->unalignedWidth + metaBlkDim.w - 1) / metaBlkDim.w; - UINT_32 numMetaBlkY = (pIn->unalignedHeight + metaBlkDim.h - 1) / metaBlkDim.h; - UINT_32 numMetaBlkZ = Max(pIn->numSlices, 1u); - - UINT_32 sizeAlign = numPipeTotal * numRbTotal * m_pipeInterleaveBytes; - - if (m_settings.metaBaseAlignFix) - { - sizeAlign = Max(sizeAlign, GetBlockSize(pIn->swizzleMode)); - } - - pOut->pitch = numMetaBlkX * metaBlkDim.w; - pOut->height = numMetaBlkY * metaBlkDim.h; - pOut->sliceSize = (numMetaBlkX * numMetaBlkY * numCompressBlkPerMetaBlk) >> 1; - pOut->cmaskBytes = PowTwoAlign(pOut->sliceSize * numMetaBlkZ, sizeAlign); - pOut->baseAlign = Max(numCompressBlkPerMetaBlk >> 1, sizeAlign); - - pOut->metaBlkWidth = metaBlkDim.w; - pOut->metaBlkHeight = metaBlkDim.h; - - pOut->metaBlkNumPerSlice = numMetaBlkX * numMetaBlkY; - - return ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GetMetaMipInfo -* -* @brief -* Get meta mip info -* -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::GetMetaMipInfo( - UINT_32 numMipLevels, ///< [in] number of mip levels - Dim3d* pMetaBlkDim, ///< [in] meta block dimension - BOOL_32 dataThick, ///< [in] data surface is thick - ADDR2_META_MIP_INFO* pInfo, ///< [out] meta mip info - UINT_32 mip0Width, ///< [in] mip0 width - UINT_32 mip0Height, ///< [in] mip0 height - UINT_32 mip0Depth, ///< [in] mip0 depth - UINT_32* pNumMetaBlkX, ///< [out] number of metablock X in mipchain - UINT_32* pNumMetaBlkY, ///< [out] number of metablock Y in mipchain - UINT_32* pNumMetaBlkZ) ///< [out] number of metablock Z in mipchain - const -{ - UINT_32 numMetaBlkX = (mip0Width + pMetaBlkDim->w - 1) / pMetaBlkDim->w; - UINT_32 numMetaBlkY = (mip0Height + pMetaBlkDim->h - 1) / pMetaBlkDim->h; - UINT_32 numMetaBlkZ = (mip0Depth + pMetaBlkDim->d - 1) / pMetaBlkDim->d; - UINT_32 tailWidth = pMetaBlkDim->w; - UINT_32 tailHeight = pMetaBlkDim->h >> 1; - UINT_32 tailDepth = pMetaBlkDim->d; - BOOL_32 inTail = FALSE; - AddrMajorMode major = ADDR_MAJOR_MAX_TYPE; - - if (numMipLevels > 1) - { - if (dataThick && (numMetaBlkZ > numMetaBlkX) && (numMetaBlkZ > numMetaBlkY)) - { - // Z major - major = ADDR_MAJOR_Z; - } - else if (numMetaBlkX >= numMetaBlkY) - { - // X major - major = ADDR_MAJOR_X; - } - else - { - // Y major - major = ADDR_MAJOR_Y; - } - - inTail = ((mip0Width <= tailWidth) && - (mip0Height <= tailHeight) && - ((dataThick == FALSE) || (mip0Depth <= tailDepth))); - - if (inTail == FALSE) - { - UINT_32 orderLimit; - UINT_32 *pMipDim; - UINT_32 *pOrderDim; - - if (major == ADDR_MAJOR_Z) - { - // Z major - pMipDim = &numMetaBlkY; - pOrderDim = &numMetaBlkZ; - orderLimit = 4; - } - else if (major == ADDR_MAJOR_X) - { - // X major - pMipDim = &numMetaBlkY; - pOrderDim = &numMetaBlkX; - orderLimit = 4; - } - else - { - // Y major - pMipDim = &numMetaBlkX; - pOrderDim = &numMetaBlkY; - orderLimit = 2; - } - - if ((*pMipDim < 3) && (*pOrderDim > orderLimit) && (numMipLevels > 3)) - { - *pMipDim += 2; - } - else - { - *pMipDim += ((*pMipDim / 2) + (*pMipDim & 1)); - } - } - } - - if (pInfo != NULL) - { - UINT_32 mipWidth = mip0Width; - UINT_32 mipHeight = mip0Height; - UINT_32 mipDepth = mip0Depth; - Dim3d mipCoord = {0}; - - for (UINT_32 mip = 0; mip < numMipLevels; mip++) - { - if (inTail) - { - GetMetaMiptailInfo(&pInfo[mip], mipCoord, numMipLevels - mip, - pMetaBlkDim); - break; - } - else - { - mipWidth = PowTwoAlign(mipWidth, pMetaBlkDim->w); - mipHeight = PowTwoAlign(mipHeight, pMetaBlkDim->h); - mipDepth = PowTwoAlign(mipDepth, pMetaBlkDim->d); - - pInfo[mip].inMiptail = FALSE; - pInfo[mip].startX = mipCoord.w; - pInfo[mip].startY = mipCoord.h; - pInfo[mip].startZ = mipCoord.d; - pInfo[mip].width = mipWidth; - pInfo[mip].height = mipHeight; - pInfo[mip].depth = dataThick ? mipDepth : 1; - - if ((mip >= 3) || (mip & 1)) - { - switch (major) - { - case ADDR_MAJOR_X: - mipCoord.w += mipWidth; - break; - case ADDR_MAJOR_Y: - mipCoord.h += mipHeight; - break; - case ADDR_MAJOR_Z: - mipCoord.d += mipDepth; - break; - default: - break; - } - } - else - { - switch (major) - { - case ADDR_MAJOR_X: - mipCoord.h += mipHeight; - break; - case ADDR_MAJOR_Y: - mipCoord.w += mipWidth; - break; - case ADDR_MAJOR_Z: - mipCoord.h += mipHeight; - break; - default: - break; - } - } - - mipWidth = Max(mipWidth >> 1, 1u); - mipHeight = Max(mipHeight >> 1, 1u); - mipDepth = Max(mipDepth >> 1, 1u); - - inTail = ((mipWidth <= tailWidth) && - (mipHeight <= tailHeight) && - ((dataThick == FALSE) || (mipDepth <= tailDepth))); - } - } - } - - *pNumMetaBlkX = numMetaBlkX; - *pNumMetaBlkY = numMetaBlkY; - *pNumMetaBlkZ = numMetaBlkZ; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeDccInfo -* -* @brief -* Interface function to compute DCC key info -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeDccInfo( - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - BOOL_32 dataLinear = IsLinear(pIn->swizzleMode); - BOOL_32 metaLinear = pIn->dccKeyFlags.linear; - BOOL_32 pipeAligned = pIn->dccKeyFlags.pipeAligned; - - if (dataLinear) - { - metaLinear = TRUE; - } - else if (metaLinear == TRUE) - { - pipeAligned = FALSE; - } - - UINT_32 numPipeTotal = GetPipeNumForMetaAddressing(pipeAligned, pIn->swizzleMode); - - if (metaLinear) - { - // Linear metadata supporting was removed for GFX9! No one can use this feature on GFX9. - ADDR_ASSERT_ALWAYS(); - - pOut->dccRamBaseAlign = numPipeTotal * m_pipeInterleaveBytes; - pOut->dccRamSize = PowTwoAlign((pIn->dataSurfaceSize / 256), pOut->dccRamBaseAlign); - } - else - { - BOOL_32 dataThick = IsThick(pIn->resourceType, pIn->swizzleMode); - - UINT_32 minMetaBlkSize = dataThick ? 65536 : 4096; - - UINT_32 numFrags = Max(pIn->numFrags, 1u); - UINT_32 numSlices = Max(pIn->numSlices, 1u); - - minMetaBlkSize /= numFrags; - - UINT_32 numCompressBlkPerMetaBlk = minMetaBlkSize; - - UINT_32 numRbTotal = pIn->dccKeyFlags.rbAligned ? m_se * m_rbPerSe : 1; - - if ((numPipeTotal > 1) || (numRbTotal > 1)) - { - const UINT_32 thinBlkSize = 1 << (m_settings.applyAliasFix ? Max(10u, m_pipeInterleaveLog2) : 10); - - numCompressBlkPerMetaBlk = - Max(numCompressBlkPerMetaBlk, m_se * m_rbPerSe * (dataThick ? 262144 : thinBlkSize)); - - if (numCompressBlkPerMetaBlk > 65536 * pIn->bpp) - { - numCompressBlkPerMetaBlk = 65536 * pIn->bpp; - } - } - - Dim3d compressBlkDim = GetDccCompressBlk(pIn->resourceType, pIn->swizzleMode, pIn->bpp); - Dim3d metaBlkDim = compressBlkDim; - - for (UINT_32 index = 1; index < numCompressBlkPerMetaBlk; index <<= 1) - { - if ((metaBlkDim.h < metaBlkDim.w) || - ((pIn->numMipLevels > 1) && (metaBlkDim.h == metaBlkDim.w))) - { - if ((dataThick == FALSE) || (metaBlkDim.h <= metaBlkDim.d)) - { - metaBlkDim.h <<= 1; - } - else - { - metaBlkDim.d <<= 1; - } - } - else - { - if ((dataThick == FALSE) || (metaBlkDim.w <= metaBlkDim.d)) - { - metaBlkDim.w <<= 1; - } - else - { - metaBlkDim.d <<= 1; - } - } - } - - UINT_32 numMetaBlkX; - UINT_32 numMetaBlkY; - UINT_32 numMetaBlkZ; - - GetMetaMipInfo(pIn->numMipLevels, &metaBlkDim, dataThick, pOut->pMipInfo, - pIn->unalignedWidth, pIn->unalignedHeight, numSlices, - &numMetaBlkX, &numMetaBlkY, &numMetaBlkZ); - - UINT_32 sizeAlign = numPipeTotal * numRbTotal * m_pipeInterleaveBytes; - - if (numFrags > m_maxCompFrag) - { - sizeAlign *= (numFrags / m_maxCompFrag); - } - - if (m_settings.metaBaseAlignFix) - { - sizeAlign = Max(sizeAlign, GetBlockSize(pIn->swizzleMode)); - } - - pOut->dccRamSize = numMetaBlkX * numMetaBlkY * numMetaBlkZ * - numCompressBlkPerMetaBlk * numFrags; - pOut->dccRamSize = PowTwoAlign(pOut->dccRamSize, sizeAlign); - pOut->dccRamBaseAlign = Max(numCompressBlkPerMetaBlk, sizeAlign); - - pOut->pitch = numMetaBlkX * metaBlkDim.w; - pOut->height = numMetaBlkY * metaBlkDim.h; - pOut->depth = numMetaBlkZ * metaBlkDim.d; - - pOut->compressBlkWidth = compressBlkDim.w; - pOut->compressBlkHeight = compressBlkDim.h; - pOut->compressBlkDepth = compressBlkDim.d; - - pOut->metaBlkWidth = metaBlkDim.w; - pOut->metaBlkHeight = metaBlkDim.h; - pOut->metaBlkDepth = metaBlkDim.d; - - pOut->metaBlkNumPerSlice = numMetaBlkX * numMetaBlkY; - pOut->fastClearSizePerSlice = - pOut->metaBlkNumPerSlice * numCompressBlkPerMetaBlk * Min(numFrags, m_maxCompFrag); - } - - return ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeMaxBaseAlignments -* -* @brief -* Gets maximum alignments -* @return -* maximum alignments -************************************************************************************************************************ -*/ -UINT_32 Gfx9Lib::HwlComputeMaxBaseAlignments() const -{ - return ComputeSurfaceBaseAlignTiled(ADDR_SW_64KB); -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeMaxMetaBaseAlignments -* -* @brief -* Gets maximum alignments for metadata -* @return -* maximum alignments for metadata -************************************************************************************************************************ -*/ -UINT_32 Gfx9Lib::HwlComputeMaxMetaBaseAlignments() const -{ - // Max base alignment for Htile - const UINT_32 maxNumPipeTotal = GetPipeNumForMetaAddressing(TRUE, ADDR_SW_64KB_Z); - const UINT_32 maxNumRbTotal = m_se * m_rbPerSe; - - // If applyAliasFix was set, the extra bits should be MAX(10u, m_pipeInterleaveLog2), - // but we never saw any ASIC whose m_pipeInterleaveLog2 != 8, so just put an assertion and simply the logic. - ADDR_ASSERT((m_settings.applyAliasFix == FALSE) || (m_pipeInterleaveLog2 <= 10u)); - const UINT_32 maxNumCompressBlkPerMetaBlk = 1u << (m_seLog2 + m_rbPerSeLog2 + 10u); - - UINT_32 maxBaseAlignHtile = maxNumPipeTotal * maxNumRbTotal * m_pipeInterleaveBytes; - - if (maxNumPipeTotal > 2) - { - maxBaseAlignHtile *= (maxNumPipeTotal >> 1); - } - - maxBaseAlignHtile = Max(maxNumCompressBlkPerMetaBlk << 2, maxBaseAlignHtile); - - if (m_settings.metaBaseAlignFix) - { - maxBaseAlignHtile = Max(maxBaseAlignHtile, GetBlockSize(ADDR_SW_64KB)); - } - - if (m_settings.htileAlignFix) - { - maxBaseAlignHtile *= maxNumPipeTotal; - } - - // Max base alignment for Cmask will not be larger than that for Htile, no need to calculate - - // Max base alignment for 2D Dcc will not be larger than that for 3D, no need to calculate - UINT_32 maxBaseAlignDcc3D = 65536; - - if ((maxNumPipeTotal > 1) || (maxNumRbTotal > 1)) - { - maxBaseAlignDcc3D = Min(m_se * m_rbPerSe * 262144, 65536 * 128u); - } - - // Max base alignment for Msaa Dcc - UINT_32 maxBaseAlignDccMsaa = maxNumPipeTotal * maxNumRbTotal * m_pipeInterleaveBytes * (8 / m_maxCompFrag); - - if (m_settings.metaBaseAlignFix) - { - maxBaseAlignDccMsaa = Max(maxBaseAlignDccMsaa, GetBlockSize(ADDR_SW_64KB)); - } - - return Max(maxBaseAlignHtile, Max(maxBaseAlignDccMsaa, maxBaseAlignDcc3D)); -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeCmaskAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeCmaskAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeCmaskAddrFromCoord( - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure -{ - ADDR2_COMPUTE_CMASK_INFO_INPUT input = {0}; - input.size = sizeof(input); - input.cMaskFlags = pIn->cMaskFlags; - input.colorFlags = pIn->colorFlags; - input.unalignedWidth = Max(pIn->unalignedWidth, 1u); - input.unalignedHeight = Max(pIn->unalignedHeight, 1u); - input.numSlices = Max(pIn->numSlices, 1u); - input.swizzleMode = pIn->swizzleMode; - input.resourceType = pIn->resourceType; - - ADDR2_COMPUTE_CMASK_INFO_OUTPUT output = {0}; - output.size = sizeof(output); - - ADDR_E_RETURNCODE returnCode = ComputeCmaskInfo(&input, &output); - - if (returnCode == ADDR_OK) - { - UINT_32 fmaskBpp = GetFmaskBpp(pIn->numSamples, pIn->numFrags); - UINT_32 fmaskElementBytesLog2 = Log2(fmaskBpp >> 3); - UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); - UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); - - MetaEqParams metaEqParams = {0, fmaskElementBytesLog2, 0, pIn->cMaskFlags, - Gfx9DataFmask, pIn->swizzleMode, pIn->resourceType, - metaBlkWidthLog2, metaBlkHeightLog2, 0, 3, 3, 0}; - - const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); - - UINT_32 xb = pIn->x / output.metaBlkWidth; - UINT_32 yb = pIn->y / output.metaBlkHeight; - UINT_32 zb = pIn->slice; - - UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; - UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; - UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - - UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, 0, blockIndex); - - pOut->addr = address >> 1; - pOut->bitPosition = static_cast((address & 1) << 2); - - - UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->cMaskFlags.pipeAligned, - pIn->swizzleMode); - - UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); - - pOut->addr ^= (pipeXor << m_pipeInterleaveLog2); - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeHtileAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeHtileAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileAddrFromCoord( - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pIn->numMipLevels > 1) - { - returnCode = ADDR_NOTIMPLEMENTED; - } - else - { - ADDR2_COMPUTE_HTILE_INFO_INPUT input = {0}; - input.size = sizeof(input); - input.hTileFlags = pIn->hTileFlags; - input.depthFlags = pIn->depthflags; - input.swizzleMode = pIn->swizzleMode; - input.unalignedWidth = Max(pIn->unalignedWidth, 1u); - input.unalignedHeight = Max(pIn->unalignedHeight, 1u); - input.numSlices = Max(pIn->numSlices, 1u); - input.numMipLevels = Max(pIn->numMipLevels, 1u); - - ADDR2_COMPUTE_HTILE_INFO_OUTPUT output = {0}; - output.size = sizeof(output); - - returnCode = ComputeHtileInfo(&input, &output); - - if (returnCode == ADDR_OK) - { - UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); - UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); - UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); - UINT_32 numSamplesLog2 = Log2(pIn->numSamples); - - MetaEqParams metaEqParams = {0, elementBytesLog2, numSamplesLog2, pIn->hTileFlags, - Gfx9DataDepthStencil, pIn->swizzleMode, ADDR_RSRC_TEX_2D, - metaBlkWidthLog2, metaBlkHeightLog2, 0, 3, 3, 0}; - - const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); - - UINT_32 xb = pIn->x / output.metaBlkWidth; - UINT_32 yb = pIn->y / output.metaBlkHeight; - UINT_32 zb = pIn->slice; - - UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; - UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; - UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - - UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, 0, blockIndex); - - pOut->addr = address >> 1; - - UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->hTileFlags.pipeAligned, - pIn->swizzleMode); - - UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); - - pOut->addr ^= (pipeXor << m_pipeInterleaveLog2); - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeHtileCoordFromAddr -* -* @brief -* Interface function stub of AddrComputeHtileCoordFromAddr -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileCoordFromAddr( - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (pIn->numMipLevels > 1) - { - returnCode = ADDR_NOTIMPLEMENTED; - } - else - { - ADDR2_COMPUTE_HTILE_INFO_INPUT input = {0}; - input.size = sizeof(input); - input.hTileFlags = pIn->hTileFlags; - input.swizzleMode = pIn->swizzleMode; - input.unalignedWidth = Max(pIn->unalignedWidth, 1u); - input.unalignedHeight = Max(pIn->unalignedHeight, 1u); - input.numSlices = Max(pIn->numSlices, 1u); - input.numMipLevels = Max(pIn->numMipLevels, 1u); - - ADDR2_COMPUTE_HTILE_INFO_OUTPUT output = {0}; - output.size = sizeof(output); - - returnCode = ComputeHtileInfo(&input, &output); - - if (returnCode == ADDR_OK) - { - UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); - UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); - UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); - UINT_32 numSamplesLog2 = Log2(pIn->numSamples); - - MetaEqParams metaEqParams = {0, elementBytesLog2, numSamplesLog2, pIn->hTileFlags, - Gfx9DataDepthStencil, pIn->swizzleMode, ADDR_RSRC_TEX_2D, - metaBlkWidthLog2, metaBlkHeightLog2, 0, 3, 3, 0}; - - const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); - - UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->hTileFlags.pipeAligned, - pIn->swizzleMode); - - UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); - - UINT_64 nibbleAddress = (pIn->addr ^ (pipeXor << m_pipeInterleaveLog2)) << 1; - - UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; - UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; - - UINT_32 x, y, z, s, m; - pMetaEq->solveAddr(nibbleAddress, sliceSizeInBlock, x, y, z, s, m); - - pOut->slice = m / sliceSizeInBlock; - pOut->y = ((m % sliceSizeInBlock) / pitchInBlock) * output.metaBlkHeight + y; - pOut->x = (m % pitchInBlock) * output.metaBlkWidth + x; - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeDccAddrFromCoord -* -* @brief -* Interface function stub of AddrComputeDccAddrFromCoord -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeDccAddrFromCoord( - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if ((pIn->numMipLevels > 1) || (pIn->mipId > 1) || pIn->dccKeyFlags.linear) - { - returnCode = ADDR_NOTIMPLEMENTED; - } - else - { - ADDR2_COMPUTE_DCCINFO_INPUT input = {0}; - input.size = sizeof(input); - input.dccKeyFlags = pIn->dccKeyFlags; - input.colorFlags = pIn->colorFlags; - input.swizzleMode = pIn->swizzleMode; - input.resourceType = pIn->resourceType; - input.bpp = pIn->bpp; - input.unalignedWidth = Max(pIn->unalignedWidth, 1u); - input.unalignedHeight = Max(pIn->unalignedHeight, 1u); - input.numSlices = Max(pIn->numSlices, 1u); - input.numFrags = Max(pIn->numFrags, 1u); - input.numMipLevels = Max(pIn->numMipLevels, 1u); - - ADDR2_COMPUTE_DCCINFO_OUTPUT output = {0}; - output.size = sizeof(output); - - returnCode = ComputeDccInfo(&input, &output); - - if (returnCode == ADDR_OK) - { - UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); - UINT_32 numSamplesLog2 = Log2(pIn->numFrags); - UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); - UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); - UINT_32 metaBlkDepthLog2 = Log2(output.metaBlkDepth); - UINT_32 compBlkWidthLog2 = Log2(output.compressBlkWidth); - UINT_32 compBlkHeightLog2 = Log2(output.compressBlkHeight); - UINT_32 compBlkDepthLog2 = Log2(output.compressBlkDepth); - - MetaEqParams metaEqParams = {pIn->mipId, elementBytesLog2, numSamplesLog2, pIn->dccKeyFlags, - Gfx9DataColor, pIn->swizzleMode, pIn->resourceType, - metaBlkWidthLog2, metaBlkHeightLog2, metaBlkDepthLog2, - compBlkWidthLog2, compBlkHeightLog2, compBlkDepthLog2}; - - const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); - - UINT_32 xb = pIn->x / output.metaBlkWidth; - UINT_32 yb = pIn->y / output.metaBlkHeight; - UINT_32 zb = pIn->slice / output.metaBlkDepth; - - UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; - UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; - UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - - UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, pIn->sample, blockIndex); - - pOut->addr = address >> 1; - - UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->dccKeyFlags.pipeAligned, - pIn->swizzleMode); - - UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); - - pOut->addr ^= (pipeXor << m_pipeInterleaveLog2); - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlInitGlobalParams -* -* @brief -* Initializes global parameters -* -* @return -* TRUE if all settings are valid -* -************************************************************************************************************************ -*/ -BOOL_32 Gfx9Lib::HwlInitGlobalParams( - const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input -{ - BOOL_32 valid = TRUE; - - if (m_settings.isArcticIsland) - { - GB_ADDR_CONFIG gbAddrConfig; - - gbAddrConfig.u32All = pCreateIn->regValue.gbAddrConfig; - - // These values are copied from CModel code - switch (gbAddrConfig.bits.NUM_PIPES) - { - case ADDR_CONFIG_1_PIPE: - m_pipes = 1; - m_pipesLog2 = 0; - break; - case ADDR_CONFIG_2_PIPE: - m_pipes = 2; - m_pipesLog2 = 1; - break; - case ADDR_CONFIG_4_PIPE: - m_pipes = 4; - m_pipesLog2 = 2; - break; - case ADDR_CONFIG_8_PIPE: - m_pipes = 8; - m_pipesLog2 = 3; - break; - case ADDR_CONFIG_16_PIPE: - m_pipes = 16; - m_pipesLog2 = 4; - break; - case ADDR_CONFIG_32_PIPE: - m_pipes = 32; - m_pipesLog2 = 5; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - switch (gbAddrConfig.bits.PIPE_INTERLEAVE_SIZE) - { - case ADDR_CONFIG_PIPE_INTERLEAVE_256B: - m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_256B; - m_pipeInterleaveLog2 = 8; - break; - case ADDR_CONFIG_PIPE_INTERLEAVE_512B: - m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_512B; - m_pipeInterleaveLog2 = 9; - break; - case ADDR_CONFIG_PIPE_INTERLEAVE_1KB: - m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_1KB; - m_pipeInterleaveLog2 = 10; - break; - case ADDR_CONFIG_PIPE_INTERLEAVE_2KB: - m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_2KB; - m_pipeInterleaveLog2 = 11; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - // Addr::V2::Lib::ComputePipeBankXor()/ComputeSlicePipeBankXor() requires pipe interleave to be exactly 8 bits, - // and any larger value requires a post-process (left shift) on the output pipeBankXor bits. - ADDR_ASSERT(m_pipeInterleaveBytes == ADDR_PIPEINTERLEAVE_256B); - - switch (gbAddrConfig.bits.NUM_BANKS) - { - case ADDR_CONFIG_1_BANK: - m_banks = 1; - m_banksLog2 = 0; - break; - case ADDR_CONFIG_2_BANK: - m_banks = 2; - m_banksLog2 = 1; - break; - case ADDR_CONFIG_4_BANK: - m_banks = 4; - m_banksLog2 = 2; - break; - case ADDR_CONFIG_8_BANK: - m_banks = 8; - m_banksLog2 = 3; - break; - case ADDR_CONFIG_16_BANK: - m_banks = 16; - m_banksLog2 = 4; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - switch (gbAddrConfig.bits.NUM_SHADER_ENGINES) - { - case ADDR_CONFIG_1_SHADER_ENGINE: - m_se = 1; - m_seLog2 = 0; - break; - case ADDR_CONFIG_2_SHADER_ENGINE: - m_se = 2; - m_seLog2 = 1; - break; - case ADDR_CONFIG_4_SHADER_ENGINE: - m_se = 4; - m_seLog2 = 2; - break; - case ADDR_CONFIG_8_SHADER_ENGINE: - m_se = 8; - m_seLog2 = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - switch (gbAddrConfig.bits.NUM_RB_PER_SE) - { - case ADDR_CONFIG_1_RB_PER_SHADER_ENGINE: - m_rbPerSe = 1; - m_rbPerSeLog2 = 0; - break; - case ADDR_CONFIG_2_RB_PER_SHADER_ENGINE: - m_rbPerSe = 2; - m_rbPerSeLog2 = 1; - break; - case ADDR_CONFIG_4_RB_PER_SHADER_ENGINE: - m_rbPerSe = 4; - m_rbPerSeLog2 = 2; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - switch (gbAddrConfig.bits.MAX_COMPRESSED_FRAGS) - { - case ADDR_CONFIG_1_MAX_COMPRESSED_FRAGMENTS: - m_maxCompFrag = 1; - m_maxCompFragLog2 = 0; - break; - case ADDR_CONFIG_2_MAX_COMPRESSED_FRAGMENTS: - m_maxCompFrag = 2; - m_maxCompFragLog2 = 1; - break; - case ADDR_CONFIG_4_MAX_COMPRESSED_FRAGMENTS: - m_maxCompFrag = 4; - m_maxCompFragLog2 = 2; - break; - case ADDR_CONFIG_8_MAX_COMPRESSED_FRAGMENTS: - m_maxCompFrag = 8; - m_maxCompFragLog2 = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - m_blockVarSizeLog2 = pCreateIn->regValue.blockVarSizeLog2; - ADDR_ASSERT((m_blockVarSizeLog2 == 0) || - ((m_blockVarSizeLog2 >= 17u) && (m_blockVarSizeLog2 <= 20u))); - m_blockVarSizeLog2 = Min(Max(17u, m_blockVarSizeLog2), 20u); - - if ((m_rbPerSeLog2 == 1) && - (((m_pipesLog2 == 1) && ((m_seLog2 == 2) || (m_seLog2 == 3))) || - ((m_pipesLog2 == 2) && ((m_seLog2 == 1) || (m_seLog2 == 2))))) - { - ADDR_ASSERT(m_settings.isVega10 == FALSE); - ADDR_ASSERT(m_settings.isRaven == FALSE); - ADDR_ASSERT(m_settings.isVega20 == FALSE); - - if (m_settings.isVega12) - { - m_settings.htileCacheRbConflict = 1; - } - } - } - else - { - valid = FALSE; - ADDR_NOT_IMPLEMENTED(); - } - - if (valid) - { - InitEquationTable(); - } - - return valid; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlConvertChipFamily -* -* @brief -* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision -* @return -* ChipFamily -************************************************************************************************************************ -*/ -ChipFamily Gfx9Lib::HwlConvertChipFamily( - UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h - UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h -{ - ChipFamily family = ADDR_CHIP_FAMILY_AI; - - switch (uChipFamily) - { - case FAMILY_AI: - m_settings.isArcticIsland = 1; - m_settings.isVega10 = ASICREV_IS_VEGA10_P(uChipRevision); - m_settings.isVega12 = ASICREV_IS_VEGA12_P(uChipRevision); - m_settings.isVega20 = ASICREV_IS_VEGA20_P(uChipRevision); - m_settings.isDce12 = 1; - - if (m_settings.isVega10 == 0) - { - m_settings.htileAlignFix = 1; - m_settings.applyAliasFix = 1; - } - - m_settings.metaBaseAlignFix = 1; - - m_settings.depthPipeXorDisable = 1; - break; - case FAMILY_RV: - m_settings.isArcticIsland = 1; - m_settings.isRaven = ASICREV_IS_RAVEN(uChipRevision) || ASICREV_IS_RAVEN2(uChipRevision); - - if (m_settings.isRaven) - { - m_settings.isDcn1 = 1; - } - - m_settings.metaBaseAlignFix = 1; - - if (ASICREV_IS_RAVEN(uChipRevision)) - { - m_settings.depthPipeXorDisable = 1; - } - break; - - default: - ADDR_ASSERT(!"This should be a Fusion"); - break; - } - - return family; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::InitRbEquation -* -* @brief -* Init RB equation -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::GetRbEquation( - CoordEq* pRbEq, ///< [out] rb equation - UINT_32 numRbPerSeLog2, ///< [in] number of rb per shader engine - UINT_32 numSeLog2) ///< [in] number of shader engine - const -{ - // RB's are distributed on 16x16, except when we have 1 rb per se, in which case its 32x32 - UINT_32 rbRegion = (numRbPerSeLog2 == 0) ? 5 : 4; - Coordinate cx('x', rbRegion); - Coordinate cy('y', rbRegion); - - UINT_32 start = 0; - UINT_32 numRbTotalLog2 = numRbPerSeLog2 + numSeLog2; - - // Clear the rb equation - pRbEq->resize(0); - pRbEq->resize(numRbTotalLog2); - - if ((numSeLog2 > 0) && (numRbPerSeLog2 == 1)) - { - // Special case when more than 1 SE, and 2 RB per SE - (*pRbEq)[0].add(cx); - (*pRbEq)[0].add(cy); - cx++; - cy++; - - if (m_settings.applyAliasFix == false) - { - (*pRbEq)[0].add(cy); - } - - (*pRbEq)[0].add(cy); - start++; - } - - UINT_32 numBits = 2 * (numRbTotalLog2 - start); - - for (UINT_32 i = 0; i < numBits; i++) - { - UINT_32 idx = - start + (((start + i) >= numRbTotalLog2) ? (2 * (numRbTotalLog2 - start) - i - 1) : i); - - if ((i % 2) == 1) - { - (*pRbEq)[idx].add(cx); - cx++; - } - else - { - (*pRbEq)[idx].add(cy); - cy++; - } - } -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GetDataEquation -* -* @brief -* Get data equation for fmask and Z -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::GetDataEquation( - CoordEq* pDataEq, ///< [out] data surface equation - Gfx9DataType dataSurfaceType, ///< [in] data surface type - AddrSwizzleMode swizzleMode, ///< [in] data surface swizzle mode - AddrResourceType resourceType, ///< [in] data surface resource type - UINT_32 elementBytesLog2, ///< [in] data surface element bytes - UINT_32 numSamplesLog2) ///< [in] data surface sample count - const -{ - Coordinate cx('x', 0); - Coordinate cy('y', 0); - Coordinate cz('z', 0); - Coordinate cs('s', 0); - - // Clear the equation - pDataEq->resize(0); - pDataEq->resize(27); - - if (dataSurfaceType == Gfx9DataColor) - { - if (IsLinear(swizzleMode)) - { - Coordinate cm('m', 0); - - pDataEq->resize(49); - - for (UINT_32 i = 0; i < 49; i++) - { - (*pDataEq)[i].add(cm); - cm++; - } - } - else if (IsThick(resourceType, swizzleMode)) - { - // Color 3d_S and 3d_Z modes, 3d_D is same as color 2d - UINT_32 i; - if (IsStandardSwizzle(resourceType, swizzleMode)) - { - // Standard 3d swizzle - // Fill in bottom x bits - for (i = elementBytesLog2; i < 4; i++) - { - (*pDataEq)[i].add(cx); - cx++; - } - // Fill in 2 bits of y and then z - for (i = 4; i < 6; i++) - { - (*pDataEq)[i].add(cy); - cy++; - } - for (i = 6; i < 8; i++) - { - (*pDataEq)[i].add(cz); - cz++; - } - if (elementBytesLog2 < 2) - { - // fill in z & y bit - (*pDataEq)[8].add(cz); - (*pDataEq)[9].add(cy); - cz++; - cy++; - } - else if (elementBytesLog2 == 2) - { - // fill in y and x bit - (*pDataEq)[8].add(cy); - (*pDataEq)[9].add(cx); - cy++; - cx++; - } - else - { - // fill in 2 x bits - (*pDataEq)[8].add(cx); - cx++; - (*pDataEq)[9].add(cx); - cx++; - } - } - else - { - // Z 3d swizzle - UINT_32 m2dEnd = (elementBytesLog2 ==0) ? 3 : ((elementBytesLog2 < 4) ? 4 : 5); - UINT_32 numZs = (elementBytesLog2 == 0 || elementBytesLog2 == 4) ? - 2 : ((elementBytesLog2 == 1) ? 3 : 1); - pDataEq->mort2d(cx, cy, elementBytesLog2, m2dEnd); - for (i = m2dEnd + 1; i <= m2dEnd + numZs; i++) - { - (*pDataEq)[i].add(cz); - cz++; - } - if ((elementBytesLog2 == 0) || (elementBytesLog2 == 3)) - { - // add an x and z - (*pDataEq)[6].add(cx); - (*pDataEq)[7].add(cz); - cx++; - cz++; - } - else if (elementBytesLog2 == 2) - { - // add a y and z - (*pDataEq)[6].add(cy); - (*pDataEq)[7].add(cz); - cy++; - cz++; - } - // add y and x - (*pDataEq)[8].add(cy); - (*pDataEq)[9].add(cx); - cy++; - cx++; - } - // Fill in bit 10 and up - pDataEq->mort3d( cz, cy, cx, 10 ); - } - else if (IsThin(resourceType, swizzleMode)) - { - UINT_32 blockSizeLog2 = GetBlockSizeLog2(swizzleMode); - // Color 2D - UINT_32 microYBits = (8 - elementBytesLog2) / 2; - UINT_32 tileSplitStart = blockSizeLog2 - numSamplesLog2; - UINT_32 i; - // Fill in bottom x bits - for (i = elementBytesLog2; i < 4; i++) - { - (*pDataEq)[i].add(cx); - cx++; - } - // Fill in bottom y bits - for (i = 4; i < 4 + microYBits; i++) - { - (*pDataEq)[i].add(cy); - cy++; - } - // Fill in last of the micro_x bits - for (i = 4 + microYBits; i < 8; i++) - { - (*pDataEq)[i].add(cx); - cx++; - } - // Fill in x/y bits below sample split - pDataEq->mort2d(cy, cx, 8, tileSplitStart - 1); - // Fill in sample bits - for (i = 0; i < numSamplesLog2; i++) - { - cs.set('s', i); - (*pDataEq)[tileSplitStart + i].add(cs); - } - // Fill in x/y bits above sample split - if ((numSamplesLog2 & 1) ^ (blockSizeLog2 & 1)) - { - pDataEq->mort2d(cx, cy, blockSizeLog2); - } - else - { - pDataEq->mort2d(cy, cx, blockSizeLog2); - } - } - else - { - ADDR_ASSERT_ALWAYS(); - } - } - else - { - // Fmask or depth - UINT_32 sampleStart = elementBytesLog2; - UINT_32 pixelStart = elementBytesLog2 + numSamplesLog2; - UINT_32 ymajStart = 6 + numSamplesLog2; - - for (UINT_32 s = 0; s < numSamplesLog2; s++) - { - cs.set('s', s); - (*pDataEq)[sampleStart + s].add(cs); - } - - // Put in the x-major order pixel bits - pDataEq->mort2d(cx, cy, pixelStart, ymajStart - 1); - // Put in the y-major order pixel bits - pDataEq->mort2d(cy, cx, ymajStart); - } -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GetPipeEquation -* -* @brief -* Get pipe equation -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::GetPipeEquation( - CoordEq* pPipeEq, ///< [out] pipe equation - CoordEq* pDataEq, ///< [in] data equation - UINT_32 pipeInterleaveLog2, ///< [in] pipe interleave - UINT_32 numPipeLog2, ///< [in] number of pipes - UINT_32 numSamplesLog2, ///< [in] data surface sample count - Gfx9DataType dataSurfaceType, ///< [in] data surface type - AddrSwizzleMode swizzleMode, ///< [in] data surface swizzle mode - AddrResourceType resourceType ///< [in] data surface resource type - ) const -{ - UINT_32 blockSizeLog2 = GetBlockSizeLog2(swizzleMode); - CoordEq dataEq; - - pDataEq->copy(dataEq); - - if (dataSurfaceType == Gfx9DataColor) - { - INT_32 shift = static_cast(numSamplesLog2); - dataEq.shift(-shift, blockSizeLog2 - numSamplesLog2); - } - - dataEq.copy(*pPipeEq, pipeInterleaveLog2, numPipeLog2); - - // This section should only apply to z/stencil, maybe fmask - // If the pipe bit is below the comp block size, - // then keep moving up the address until we find a bit that is above - UINT_32 pipeStart = 0; - - if (dataSurfaceType != Gfx9DataColor) - { - Coordinate tileMin('x', 3); - - while (dataEq[pipeInterleaveLog2 + pipeStart][0] < tileMin) - { - pipeStart++; - } - - // if pipe is 0, then the first pipe bit is above the comp block size, - // so we don't need to do anything - // Note, this if condition is not necessary, since if we execute the loop when pipe==0, - // we will get the same pipe equation - if (pipeStart != 0) - { - for (UINT_32 i = 0; i < numPipeLog2; i++) - { - // Copy the jth bit above pipe interleave to the current pipe equation bit - dataEq[pipeInterleaveLog2 + pipeStart + i].copyto((*pPipeEq)[i]); - } - } - } - - if (IsPrt(swizzleMode)) - { - // Clear out bits above the block size if prt's are enabled - dataEq.resize(blockSizeLog2); - dataEq.resize(48); - } - - if (IsXor(swizzleMode)) - { - CoordEq xorMask; - - if (IsThick(resourceType, swizzleMode)) - { - CoordEq xorMask2; - - dataEq.copy(xorMask2, pipeInterleaveLog2 + numPipeLog2, 2 * numPipeLog2); - - xorMask.resize(numPipeLog2); - - for (UINT_32 pipeIdx = 0; pipeIdx < numPipeLog2; pipeIdx++) - { - xorMask[pipeIdx].add(xorMask2[2 * pipeIdx]); - xorMask[pipeIdx].add(xorMask2[2 * pipeIdx + 1]); - } - } - else - { - // Xor in the bits above the pipe+gpu bits - dataEq.copy(xorMask, pipeInterleaveLog2 + pipeStart + numPipeLog2, numPipeLog2); - - if ((numSamplesLog2 == 0) && (IsPrt(swizzleMode) == FALSE)) - { - Coordinate co; - CoordEq xorMask2; - // if 1xaa and not prt, then xor in the z bits - xorMask2.resize(0); - xorMask2.resize(numPipeLog2); - for (UINT_32 pipeIdx = 0; pipeIdx < numPipeLog2; pipeIdx++) - { - co.set('z', numPipeLog2 - 1 - pipeIdx); - xorMask2[pipeIdx].add(co); - } - - pPipeEq->xorin(xorMask2); - } - } - - xorMask.reverse(); - pPipeEq->xorin(xorMask); - } -} -/** -************************************************************************************************************************ -* Gfx9Lib::GetMetaEquation -* -* @brief -* Get meta equation for cmask/htile/DCC -* @return -* Pointer to a calculated meta equation -************************************************************************************************************************ -*/ -const CoordEq* Gfx9Lib::GetMetaEquation( - const MetaEqParams& metaEqParams) -{ - UINT_32 cachedMetaEqIndex; - - for (cachedMetaEqIndex = 0; cachedMetaEqIndex < MaxCachedMetaEq; cachedMetaEqIndex++) - { - if (memcmp(&metaEqParams, - &m_cachedMetaEqKey[cachedMetaEqIndex], - static_cast(sizeof(metaEqParams))) == 0) - { - break; - } - } - - CoordEq* pMetaEq = NULL; - - if (cachedMetaEqIndex < MaxCachedMetaEq) - { - pMetaEq = &m_cachedMetaEq[cachedMetaEqIndex]; - } - else - { - m_cachedMetaEqKey[m_metaEqOverrideIndex] = metaEqParams; - - pMetaEq = &m_cachedMetaEq[m_metaEqOverrideIndex++]; - - m_metaEqOverrideIndex %= MaxCachedMetaEq; - - GenMetaEquation(pMetaEq, - metaEqParams.maxMip, - metaEqParams.elementBytesLog2, - metaEqParams.numSamplesLog2, - metaEqParams.metaFlag, - metaEqParams.dataSurfaceType, - metaEqParams.swizzleMode, - metaEqParams.resourceType, - metaEqParams.metaBlkWidthLog2, - metaEqParams.metaBlkHeightLog2, - metaEqParams.metaBlkDepthLog2, - metaEqParams.compBlkWidthLog2, - metaEqParams.compBlkHeightLog2, - metaEqParams.compBlkDepthLog2); - } - - return pMetaEq; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GenMetaEquation -* -* @brief -* Get meta equation for cmask/htile/DCC -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::GenMetaEquation( - CoordEq* pMetaEq, ///< [out] meta equation - UINT_32 maxMip, ///< [in] max mip Id - UINT_32 elementBytesLog2, ///< [in] data surface element bytes - UINT_32 numSamplesLog2, ///< [in] data surface sample count - ADDR2_META_FLAGS metaFlag, ///< [in] meta falg - Gfx9DataType dataSurfaceType, ///< [in] data surface type - AddrSwizzleMode swizzleMode, ///< [in] data surface swizzle mode - AddrResourceType resourceType, ///< [in] data surface resource type - UINT_32 metaBlkWidthLog2, ///< [in] meta block width - UINT_32 metaBlkHeightLog2, ///< [in] meta block height - UINT_32 metaBlkDepthLog2, ///< [in] meta block depth - UINT_32 compBlkWidthLog2, ///< [in] compress block width - UINT_32 compBlkHeightLog2, ///< [in] compress block height - UINT_32 compBlkDepthLog2) ///< [in] compress block depth - const -{ - UINT_32 numPipeTotalLog2 = GetPipeLog2ForMetaAddressing(metaFlag.pipeAligned, swizzleMode); - UINT_32 pipeInterleaveLog2 = m_pipeInterleaveLog2; - - // Get the correct data address and rb equation - CoordEq dataEq; - GetDataEquation(&dataEq, dataSurfaceType, swizzleMode, resourceType, - elementBytesLog2, numSamplesLog2); - - // Get pipe and rb equations - CoordEq pipeEquation; - GetPipeEquation(&pipeEquation, &dataEq, pipeInterleaveLog2, numPipeTotalLog2, - numSamplesLog2, dataSurfaceType, swizzleMode, resourceType); - numPipeTotalLog2 = pipeEquation.getsize(); - - if (metaFlag.linear) - { - // Linear metadata supporting was removed for GFX9! No one can use this feature. - ADDR_ASSERT_ALWAYS(); - - ADDR_ASSERT(dataSurfaceType == Gfx9DataColor); - - dataEq.copy(*pMetaEq); - - if (IsLinear(swizzleMode)) - { - if (metaFlag.pipeAligned) - { - // Remove the pipe bits - INT_32 shift = static_cast(numPipeTotalLog2); - pMetaEq->shift(-shift, pipeInterleaveLog2); - } - // Divide by comp block size, which for linear (which is always color) is 256 B - pMetaEq->shift(-8); - - if (metaFlag.pipeAligned) - { - // Put pipe bits back in - pMetaEq->shift(numPipeTotalLog2, pipeInterleaveLog2); - - for (UINT_32 i = 0; i < numPipeTotalLog2; i++) - { - pipeEquation[i].copyto((*pMetaEq)[pipeInterleaveLog2 + i]); - } - } - } - - pMetaEq->shift(1); - } - else - { - UINT_32 maxCompFragLog2 = static_cast(m_maxCompFragLog2); - UINT_32 compFragLog2 = - ((dataSurfaceType == Gfx9DataColor) && (numSamplesLog2 > maxCompFragLog2)) ? - maxCompFragLog2 : numSamplesLog2; - - UINT_32 uncompFragLog2 = numSamplesLog2 - compFragLog2; - - // Make sure the metaaddr is cleared - pMetaEq->resize(0); - pMetaEq->resize(27); - - if (IsThick(resourceType, swizzleMode)) - { - Coordinate cx('x', 0); - Coordinate cy('y', 0); - Coordinate cz('z', 0); - - if (maxMip > 0) - { - pMetaEq->mort3d(cy, cx, cz); - } - else - { - pMetaEq->mort3d(cx, cy, cz); - } - } - else - { - Coordinate cx('x', 0); - Coordinate cy('y', 0); - Coordinate cs; - - if (maxMip > 0) - { - pMetaEq->mort2d(cy, cx, compFragLog2); - } - else - { - pMetaEq->mort2d(cx, cy, compFragLog2); - } - - //------------------------------------------------------------------------------------------------------------------------ - // Put the compressible fragments at the lsb - // the uncompressible frags will be at the msb of the micro address - //------------------------------------------------------------------------------------------------------------------------ - for (UINT_32 s = 0; s < compFragLog2; s++) - { - cs.set('s', s); - (*pMetaEq)[s].add(cs); - } - } - - // Keep a copy of the pipe equations - CoordEq origPipeEquation; - pipeEquation.copy(origPipeEquation); - - Coordinate co; - // filter out everything under the compressed block size - co.set('x', compBlkWidthLog2); - pMetaEq->Filter('<', co, 0, 'x'); - co.set('y', compBlkHeightLog2); - pMetaEq->Filter('<', co, 0, 'y'); - co.set('z', compBlkDepthLog2); - pMetaEq->Filter('<', co, 0, 'z'); - - // For non-color, filter out sample bits - if (dataSurfaceType != Gfx9DataColor) - { - co.set('x', 0); - pMetaEq->Filter('<', co, 0, 's'); - } - - // filter out everything above the metablock size - co.set('x', metaBlkWidthLog2 - 1); - pMetaEq->Filter('>', co, 0, 'x'); - co.set('y', metaBlkHeightLog2 - 1); - pMetaEq->Filter('>', co, 0, 'y'); - co.set('z', metaBlkDepthLog2 - 1); - pMetaEq->Filter('>', co, 0, 'z'); - - // filter out everything above the metablock size for the channel bits - co.set('x', metaBlkWidthLog2 - 1); - pipeEquation.Filter('>', co, 0, 'x'); - co.set('y', metaBlkHeightLog2 - 1); - pipeEquation.Filter('>', co, 0, 'y'); - co.set('z', metaBlkDepthLog2 - 1); - pipeEquation.Filter('>', co, 0, 'z'); - - // Make sure we still have the same number of channel bits - if (pipeEquation.getsize() != numPipeTotalLog2) - { - ADDR_ASSERT_ALWAYS(); - } - - // Loop through all channel and rb bits, - // and make sure these components exist in the metadata address - for (UINT_32 i = 0; i < numPipeTotalLog2; i++) - { - for (UINT_32 j = pipeEquation[i].getsize(); j > 0; j--) - { - if (pMetaEq->Exists(pipeEquation[i][j - 1]) == FALSE) - { - ADDR_ASSERT_ALWAYS(); - } - } - } - - const UINT_32 numSeLog2 = metaFlag.rbAligned ? m_seLog2 : 0; - const UINT_32 numRbPeSeLog2 = metaFlag.rbAligned ? m_rbPerSeLog2 : 0; - const UINT_32 numRbTotalLog2 = numRbPeSeLog2 + numSeLog2; - CoordEq origRbEquation; - - GetRbEquation(&origRbEquation, numRbPeSeLog2, numSeLog2); - - CoordEq rbEquation = origRbEquation; - - for (UINT_32 i = 0; i < numRbTotalLog2; i++) - { - for (UINT_32 j = rbEquation[i].getsize(); j > 0; j--) - { - if (pMetaEq->Exists(rbEquation[i][j - 1]) == FALSE) - { - ADDR_ASSERT_ALWAYS(); - } - } - } - - if (m_settings.applyAliasFix) - { - co.set('z', -1); - } - - // Loop through each rb id bit; if it is equal to any of the filtered channel bits, clear it - for (UINT_32 i = 0; i < numRbTotalLog2; i++) - { - for (UINT_32 j = 0; j < numPipeTotalLog2; j++) - { - BOOL_32 isRbEquationInPipeEquation = FALSE; - - if (m_settings.applyAliasFix) - { - CoordTerm filteredPipeEq; - filteredPipeEq = pipeEquation[j]; - - filteredPipeEq.Filter('>', co, 0, 'z'); - - isRbEquationInPipeEquation = (rbEquation[i] == filteredPipeEq); - } - else - { - isRbEquationInPipeEquation = (rbEquation[i] == pipeEquation[j]); - } - - if (isRbEquationInPipeEquation) - { - rbEquation[i].Clear(); - } - } - } - - bool rbAppendedWithPipeBits[1 << (MaxSeLog2 + MaxRbPerSeLog2)] = {}; - - // Loop through each bit of the channel, get the smallest coordinate, - // and remove it from the metaaddr, and rb_equation - for (UINT_32 i = 0; i < numPipeTotalLog2; i++) - { - pipeEquation[i].getsmallest(co); - - UINT_32 old_size = pMetaEq->getsize(); - pMetaEq->Filter('=', co); - UINT_32 new_size = pMetaEq->getsize(); - if (new_size != old_size-1) - { - ADDR_ASSERT_ALWAYS(); - } - pipeEquation.remove(co); - for (UINT_32 j = 0; j < numRbTotalLog2; j++) - { - if (rbEquation[j].remove(co)) - { - // if we actually removed something from this bit, then add the remaining - // channel bits, as these can be removed for this bit - for (UINT_32 k = 0; k < pipeEquation[i].getsize(); k++) - { - if (pipeEquation[i][k] != co) - { - rbEquation[j].add(pipeEquation[i][k]); - rbAppendedWithPipeBits[j] = true; - } - } - } - } - } - - // Loop through the rb bits and see what remain; - // filter out the smallest coordinate if it remains - UINT_32 rbBitsLeft = 0; - for (UINT_32 i = 0; i < numRbTotalLog2; i++) - { - BOOL_32 isRbEqAppended = FALSE; - - if (m_settings.applyAliasFix) - { - isRbEqAppended = (rbEquation[i].getsize() > (rbAppendedWithPipeBits[i] ? 1 : 0)); - } - else - { - isRbEqAppended = (rbEquation[i].getsize() > 0); - } - - if (isRbEqAppended) - { - rbBitsLeft++; - rbEquation[i].getsmallest(co); - UINT_32 old_size = pMetaEq->getsize(); - pMetaEq->Filter('=', co); - UINT_32 new_size = pMetaEq->getsize(); - if (new_size != old_size - 1) - { - // assert warning - } - for (UINT_32 j = i + 1; j < numRbTotalLog2; j++) - { - if (rbEquation[j].remove(co)) - { - // if we actually removed something from this bit, then add the remaining - // rb bits, as these can be removed for this bit - for (UINT_32 k = 0; k < rbEquation[i].getsize(); k++) - { - if (rbEquation[i][k] != co) - { - rbEquation[j].add(rbEquation[i][k]); - rbAppendedWithPipeBits[j] |= rbAppendedWithPipeBits[i]; - } - } - } - } - } - } - - // capture the size of the metaaddr - UINT_32 metaSize = pMetaEq->getsize(); - // resize to 49 bits...make this a nibble address - pMetaEq->resize(49); - // Concatenate the macro address above the current address - for (UINT_32 i = metaSize, j = 0; i < 49; i++, j++) - { - co.set('m', j); - (*pMetaEq)[i].add(co); - } - - // Multiply by meta element size (in nibbles) - if (dataSurfaceType == Gfx9DataColor) - { - pMetaEq->shift(1); - } - else if (dataSurfaceType == Gfx9DataDepthStencil) - { - pMetaEq->shift(3); - } - - //------------------------------------------------------------------------------------------ - // Note the pipeInterleaveLog2+1 is because address is a nibble address - // Shift up from pipe interleave number of channel - // and rb bits left, and uncompressed fragments - //------------------------------------------------------------------------------------------ - - pMetaEq->shift(numPipeTotalLog2 + rbBitsLeft + uncompFragLog2, pipeInterleaveLog2 + 1); - - // Put in the channel bits - for (UINT_32 i = 0; i < numPipeTotalLog2; i++) - { - origPipeEquation[i].copyto((*pMetaEq)[pipeInterleaveLog2+1 + i]); - } - - // Put in remaining rb bits - for (UINT_32 i = 0, j = 0; j < rbBitsLeft; i = (i + 1) % numRbTotalLog2) - { - BOOL_32 isRbEqAppended = FALSE; - - if (m_settings.applyAliasFix) - { - isRbEqAppended = (rbEquation[i].getsize() > (rbAppendedWithPipeBits[i] ? 1 : 0)); - } - else - { - isRbEqAppended = (rbEquation[i].getsize() > 0); - } - - if (isRbEqAppended) - { - origRbEquation[i].copyto((*pMetaEq)[pipeInterleaveLog2 + 1 + numPipeTotalLog2 + j]); - // Mark any rb bit we add in to the rb mask - j++; - } - } - - //------------------------------------------------------------------------------------------ - // Put in the uncompressed fragment bits - //------------------------------------------------------------------------------------------ - for (UINT_32 i = 0; i < uncompFragLog2; i++) - { - co.set('s', compFragLog2 + i); - (*pMetaEq)[pipeInterleaveLog2 + 1 + numPipeTotalLog2 + rbBitsLeft + i].add(co); - } - } -} - -/** -************************************************************************************************************************ -* Gfx9Lib::IsEquationSupported -* -* @brief -* Check if equation is supported for given swizzle mode and resource type. -* -* @return -* TRUE if supported -************************************************************************************************************************ -*/ -BOOL_32 Gfx9Lib::IsEquationSupported( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2) const -{ - BOOL_32 supported = (elementBytesLog2 < MaxElementBytesLog2) && - (IsLinear(swMode) == FALSE) && - (((IsTex2d(rsrcType) == TRUE) && - ((elementBytesLog2 < 4) || - ((IsRotateSwizzle(swMode) == FALSE) && - (IsZOrderSwizzle(swMode) == FALSE)))) || - ((IsTex3d(rsrcType) == TRUE) && - (IsRotateSwizzle(swMode) == FALSE) && - (IsBlock256b(swMode) == FALSE))); - - return supported; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::InitEquationTable -* -* @brief -* Initialize Equation table. -* -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::InitEquationTable() -{ - memset(m_equationTable, 0, sizeof(m_equationTable)); - - // Loop all possible resource type (2D/3D) - for (UINT_32 rsrcTypeIdx = 0; rsrcTypeIdx < MaxRsrcType; rsrcTypeIdx++) - { - AddrResourceType rsrcType = static_cast(rsrcTypeIdx + ADDR_RSRC_TEX_2D); - - // Loop all possible swizzle mode - for (UINT_32 swModeIdx = 0; swModeIdx < MaxSwMode; swModeIdx++) - { - AddrSwizzleMode swMode = static_cast(swModeIdx); - - // Loop all possible bpp - for (UINT_32 bppIdx = 0; bppIdx < MaxElementBytesLog2; bppIdx++) - { - UINT_32 equationIndex = ADDR_INVALID_EQUATION_INDEX; - - // Check if the input is supported - if (IsEquationSupported(rsrcType, swMode, bppIdx)) - { - ADDR_EQUATION equation; - ADDR_E_RETURNCODE retCode; - - memset(&equation, 0, sizeof(ADDR_EQUATION)); - - // Generate the equation - if (IsBlock256b(swMode) && IsTex2d(rsrcType)) - { - retCode = ComputeBlock256Equation(rsrcType, swMode, bppIdx, &equation); - } - else if (IsThin(rsrcType, swMode)) - { - retCode = ComputeThinEquation(rsrcType, swMode, bppIdx, &equation); - } - else - { - retCode = ComputeThickEquation(rsrcType, swMode, bppIdx, &equation); - } - - // Only fill the equation into the table if the return code is ADDR_OK, - // otherwise if the return code is not ADDR_OK, it indicates this is not - // a valid input, we do nothing but just fill invalid equation index - // into the lookup table. - if (retCode == ADDR_OK) - { - equationIndex = m_numEquations; - ADDR_ASSERT(equationIndex < EquationTableSize); - - m_equationTable[equationIndex] = equation; - - m_numEquations++; - } - else - { - ADDR_ASSERT_ALWAYS(); - } - } - - // Fill the index into the lookup table, if the combination is not supported - // fill the invalid equation index - m_equationLookupTable[rsrcTypeIdx][swModeIdx][bppIdx] = equationIndex; - } - } - } -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlGetEquationIndex -* -* @brief -* Interface function stub of GetEquationIndex -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -UINT_32 Gfx9Lib::HwlGetEquationIndex( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut - ) const -{ - AddrResourceType rsrcType = pIn->resourceType; - AddrSwizzleMode swMode = pIn->swizzleMode; - UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); - UINT_32 index = ADDR_INVALID_EQUATION_INDEX; - - if (IsEquationSupported(rsrcType, swMode, elementBytesLog2)) - { - UINT_32 rsrcTypeIdx = static_cast(rsrcType) - 1; - UINT_32 swModeIdx = static_cast(swMode); - - index = m_equationLookupTable[rsrcTypeIdx][swModeIdx][elementBytesLog2]; - } - - if (pOut->pMipInfo != NULL) - { - for (UINT_32 i = 0; i < pIn->numMipLevels; i++) - { - pOut->pMipInfo[i].equationIndex = index; - } - } - - return index; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeBlock256Equation -* -* @brief -* Interface function stub of ComputeBlock256Equation -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeBlock256Equation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const -{ - ADDR_E_RETURNCODE ret = ADDR_OK; - - pEquation->numBits = 8; - - UINT_32 i = 0; - for (; i < elementBytesLog2; i++) - { - InitChannel(1, 0 , i, &pEquation->addr[i]); - } - - ADDR_CHANNEL_SETTING* pixelBit = &pEquation->addr[elementBytesLog2]; - - const UINT_32 maxBitsUsed = 4; - ADDR_CHANNEL_SETTING x[maxBitsUsed] = {}; - ADDR_CHANNEL_SETTING y[maxBitsUsed] = {}; - - for (i = 0; i < maxBitsUsed; i++) - { - InitChannel(1, 0, elementBytesLog2 + i, &x[i]); - InitChannel(1, 1, i, &y[i]); - } - - if (IsStandardSwizzle(rsrcType, swMode)) - { - switch (elementBytesLog2) - { - case 0: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = x[2]; - pixelBit[3] = x[3]; - pixelBit[4] = y[0]; - pixelBit[5] = y[1]; - pixelBit[6] = y[2]; - pixelBit[7] = y[3]; - break; - case 1: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = x[2]; - pixelBit[3] = y[0]; - pixelBit[4] = y[1]; - pixelBit[5] = y[2]; - pixelBit[6] = x[3]; - break; - case 2: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = y[0]; - pixelBit[3] = y[1]; - pixelBit[4] = y[2]; - pixelBit[5] = x[2]; - break; - case 3: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = y[1]; - pixelBit[3] = x[1]; - pixelBit[4] = x[2]; - break; - case 4: - pixelBit[0] = y[0]; - pixelBit[1] = y[1]; - pixelBit[2] = x[0]; - pixelBit[3] = x[1]; - break; - default: - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - break; - } - } - else if (IsDisplaySwizzle(rsrcType, swMode)) - { - switch (elementBytesLog2) - { - case 0: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = x[2]; - pixelBit[3] = y[1]; - pixelBit[4] = y[0]; - pixelBit[5] = y[2]; - pixelBit[6] = x[3]; - pixelBit[7] = y[3]; - break; - case 1: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = x[2]; - pixelBit[3] = y[0]; - pixelBit[4] = y[1]; - pixelBit[5] = y[2]; - pixelBit[6] = x[3]; - break; - case 2: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = y[0]; - pixelBit[3] = x[2]; - pixelBit[4] = y[1]; - pixelBit[5] = y[2]; - break; - case 3: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = x[1]; - pixelBit[3] = x[2]; - pixelBit[4] = y[1]; - break; - case 4: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = x[1]; - pixelBit[3] = y[1]; - break; - default: - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - break; - } - } - else if (IsRotateSwizzle(swMode)) - { - switch (elementBytesLog2) - { - case 0: - pixelBit[0] = y[0]; - pixelBit[1] = y[1]; - pixelBit[2] = y[2]; - pixelBit[3] = x[1]; - pixelBit[4] = x[0]; - pixelBit[5] = x[2]; - pixelBit[6] = x[3]; - pixelBit[7] = y[3]; - break; - case 1: - pixelBit[0] = y[0]; - pixelBit[1] = y[1]; - pixelBit[2] = y[2]; - pixelBit[3] = x[0]; - pixelBit[4] = x[1]; - pixelBit[5] = x[2]; - pixelBit[6] = x[3]; - break; - case 2: - pixelBit[0] = y[0]; - pixelBit[1] = y[1]; - pixelBit[2] = x[0]; - pixelBit[3] = y[2]; - pixelBit[4] = x[1]; - pixelBit[5] = x[2]; - break; - case 3: - pixelBit[0] = y[0]; - pixelBit[1] = x[0]; - pixelBit[2] = y[1]; - pixelBit[3] = x[1]; - pixelBit[4] = x[2]; - break; - default: - ADDR_ASSERT_ALWAYS(); - case 4: - ret = ADDR_INVALIDPARAMS; - break; - } - } - else - { - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - } - - // Post validation - if (ret == ADDR_OK) - { - MAYBE_UNUSED Dim2d microBlockDim = Block256_2d[elementBytesLog2]; - ADDR_ASSERT((2u << GetMaxValidChannelIndex(pEquation->addr, 8, 0)) == - (microBlockDim.w * (1 << elementBytesLog2))); - ADDR_ASSERT((2u << GetMaxValidChannelIndex(pEquation->addr, 8, 1)) == microBlockDim.h); - } - - return ret; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeThinEquation -* -* @brief -* Interface function stub of ComputeThinEquation -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeThinEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const -{ - ADDR_E_RETURNCODE ret = ADDR_OK; - - UINT_32 blockSizeLog2 = GetBlockSizeLog2(swMode); - - UINT_32 maxXorBits = blockSizeLog2; - if (IsNonPrtXor(swMode)) - { - // For non-prt-xor, maybe need to initialize some more bits for xor - // The highest xor bit used in equation will be max the following 3 items: - // 1. m_pipeInterleaveLog2 + 2 * pipeXorBits - // 2. m_pipeInterleaveLog2 + pipeXorBits + 2 * bankXorBits - // 3. blockSizeLog2 - - maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + 2 * GetPipeXorBits(blockSizeLog2)); - maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + - GetPipeXorBits(blockSizeLog2) + - 2 * GetBankXorBits(blockSizeLog2)); - } - - const UINT_32 maxBitsUsed = 14; - ADDR_ASSERT((2 * maxBitsUsed) >= maxXorBits); - ADDR_CHANNEL_SETTING x[maxBitsUsed] = {}; - ADDR_CHANNEL_SETTING y[maxBitsUsed] = {}; - - const UINT_32 extraXorBits = 16; - ADDR_ASSERT(extraXorBits >= maxXorBits - blockSizeLog2); - ADDR_CHANNEL_SETTING xorExtra[extraXorBits] = {}; - - for (UINT_32 i = 0; i < maxBitsUsed; i++) - { - InitChannel(1, 0, elementBytesLog2 + i, &x[i]); - InitChannel(1, 1, i, &y[i]); - } - - ADDR_CHANNEL_SETTING* pixelBit = pEquation->addr; - - for (UINT_32 i = 0; i < elementBytesLog2; i++) - { - InitChannel(1, 0 , i, &pixelBit[i]); - } - - UINT_32 xIdx = 0; - UINT_32 yIdx = 0; - UINT_32 lowBits = 0; - - if (IsZOrderSwizzle(swMode)) - { - if (elementBytesLog2 <= 3) - { - for (UINT_32 i = elementBytesLog2; i < 6; i++) - { - pixelBit[i] = (((i - elementBytesLog2) & 1) == 0) ? x[xIdx++] : y[yIdx++]; - } - - lowBits = 6; - } - else - { - ret = ADDR_INVALIDPARAMS; - } - } - else - { - ret = HwlComputeBlock256Equation(rsrcType, swMode, elementBytesLog2, pEquation); - - if (ret == ADDR_OK) - { - Dim2d microBlockDim = Block256_2d[elementBytesLog2]; - xIdx = Log2(microBlockDim.w); - yIdx = Log2(microBlockDim.h); - lowBits = 8; - } - } - - if (ret == ADDR_OK) - { - for (UINT_32 i = lowBits; i < blockSizeLog2; i++) - { - pixelBit[i] = ((i & 1) == 0) ? y[yIdx++] : x[xIdx++]; - } - - for (UINT_32 i = blockSizeLog2; i < maxXorBits; i++) - { - xorExtra[i - blockSizeLog2] = ((i & 1) == 0) ? y[yIdx++] : x[xIdx++]; - } - - if (IsXor(swMode)) - { - // Fill XOR bits - UINT_32 pipeStart = m_pipeInterleaveLog2; - UINT_32 pipeXorBits = GetPipeXorBits(blockSizeLog2); - - UINT_32 bankStart = pipeStart + pipeXorBits; - UINT_32 bankXorBits = GetBankXorBits(blockSizeLog2); - - for (UINT_32 i = 0; i < pipeXorBits; i++) - { - UINT_32 xor1BitPos = pipeStart + 2 * pipeXorBits - 1 - i; - ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? - &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; - - InitChannel(&pEquation->xor1[pipeStart + i], pXor1Src); - } - - for (UINT_32 i = 0; i < bankXorBits; i++) - { - UINT_32 xor1BitPos = bankStart + 2 * bankXorBits - 1 - i; - ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? - &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; - - InitChannel(&pEquation->xor1[bankStart + i], pXor1Src); - } - - if (IsPrt(swMode) == FALSE) - { - for (UINT_32 i = 0; i < pipeXorBits; i++) - { - InitChannel(1, 2, pipeXorBits - i - 1, &pEquation->xor2[pipeStart + i]); - } - - for (UINT_32 i = 0; i < bankXorBits; i++) - { - InitChannel(1, 2, bankXorBits - i - 1 + pipeXorBits, &pEquation->xor2[bankStart + i]); - } - } - } - - pEquation->numBits = blockSizeLog2; - } - - return ret; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeThickEquation -* -* @brief -* Interface function stub of ComputeThickEquation -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeThickEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const -{ - ADDR_E_RETURNCODE ret = ADDR_OK; - - ADDR_ASSERT(IsTex3d(rsrcType)); - - UINT_32 blockSizeLog2 = GetBlockSizeLog2(swMode); - - UINT_32 maxXorBits = blockSizeLog2; - if (IsNonPrtXor(swMode)) - { - // For non-prt-xor, maybe need to initialize some more bits for xor - // The highest xor bit used in equation will be max the following 3: - // 1. m_pipeInterleaveLog2 + 3 * pipeXorBits - // 2. m_pipeInterleaveLog2 + pipeXorBits + 3 * bankXorBits - // 3. blockSizeLog2 - - maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + 3 * GetPipeXorBits(blockSizeLog2)); - maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + - GetPipeXorBits(blockSizeLog2) + - 3 * GetBankXorBits(blockSizeLog2)); - } - - for (UINT_32 i = 0; i < elementBytesLog2; i++) - { - InitChannel(1, 0 , i, &pEquation->addr[i]); - } - - ADDR_CHANNEL_SETTING* pixelBit = &pEquation->addr[elementBytesLog2]; - - const UINT_32 maxBitsUsed = 12; - ADDR_ASSERT((3 * maxBitsUsed) >= maxXorBits); - ADDR_CHANNEL_SETTING x[maxBitsUsed] = {}; - ADDR_CHANNEL_SETTING y[maxBitsUsed] = {}; - ADDR_CHANNEL_SETTING z[maxBitsUsed] = {}; - - const UINT_32 extraXorBits = 24; - ADDR_ASSERT(extraXorBits >= maxXorBits - blockSizeLog2); - ADDR_CHANNEL_SETTING xorExtra[extraXorBits] = {}; - - for (UINT_32 i = 0; i < maxBitsUsed; i++) - { - InitChannel(1, 0, elementBytesLog2 + i, &x[i]); - InitChannel(1, 1, i, &y[i]); - InitChannel(1, 2, i, &z[i]); - } - - if (IsZOrderSwizzle(swMode)) - { - switch (elementBytesLog2) - { - case 0: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = x[1]; - pixelBit[3] = y[1]; - pixelBit[4] = z[0]; - pixelBit[5] = z[1]; - pixelBit[6] = x[2]; - pixelBit[7] = z[2]; - pixelBit[8] = y[2]; - pixelBit[9] = x[3]; - break; - case 1: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = x[1]; - pixelBit[3] = y[1]; - pixelBit[4] = z[0]; - pixelBit[5] = z[1]; - pixelBit[6] = z[2]; - pixelBit[7] = y[2]; - pixelBit[8] = x[2]; - break; - case 2: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = x[1]; - pixelBit[3] = z[0]; - pixelBit[4] = y[1]; - pixelBit[5] = z[1]; - pixelBit[6] = y[2]; - pixelBit[7] = x[2]; - break; - case 3: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = z[0]; - pixelBit[3] = x[1]; - pixelBit[4] = z[1]; - pixelBit[5] = y[1]; - pixelBit[6] = x[2]; - break; - case 4: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = z[0]; - pixelBit[3] = z[1]; - pixelBit[4] = y[1]; - pixelBit[5] = x[1]; - break; - default: - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - break; - } - } - else if (IsStandardSwizzle(rsrcType, swMode)) - { - switch (elementBytesLog2) - { - case 0: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = x[2]; - pixelBit[3] = x[3]; - pixelBit[4] = y[0]; - pixelBit[5] = y[1]; - pixelBit[6] = z[0]; - pixelBit[7] = z[1]; - pixelBit[8] = z[2]; - pixelBit[9] = y[2]; - break; - case 1: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = x[2]; - pixelBit[3] = y[0]; - pixelBit[4] = y[1]; - pixelBit[5] = z[0]; - pixelBit[6] = z[1]; - pixelBit[7] = z[2]; - pixelBit[8] = y[2]; - break; - case 2: - pixelBit[0] = x[0]; - pixelBit[1] = x[1]; - pixelBit[2] = y[0]; - pixelBit[3] = y[1]; - pixelBit[4] = z[0]; - pixelBit[5] = z[1]; - pixelBit[6] = y[2]; - pixelBit[7] = x[2]; - break; - case 3: - pixelBit[0] = x[0]; - pixelBit[1] = y[0]; - pixelBit[2] = y[1]; - pixelBit[3] = z[0]; - pixelBit[4] = z[1]; - pixelBit[5] = x[1]; - pixelBit[6] = x[2]; - break; - case 4: - pixelBit[0] = y[0]; - pixelBit[1] = y[1]; - pixelBit[2] = z[0]; - pixelBit[3] = z[1]; - pixelBit[4] = x[0]; - pixelBit[5] = x[1]; - break; - default: - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - break; - } - } - else - { - ADDR_ASSERT_ALWAYS(); - ret = ADDR_INVALIDPARAMS; - } - - if (ret == ADDR_OK) - { - Dim3d microBlockDim = Block1K_3d[elementBytesLog2]; - UINT_32 xIdx = Log2(microBlockDim.w); - UINT_32 yIdx = Log2(microBlockDim.h); - UINT_32 zIdx = Log2(microBlockDim.d); - - pixelBit = pEquation->addr; - - const UINT_32 lowBits = 10; - ADDR_ASSERT(pEquation->addr[lowBits - 1].valid == 1); - ADDR_ASSERT(pEquation->addr[lowBits].valid == 0); - - for (UINT_32 i = lowBits; i < blockSizeLog2; i++) - { - if ((i % 3) == 0) - { - pixelBit[i] = x[xIdx++]; - } - else if ((i % 3) == 1) - { - pixelBit[i] = z[zIdx++]; - } - else - { - pixelBit[i] = y[yIdx++]; - } - } - - for (UINT_32 i = blockSizeLog2; i < maxXorBits; i++) - { - if ((i % 3) == 0) - { - xorExtra[i - blockSizeLog2] = x[xIdx++]; - } - else if ((i % 3) == 1) - { - xorExtra[i - blockSizeLog2] = z[zIdx++]; - } - else - { - xorExtra[i - blockSizeLog2] = y[yIdx++]; - } - } - - if (IsXor(swMode)) - { - // Fill XOR bits - UINT_32 pipeStart = m_pipeInterleaveLog2; - UINT_32 pipeXorBits = GetPipeXorBits(blockSizeLog2); - for (UINT_32 i = 0; i < pipeXorBits; i++) - { - UINT_32 xor1BitPos = pipeStart + (3 * pipeXorBits) - 1 - (2 * i); - ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? - &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; - - InitChannel(&pEquation->xor1[pipeStart + i], pXor1Src); - - UINT_32 xor2BitPos = pipeStart + (3 * pipeXorBits) - 2 - (2 * i); - ADDR_CHANNEL_SETTING* pXor2Src = (xor2BitPos < blockSizeLog2) ? - &pEquation->addr[xor2BitPos] : &xorExtra[xor2BitPos - blockSizeLog2]; - - InitChannel(&pEquation->xor2[pipeStart + i], pXor2Src); - } - - UINT_32 bankStart = pipeStart + pipeXorBits; - UINT_32 bankXorBits = GetBankXorBits(blockSizeLog2); - for (UINT_32 i = 0; i < bankXorBits; i++) - { - UINT_32 xor1BitPos = bankStart + (3 * bankXorBits) - 1 - (2 * i); - ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? - &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; - - InitChannel(&pEquation->xor1[bankStart + i], pXor1Src); - - UINT_32 xor2BitPos = bankStart + (3 * bankXorBits) - 2 - (2 * i); - ADDR_CHANNEL_SETTING* pXor2Src = (xor2BitPos < blockSizeLog2) ? - &pEquation->addr[xor2BitPos] : &xorExtra[xor2BitPos - blockSizeLog2]; - - InitChannel(&pEquation->xor2[bankStart + i], pXor2Src); - } - } - - pEquation->numBits = blockSizeLog2; - } - - return ret; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::IsValidDisplaySwizzleMode -* -* @brief -* Check if a swizzle mode is supported by display engine -* -* @return -* TRUE is swizzle mode is supported by display engine -************************************************************************************************************************ -*/ -BOOL_32 Gfx9Lib::IsValidDisplaySwizzleMode( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const -{ - BOOL_32 support = FALSE; - - const AddrResourceType resourceType = pIn->resourceType; - (void)resourceType; - const AddrSwizzleMode swizzleMode = pIn->swizzleMode; - - if (m_settings.isDce12) - { - switch (swizzleMode) - { - case ADDR_SW_256B_D: - case ADDR_SW_256B_R: - support = (pIn->bpp == 32); - break; - - case ADDR_SW_LINEAR: - case ADDR_SW_4KB_D: - case ADDR_SW_4KB_R: - case ADDR_SW_64KB_D: - case ADDR_SW_64KB_R: - case ADDR_SW_VAR_D: - case ADDR_SW_VAR_R: - case ADDR_SW_4KB_D_X: - case ADDR_SW_4KB_R_X: - case ADDR_SW_64KB_D_X: - case ADDR_SW_64KB_R_X: - case ADDR_SW_VAR_D_X: - case ADDR_SW_VAR_R_X: - support = (pIn->bpp <= 64); - break; - - default: - break; - } - } - else if (m_settings.isDcn1) - { - switch (swizzleMode) - { - case ADDR_SW_4KB_D: - case ADDR_SW_64KB_D: - case ADDR_SW_VAR_D: - case ADDR_SW_64KB_D_T: - case ADDR_SW_4KB_D_X: - case ADDR_SW_64KB_D_X: - case ADDR_SW_VAR_D_X: - support = (pIn->bpp == 64); - break; - - case ADDR_SW_LINEAR: - case ADDR_SW_4KB_S: - case ADDR_SW_64KB_S: - case ADDR_SW_VAR_S: - case ADDR_SW_64KB_S_T: - case ADDR_SW_4KB_S_X: - case ADDR_SW_64KB_S_X: - case ADDR_SW_VAR_S_X: - support = (pIn->bpp <= 64); - break; - - default: - break; - } - } - else - { - ADDR_NOT_IMPLEMENTED(); - } - - return support; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputePipeBankXor -* -* @brief -* Generate a PipeBankXor value to be ORed into bits above pipeInterleaveBits of address -* -* @return -* PipeBankXor value -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputePipeBankXor( - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) const -{ - UINT_32 macroBlockBits = GetBlockSizeLog2(pIn->swizzleMode); - UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); - UINT_32 bankBits = GetBankXorBits(macroBlockBits); - - UINT_32 pipeXor = 0; - UINT_32 bankXor = 0; - - const UINT_32 bankMask = (1 << bankBits) - 1; - const UINT_32 index = pIn->surfIndex & bankMask; - - const UINT_32 bpp = pIn->flags.fmask ? - GetFmaskBpp(pIn->numSamples, pIn->numFrags) : GetElemLib()->GetBitsPerPixel(pIn->format); - if (bankBits == 4) - { - static const UINT_32 BankXorSmallBpp[] = {0, 7, 4, 3, 8, 15, 12, 11, 1, 6, 5, 2, 9, 14, 13, 10}; - static const UINT_32 BankXorLargeBpp[] = {0, 7, 8, 15, 4, 3, 12, 11, 1, 6, 9, 14, 5, 2, 13, 10}; - - bankXor = (bpp <= 32) ? BankXorSmallBpp[index] : BankXorLargeBpp[index]; - } - else if (bankBits > 0) - { - UINT_32 bankIncrease = (1 << (bankBits - 1)) - 1; - bankIncrease = (bankIncrease == 0) ? 1 : bankIncrease; - bankXor = (index * bankIncrease) & bankMask; - } - - pOut->pipeBankXor = (bankXor << pipeBits) | pipeXor; - - return ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeSlicePipeBankXor -* -* @brief -* Generate slice PipeBankXor value based on base PipeBankXor value and slice id -* -* @return -* PipeBankXor value -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSlicePipeBankXor( - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) const -{ - UINT_32 macroBlockBits = GetBlockSizeLog2(pIn->swizzleMode); - UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); - UINT_32 bankBits = GetBankXorBits(macroBlockBits); - - UINT_32 pipeXor = ReverseBitVector(pIn->slice, pipeBits); - UINT_32 bankXor = ReverseBitVector(pIn->slice >> pipeBits, bankBits); - - pOut->pipeBankXor = pIn->basePipeBankXor ^ (pipeXor | (bankXor << pipeBits)); - - return ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeSubResourceOffsetForSwizzlePattern -* -* @brief -* Compute sub resource offset to support swizzle pattern -* -* @return -* Offset -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSubResourceOffsetForSwizzlePattern( - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) const -{ - ADDR_ASSERT(IsThin(pIn->resourceType, pIn->swizzleMode)); - - UINT_32 macroBlockBits = GetBlockSizeLog2(pIn->swizzleMode); - UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); - UINT_32 bankBits = GetBankXorBits(macroBlockBits); - UINT_32 pipeXor = ReverseBitVector(pIn->slice, pipeBits); - UINT_32 bankXor = ReverseBitVector(pIn->slice >> pipeBits, bankBits); - UINT_32 pipeBankXor = ((pipeXor | (bankXor << pipeBits)) ^ (pIn->pipeBankXor)) << m_pipeInterleaveLog2; - - pOut->offset = pIn->slice * pIn->sliceSize + - pIn->macroBlockOffset + - (pIn->mipTailOffset ^ pipeBankXor) - - static_cast(pipeBankXor); - return ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeSurfaceInfoSanityCheck -* -* @brief -* Compute surface info sanity check -* -* @return -* Offset -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceInfoSanityCheck( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const -{ - BOOL_32 invalid = FALSE; - - if ((pIn->bpp > 128) || (pIn->width == 0) || (pIn->numFrags > 8) || (pIn->numSamples > 16)) - { - invalid = TRUE; - } - else if ((pIn->swizzleMode >= ADDR_SW_MAX_TYPE) || - (pIn->resourceType >= ADDR_RSRC_MAX_TYPE)) - { - invalid = TRUE; - } - - BOOL_32 mipmap = (pIn->numMipLevels > 1); - BOOL_32 msaa = (pIn->numFrags > 1); - - ADDR2_SURFACE_FLAGS flags = pIn->flags; - BOOL_32 zbuffer = (flags.depth || flags.stencil); - BOOL_32 color = flags.color; - BOOL_32 display = flags.display || flags.rotated; - - AddrResourceType rsrcType = pIn->resourceType; - BOOL_32 tex3d = IsTex3d(rsrcType); - AddrSwizzleMode swizzle = pIn->swizzleMode; - BOOL_32 linear = IsLinear(swizzle); - BOOL_32 blk256B = IsBlock256b(swizzle); - BOOL_32 blkVar = IsBlockVariable(swizzle); - BOOL_32 isNonPrtXor = IsNonPrtXor(swizzle); - BOOL_32 prt = flags.prt; - BOOL_32 stereo = flags.qbStereo; - - if (invalid == FALSE) - { - if ((pIn->numFrags > 1) && - (GetBlockSize(swizzle) < (m_pipeInterleaveBytes * pIn->numFrags))) - { - // MSAA surface must have blk_bytes/pipe_interleave >= num_samples - invalid = TRUE; - } - } - - if (invalid == FALSE) - { - switch (rsrcType) - { - case ADDR_RSRC_TEX_1D: - invalid = msaa || zbuffer || display || (linear == FALSE) || stereo; - break; - case ADDR_RSRC_TEX_2D: - invalid = (msaa && mipmap) || (stereo && msaa) || (stereo && mipmap); - break; - case ADDR_RSRC_TEX_3D: - invalid = msaa || zbuffer || display || stereo; - break; - default: - invalid = TRUE; - break; - } - } - - if (invalid == FALSE) - { - if (display) - { - invalid = (IsValidDisplaySwizzleMode(pIn) == FALSE); - } - } - - if (invalid == FALSE) - { - if (linear) - { - invalid = ((ADDR_RSRC_TEX_1D != rsrcType) && prt) || - zbuffer || msaa || (pIn->bpp == 0) || ((pIn->bpp % 8) != 0); - } - else - { - if (blk256B || blkVar || isNonPrtXor) - { - invalid = prt; - if (blk256B) - { - invalid = invalid || zbuffer || tex3d || mipmap || msaa; - } - } - - if (invalid == FALSE) - { - if (IsZOrderSwizzle(swizzle)) - { - invalid = color && msaa; - } - else if (IsStandardSwizzle(rsrcType, swizzle)) - { - invalid = zbuffer; - } - else if (IsDisplaySwizzle(rsrcType, swizzle)) - { - invalid = zbuffer; - } - else if (IsRotateSwizzle(swizzle)) - { - invalid = zbuffer || (pIn->bpp > 64) || tex3d; - } - else - { - ADDR_ASSERT(!"invalid swizzle mode"); - invalid = TRUE; - } - } - } - } - - ADDR_ASSERT(invalid == FALSE); - - return invalid ? ADDR_INVALIDPARAMS : ADDR_OK; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlGetPreferredSurfaceSetting -* -* @brief -* Internal function to get suggested surface information for cliet to use -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlGetPreferredSurfaceSetting( - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const -{ - // Macro define resource block type - enum AddrBlockType - { - AddrBlockMicro = 0, // Resource uses 256B block - AddrBlock4KB = 1, // Resource uses 4KB block - AddrBlock64KB = 2, // Resource uses 64KB block - AddrBlockVar = 3, // Resource uses var blcok - AddrBlockLinear = 4, // Resource uses linear swizzle mode - - AddrBlockMaxTiledType = AddrBlock64KB + 1, - }; - - enum AddrBlockSet - { - AddrBlockSetMicro = 1 << AddrBlockMicro, - AddrBlockSetMacro4KB = 1 << AddrBlock4KB, - AddrBlockSetMacro64KB = 1 << AddrBlock64KB, - AddrBlockSetVar = 1 << AddrBlockVar, - AddrBlockSetLinear = 1 << AddrBlockLinear, - - AddrBlockSetMacro = AddrBlockSetMacro4KB | AddrBlockSetMacro64KB, - }; - - enum AddrSwSet - { - AddrSwSetZ = 1 << ADDR_SW_Z, - AddrSwSetS = 1 << ADDR_SW_S, - AddrSwSetD = 1 << ADDR_SW_D, - AddrSwSetR = 1 << ADDR_SW_R, - - AddrSwSetAll = AddrSwSetZ | AddrSwSetS | AddrSwSetD | AddrSwSetR, - }; - - ADDR_E_RETURNCODE returnCode = ADDR_OK; - ElemLib* pElemLib = GetElemLib(); - - // Set format to INVALID will skip this conversion - UINT_32 expandX = 1; - UINT_32 expandY = 1; - UINT_32 bpp = pIn->bpp; - UINT_32 width = pIn->width; - UINT_32 height = pIn->height; - - if (pIn->format != ADDR_FMT_INVALID) - { - // Don't care for this case - ElemMode elemMode = ADDR_UNCOMPRESSED; - - // Get compression/expansion factors and element mode which indicates compression/expansion - bpp = pElemLib->GetBitsPerPixel(pIn->format, - &elemMode, - &expandX, - &expandY); - - UINT_32 basePitch = 0; - GetElemLib()->AdjustSurfaceInfo(elemMode, - expandX, - expandY, - &bpp, - &basePitch, - &width, - &height); - } - - UINT_32 numSamples = Max(pIn->numSamples, 1u); - UINT_32 numFrags = (pIn->numFrags == 0) ? numSamples : pIn->numFrags; - UINT_32 slice = Max(pIn->numSlices, 1u); - UINT_32 numMipLevels = Max(pIn->numMipLevels, 1u); - UINT_32 minSizeAlign = NextPow2(pIn->minSizeAlign); - - if (pIn->flags.fmask) - { - bpp = GetFmaskBpp(numSamples, numFrags); - numFrags = 1; - numSamples = 1; - pOut->resourceType = ADDR_RSRC_TEX_2D; - } - else - { - // The output may get changed for volume(3D) texture resource in future - pOut->resourceType = pIn->resourceType; - } - - if (bpp < 8) - { - ADDR_ASSERT_ALWAYS(); - - returnCode = ADDR_INVALIDPARAMS; - } - else if (IsTex1d(pOut->resourceType)) - { - pOut->swizzleMode = ADDR_SW_LINEAR; - pOut->validBlockSet.value = AddrBlockSetLinear; - pOut->canXor = FALSE; - } - else - { - ADDR2_BLOCK_SET blockSet; - blockSet.value = 0; - - ADDR2_SWTYPE_SET addrPreferredSwSet, addrValidSwSet, clientPreferredSwSet; - addrPreferredSwSet.value = AddrSwSetS; - addrValidSwSet = addrPreferredSwSet; - clientPreferredSwSet = pIn->preferredSwSet; - - if (clientPreferredSwSet.value == 0) - { - clientPreferredSwSet.value = AddrSwSetAll; - } - - // prt Xor and non-xor will have less height align requirement for stereo surface - BOOL_32 prtXor = (pIn->flags.prt || pIn->flags.qbStereo) && (pIn->noXor == FALSE); - BOOL_32 displayResource = FALSE; - - pOut->canXor = (pIn->flags.prt == FALSE) && (pIn->noXor == FALSE); - - // Filter out improper swType and blockSet by HW restriction - if (pIn->flags.fmask || pIn->flags.depth || pIn->flags.stencil) - { - ADDR_ASSERT(IsTex2d(pOut->resourceType)); - blockSet.value = AddrBlockSetMacro; - addrPreferredSwSet.value = AddrSwSetZ; - addrValidSwSet.value = AddrSwSetZ; - - if (pIn->flags.noMetadata == FALSE) - { - if (pIn->flags.depth && - pIn->flags.texture && - (((bpp == 16) && (numFrags >= 4)) || ((bpp == 32) && (numFrags >= 2)))) - { - // When _X/_T swizzle mode was used for MSAA depth texture, TC will get zplane - // equation from wrong address within memory range a tile covered and use the - // garbage data for compressed Z reading which finally leads to corruption. - pOut->canXor = FALSE; - prtXor = FALSE; - } - - if (m_settings.htileCacheRbConflict && - (pIn->flags.depth || pIn->flags.stencil) && - (slice > 1) && - (pIn->flags.metaRbUnaligned == FALSE) && - (pIn->flags.metaPipeUnaligned == FALSE)) - { - // Z_X 2D array with Rb/Pipe aligned HTile won't have metadata cache coherency - pOut->canXor = FALSE; - } - } - } - else if (ElemLib::IsBlockCompressed(pIn->format)) - { - // block compressed formats (BCx, ASTC, ETC2) must be either S or D modes. - // Not sure under what circumstances "_D" would be appropriate as these formats - // are not displayable. - blockSet.value = AddrBlockSetMacro; - - // This isn't to be used as texture and caller doesn't allow macro tiled. - if ((pIn->flags.texture == FALSE) && - (pIn->forbiddenBlock.macro4KB && pIn->forbiddenBlock.macro64KB)) - { - blockSet.value |= AddrBlockSetLinear; - } - - addrPreferredSwSet.value = AddrSwSetD; - addrValidSwSet.value = AddrSwSetS | AddrSwSetD; - } - else if (ElemLib::IsMacroPixelPacked(pIn->format)) - { - // macro pixel packed formats (BG_RG, GB_GR) does not support the Z modes. - // Its notclear under what circumstances the D or R modes would be appropriate - // since these formats are not displayable. - blockSet.value = AddrBlockSetLinear | AddrBlockSetMacro; - - addrPreferredSwSet.value = AddrSwSetS; - addrValidSwSet.value = AddrSwSetS | AddrSwSetD | AddrSwSetR; - } - else if (IsTex3d(pOut->resourceType)) - { - blockSet.value = AddrBlockSetLinear | AddrBlockSetMacro; - - if (pIn->flags.prt) - { - // PRT cannot use SW_D which gives an unexpected block dimension - addrPreferredSwSet.value = AddrSwSetZ; - addrValidSwSet.value = AddrSwSetZ | AddrSwSetS; - } - else if ((numMipLevels > 1) && (slice >= width) && (slice >= height)) - { - // When depth (Z) is the maximum dimension then must use one of the SW_*_S - // or SW_*_Z modes if mipmapping is desired on a 3D surface - addrPreferredSwSet.value = AddrSwSetZ; - addrValidSwSet.value = AddrSwSetZ | AddrSwSetS; - } - else if (pIn->flags.color) - { - addrPreferredSwSet.value = AddrSwSetD; - addrValidSwSet.value = AddrSwSetZ | AddrSwSetS | AddrSwSetD; - } - else - { - addrPreferredSwSet.value = AddrSwSetZ; - addrValidSwSet.value = AddrSwSetZ | AddrSwSetD; - if (bpp != 128) - { - addrValidSwSet.value |= AddrSwSetS; - } - } - } - else - { - addrPreferredSwSet.value = ((pIn->flags.display == TRUE) || - (pIn->flags.overlay == TRUE) || - (pIn->bpp == 128)) ? AddrSwSetD : AddrSwSetS; - - addrValidSwSet.value = AddrSwSetS | AddrSwSetD | AddrSwSetR; - - if (numMipLevels > 1) - { - ADDR_ASSERT(numFrags == 1); - blockSet.value = AddrBlockSetLinear | AddrBlockSetMacro; - } - else if ((numFrags > 1) || (numSamples > 1)) - { - ADDR_ASSERT(IsTex2d(pOut->resourceType)); - blockSet.value = AddrBlockSetMacro; - } - else - { - ADDR_ASSERT(IsTex2d(pOut->resourceType)); - blockSet.value = AddrBlockSetLinear | AddrBlockSetMicro | AddrBlockSetMacro; - - displayResource = pIn->flags.rotated || pIn->flags.display; - - if (displayResource) - { - addrPreferredSwSet.value = pIn->flags.rotated ? AddrSwSetR : AddrSwSetD; - - if (pIn->bpp > 64) - { - blockSet.value = 0; - } - else if (m_settings.isDce12) - { - if (pIn->bpp != 32) - { - blockSet.micro = FALSE; - } - - // DCE12 does not support display surface to be _T swizzle mode - prtXor = FALSE; - - addrValidSwSet.value = AddrSwSetD | AddrSwSetR; - } - else if (m_settings.isDcn1) - { - // _R is not supported by Dcn1 - if (pIn->bpp == 64) - { - addrPreferredSwSet.value = AddrSwSetD; - addrValidSwSet.value = AddrSwSetS | AddrSwSetD; - } - else - { - addrPreferredSwSet.value = AddrSwSetS; - addrValidSwSet.value = AddrSwSetS; - } - - blockSet.micro = FALSE; - } - else - { - ADDR_NOT_IMPLEMENTED(); - returnCode = ADDR_NOTSUPPORTED; - } - } - } - } - - ADDR_ASSERT((addrValidSwSet.value & addrPreferredSwSet.value) == addrPreferredSwSet.value); - - pOut->clientPreferredSwSet = clientPreferredSwSet; - - // Clamp client preferred set to valid set - clientPreferredSwSet.value &= addrValidSwSet.value; - - pOut->validSwTypeSet = addrValidSwSet; - - if (clientPreferredSwSet.value == 0) - { - // Client asks for an invalid swizzle type... - ADDR_ASSERT_ALWAYS(); - returnCode = ADDR_INVALIDPARAMS; - } - else - { - if (IsPow2(clientPreferredSwSet.value)) - { - // Only one swizzle type left, use it directly - addrPreferredSwSet.value = clientPreferredSwSet.value; - } - else if ((clientPreferredSwSet.value & addrPreferredSwSet.value) == 0) - { - // Client wants 2 or more a valid swizzle type but none of them is addrlib preferred - if (clientPreferredSwSet.sw_D) - { - addrPreferredSwSet.value = AddrSwSetD; - } - else if (clientPreferredSwSet.sw_Z) - { - addrPreferredSwSet.value = AddrSwSetZ; - } - else if (clientPreferredSwSet.sw_R) - { - addrPreferredSwSet.value = AddrSwSetR; - } - else - { - ADDR_ASSERT(clientPreferredSwSet.sw_S); - addrPreferredSwSet.value = AddrSwSetS; - } - } - - if ((numFrags > 1) && - (GetBlockSize(ADDR_SW_4KB) < (m_pipeInterleaveBytes * numFrags))) - { - // MSAA surface must have blk_bytes/pipe_interleave >= num_samples - blockSet.macro4KB = FALSE; - } - - if (pIn->flags.prt) - { - blockSet.value &= AddrBlockSetMacro64KB; - } - - // Apply customized forbidden setting - blockSet.value &= ~pIn->forbiddenBlock.value; - - if (pIn->maxAlign > 0) - { - if (pIn->maxAlign < GetBlockSize(ADDR_SW_64KB)) - { - blockSet.macro64KB = FALSE; - } - - if (pIn->maxAlign < GetBlockSize(ADDR_SW_4KB)) - { - blockSet.macro4KB = FALSE; - } - - if (pIn->maxAlign < GetBlockSize(ADDR_SW_256B)) - { - blockSet.micro = FALSE; - } - } - - Dim3d blkAlign[AddrBlockMaxTiledType] = {{0}, {0}, {0}}; - Dim3d paddedDim[AddrBlockMaxTiledType] = {{0}, {0}, {0}}; - UINT_64 padSize[AddrBlockMaxTiledType] = {0}; - - if (blockSet.micro) - { - returnCode = ComputeBlockDimensionForSurf(&blkAlign[AddrBlockMicro].w, - &blkAlign[AddrBlockMicro].h, - &blkAlign[AddrBlockMicro].d, - bpp, - numFrags, - pOut->resourceType, - ADDR_SW_256B); - - if (returnCode == ADDR_OK) - { - if (displayResource) - { - blkAlign[AddrBlockMicro].w = PowTwoAlign(blkAlign[AddrBlockMicro].w, 32); - } - else if ((blkAlign[AddrBlockMicro].w >= width) && (blkAlign[AddrBlockMicro].h >= height) && - (minSizeAlign <= GetBlockSize(ADDR_SW_256B))) - { - // If one 256B block can contain the surface, don't bother bigger block type - blockSet.macro4KB = FALSE; - blockSet.macro64KB = FALSE; - blockSet.var = FALSE; - } - - padSize[AddrBlockMicro] = ComputePadSize(&blkAlign[AddrBlockMicro], width, height, - slice, &paddedDim[AddrBlockMicro]); - } - } - - if ((returnCode == ADDR_OK) && blockSet.macro4KB) - { - returnCode = ComputeBlockDimensionForSurf(&blkAlign[AddrBlock4KB].w, - &blkAlign[AddrBlock4KB].h, - &blkAlign[AddrBlock4KB].d, - bpp, - numFrags, - pOut->resourceType, - ADDR_SW_4KB); - - if (returnCode == ADDR_OK) - { - if (displayResource) - { - blkAlign[AddrBlock4KB].w = PowTwoAlign(blkAlign[AddrBlock4KB].w, 32); - } - - padSize[AddrBlock4KB] = ComputePadSize(&blkAlign[AddrBlock4KB], width, height, - slice, &paddedDim[AddrBlock4KB]); - - ADDR_ASSERT(padSize[AddrBlock4KB] >= padSize[AddrBlockMicro]); - } - } - - if ((returnCode == ADDR_OK) && blockSet.macro64KB) - { - returnCode = ComputeBlockDimensionForSurf(&blkAlign[AddrBlock64KB].w, - &blkAlign[AddrBlock64KB].h, - &blkAlign[AddrBlock64KB].d, - bpp, - numFrags, - pOut->resourceType, - ADDR_SW_64KB); - - if (returnCode == ADDR_OK) - { - if (displayResource) - { - blkAlign[AddrBlock64KB].w = PowTwoAlign(blkAlign[AddrBlock64KB].w, 32); - } - - padSize[AddrBlock64KB] = ComputePadSize(&blkAlign[AddrBlock64KB], width, height, - slice, &paddedDim[AddrBlock64KB]); - - ADDR_ASSERT(padSize[AddrBlock64KB] >= padSize[AddrBlock4KB]); - ADDR_ASSERT(padSize[AddrBlock64KB] >= padSize[AddrBlockMicro]); - } - } - - if (returnCode == ADDR_OK) - { - UINT_64 minSizeAlignInElement = Max(minSizeAlign / (bpp >> 3), 1u); - - for (UINT_32 i = AddrBlockMicro; i < AddrBlockMaxTiledType; i++) - { - padSize[i] = PowTwoAlign(padSize[i], minSizeAlignInElement); - } - - // Use minimum block type which meets all conditions above if flag minimizeAlign was set - if (pIn->flags.minimizeAlign) - { - // If padded size of 64KB block is larger than padded size of 256B block or 4KB - // block, filter out 64KB block from candidate list - if (blockSet.macro64KB && - ((blockSet.micro && (padSize[AddrBlockMicro] < padSize[AddrBlock64KB])) || - (blockSet.macro4KB && (padSize[AddrBlock4KB] < padSize[AddrBlock64KB])))) - { - blockSet.macro64KB = FALSE; - } - - // If padded size of 4KB block is larger than padded size of 256B block, - // filter out 4KB block from candidate list - if (blockSet.macro4KB && - blockSet.micro && - (padSize[AddrBlockMicro] < padSize[AddrBlock4KB])) - { - blockSet.macro4KB = FALSE; - } - } - // Filter out 64KB/4KB block if a smaller block type has 2/3 or less memory footprint - else if (pIn->flags.opt4space) - { - UINT_64 threshold = blockSet.micro ? padSize[AddrBlockMicro] : - (blockSet.macro4KB ? padSize[AddrBlock4KB] : padSize[AddrBlock64KB]); - - threshold += threshold >> 1; - - if (blockSet.macro64KB && (padSize[AddrBlock64KB] > threshold)) - { - blockSet.macro64KB = FALSE; - } - - if (blockSet.macro4KB && (padSize[AddrBlock4KB] > threshold)) - { - blockSet.macro4KB = FALSE; - } - } - else - { - if (blockSet.macro64KB && - (padSize[AddrBlock64KB] >= static_cast(width) * height * slice * 2) && - ((blockSet.value & ~AddrBlockSetMacro64KB) != 0)) - { - // If 64KB block waste more than half memory on padding, filter it out from - // candidate list when it is not the only choice left - blockSet.macro64KB = FALSE; - } - } - - if (blockSet.value == 0) - { - // Bad things happen, client will not get any useful information from AddrLib. - // Maybe we should fill in some output earlier instead of outputing nothing? - ADDR_ASSERT_ALWAYS(); - returnCode = ADDR_INVALIDPARAMS; - } - else - { - pOut->validBlockSet = blockSet; - pOut->canXor = pOut->canXor && - (blockSet.macro4KB || blockSet.macro64KB || blockSet.var); - - if (blockSet.macro64KB || blockSet.macro4KB) - { - if (addrPreferredSwSet.value == AddrSwSetZ) - { - pOut->swizzleMode = blockSet.macro64KB ? ADDR_SW_64KB_Z : ADDR_SW_4KB_Z; - } - else if (addrPreferredSwSet.value == AddrSwSetS) - { - pOut->swizzleMode = blockSet.macro64KB ? ADDR_SW_64KB_S : ADDR_SW_4KB_S; - } - else if (addrPreferredSwSet.value == AddrSwSetD) - { - pOut->swizzleMode = blockSet.macro64KB ? ADDR_SW_64KB_D : ADDR_SW_4KB_D; - } - else - { - ADDR_ASSERT(addrPreferredSwSet.value == AddrSwSetR); - pOut->swizzleMode = blockSet.macro64KB ? ADDR_SW_64KB_R : ADDR_SW_4KB_R; - } - - if (prtXor && blockSet.macro64KB) - { - // Client wants PRTXOR, give back _T swizzle mode if 64KB is available - const UINT_32 prtGap = ADDR_SW_64KB_Z_T - ADDR_SW_64KB_Z; - pOut->swizzleMode = static_cast(pOut->swizzleMode + prtGap); - } - else if (pOut->canXor) - { - // Client wants XOR and this is allowed, return XOR version swizzle mode - const UINT_32 xorGap = ADDR_SW_4KB_Z_X - ADDR_SW_4KB_Z; - pOut->swizzleMode = static_cast(pOut->swizzleMode + xorGap); - } - } - else if (blockSet.micro) - { - if (addrPreferredSwSet.value == AddrSwSetS) - { - pOut->swizzleMode = ADDR_SW_256B_S; - } - else if (addrPreferredSwSet.value == AddrSwSetD) - { - pOut->swizzleMode = ADDR_SW_256B_D; - } - else - { - ADDR_ASSERT(addrPreferredSwSet.value == AddrSwSetR); - pOut->swizzleMode = ADDR_SW_256B_R; - } - } - else if (blockSet.linear) - { - // Fall into this branch doesn't mean linear is suitable, only no other choices! - pOut->swizzleMode = ADDR_SW_LINEAR; - } - else - { - ADDR_ASSERT(blockSet.var); - - // Designer consider VAR swizzle mode is usless for most cases - ADDR_UNHANDLED_CASE(); - - returnCode = ADDR_NOTSUPPORTED; - } - -#if DEBUG - // Post sanity check, at least AddrLib should accept the output generated by its own - if (pOut->swizzleMode != ADDR_SW_LINEAR) - { - ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; - localIn.flags = pIn->flags; - localIn.swizzleMode = pOut->swizzleMode; - localIn.resourceType = pOut->resourceType; - localIn.format = pIn->format; - localIn.bpp = bpp; - localIn.width = width; - localIn.height = height; - localIn.numSlices = slice; - localIn.numMipLevels = numMipLevels; - localIn.numSamples = numSamples; - localIn.numFrags = numFrags; - - HwlComputeSurfaceInfoSanityCheck(&localIn); - - } -#endif - } - } - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::ComputeStereoInfo -* -* @brief -* Compute height alignment and right eye pipeBankXor for stereo surface -* -* @return -* Error code -* -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::ComputeStereoInfo( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut, - UINT_32* pHeightAlign - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - UINT_32 eqIndex = HwlGetEquationIndex(pIn, pOut); - - if (eqIndex < m_numEquations) - { - if (IsXor(pIn->swizzleMode)) - { - const UINT_32 blkSizeLog2 = GetBlockSizeLog2(pIn->swizzleMode); - const UINT_32 numPipeBits = GetPipeXorBits(blkSizeLog2); - const UINT_32 numBankBits = GetBankXorBits(blkSizeLog2); - const UINT_32 bppLog2 = Log2(pIn->bpp >> 3); - const UINT_32 maxYCoordBlock256 = Log2(Block256_2d[bppLog2].h) - 1; - MAYBE_UNUSED const ADDR_EQUATION *pEqToCheck = &m_equationTable[eqIndex]; - - ADDR_ASSERT(maxYCoordBlock256 == - GetMaxValidChannelIndex(&pEqToCheck->addr[0], GetBlockSizeLog2(ADDR_SW_256B), 1)); - - const UINT_32 maxYCoordInBaseEquation = - (blkSizeLog2 - GetBlockSizeLog2(ADDR_SW_256B)) / 2 + maxYCoordBlock256; - - ADDR_ASSERT(maxYCoordInBaseEquation == - GetMaxValidChannelIndex(&pEqToCheck->addr[0], blkSizeLog2, 1)); - - const UINT_32 maxYCoordInPipeXor = (numPipeBits == 0) ? 0 : maxYCoordBlock256 + numPipeBits; - - ADDR_ASSERT(maxYCoordInPipeXor == - GetMaxValidChannelIndex(&pEqToCheck->xor1[m_pipeInterleaveLog2], numPipeBits, 1)); - - const UINT_32 maxYCoordInBankXor = (numBankBits == 0) ? - 0 : maxYCoordBlock256 + (numPipeBits + 1) / 2 + numBankBits; - - ADDR_ASSERT(maxYCoordInBankXor == - GetMaxValidChannelIndex(&pEqToCheck->xor1[m_pipeInterleaveLog2 + numPipeBits], numBankBits, 1)); - - const UINT_32 maxYCoordInPipeBankXor = Max(maxYCoordInPipeXor, maxYCoordInBankXor); - - if (maxYCoordInPipeBankXor > maxYCoordInBaseEquation) - { - *pHeightAlign = 1u << maxYCoordInPipeBankXor; - - if (pOut->pStereoInfo != NULL) - { - pOut->pStereoInfo->rightSwizzle = 0; - - if ((PowTwoAlign(pIn->height, *pHeightAlign) % (*pHeightAlign * 2)) != 0) - { - if (maxYCoordInPipeXor == maxYCoordInPipeBankXor) - { - pOut->pStereoInfo->rightSwizzle |= (1u << 1); - } - - if (maxYCoordInBankXor == maxYCoordInPipeBankXor) - { - pOut->pStereoInfo->rightSwizzle |= - 1u << ((numPipeBits % 2) ? numPipeBits : numPipeBits + 1); - } - - ADDR_ASSERT(pOut->pStereoInfo->rightSwizzle == - GetCoordActiveMask(&pEqToCheck->xor1[m_pipeInterleaveLog2], - numPipeBits + numBankBits, 1, maxYCoordInPipeBankXor)); - } - } - } - } - } - else - { - ADDR_ASSERT_ALWAYS(); - returnCode = ADDR_ERROR; - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeSurfaceInfoTiled -* -* @brief -* Internal function to calculate alignment for tiled surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceInfoTiled( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ComputeBlockDimensionForSurf(&pOut->blockWidth, - &pOut->blockHeight, - &pOut->blockSlices, - pIn->bpp, - pIn->numFrags, - pIn->resourceType, - pIn->swizzleMode); - - if (returnCode == ADDR_OK) - { - UINT_32 pitchAlignInElement = pOut->blockWidth; - - if ((IsTex2d(pIn->resourceType) == TRUE) && - (pIn->flags.display || pIn->flags.rotated) && - (pIn->numMipLevels <= 1) && - (pIn->numSamples <= 1) && - (pIn->numFrags <= 1)) - { - // Display engine needs pitch align to be at least 32 pixels. - pitchAlignInElement = PowTwoAlign(pitchAlignInElement, 32); - } - - pOut->pitch = PowTwoAlign(pIn->width, pitchAlignInElement); - - if ((pIn->numMipLevels <= 1) && (pIn->pitchInElement > 0)) - { - if ((pIn->pitchInElement % pitchAlignInElement) != 0) - { - returnCode = ADDR_INVALIDPARAMS; - } - else if (pIn->pitchInElement < pOut->pitch) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - pOut->pitch = pIn->pitchInElement; - } - } - - UINT_32 heightAlign = 0; - - if (pIn->flags.qbStereo) - { - returnCode = ComputeStereoInfo(pIn, pOut, &heightAlign); - } - - if (returnCode == ADDR_OK) - { - pOut->height = PowTwoAlign(pIn->height, pOut->blockHeight); - - if (heightAlign > 1) - { - pOut->height = PowTwoAlign(pOut->height, heightAlign); - } - - pOut->numSlices = PowTwoAlign(pIn->numSlices, pOut->blockSlices); - - pOut->epitchIsHeight = FALSE; - pOut->mipChainInTail = FALSE; - pOut->firstMipIdInTail = pIn->numMipLevels; - - pOut->mipChainPitch = pOut->pitch; - pOut->mipChainHeight = pOut->height; - pOut->mipChainSlice = pOut->numSlices; - - if (pIn->numMipLevels > 1) - { - pOut->firstMipIdInTail = GetMipChainInfo(pIn->resourceType, - pIn->swizzleMode, - pIn->bpp, - pIn->width, - pIn->height, - pIn->numSlices, - pOut->blockWidth, - pOut->blockHeight, - pOut->blockSlices, - pIn->numMipLevels, - pOut->pMipInfo); - - const UINT_32 endingMipId = Min(pOut->firstMipIdInTail, pIn->numMipLevels - 1); - - if (endingMipId == 0) - { - const Dim3d tailMaxDim = GetMipTailDim(pIn->resourceType, - pIn->swizzleMode, - pOut->blockWidth, - pOut->blockHeight, - pOut->blockSlices); - - pOut->epitchIsHeight = TRUE; - pOut->pitch = tailMaxDim.w; - pOut->height = tailMaxDim.h; - pOut->numSlices = IsThick(pIn->resourceType, pIn->swizzleMode) ? - tailMaxDim.d : pIn->numSlices; - pOut->mipChainInTail = TRUE; - } - else - { - UINT_32 mip0WidthInBlk = pOut->pitch / pOut->blockWidth; - UINT_32 mip0HeightInBlk = pOut->height / pOut->blockHeight; - - AddrMajorMode majorMode = GetMajorMode(pIn->resourceType, - pIn->swizzleMode, - mip0WidthInBlk, - mip0HeightInBlk, - pOut->numSlices / pOut->blockSlices); - if (majorMode == ADDR_MAJOR_Y) - { - UINT_32 mip1WidthInBlk = RoundHalf(mip0WidthInBlk); - - if ((mip1WidthInBlk == 1) && (endingMipId > 2)) - { - mip1WidthInBlk++; - } - - pOut->mipChainPitch += (mip1WidthInBlk * pOut->blockWidth); - - pOut->epitchIsHeight = FALSE; - } - else - { - UINT_32 mip1HeightInBlk = RoundHalf(mip0HeightInBlk); - - if ((mip1HeightInBlk == 1) && (endingMipId > 2)) - { - mip1HeightInBlk++; - } - - pOut->mipChainHeight += (mip1HeightInBlk * pOut->blockHeight); - - pOut->epitchIsHeight = TRUE; - } - } - - if (pOut->pMipInfo != NULL) - { - UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); - - for (UINT_32 i = 0; i < pIn->numMipLevels; i++) - { - Dim3d mipStartPos = {0}; - UINT_32 mipTailOffsetInBytes = 0; - - mipStartPos = GetMipStartPos(pIn->resourceType, - pIn->swizzleMode, - pOut->pitch, - pOut->height, - pOut->numSlices, - pOut->blockWidth, - pOut->blockHeight, - pOut->blockSlices, - i, - elementBytesLog2, - &mipTailOffsetInBytes); - - UINT_32 pitchInBlock = - pOut->mipChainPitch / pOut->blockWidth; - UINT_32 sliceInBlock = - (pOut->mipChainHeight / pOut->blockHeight) * pitchInBlock; - UINT_64 blockIndex = - mipStartPos.d * sliceInBlock + mipStartPos.h * pitchInBlock + mipStartPos.w; - UINT_64 macroBlockOffset = - blockIndex << GetBlockSizeLog2(pIn->swizzleMode); - - pOut->pMipInfo[i].macroBlockOffset = macroBlockOffset; - pOut->pMipInfo[i].mipTailOffset = mipTailOffsetInBytes; - } - } - } - else if (pOut->pMipInfo != NULL) - { - pOut->pMipInfo[0].pitch = pOut->pitch; - pOut->pMipInfo[0].height = pOut->height; - pOut->pMipInfo[0].depth = IsTex3d(pIn->resourceType)? pOut->numSlices : 1; - pOut->pMipInfo[0].offset = 0; - } - - pOut->sliceSize = static_cast(pOut->mipChainPitch) * pOut->mipChainHeight * - (pIn->bpp >> 3) * pIn->numFrags; - pOut->surfSize = pOut->sliceSize * pOut->mipChainSlice; - pOut->baseAlign = ComputeSurfaceBaseAlignTiled(pIn->swizzleMode); - - if (pIn->flags.prt) - { - pOut->baseAlign = Max(pOut->baseAlign, PrtAlignment); - } - } - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeSurfaceInfoLinear -* -* @brief -* Internal function to calculate alignment for linear surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceInfoLinear( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - UINT_32 pitch = 0; - UINT_32 actualHeight = 0; - UINT_32 elementBytes = pIn->bpp >> 3; - const UINT_32 alignment = pIn->flags.prt ? PrtAlignment : 256; - - if (IsTex1d(pIn->resourceType)) - { - if (pIn->height > 1) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - const UINT_32 pitchAlignInElement = alignment / elementBytes; - - pitch = PowTwoAlign(pIn->width, pitchAlignInElement); - actualHeight = pIn->numMipLevels; - - if (pIn->flags.prt == FALSE) - { - returnCode = ApplyCustomizedPitchHeight(pIn, elementBytes, pitchAlignInElement, - &pitch, &actualHeight); - } - - if (returnCode == ADDR_OK) - { - if (pOut->pMipInfo != NULL) - { - for (UINT_32 i = 0; i < pIn->numMipLevels; i++) - { - pOut->pMipInfo[i].offset = pitch * elementBytes * i; - pOut->pMipInfo[i].pitch = pitch; - pOut->pMipInfo[i].height = 1; - pOut->pMipInfo[i].depth = 1; - } - } - } - } - } - else - { - returnCode = ComputeSurfaceLinearPadding(pIn, &pitch, &actualHeight, pOut->pMipInfo); - } - - if ((pitch == 0) || (actualHeight == 0)) - { - returnCode = ADDR_INVALIDPARAMS; - } - - if (returnCode == ADDR_OK) - { - pOut->pitch = pitch; - pOut->height = pIn->height; - pOut->numSlices = pIn->numSlices; - pOut->mipChainPitch = pitch; - pOut->mipChainHeight = actualHeight; - pOut->mipChainSlice = pOut->numSlices; - pOut->epitchIsHeight = (pIn->numMipLevels > 1) ? TRUE : FALSE; - pOut->sliceSize = static_cast(pOut->pitch) * actualHeight * elementBytes; - pOut->surfSize = pOut->sliceSize * pOut->numSlices; - pOut->baseAlign = (pIn->swizzleMode == ADDR_SW_LINEAR_GENERAL) ? (pIn->bpp / 8) : alignment; - pOut->blockWidth = (pIn->swizzleMode == ADDR_SW_LINEAR_GENERAL) ? 1 : (256 / elementBytes); - pOut->blockHeight = 1; - pOut->blockSlices = 1; - } - - // Post calculation validate - ADDR_ASSERT(pOut->sliceSize > 0); - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GetMipChainInfo -* -* @brief -* Internal function to get out information about mip chain -* -* @return -* Smaller value between Id of first mip fitted in mip tail and max Id of mip being created -************************************************************************************************************************ -*/ -UINT_32 Gfx9Lib::GetMipChainInfo( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 bpp, - UINT_32 mip0Width, - UINT_32 mip0Height, - UINT_32 mip0Depth, - UINT_32 blockWidth, - UINT_32 blockHeight, - UINT_32 blockDepth, - UINT_32 numMipLevel, - ADDR2_MIP_INFO* pMipInfo) const -{ - const Dim3d tailMaxDim = - GetMipTailDim(resourceType, swizzleMode, blockWidth, blockHeight, blockDepth); - - UINT_32 mipPitch = mip0Width; - UINT_32 mipHeight = mip0Height; - UINT_32 mipDepth = IsTex3d(resourceType) ? mip0Depth : 1; - UINT_32 offset = 0; - UINT_32 firstMipIdInTail = numMipLevel; - BOOL_32 inTail = FALSE; - BOOL_32 finalDim = FALSE; - BOOL_32 is3dThick = IsThick(resourceType, swizzleMode); - BOOL_32 is3dThin = IsTex3d(resourceType) && (is3dThick == FALSE); - - for (UINT_32 mipId = 0; mipId < numMipLevel; mipId++) - { - if (inTail) - { - if (finalDim == FALSE) - { - UINT_32 mipSize; - - if (is3dThick) - { - mipSize = mipPitch * mipHeight * mipDepth * (bpp >> 3); - } - else - { - mipSize = mipPitch * mipHeight * (bpp >> 3); - } - - if (mipSize <= 256) - { - UINT_32 index = Log2(bpp >> 3); - - if (is3dThick) - { - mipPitch = Block256_3dZ[index].w; - mipHeight = Block256_3dZ[index].h; - mipDepth = Block256_3dZ[index].d; - } - else - { - mipPitch = Block256_2d[index].w; - mipHeight = Block256_2d[index].h; - } - - finalDim = TRUE; - } - } - } - else - { - inTail = IsInMipTail(resourceType, swizzleMode, tailMaxDim, - mipPitch, mipHeight, mipDepth); - - if (inTail) - { - firstMipIdInTail = mipId; - mipPitch = tailMaxDim.w; - mipHeight = tailMaxDim.h; - - if (is3dThick) - { - mipDepth = tailMaxDim.d; - } - } - else - { - mipPitch = PowTwoAlign(mipPitch, blockWidth); - mipHeight = PowTwoAlign(mipHeight, blockHeight); - - if (is3dThick) - { - mipDepth = PowTwoAlign(mipDepth, blockDepth); - } - } - } - - if (pMipInfo != NULL) - { - pMipInfo[mipId].pitch = mipPitch; - pMipInfo[mipId].height = mipHeight; - pMipInfo[mipId].depth = mipDepth; - pMipInfo[mipId].offset = offset; - } - - offset += (mipPitch * mipHeight * mipDepth * (bpp >> 3)); - - if (finalDim) - { - if (is3dThin) - { - mipDepth = Max(mipDepth >> 1, 1u); - } - } - else - { - mipPitch = Max(mipPitch >> 1, 1u); - mipHeight = Max(mipHeight >> 1, 1u); - - if (is3dThick || is3dThin) - { - mipDepth = Max(mipDepth >> 1, 1u); - } - } - } - - return firstMipIdInTail; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GetMetaMiptailInfo -* -* @brief -* Get mip tail coordinate information. -* -* @return -* N/A -************************************************************************************************************************ -*/ -VOID Gfx9Lib::GetMetaMiptailInfo( - ADDR2_META_MIP_INFO* pInfo, ///< [out] output structure to store per mip coord - Dim3d mipCoord, ///< [in] mip tail base coord - UINT_32 numMipInTail, ///< [in] number of mips in tail - Dim3d* pMetaBlkDim ///< [in] meta block width/height/depth - ) const -{ - BOOL_32 isThick = (pMetaBlkDim->d > 1); - UINT_32 mipWidth = pMetaBlkDim->w; - UINT_32 mipHeight = pMetaBlkDim->h >> 1; - UINT_32 mipDepth = pMetaBlkDim->d; - UINT_32 minInc; - - if (isThick) - { - minInc = (pMetaBlkDim->h >= 512) ? 128 : ((pMetaBlkDim->h == 256) ? 64 : 32); - } - else if (pMetaBlkDim->h >= 1024) - { - minInc = 256; - } - else if (pMetaBlkDim->h == 512) - { - minInc = 128; - } - else - { - minInc = 64; - } - - UINT_32 blk32MipId = 0xFFFFFFFF; - - for (UINT_32 mip = 0; mip < numMipInTail; mip++) - { - pInfo[mip].inMiptail = TRUE; - pInfo[mip].startX = mipCoord.w; - pInfo[mip].startY = mipCoord.h; - pInfo[mip].startZ = mipCoord.d; - pInfo[mip].width = mipWidth; - pInfo[mip].height = mipHeight; - pInfo[mip].depth = mipDepth; - - if (mipWidth <= 32) - { - if (blk32MipId == 0xFFFFFFFF) - { - blk32MipId = mip; - } - - mipCoord.w = pInfo[blk32MipId].startX; - mipCoord.h = pInfo[blk32MipId].startY; - mipCoord.d = pInfo[blk32MipId].startZ; - - switch (mip - blk32MipId) - { - case 0: - mipCoord.w += 32; // 16x16 - break; - case 1: - mipCoord.h += 32; // 8x8 - break; - case 2: - mipCoord.h += 32; // 4x4 - mipCoord.w += 16; - break; - case 3: - mipCoord.h += 32; // 2x2 - mipCoord.w += 32; - break; - case 4: - mipCoord.h += 32; // 1x1 - mipCoord.w += 48; - break; - // The following are for BC/ASTC formats - case 5: - mipCoord.h += 48; // 1/2 x 1/2 - break; - case 6: - mipCoord.h += 48; // 1/4 x 1/4 - mipCoord.w += 16; - break; - case 7: - mipCoord.h += 48; // 1/8 x 1/8 - mipCoord.w += 32; - break; - case 8: - mipCoord.h += 48; // 1/16 x 1/16 - mipCoord.w += 48; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - mipWidth = ((mip - blk32MipId) == 0) ? 16 : 8; - mipHeight = mipWidth; - - if (isThick) - { - mipDepth = mipWidth; - } - } - else - { - if (mipWidth <= minInc) - { - // if we're below the minimal increment... - if (isThick) - { - // For 3d, just go in z direction - mipCoord.d += mipDepth; - } - else - { - // For 2d, first go across, then down - if ((mipWidth * 2) == minInc) - { - // if we're 2 mips below, that's when we go back in x, and down in y - mipCoord.w -= minInc; - mipCoord.h += minInc; - } - else - { - // otherwise, just go across in x - mipCoord.w += minInc; - } - } - } - else - { - // On even mip, go down, otherwise, go across - if (mip & 1) - { - mipCoord.w += mipWidth; - } - else - { - mipCoord.h += mipHeight; - } - } - // Divide the width by 2 - mipWidth >>= 1; - // After the first mip in tail, the mip is always a square - mipHeight = mipWidth; - // ...or for 3d, a cube - if (isThick) - { - mipDepth = mipWidth; - } - } - } -} - -/** -************************************************************************************************************************ -* Gfx9Lib::GetMipStartPos -* -* @brief -* Internal function to get out information about mip logical start position -* -* @return -* logical start position in macro block width/heith/depth of one mip level within one slice -************************************************************************************************************************ -*/ -Dim3d Gfx9Lib::GetMipStartPos( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 width, - UINT_32 height, - UINT_32 depth, - UINT_32 blockWidth, - UINT_32 blockHeight, - UINT_32 blockDepth, - UINT_32 mipId, - UINT_32 log2ElementBytes, - UINT_32* pMipTailBytesOffset) const -{ - Dim3d mipStartPos = {0}; - const Dim3d tailMaxDim = GetMipTailDim(resourceType, swizzleMode, blockWidth, blockHeight, blockDepth); - - // Report mip in tail if Mip0 is already in mip tail - BOOL_32 inMipTail = IsInMipTail(resourceType, swizzleMode, tailMaxDim, width, height, depth); - UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); - UINT_32 mipIndexInTail = mipId; - - if (inMipTail == FALSE) - { - // Mip 0 dimension, unit in block - UINT_32 mipWidthInBlk = width / blockWidth; - UINT_32 mipHeightInBlk = height / blockHeight; - UINT_32 mipDepthInBlk = depth / blockDepth; - AddrMajorMode majorMode = GetMajorMode(resourceType, - swizzleMode, - mipWidthInBlk, - mipHeightInBlk, - mipDepthInBlk); - - UINT_32 endingMip = mipId + 1; - - for (UINT_32 i = 1; i <= mipId; i++) - { - if ((i == 1) || (i == 3)) - { - if (majorMode == ADDR_MAJOR_Y) - { - mipStartPos.w += mipWidthInBlk; - } - else - { - mipStartPos.h += mipHeightInBlk; - } - } - else - { - if (majorMode == ADDR_MAJOR_X) - { - mipStartPos.w += mipWidthInBlk; - } - else if (majorMode == ADDR_MAJOR_Y) - { - mipStartPos.h += mipHeightInBlk; - } - else - { - mipStartPos.d += mipDepthInBlk; - } - } - - BOOL_32 inTail = FALSE; - - if (IsThick(resourceType, swizzleMode)) - { - UINT_32 dim = log2blkSize % 3; - - if (dim == 0) - { - inTail = - (mipWidthInBlk <= 2) && (mipHeightInBlk == 1) && (mipDepthInBlk <= 2); - } - else if (dim == 1) - { - inTail = - (mipWidthInBlk == 1) && (mipHeightInBlk <= 2) && (mipDepthInBlk <= 2); - } - else - { - inTail = - (mipWidthInBlk <= 2) && (mipHeightInBlk <= 2) && (mipDepthInBlk == 1); - } - } - else - { - if (log2blkSize & 1) - { - inTail = (mipWidthInBlk <= 2) && (mipHeightInBlk == 1); - } - else - { - inTail = (mipWidthInBlk == 1) && (mipHeightInBlk <= 2); - } - } - - if (inTail) - { - endingMip = i; - break; - } - - mipWidthInBlk = RoundHalf(mipWidthInBlk); - mipHeightInBlk = RoundHalf(mipHeightInBlk); - mipDepthInBlk = RoundHalf(mipDepthInBlk); - } - - if (mipId >= endingMip) - { - inMipTail = TRUE; - mipIndexInTail = mipId - endingMip; - } - } - - if (inMipTail) - { - UINT_32 index = mipIndexInTail + MaxMacroBits - log2blkSize; - ADDR_ASSERT(index < sizeof(MipTailOffset256B) / sizeof(UINT_32)); - *pMipTailBytesOffset = MipTailOffset256B[index] << 8; - } - - return mipStartPos; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::HwlComputeSurfaceAddrFromCoordTiled -* -* @brief -* Internal function to calculate address from coord for tiled swizzle surface -* -* @return -* ADDR_E_RETURNCODE -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceAddrFromCoordTiled( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; - localIn.swizzleMode = pIn->swizzleMode; - localIn.flags = pIn->flags; - localIn.resourceType = pIn->resourceType; - localIn.bpp = pIn->bpp; - localIn.width = Max(pIn->unalignedWidth, 1u); - localIn.height = Max(pIn->unalignedHeight, 1u); - localIn.numSlices = Max(pIn->numSlices, 1u); - localIn.numMipLevels = Max(pIn->numMipLevels, 1u); - localIn.numSamples = Max(pIn->numSamples, 1u); - localIn.numFrags = Max(pIn->numFrags, 1u); - if (localIn.numMipLevels <= 1) - { - localIn.pitchInElement = pIn->pitchInElement; - } - - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; - ADDR_E_RETURNCODE returnCode = ComputeSurfaceInfoTiled(&localIn, &localOut); - - BOOL_32 valid = (returnCode == ADDR_OK) && - (IsThin(pIn->resourceType, pIn->swizzleMode) || - IsThick(pIn->resourceType, pIn->swizzleMode)) && - ((pIn->pipeBankXor == 0) || (IsXor(pIn->swizzleMode))); - - if (valid) - { - UINT_32 log2ElementBytes = Log2(pIn->bpp >> 3); - Dim3d mipStartPos = {0}; - UINT_32 mipTailBytesOffset = 0; - - if (pIn->numMipLevels > 1) - { - // Mip-map chain cannot be MSAA surface - ADDR_ASSERT((pIn->numSamples <= 1) && (pIn->numFrags<= 1)); - - mipStartPos = GetMipStartPos(pIn->resourceType, - pIn->swizzleMode, - localOut.pitch, - localOut.height, - localOut.numSlices, - localOut.blockWidth, - localOut.blockHeight, - localOut.blockSlices, - pIn->mipId, - log2ElementBytes, - &mipTailBytesOffset); - } - - UINT_32 interleaveOffset = 0; - UINT_32 pipeBits = 0; - UINT_32 pipeXor = 0; - UINT_32 bankBits = 0; - UINT_32 bankXor = 0; - - if (IsThin(pIn->resourceType, pIn->swizzleMode)) - { - UINT_32 blockOffset = 0; - UINT_32 log2blkSize = GetBlockSizeLog2(pIn->swizzleMode); - - if (IsZOrderSwizzle(pIn->swizzleMode)) - { - // Morton generation - if ((log2ElementBytes == 0) || (log2ElementBytes == 2)) - { - UINT_32 totalLowBits = 6 - log2ElementBytes; - UINT_32 mortBits = totalLowBits / 2; - UINT_32 lowBitsValue = MortonGen2d(pIn->y, pIn->x, mortBits); - // Are 9 bits enough? - UINT_32 highBitsValue = - MortonGen2d(pIn->x >> mortBits, pIn->y >> mortBits, 9) << totalLowBits; - blockOffset = lowBitsValue | highBitsValue; - ADDR_ASSERT(blockOffset == lowBitsValue + highBitsValue); - } - else - { - blockOffset = MortonGen2d(pIn->y, pIn->x, 13); - } - - // Fill LSBs with sample bits - if (pIn->numSamples > 1) - { - blockOffset *= pIn->numSamples; - blockOffset |= pIn->sample; - } - - // Shift according to BytesPP - blockOffset <<= log2ElementBytes; - } - else - { - // Micro block offset - UINT_32 microBlockOffset = ComputeSurface2DMicroBlockOffset(pIn); - blockOffset = microBlockOffset; - - // Micro block dimension - ADDR_ASSERT(log2ElementBytes < MaxNumOfBpp); - Dim2d microBlockDim = Block256_2d[log2ElementBytes]; - // Morton generation, does 12 bit enough? - blockOffset |= - MortonGen2d((pIn->x / microBlockDim.w), (pIn->y / microBlockDim.h), 12) << 8; - - // Sample bits start location - UINT_32 sampleStart = log2blkSize - Log2(pIn->numSamples); - // Join sample bits information to the highest Macro block bits - if (IsNonPrtXor(pIn->swizzleMode)) - { - // Non-prt-Xor : xor highest Macro block bits with sample bits - blockOffset = blockOffset ^ (pIn->sample << sampleStart); - } - else - { - // Non-Xor or prt-Xor: replace highest Macro block bits with sample bits - // after this op, the blockOffset only contains log2 Macro block size bits - blockOffset %= (1 << sampleStart); - blockOffset |= (pIn->sample << sampleStart); - ADDR_ASSERT((blockOffset >> log2blkSize) == 0); - } - } - - if (IsXor(pIn->swizzleMode)) - { - // Mask off bits above Macro block bits to keep page synonyms working for prt - if (IsPrt(pIn->swizzleMode)) - { - blockOffset &= ((1 << log2blkSize) - 1); - } - - // Preserve offset inside pipe interleave - interleaveOffset = blockOffset & ((1 << m_pipeInterleaveLog2) - 1); - blockOffset >>= m_pipeInterleaveLog2; - - // Pipe/Se xor bits - pipeBits = GetPipeXorBits(log2blkSize); - // Pipe xor - pipeXor = FoldXor2d(blockOffset, pipeBits); - blockOffset >>= pipeBits; - - // Bank xor bits - bankBits = GetBankXorBits(log2blkSize); - // Bank Xor - bankXor = FoldXor2d(blockOffset, bankBits); - blockOffset >>= bankBits; - - // Put all the part back together - blockOffset <<= bankBits; - blockOffset |= bankXor; - blockOffset <<= pipeBits; - blockOffset |= pipeXor; - blockOffset <<= m_pipeInterleaveLog2; - blockOffset |= interleaveOffset; - } - - ADDR_ASSERT((blockOffset | mipTailBytesOffset) == (blockOffset + mipTailBytesOffset)); - ADDR_ASSERT((mipTailBytesOffset == 0u) || (blockOffset < (1u << log2blkSize))); - - blockOffset |= mipTailBytesOffset; - - if (IsNonPrtXor(pIn->swizzleMode) && (pIn->numSamples <= 1)) - { - // Apply slice xor if not MSAA/PRT - blockOffset ^= (ReverseBitVector(pIn->slice, pipeBits) << m_pipeInterleaveLog2); - blockOffset ^= (ReverseBitVector(pIn->slice >> pipeBits, bankBits) << - (m_pipeInterleaveLog2 + pipeBits)); - } - - returnCode = ApplyCustomerPipeBankXor(pIn->swizzleMode, pIn->pipeBankXor, - bankBits, pipeBits, &blockOffset); - - blockOffset %= (1 << log2blkSize); - - UINT_32 pitchInMacroBlock = localOut.mipChainPitch / localOut.blockWidth; - UINT_32 paddedHeightInMacroBlock = localOut.mipChainHeight / localOut.blockHeight; - UINT_32 sliceSizeInMacroBlock = pitchInMacroBlock * paddedHeightInMacroBlock; - UINT_64 macroBlockIndex = - (pIn->slice + mipStartPos.d) * sliceSizeInMacroBlock + - ((pIn->y / localOut.blockHeight) + mipStartPos.h) * pitchInMacroBlock + - ((pIn->x / localOut.blockWidth) + mipStartPos.w); - - pOut->addr = blockOffset | (macroBlockIndex << log2blkSize); - } - else - { - UINT_32 log2blkSize = GetBlockSizeLog2(pIn->swizzleMode); - - Dim3d microBlockDim = Block1K_3d[log2ElementBytes]; - - UINT_32 blockOffset = MortonGen3d((pIn->x / microBlockDim.w), - (pIn->y / microBlockDim.h), - (pIn->slice / microBlockDim.d), - 8); - - blockOffset <<= 10; - blockOffset |= ComputeSurface3DMicroBlockOffset(pIn); - - if (IsXor(pIn->swizzleMode)) - { - // Mask off bits above Macro block bits to keep page synonyms working for prt - if (IsPrt(pIn->swizzleMode)) - { - blockOffset &= ((1 << log2blkSize) - 1); - } - - // Preserve offset inside pipe interleave - interleaveOffset = blockOffset & ((1 << m_pipeInterleaveLog2) - 1); - blockOffset >>= m_pipeInterleaveLog2; - - // Pipe/Se xor bits - pipeBits = GetPipeXorBits(log2blkSize); - // Pipe xor - pipeXor = FoldXor3d(blockOffset, pipeBits); - blockOffset >>= pipeBits; - - // Bank xor bits - bankBits = GetBankXorBits(log2blkSize); - // Bank Xor - bankXor = FoldXor3d(blockOffset, bankBits); - blockOffset >>= bankBits; - - // Put all the part back together - blockOffset <<= bankBits; - blockOffset |= bankXor; - blockOffset <<= pipeBits; - blockOffset |= pipeXor; - blockOffset <<= m_pipeInterleaveLog2; - blockOffset |= interleaveOffset; - } - - ADDR_ASSERT((blockOffset | mipTailBytesOffset) == (blockOffset + mipTailBytesOffset)); - ADDR_ASSERT((mipTailBytesOffset == 0u) || (blockOffset < (1u << log2blkSize))); - blockOffset |= mipTailBytesOffset; - - returnCode = ApplyCustomerPipeBankXor(pIn->swizzleMode, pIn->pipeBankXor, - bankBits, pipeBits, &blockOffset); - - blockOffset %= (1 << log2blkSize); - - UINT_32 xb = pIn->x / localOut.blockWidth + mipStartPos.w; - UINT_32 yb = pIn->y / localOut.blockHeight + mipStartPos.h; - UINT_32 zb = pIn->slice / localOut.blockSlices + + mipStartPos.d; - - UINT_32 pitchInBlock = localOut.mipChainPitch / localOut.blockWidth; - UINT_32 sliceSizeInBlock = - (localOut.mipChainHeight / localOut.blockHeight) * pitchInBlock; - UINT_64 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - - pOut->addr = blockOffset | (blockIndex << log2blkSize); - } - } - else - { - returnCode = ADDR_INVALIDPARAMS; - } - - return returnCode; -} - -/** -************************************************************************************************************************ -* Gfx9Lib::ComputeSurfaceInfoLinear -* -* @brief -* Internal function to calculate padding for linear swizzle 2D/3D surface -* -* @return -* N/A -************************************************************************************************************************ -*/ -ADDR_E_RETURNCODE Gfx9Lib::ComputeSurfaceLinearPadding( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input srtucture - UINT_32* pMipmap0PaddedWidth, ///< [out] padded width in element - UINT_32* pSlice0PaddedHeight, ///< [out] padded height for HW - ADDR2_MIP_INFO* pMipInfo ///< [out] per mip information - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - UINT_32 elementBytes = pIn->bpp >> 3; - UINT_32 pitchAlignInElement = 0; - - if (pIn->swizzleMode == ADDR_SW_LINEAR_GENERAL) - { - ADDR_ASSERT(pIn->numMipLevels <= 1); - ADDR_ASSERT(pIn->numSlices <= 1); - pitchAlignInElement = 1; - } - else - { - pitchAlignInElement = (256 / elementBytes); - } - - UINT_32 mipChainWidth = PowTwoAlign(pIn->width, pitchAlignInElement); - UINT_32 slice0PaddedHeight = pIn->height; - - returnCode = ApplyCustomizedPitchHeight(pIn, elementBytes, pitchAlignInElement, - &mipChainWidth, &slice0PaddedHeight); - - if (returnCode == ADDR_OK) - { - UINT_32 mipChainHeight = 0; - UINT_32 mipHeight = pIn->height; - - for (UINT_32 i = 0; i < pIn->numMipLevels; i++) - { - if (pMipInfo != NULL) - { - pMipInfo[i].offset = mipChainWidth * mipChainHeight * elementBytes; - pMipInfo[i].pitch = mipChainWidth; - pMipInfo[i].height = mipHeight; - pMipInfo[i].depth = 1; - } - - mipChainHeight += mipHeight; - mipHeight = RoundHalf(mipHeight); - mipHeight = Max(mipHeight, 1u); - } - - *pMipmap0PaddedWidth = mipChainWidth; - *pSlice0PaddedHeight = (pIn->numMipLevels > 1) ? mipChainHeight : slice0PaddedHeight; - } - - return returnCode; -} - -} // V2 -} // Addr diff --git a/src/amd/addrlib/gfx9/gfx9addrlib.h b/src/amd/addrlib/gfx9/gfx9addrlib.h deleted file mode 100644 index cf56507964c..00000000000 --- a/src/amd/addrlib/gfx9/gfx9addrlib.h +++ /dev/null @@ -1,454 +0,0 @@ -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -************************************************************************************************************************ -* @file gfx9addrlib.h -* @brief Contgfx9ns the Gfx9Lib class definition. -************************************************************************************************************************ -*/ - -#ifndef __GFX9_ADDR_LIB_H__ -#define __GFX9_ADDR_LIB_H__ - -#include "addrlib2.h" -#include "coord.h" - -namespace Addr -{ -namespace V2 -{ - -/** -************************************************************************************************************************ -* @brief GFX9 specific settings structure. -************************************************************************************************************************ -*/ -struct Gfx9ChipSettings -{ - struct - { - // Asic/Generation name - UINT_32 isArcticIsland : 1; - UINT_32 isVega10 : 1; - UINT_32 isRaven : 1; - UINT_32 isVega12 : 1; - UINT_32 isVega20 : 1; - - // Display engine IP version name - UINT_32 isDce12 : 1; - UINT_32 isDcn1 : 1; - - // Misc configuration bits - UINT_32 metaBaseAlignFix : 1; - UINT_32 depthPipeXorDisable : 1; - UINT_32 htileAlignFix : 1; - UINT_32 applyAliasFix : 1; - UINT_32 htileCacheRbConflict: 1; - UINT_32 reserved2 : 27; - }; -}; - -/** -************************************************************************************************************************ -* @brief GFX9 data surface type. -************************************************************************************************************************ -*/ -enum Gfx9DataType -{ - Gfx9DataColor, - Gfx9DataDepthStencil, - Gfx9DataFmask -}; - -/** -************************************************************************************************************************ -* @brief GFX9 meta equation parameters -************************************************************************************************************************ -*/ -struct MetaEqParams -{ - UINT_32 maxMip; - UINT_32 elementBytesLog2; - UINT_32 numSamplesLog2; - ADDR2_META_FLAGS metaFlag; - Gfx9DataType dataSurfaceType; - AddrSwizzleMode swizzleMode; - AddrResourceType resourceType; - UINT_32 metaBlkWidthLog2; - UINT_32 metaBlkHeightLog2; - UINT_32 metaBlkDepthLog2; - UINT_32 compBlkWidthLog2; - UINT_32 compBlkHeightLog2; - UINT_32 compBlkDepthLog2; -}; - -/** -************************************************************************************************************************ -* @brief This class is the GFX9 specific address library -* function set. -************************************************************************************************************************ -*/ -class Gfx9Lib : public Lib -{ -public: - /// Creates Gfx9Lib object - static Addr::Lib* CreateObj(const Client* pClient) - { - VOID* pMem = Object::ClientAlloc(sizeof(Gfx9Lib), pClient); - return (pMem != NULL) ? new (pMem) Gfx9Lib(pClient) : NULL; - } - -protected: - Gfx9Lib(const Client* pClient); - virtual ~Gfx9Lib(); - - virtual BOOL_32 HwlIsStandardSwizzle( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - return m_swizzleModeTable[swizzleMode].isStd || - (IsTex3d(resourceType) && m_swizzleModeTable[swizzleMode].isDisp); - } - - virtual BOOL_32 HwlIsDisplaySwizzle( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - return IsTex2d(resourceType) && m_swizzleModeTable[swizzleMode].isDisp; - } - - virtual BOOL_32 HwlIsThin( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - return ((IsTex2d(resourceType) == TRUE) || - ((IsTex3d(resourceType) == TRUE) && - (m_swizzleModeTable[swizzleMode].isZ == FALSE) && - (m_swizzleModeTable[swizzleMode].isStd == FALSE))); - } - - virtual BOOL_32 HwlIsThick( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode) const - { - return (IsTex3d(resourceType) && - (m_swizzleModeTable[swizzleMode].isZ || m_swizzleModeTable[swizzleMode].isStd)); - } - - virtual ADDR_E_RETURNCODE HwlComputeHtileInfo( - const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, - ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeCmaskInfo( - const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, - ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeDccInfo( - const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, - ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( - const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); - - virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( - const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); - - virtual ADDR_E_RETURNCODE HwlComputeHtileCoordFromAddr( - const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, - ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); - - virtual ADDR_E_RETURNCODE HwlComputeDccAddrFromCoord( - const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut); - - virtual UINT_32 HwlGetEquationIndex( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeBlock256Equation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const; - - virtual ADDR_E_RETURNCODE HwlComputeThinEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const; - - virtual ADDR_E_RETURNCODE HwlComputeThickEquation( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2, - ADDR_EQUATION* pEquation) const; - - // Get equation table pointer and number of equations - virtual UINT_32 HwlGetEquationTableInfo(const ADDR_EQUATION** ppEquationTable) const - { - *ppEquationTable = m_equationTable; - - return m_numEquations; - } - - virtual BOOL_32 IsEquationSupported( - AddrResourceType rsrcType, - AddrSwizzleMode swMode, - UINT_32 elementBytesLog2) const; - - UINT_32 ComputeSurfaceBaseAlignTiled(AddrSwizzleMode swizzleMode) const - { - UINT_32 baseAlign; - - if (IsXor(swizzleMode)) - { - baseAlign = GetBlockSize(swizzleMode); - } - else - { - baseAlign = 256; - } - - return baseAlign; - } - - virtual ADDR_E_RETURNCODE HwlComputePipeBankXor( - const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSlicePipeBankXor( - const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, - ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSubResourceOffsetForSwizzlePattern( - const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, - ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlGetPreferredSurfaceSetting( - const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, - ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoSanityCheck( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const; - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoTiled( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoLinear( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoordTiled( - const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - // Initialize equation table - VOID InitEquationTable(); - - ADDR_E_RETURNCODE ComputeStereoInfo( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut, - UINT_32* pHeightAlign) const; - - UINT_32 GetMipChainInfo( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 bpp, - UINT_32 mip0Width, - UINT_32 mip0Height, - UINT_32 mip0Depth, - UINT_32 blockWidth, - UINT_32 blockHeight, - UINT_32 blockDepth, - UINT_32 numMipLevel, - ADDR2_MIP_INFO* pMipInfo) const; - - VOID GetMetaMiptailInfo( - ADDR2_META_MIP_INFO* pInfo, - Dim3d mipCoord, - UINT_32 numMipInTail, - Dim3d* pMetaBlkDim) const; - - Dim3d GetMipStartPos( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 width, - UINT_32 height, - UINT_32 depth, - UINT_32 blockWidth, - UINT_32 blockHeight, - UINT_32 blockDepth, - UINT_32 mipId, - UINT_32 log2ElementBytes, - UINT_32* pMipTailBytesOffset) const; - - AddrMajorMode GetMajorMode( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 mip0WidthInBlk, - UINT_32 mip0HeightInBlk, - UINT_32 mip0DepthInBlk) const - { - BOOL_32 yMajor = (mip0WidthInBlk < mip0HeightInBlk); - BOOL_32 xMajor = (yMajor == FALSE); - - if (IsThick(resourceType, swizzleMode)) - { - yMajor = yMajor && (mip0HeightInBlk >= mip0DepthInBlk); - xMajor = xMajor && (mip0WidthInBlk >= mip0DepthInBlk); - } - - AddrMajorMode majorMode; - if (xMajor) - { - majorMode = ADDR_MAJOR_X; - } - else if (yMajor) - { - majorMode = ADDR_MAJOR_Y; - } - else - { - majorMode = ADDR_MAJOR_Z; - } - - return majorMode; - } - - Dim3d GetDccCompressBlk( - AddrResourceType resourceType, - AddrSwizzleMode swizzleMode, - UINT_32 bpp) const - { - UINT_32 index = Log2(bpp >> 3); - Dim3d compressBlkDim; - - if (IsThin(resourceType, swizzleMode)) - { - compressBlkDim.w = Block256_2d[index].w; - compressBlkDim.h = Block256_2d[index].h; - compressBlkDim.d = 1; - } - else if (IsStandardSwizzle(resourceType, swizzleMode)) - { - compressBlkDim = Block256_3dS[index]; - } - else - { - compressBlkDim = Block256_3dZ[index]; - } - - return compressBlkDim; - } - - - static const UINT_32 MaxSeLog2 = 3; - static const UINT_32 MaxRbPerSeLog2 = 2; - - static const Dim3d Block256_3dS[MaxNumOfBpp]; - static const Dim3d Block256_3dZ[MaxNumOfBpp]; - - static const UINT_32 MipTailOffset256B[]; - - static const SwizzleModeFlags SwizzleModeTable[ADDR_SW_MAX_TYPE]; - - // Max number of swizzle mode supported for equation - static const UINT_32 MaxSwMode = 32; - // Max number of resource type (2D/3D) supported for equation - static const UINT_32 MaxRsrcType = 2; - // Max number of bpp (8bpp/16bpp/32bpp/64bpp/128bpp) - static const UINT_32 MaxElementBytesLog2 = 5; - // Almost all swizzle mode + resource type support equation - static const UINT_32 EquationTableSize = MaxElementBytesLog2 * MaxSwMode * MaxRsrcType; - // Equation table - ADDR_EQUATION m_equationTable[EquationTableSize]; - - // Number of equation entries in the table - UINT_32 m_numEquations; - // Equation lookup table according to bpp and tile index - UINT_32 m_equationLookupTable[MaxRsrcType][MaxSwMode][MaxElementBytesLog2]; - - static const UINT_32 MaxCachedMetaEq = 2; - -private: - virtual UINT_32 HwlComputeMaxBaseAlignments() const; - - virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const; - - virtual BOOL_32 HwlInitGlobalParams(const ADDR_CREATE_INPUT* pCreateIn); - - VOID GetRbEquation(CoordEq* pRbEq, UINT_32 rbPerSeLog2, UINT_32 seLog2) const; - - VOID GetDataEquation(CoordEq* pDataEq, Gfx9DataType dataSurfaceType, - AddrSwizzleMode swizzleMode, AddrResourceType resourceType, - UINT_32 elementBytesLog2, UINT_32 numSamplesLog2) const; - - VOID GetPipeEquation(CoordEq* pPipeEq, CoordEq* pDataEq, - UINT_32 pipeInterleaveLog2, UINT_32 numPipesLog2, - UINT_32 numSamplesLog2, Gfx9DataType dataSurfaceType, - AddrSwizzleMode swizzleMode, AddrResourceType resourceType) const; - - VOID GenMetaEquation(CoordEq* pMetaEq, UINT_32 maxMip, - UINT_32 elementBytesLog2, UINT_32 numSamplesLog2, - ADDR2_META_FLAGS metaFlag, Gfx9DataType dataSurfaceType, - AddrSwizzleMode swizzleMode, AddrResourceType resourceType, - UINT_32 metaBlkWidthLog2, UINT_32 metaBlkHeightLog2, - UINT_32 metaBlkDepthLog2, UINT_32 compBlkWidthLog2, - UINT_32 compBlkHeightLog2, UINT_32 compBlkDepthLog2) const; - - const CoordEq* GetMetaEquation(const MetaEqParams& metaEqParams); - - virtual ChipFamily HwlConvertChipFamily(UINT_32 uChipFamily, UINT_32 uChipRevision); - - VOID GetMetaMipInfo(UINT_32 numMipLevels, Dim3d* pMetaBlkDim, - BOOL_32 dataThick, ADDR2_META_MIP_INFO* pInfo, - UINT_32 mip0Width, UINT_32 mip0Height, UINT_32 mip0Depth, - UINT_32* pNumMetaBlkX, UINT_32* pNumMetaBlkY, UINT_32* pNumMetaBlkZ) const; - - BOOL_32 IsValidDisplaySwizzleMode(const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const; - - ADDR_E_RETURNCODE ComputeSurfaceLinearPadding( - const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, - UINT_32* pMipmap0PaddedWidth, - UINT_32* pSlice0PaddedHeight, - ADDR2_MIP_INFO* pMipInfo = NULL) const; - - Gfx9ChipSettings m_settings; - - CoordEq m_cachedMetaEq[MaxCachedMetaEq]; - MetaEqParams m_cachedMetaEqKey[MaxCachedMetaEq]; - UINT_32 m_metaEqOverrideIndex; -}; - -} // V2 -} // Addr - -#endif - diff --git a/src/amd/addrlib/inc/addrinterface.h b/src/amd/addrlib/inc/addrinterface.h new file mode 100644 index 00000000000..1a2690970be --- /dev/null +++ b/src/amd/addrlib/inc/addrinterface.h @@ -0,0 +1,3715 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrinterface.h +* @brief Contains the addrlib interfaces declaration and parameter defines +**************************************************************************************************** +*/ +#ifndef __ADDR_INTERFACE_H__ +#define __ADDR_INTERFACE_H__ + +#include "addrtypes.h" + +#if defined(__cplusplus) +extern "C" +{ +#endif + +#define ADDRLIB_VERSION_MAJOR 6 +#define ADDRLIB_VERSION_MINOR 2 +#define ADDRLIB_VERSION ((ADDRLIB_VERSION_MAJOR << 16) | ADDRLIB_VERSION_MINOR) + +/// Virtually all interface functions need ADDR_HANDLE as first parameter +typedef VOID* ADDR_HANDLE; + +/// Client handle used in callbacks +typedef VOID* ADDR_CLIENT_HANDLE; + +/** +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // Callback functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* typedef VOID* (ADDR_API* ADDR_ALLOCSYSMEM)( +* const ADDR_ALLOCSYSMEM_INPUT* pInput); +* typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_FREESYSMEM)( +* VOID* pVirtAddr); +* typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_DEBUGPRINT)( +* const ADDR_DEBUGPRINT_INPUT* pInput); +* +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // Create/Destroy/Config functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* AddrCreate() +* AddrDestroy() +* +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // Surface functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* AddrComputeSurfaceInfo() +* AddrComputeSurfaceAddrFromCoord() +* AddrComputeSurfaceCoordFromAddr() +* +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // HTile functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* AddrComputeHtileInfo() +* AddrComputeHtileAddrFromCoord() +* AddrComputeHtileCoordFromAddr() +* +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // C-mask functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* AddrComputeCmaskInfo() +* AddrComputeCmaskAddrFromCoord() +* AddrComputeCmaskCoordFromAddr() +* +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // F-mask functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* AddrComputeFmaskInfo() +* AddrComputeFmaskAddrFromCoord() +* AddrComputeFmaskCoordFromAddr() +* +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* // Element/Utility functions +* ///////////////////////////////////////////////////////////////////////////////////////////////// +* ElemFlt32ToDepthPixel() +* ElemFlt32ToColorPixel() +* AddrExtractBankPipeSwizzle() +* AddrCombineBankPipeSwizzle() +* AddrComputeSliceSwizzle() +* AddrConvertTileInfoToHW() +* AddrConvertTileIndex() +* AddrConvertTileIndex1() +* AddrGetTileIndex() +* AddrComputeBaseSwizzle() +* AddrUseTileIndex() +* AddrUseCombinedSwizzle() +* +**/ + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Callback functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* @brief channel setting structure +**************************************************************************************************** +*/ +typedef union _ADDR_CHANNEL_SETTING +{ + struct + { + UINT_8 valid : 1; ///< Indicate whehter this channel setting is valid + UINT_8 channel : 2; ///< 0 for x channel, 1 for y channel, 2 for z channel + UINT_8 index : 5; ///< Channel index + }; + UINT_8 value; ///< Value +} ADDR_CHANNEL_SETTING; + +/** +**************************************************************************************************** +* @brief address equation key structure +**************************************************************************************************** +*/ +typedef union _ADDR_EQUATION_KEY +{ + struct + { + UINT_32 log2ElementBytes : 3; ///< Log2 of Bytes per pixel + UINT_32 tileMode : 5; ///< Tile mode + UINT_32 microTileType : 3; ///< Micro tile type + UINT_32 pipeConfig : 5; ///< pipe config + UINT_32 numBanksLog2 : 3; ///< Number of banks log2 + UINT_32 bankWidth : 4; ///< Bank width + UINT_32 bankHeight : 4; ///< Bank height + UINT_32 macroAspectRatio : 3; ///< Macro tile aspect ratio + UINT_32 prt : 1; ///< SI only, indicate whether this equation is for prt + UINT_32 reserved : 1; ///< Reserved bit + } fields; + UINT_32 value; +} ADDR_EQUATION_KEY; + +/** +**************************************************************************************************** +* @brief address equation structure +**************************************************************************************************** +*/ +#define ADDR_MAX_EQUATION_BIT 20u + +// Invalid equation index +#define ADDR_INVALID_EQUATION_INDEX 0xFFFFFFFF + +typedef struct _ADDR_EQUATION +{ + ADDR_CHANNEL_SETTING addr[ADDR_MAX_EQUATION_BIT]; ///< addr setting + ///< each bit is result of addr ^ xor ^ xor2 + ADDR_CHANNEL_SETTING xor1[ADDR_MAX_EQUATION_BIT]; ///< xor setting + ADDR_CHANNEL_SETTING xor2[ADDR_MAX_EQUATION_BIT]; ///< xor2 setting + UINT_32 numBits; ///< The number of bits in equation + BOOL_32 stackedDepthSlices; ///< TRUE if depth slices are treated as being + ///< stacked vertically prior to swizzling +} ADDR_EQUATION; + +/** +**************************************************************************************************** +* @brief Alloc system memory flags. +* @note These flags are reserved for future use and if flags are added will minimize the impact +* of the client. +**************************************************************************************************** +*/ +typedef union _ADDR_ALLOCSYSMEM_FLAGS +{ + struct + { + UINT_32 reserved : 32; ///< Reserved for future use. + } fields; + UINT_32 value; + +} ADDR_ALLOCSYSMEM_FLAGS; + +/** +**************************************************************************************************** +* @brief Alloc system memory input structure +**************************************************************************************************** +*/ +typedef struct _ADDR_ALLOCSYSMEM_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR_ALLOCSYSMEM_FLAGS flags; ///< System memory flags. + UINT_32 sizeInBytes; ///< System memory allocation size in bytes. + ADDR_CLIENT_HANDLE hClient; ///< Client handle +} ADDR_ALLOCSYSMEM_INPUT; + +/** +**************************************************************************************************** +* ADDR_ALLOCSYSMEM +* @brief +* Allocate system memory callback function. Returns valid pointer on success. +**************************************************************************************************** +*/ +typedef VOID* (ADDR_API* ADDR_ALLOCSYSMEM)( + const ADDR_ALLOCSYSMEM_INPUT* pInput); + +/** +**************************************************************************************************** +* @brief Free system memory input structure +**************************************************************************************************** +*/ +typedef struct _ADDR_FREESYSMEM_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + VOID* pVirtAddr; ///< Virtual address + ADDR_CLIENT_HANDLE hClient; ///< Client handle +} ADDR_FREESYSMEM_INPUT; + +/** +**************************************************************************************************** +* ADDR_FREESYSMEM +* @brief +* Free system memory callback function. +* Returns ADDR_OK on success. +**************************************************************************************************** +*/ +typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_FREESYSMEM)( + const ADDR_FREESYSMEM_INPUT* pInput); + +/** +**************************************************************************************************** +* @brief Print debug message input structure +**************************************************************************************************** +*/ +typedef struct _ADDR_DEBUGPRINT_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + CHAR* pDebugString; ///< Debug print string + va_list ap; ///< Variable argument list + ADDR_CLIENT_HANDLE hClient; ///< Client handle +} ADDR_DEBUGPRINT_INPUT; + +/** +**************************************************************************************************** +* ADDR_DEBUGPRINT +* @brief +* Print debug message callback function. +* Returns ADDR_OK on success. +**************************************************************************************************** +*/ +typedef ADDR_E_RETURNCODE (ADDR_API* ADDR_DEBUGPRINT)( + const ADDR_DEBUGPRINT_INPUT* pInput); + +/** +**************************************************************************************************** +* ADDR_CALLBACKS +* +* @brief +* Address Library needs client to provide system memory alloc/free routines. +**************************************************************************************************** +*/ +typedef struct _ADDR_CALLBACKS +{ + ADDR_ALLOCSYSMEM allocSysMem; ///< Routine to allocate system memory + ADDR_FREESYSMEM freeSysMem; ///< Routine to free system memory + ADDR_DEBUGPRINT debugPrint; ///< Routine to print debug message +} ADDR_CALLBACKS; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Create/Destroy functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR_CREATE_FLAGS +* +* @brief +* This structure is used to pass some setup in creation of AddrLib +* @note +**************************************************************************************************** +*/ +typedef union _ADDR_CREATE_FLAGS +{ + struct + { + UINT_32 noCubeMipSlicesPad : 1; ///< Turn cubemap faces padding off + UINT_32 fillSizeFields : 1; ///< If clients fill size fields in all input and + /// output structure + UINT_32 useTileIndex : 1; ///< Make tileIndex field in input valid + UINT_32 useCombinedSwizzle : 1; ///< Use combined tile swizzle + UINT_32 checkLast2DLevel : 1; ///< Check the last 2D mip sub level + UINT_32 useHtileSliceAlign : 1; ///< Do htile single slice alignment + UINT_32 allowLargeThickTile : 1; ///< Allow 64*thickness*bytesPerPixel > rowSize + UINT_32 reserved : 25; ///< Reserved bits for future use + }; + + UINT_32 value; +} ADDR_CREATE_FLAGS; + +/** +**************************************************************************************************** +* ADDR_REGISTER_VALUE +* +* @brief +* Data from registers to setup AddrLib global data, used in AddrCreate +**************************************************************************************************** +*/ +typedef struct _ADDR_REGISTER_VALUE +{ + UINT_32 gbAddrConfig; ///< For R8xx, use GB_ADDR_CONFIG register value. + /// For R6xx/R7xx, use GB_TILING_CONFIG. + /// But they can be treated as the same. + /// if this value is 0, use chip to set default value + UINT_32 backendDisables; ///< 1 bit per backend, starting with LSB. 1=disabled,0=enabled. + /// Register value of CC_RB_BACKEND_DISABLE.BACKEND_DISABLE + + /// R800 registers----------------------------------------------- + UINT_32 noOfBanks; ///< Number of h/w ram banks - For r800: MC_ARB_RAMCFG.NOOFBANK + /// No enums for this value in h/w header files + /// 0: 4 + /// 1: 8 + /// 2: 16 + UINT_32 noOfRanks; /// MC_ARB_RAMCFG.NOOFRANK + /// 0: 1 + /// 1: 2 + /// SI (R1000) registers----------------------------------------- + const UINT_32* pTileConfig; ///< Global tile setting tables + UINT_32 noOfEntries; ///< Number of entries in pTileConfig + + ///< CI registers------------------------------------------------- + const UINT_32* pMacroTileConfig; ///< Global macro tile mode table + UINT_32 noOfMacroEntries; ///< Number of entries in pMacroTileConfig + + ///< GFX9 HW parameters + UINT_32 blockVarSizeLog2; ///< SW_VAR_* block size +} ADDR_REGISTER_VALUE; + +/** +**************************************************************************************************** +* ADDR_CREATE_INPUT +* +* @brief +* Parameters use to create an AddrLib Object. Caller must provide all fields. +* +**************************************************************************************************** +*/ +typedef struct _ADDR_CREATE_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 chipEngine; ///< Chip Engine + UINT_32 chipFamily; ///< Chip Family + UINT_32 chipRevision; ///< Chip Revision + ADDR_CALLBACKS callbacks; ///< Callbacks for sysmem alloc/free/print + ADDR_CREATE_FLAGS createFlags; ///< Flags to setup AddrLib + ADDR_REGISTER_VALUE regValue; ///< Data from registers to setup AddrLib global data + ADDR_CLIENT_HANDLE hClient; ///< Client handle + UINT_32 minPitchAlignPixels; ///< Minimum pitch alignment in pixels +} ADDR_CREATE_INPUT; + +/** +**************************************************************************************************** +* ADDR_CREATEINFO_OUTPUT +* +* @brief +* Return AddrLib handle to client driver +* +**************************************************************************************************** +*/ +typedef struct _ADDR_CREATE_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR_HANDLE hLib; ///< Address lib handle + + UINT_32 numEquations; ///< Number of equations in the table + const ADDR_EQUATION* pEquationTable; ///< Pointer to the equation table +} ADDR_CREATE_OUTPUT; + +/** +**************************************************************************************************** +* AddrCreate +* +* @brief +* Create AddrLib object, must be called before any interface calls +* +* @return +* ADDR_OK if successful +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrCreate( + const ADDR_CREATE_INPUT* pAddrCreateIn, + ADDR_CREATE_OUTPUT* pAddrCreateOut); + +/** +**************************************************************************************************** +* AddrDestroy +* +* @brief +* Destroy AddrLib object, must be called to free internally allocated resources. +* +* @return +* ADDR_OK if successful +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrDestroy( + ADDR_HANDLE hLib); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* @brief +* Bank/tiling parameters. On function input, these can be set as desired or +* left 0 for AddrLib to calculate/default. On function output, these are the actual +* parameters used. +* @note +* Valid bankWidth/bankHeight value: +* 1,2,4,8. They are factors instead of pixels or bytes. +* +* The bank number remains constant across each row of the +* macro tile as each pipe is selected, so the number of +* tiles in the x direction with the same bank number will +* be bank_width * num_pipes. +**************************************************************************************************** +*/ +typedef struct _ADDR_TILEINFO +{ + /// Any of these parameters can be set to 0 to use the HW default. + UINT_32 banks; ///< Number of banks, numerical value + UINT_32 bankWidth; ///< Number of tiles in the X direction in the same bank + UINT_32 bankHeight; ///< Number of tiles in the Y direction in the same bank + UINT_32 macroAspectRatio; ///< Macro tile aspect ratio. 1-1:1, 2-4:1, 4-16:1, 8-64:1 + UINT_32 tileSplitBytes; ///< Tile split size, in bytes + AddrPipeCfg pipeConfig; ///< Pipe Config = HW enum + 1 +} ADDR_TILEINFO; + +// Create a define to avoid client change. The removal of R800 is because we plan to implement SI +// within 800 HWL - An AddrPipeCfg is added in above data structure +typedef ADDR_TILEINFO ADDR_R800_TILEINFO; + +/** +**************************************************************************************************** +* @brief +* Information needed by quad buffer stereo support +**************************************************************************************************** +*/ +typedef struct _ADDR_QBSTEREOINFO +{ + UINT_32 eyeHeight; ///< Height (in pixel rows) to right eye + UINT_32 rightOffset; ///< Offset (in bytes) to right eye + UINT_32 rightSwizzle; ///< TileSwizzle for right eyes +} ADDR_QBSTEREOINFO; + +/** +**************************************************************************************************** +* ADDR_SURFACE_FLAGS +* +* @brief +* Surface flags +**************************************************************************************************** +*/ +typedef union _ADDR_SURFACE_FLAGS +{ + struct + { + UINT_32 color : 1; ///< Flag indicates this is a color buffer + UINT_32 depth : 1; ///< Flag indicates this is a depth/stencil buffer + UINT_32 stencil : 1; ///< Flag indicates this is a stencil buffer + UINT_32 texture : 1; ///< Flag indicates this is a texture + UINT_32 cube : 1; ///< Flag indicates this is a cubemap + UINT_32 volume : 1; ///< Flag indicates this is a volume texture + UINT_32 fmask : 1; ///< Flag indicates this is an fmask + UINT_32 cubeAsArray : 1; ///< Flag indicates if treat cubemap as arrays + UINT_32 compressZ : 1; ///< Flag indicates z buffer is compressed + UINT_32 overlay : 1; ///< Flag indicates this is an overlay surface + UINT_32 noStencil : 1; ///< Flag indicates this depth has no separate stencil + UINT_32 display : 1; ///< Flag indicates this should match display controller req. + UINT_32 opt4Space : 1; ///< Flag indicates this surface should be optimized for space + /// i.e. save some memory but may lose performance + UINT_32 prt : 1; ///< Flag for partially resident texture + UINT_32 qbStereo : 1; ///< Quad buffer stereo surface + UINT_32 pow2Pad : 1; ///< SI: Pad to pow2, must set for mipmap (include level0) + UINT_32 interleaved : 1; ///< Special flag for interleaved YUV surface padding + UINT_32 tcCompatible : 1; ///< Flag indicates surface needs to be shader readable + UINT_32 dispTileType : 1; ///< NI: force display Tiling for 128 bit shared resoruce + UINT_32 dccCompatible : 1; ///< VI: whether to make MSAA surface support dcc fast clear + UINT_32 dccPipeWorkaround : 1; ///< VI: whether to workaround the HW limit that + /// dcc can't be enabled if pipe config of tile mode + /// is different from that of ASIC, this flag + /// is address lib internal flag, client should ignore it + UINT_32 czDispCompatible : 1; ///< SI+: CZ family has a HW bug needs special alignment. + /// This flag indicates we need to follow the + /// alignment with CZ families or other ASICs under + /// PX configuration + CZ. + UINT_32 nonSplit : 1; ///< CI: depth texture should not be split + UINT_32 disableLinearOpt : 1; ///< Disable tile mode optimization to linear + UINT_32 needEquation : 1; ///< Make the surface tile setting equation compatible. + /// This flag indicates we need to override tile + /// mode to PRT_* tile mode to disable slice rotation, + /// which is needed by swizzle pattern equation. + UINT_32 skipIndicesOutput : 1; ///< Skipping indices in output. + UINT_32 rotateDisplay : 1; ///< Rotate micro tile type + UINT_32 minimizeAlignment : 1; ///< Minimize alignment + UINT_32 preferEquation : 1; ///< Return equation index without adjusting tile mode + UINT_32 matchStencilTileCfg : 1; ///< Select tile index of stencil as well as depth surface + /// to make sure they share same tile config parameters + UINT_32 disallowLargeThickDegrade : 1; ///< Disallow large thick tile degrade + UINT_32 reserved : 1; ///< Reserved bits + }; + + UINT_32 value; +} ADDR_SURFACE_FLAGS; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SURFACE_INFO_INPUT +* +* @brief +* Input structure for AddrComputeSurfaceInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SURFACE_INFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrTileMode tileMode; ///< Tile mode + AddrFormat format; ///< If format is set to valid one, bpp/width/height + /// might be overwritten + UINT_32 bpp; ///< Bits per pixel + UINT_32 numSamples; ///< Number of samples + UINT_32 width; ///< Width, in pixels + UINT_32 height; ///< Height, in pixels + UINT_32 numSlices; ///< Number of surface slices or depth + UINT_32 slice; ///< Slice index + UINT_32 mipLevel; ///< Current mipmap level + UINT_32 numMipLevels; ///< Number of mips in mip chain + ADDR_SURFACE_FLAGS flags; ///< Surface type flags + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + /// r800 and later HWL parameters + // Needed by 2D tiling, for linear and 1D tiling, just keep them 0's + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Set to 0 to default/calculate + AddrTileType tileType; ///< Micro tiling type, not needed when tileIndex != -1 + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + UINT_32 basePitch; ///< Base level pitch in pixels, 0 means ignored, is a + /// must for mip levels from SI+. + /// Don't use pitch in blocks for compressed formats! + UINT_32 maxBaseAlign; ///< Max base alignment request from client + UINT_32 pitchAlign; ///< Pitch alignment request from client + UINT_32 heightAlign; ///< Height alignment request from client +} ADDR_COMPUTE_SURFACE_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SURFACE_INFO_OUTPUT +* +* @brief +* Output structure for AddrComputeSurfInfo +* @note + Element: AddrLib unit for computing. e.g. BCn: 4x4 blocks; R32B32B32: 32bit with 3x pitch + Pixel: Original pixel +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SURFACE_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch in elements (in blocks for compressed formats) + UINT_32 height; ///< Height in elements (in blocks for compressed formats) + UINT_32 depth; ///< Number of slice/depth + UINT_64 surfSize; ///< Surface size in bytes + AddrTileMode tileMode; ///< Actual tile mode. May differ from that in input + UINT_32 baseAlign; ///< Base address alignment + UINT_32 pitchAlign; ///< Pitch alignment, in elements + UINT_32 heightAlign; ///< Height alignment, in elements + UINT_32 depthAlign; ///< Depth alignment, aligned to thickness, for 3d texture + UINT_32 bpp; ///< Bits per elements (e.g. blocks for BCn, 1/3 for 96bit) + UINT_32 pixelPitch; ///< Pitch in original pixels + UINT_32 pixelHeight; ///< Height in original pixels + UINT_32 pixelBits; ///< Original bits per pixel, passed from input + UINT_64 sliceSize; ///< Size of slice specified by input's slice + /// The result is controlled by surface flags & createFlags + /// By default this value equals to surfSize for volume + UINT_32 pitchTileMax; ///< PITCH_TILE_MAX value for h/w register + UINT_32 heightTileMax; ///< HEIGHT_TILE_MAX value for h/w register + UINT_32 sliceTileMax; ///< SLICE_TILE_MAX value for h/w register + + UINT_32 numSamples; ///< Pass the effective numSamples processed in this call + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< Tile parameters used. Filled in if 0 on input + AddrTileType tileType; ///< Micro tiling type, only valid when tileIndex != -1 + INT_32 tileIndex; ///< Tile index, MAY be "downgraded" + + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + /// Output flags + struct + { + /// Special information to work around SI mipmap swizzle bug UBTS #317508 + UINT_32 last2DLevel : 1; ///< TRUE if this is the last 2D(3D) tiled + ///< Only meaningful when create flag checkLast2DLevel is set + UINT_32 tcCompatible : 1; ///< If the surface can be shader compatible + UINT_32 dccUnsupport : 1; ///< If the surface can support DCC compressed rendering + UINT_32 prtTileIndex : 1; ///< SI only, indicate the returned tile index is for PRT + ///< If address lib return true for mip 0, client should set prt flag + ///< for child mips in subsequent compute surface info calls + UINT_32 reserved :28; ///< Reserved bits + }; + + UINT_32 equationIndex; ///< Equation index in the equation table; + + UINT_32 blockWidth; ///< Width in element inside one block(1D->Micro, 2D->Macro) + UINT_32 blockHeight; ///< Height in element inside one block(1D->Micro, 2D->Macro) + UINT_32 blockSlices; ///< Slice number inside one block(1D->Micro, 2D->Macro) + + /// Stereo info + ADDR_QBSTEREOINFO* pStereoInfo;///< Stereo information, needed when .qbStereo flag is TRUE + + INT_32 stencilTileIdx; ///< stencil tile index output when matchStencilTileCfg was set +} ADDR_COMPUTE_SURFACE_INFO_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeSurfaceInfo +* +* @brief +* Compute surface width/height/depth/alignments and suitable tiling mode +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceInfo( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for AddrComputeSurfaceAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index + UINT_32 sample; ///< Sample index, use fragment index for EQAA + + UINT_32 bpp; ///< Bits per pixel + UINT_32 pitch; ///< Surface pitch, in pixels + UINT_32 height; ///< Surface height, in pixels + UINT_32 numSlices; ///< Surface depth + UINT_32 numSamples; ///< Number of samples + + AddrTileMode tileMode; ///< Tile mode + BOOL_32 isDepth; ///< TRUE if the surface uses depth sample ordering within + /// micro tile. Textures can also choose depth sample order + UINT_32 tileBase; ///< Base offset (in bits) inside micro tile which handles + /// the case that components are stored separately + UINT_32 compBits; ///< The component bits actually needed(for planar surface) + + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + /// r800 and later HWL parameters + // Used for 1D tiling above + AddrTileType tileType; ///< See defintion of AddrTileType + struct + { + UINT_32 ignoreSE : 1; ///< TRUE if shader engines are ignored. This is texture + /// only flag. Only non-RT texture can set this to TRUE + UINT_32 reserved :31; ///< Reserved for future use. + }; + // 2D tiling needs following structure + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + union + { + struct + { + UINT_32 bankSwizzle; ///< Bank swizzle + UINT_32 pipeSwizzle; ///< Pipe swizzle + }; + UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE + }; +} ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for AddrComputeSurfaceAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Byte address + UINT_32 bitPosition; ///< Bit position within surfaceAddr, 0-7. + /// For surface bpp < 8, e.g. FMT_1. + UINT_32 prtBlockIndex; ///< Index of a PRT tile (64K block) +} ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeSurfaceAddrFromCoord +* +* @brief +* Compute surface address from a given coordinate. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT +* +* @brief +* Input structure for AddrComputeSurfaceCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address in bytes + UINT_32 bitPosition; ///< Bit position in addr. 0-7. for surface bpp < 8, + /// e.g. FMT_1; + UINT_32 bpp; ///< Bits per pixel + UINT_32 pitch; ///< Pitch, in pixels + UINT_32 height; ///< Height in pixels + UINT_32 numSlices; ///< Surface depth + UINT_32 numSamples; ///< Number of samples + + AddrTileMode tileMode; ///< Tile mode + BOOL_32 isDepth; ///< Surface uses depth sample ordering within micro tile. + /// Note: Textures can choose depth sample order as well. + UINT_32 tileBase; ///< Base offset (in bits) inside micro tile which handles + /// the case that components are stored separately + UINT_32 compBits; ///< The component bits actually needed(for planar surface) + + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + /// r800 and later HWL parameters + // Used for 1D tiling above + AddrTileType tileType; ///< See defintion of AddrTileType + struct + { + UINT_32 ignoreSE : 1; ///< TRUE if shader engines are ignored. This is texture + /// only flag. Only non-RT texture can set this to TRUE + UINT_32 reserved :31; ///< Reserved for future use. + }; + // 2D tiling needs following structure + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + union + { + struct + { + UINT_32 bankSwizzle; ///< Bank swizzle + UINT_32 pipeSwizzle; ///< Pipe swizzle + }; + UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE + }; +} ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for AddrComputeSurfaceCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + UINT_32 sample; ///< Index of samples, means fragment index for EQAA +} ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeSurfaceCoordFromAddr +* +* @brief +* Compute coordinate from a given surface address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// HTile functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR_HTILE_FLAGS +* +* @brief +* HTILE flags +**************************************************************************************************** +*/ +typedef union _ADDR_HTILE_FLAGS +{ + struct + { + UINT_32 tcCompatible : 1; ///< Flag indicates surface needs to be shader readable + UINT_32 skipTcCompatSizeAlign : 1; ///< Flag indicates that addrLib will not align htile + /// size to 256xBankxPipe when computing tc-compatible + /// htile info. + UINT_32 reserved : 30; ///< Reserved bits + }; + + UINT_32 value; +} ADDR_HTILE_FLAGS; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_HTILE_INFO_INPUT +* +* @brief +* Input structure of AddrComputeHtileInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_HTILE_INFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR_HTILE_FLAGS flags; ///< HTILE flags + UINT_32 pitch; ///< Surface pitch, in pixels + UINT_32 height; ///< Surface height, in pixels + UINT_32 numSlices; ///< Number of slices + BOOL_32 isLinear; ///< Linear or tiled HTILE layout + AddrHtileBlockSize blockWidth; ///< 4 or 8. EG above only support 8 + AddrHtileBlockSize blockHeight; ///< 4 or 8. EG above only support 8 + ADDR_TILEINFO* pTileInfo; ///< Tile info + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_HTILE_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_HTILE_INFO_OUTPUT +* +* @brief +* Output structure of AddrComputeHtileInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_HTILE_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch in pixels of depth buffer represented in this + /// HTile buffer. This might be larger than original depth + /// buffer pitch when called with an unaligned pitch. + UINT_32 height; ///< Height in pixels, as above + UINT_64 htileBytes; ///< Size of HTILE buffer, in bytes + UINT_32 baseAlign; ///< Base alignment + UINT_32 bpp; ///< Bits per pixel for HTILE is how many bits for an 8x8 block! + UINT_32 macroWidth; ///< Macro width in pixels, actually squared cache shape + UINT_32 macroHeight; ///< Macro height in pixels + UINT_64 sliceSize; ///< Slice size, in bytes. + BOOL_32 sliceInterleaved; ///< Flag to indicate if different slice's htile is interleaved + /// Compute engine clear can't be used if htile is interleaved + BOOL_32 nextMipLevelCompressible; ///< Flag to indicate whether HTILE can be enabled in + /// next mip level, it also indicates if memory set based + /// fast clear can be used for current mip level. +} ADDR_COMPUTE_HTILE_INFO_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeHtileInfo +* +* @brief +* Compute Htile pitch, height, base alignment and size in bytes +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeHtileInfo( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, + ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for AddrComputeHtileAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch, in pixels + UINT_32 height; ///< Height in pixels + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slice + UINT_32 numSlices; ///< Number of slices + BOOL_32 isLinear; ///< Linear or tiled HTILE layout + ADDR_HTILE_FLAGS flags; ///< htile flags + AddrHtileBlockSize blockWidth; ///< 4 or 8. 1 means 8, 0 means 4. EG above only support 8 + AddrHtileBlockSize blockHeight; ///< 4 or 8. 1 means 8, 0 means 4. EG above only support 8 + ADDR_TILEINFO* pTileInfo; ///< Tile info + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid + UINT_32 bpp; ///< depth/stencil buffer bit per pixel size + UINT_32 zStencilAddr; ///< tcCompatible Z/Stencil surface address +} ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for AddrComputeHtileAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address in bytes + UINT_32 bitPosition; ///< Bit position, 0 or 4. CMASK and HTILE shares some lib method. + /// So we keep bitPosition for HTILE as well +} ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeHtileAddrFromCoord +* +* @brief +* Compute Htile address according to coordinates (of depth buffer) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeHtileAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT +* +* @brief +* Input structure for AddrComputeHtileCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address + UINT_32 bitPosition; ///< Bit position 0 or 4. CMASK and HTILE share some methods + /// so we keep bitPosition for HTILE as well + UINT_32 pitch; ///< Pitch, in pixels + UINT_32 height; ///< Height, in pixels + UINT_32 numSlices; ///< Number of slices + BOOL_32 isLinear; ///< Linear or tiled HTILE layout + AddrHtileBlockSize blockWidth; ///< 4 or 8. 1 means 8, 0 means 4. R8xx/R9xx only support 8 + AddrHtileBlockSize blockHeight; ///< 4 or 8. 1 means 8, 0 means 4. R8xx/R9xx only support 8 + ADDR_TILEINFO* pTileInfo; ///< Tile info + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for AddrComputeHtileCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index +} ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeHtileCoordFromAddr +* +* @brief +* Compute coordinates within depth buffer (1st pixel of a micro tile) according to +* Htile address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeHtileCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// C-mask functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR_CMASK_FLAGS +* +* @brief +* CMASK flags +**************************************************************************************************** +*/ +typedef union _ADDR_CMASK_FLAGS +{ + struct + { + UINT_32 tcCompatible : 1; ///< Flag indicates surface needs to be shader readable + UINT_32 reserved :31; ///< Reserved bits + }; + + UINT_32 value; +} ADDR_CMASK_FLAGS; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_CMASK_INFO_INPUT +* +* @brief +* Input structure of AddrComputeCmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_CMASKINFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR_CMASK_FLAGS flags; ///< CMASK flags + UINT_32 pitch; ///< Pitch, in pixels, of color buffer + UINT_32 height; ///< Height, in pixels, of color buffer + UINT_32 numSlices; ///< Number of slices, of color buffer + BOOL_32 isLinear; ///< Linear or tiled layout, Only SI can be linear + ADDR_TILEINFO* pTileInfo; ///< Tile info + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_CMASK_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_CMASK_INFO_OUTPUT +* +* @brief +* Output structure of AddrComputeCmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_CMASK_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch in pixels of color buffer which + /// this Cmask matches. The size might be larger than + /// original color buffer pitch when called with + /// an unaligned pitch. + UINT_32 height; ///< Height in pixels, as above + UINT_64 cmaskBytes; ///< Size in bytes of CMask buffer + UINT_32 baseAlign; ///< Base alignment + UINT_32 blockMax; ///< Cmask block size. Need this to set CB_COLORn_MASK register + UINT_32 macroWidth; ///< Macro width in pixels, actually squared cache shape + UINT_32 macroHeight; ///< Macro height in pixels + UINT_64 sliceSize; ///< Slice size, in bytes. +} ADDR_COMPUTE_CMASK_INFO_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeCmaskInfo +* +* @brief +* Compute Cmask pitch, height, base alignment and size in bytes from color buffer +* info +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskInfo( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for AddrComputeCmaskAddrFromCoord +* +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_64 fmaskAddr; ///< Fmask addr for tc compatible Cmask + UINT_32 slice; ///< Slice index + UINT_32 pitch; ///< Pitch in pixels, of color buffer + UINT_32 height; ///< Height in pixels, of color buffer + UINT_32 numSlices; ///< Number of slices + UINT_32 bpp; + BOOL_32 isLinear; ///< Linear or tiled layout, Only SI can be linear + ADDR_CMASK_FLAGS flags; ///< CMASK flags + ADDR_TILEINFO* pTileInfo; ///< Tile info + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + ///< while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for AddrComputeCmaskAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< CMASK address in bytes + UINT_32 bitPosition; ///< Bit position within addr, 0-7. CMASK is 4 bpp, + /// so the address may be located in bit 0 (0) or 4 (4) +} ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeCmaskAddrFromCoord +* +* @brief +* Compute Cmask address according to coordinates (of MSAA color buffer) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT +* +* @brief +* Input structure for AddrComputeCmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< CMASK address in bytes + UINT_32 bitPosition; ///< Bit position within addr, 0-7. CMASK is 4 bpp, + /// so the address may be located in bit 0 (0) or 4 (4) + UINT_32 pitch; ///< Pitch, in pixels + UINT_32 height; ///< Height in pixels + UINT_32 numSlices; ///< Number of slices + BOOL_32 isLinear; ///< Linear or tiled layout, Only SI can be linear + ADDR_TILEINFO* pTileInfo; ///< Tile info + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for AddrComputeCmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index +} ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeCmaskCoordFromAddr +* +* @brief +* Compute coordinates within color buffer (1st pixel of a micro tile) according to +* Cmask address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// F-mask functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR_COMPUTE_FMASK_INFO_INPUT +* +* @brief +* Input structure for AddrComputeFmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_FMASK_INFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrTileMode tileMode; ///< Tile mode + UINT_32 pitch; ///< Surface pitch, in pixels + UINT_32 height; ///< Surface height, in pixels + UINT_32 numSlices; ///< Number of slice/depth + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + /// r800 and later HWL parameters + struct + { + UINT_32 resolved: 1; ///< TRUE if the surface is for resolved fmask, only used + /// by H/W clients. S/W should always set it to FALSE. + UINT_32 reserved: 31; ///< Reserved for future use. + }; + ADDR_TILEINFO* pTileInfo; ///< 2D tiling parameters. Clients must give valid data + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 +} ADDR_COMPUTE_FMASK_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_FMASK_INFO_OUTPUT +* +* @brief +* Output structure for AddrComputeFmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_FMASK_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch of fmask in pixels + UINT_32 height; ///< Height of fmask in pixels + UINT_32 numSlices; ///< Slices of fmask + UINT_64 fmaskBytes; ///< Size of fmask in bytes + UINT_32 baseAlign; ///< Base address alignment + UINT_32 pitchAlign; ///< Pitch alignment + UINT_32 heightAlign; ///< Height alignment + UINT_32 bpp; ///< Bits per pixel of FMASK is: number of bit planes + UINT_32 numSamples; ///< Number of samples, used for dump, export this since input + /// may be changed in 9xx and above + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< Tile parameters used. Fmask can have different + /// bank_height from color buffer + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + UINT_64 sliceSize; ///< Size of slice in bytes +} ADDR_COMPUTE_FMASK_INFO_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeFmaskInfo +* +* @brief +* Compute Fmask pitch/height/depth/alignments and size in bytes +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskInfo( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for AddrComputeFmaskAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index + UINT_32 plane; ///< Plane number + UINT_32 sample; ///< Sample index (fragment index for EQAA) + + UINT_32 pitch; ///< Surface pitch, in pixels + UINT_32 height; ///< Surface height, in pixels + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + + AddrTileMode tileMode; ///< Tile mode + union + { + struct + { + UINT_32 bankSwizzle; ///< Bank swizzle + UINT_32 pipeSwizzle; ///< Pipe swizzle + }; + UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE + }; + + /// r800 and later HWL parameters + struct + { + UINT_32 resolved: 1; ///< TRUE if this is a resolved fmask, used by H/W clients + UINT_32 ignoreSE: 1; ///< TRUE if shader engines are ignored. + UINT_32 reserved: 30; ///< Reserved for future use. + }; + ADDR_TILEINFO* pTileInfo; ///< 2D tiling parameters. Client must provide all data + +} ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for AddrComputeFmaskAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Fmask address + UINT_32 bitPosition; ///< Bit position within fmaskAddr, 0-7. +} ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeFmaskAddrFromCoord +* +* @brief +* Compute Fmask address according to coordinates (x,y,slice,sample,plane) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT +* +* @brief +* Input structure for AddrComputeFmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address + UINT_32 bitPosition; ///< Bit position within addr, 0-7. + + UINT_32 pitch; ///< Pitch, in pixels + UINT_32 height; ///< Height in pixels + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments + AddrTileMode tileMode; ///< Tile mode + union + { + struct + { + UINT_32 bankSwizzle; ///< Bank swizzle + UINT_32 pipeSwizzle; ///< Pipe swizzle + }; + UINT_32 tileSwizzle; ///< Combined swizzle, if useCombinedSwizzle is TRUE + }; + + /// r800 and later HWL parameters + struct + { + UINT_32 resolved: 1; ///< TRUE if this is a resolved fmask, used by HW components + UINT_32 ignoreSE: 1; ///< TRUE if shader engines are ignored. + UINT_32 reserved: 30; ///< Reserved for future use. + }; + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data + +} ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for AddrComputeFmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index + UINT_32 plane; ///< Plane number + UINT_32 sample; ///< Sample index (fragment index for EQAA) +} ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeFmaskCoordFromAddr +* +* @brief +* Compute FMASK coordinate from an given address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Element/utility functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrGetVersion +* +* @brief +* Get AddrLib version number +**************************************************************************************************** +*/ +UINT_32 ADDR_API AddrGetVersion(ADDR_HANDLE hLib); + +/** +**************************************************************************************************** +* AddrUseTileIndex +* +* @brief +* Return TRUE if tileIndex is enabled in this address library +**************************************************************************************************** +*/ +BOOL_32 ADDR_API AddrUseTileIndex(ADDR_HANDLE hLib); + +/** +**************************************************************************************************** +* AddrUseCombinedSwizzle +* +* @brief +* Return TRUE if combined swizzle is enabled in this address library +**************************************************************************************************** +*/ +BOOL_32 ADDR_API AddrUseCombinedSwizzle(ADDR_HANDLE hLib); + +/** +**************************************************************************************************** +* ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT +* +* @brief +* Input structure of AddrExtractBankPipeSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 base256b; ///< Base256b value + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT; + +/** +**************************************************************************************************** +* ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT +* +* @brief +* Output structure of AddrExtractBankPipeSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 bankSwizzle; ///< Bank swizzle + UINT_32 pipeSwizzle; ///< Pipe swizzle +} ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT; + +/** +**************************************************************************************************** +* AddrExtractBankPipeSwizzle +* +* @brief +* Extract Bank and Pipe swizzle from base256b +* @return +* ADDR_OK if no error +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrExtractBankPipeSwizzle( + ADDR_HANDLE hLib, + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT +* +* @brief +* Input structure of AddrCombineBankPipeSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 bankSwizzle; ///< Bank swizzle + UINT_32 pipeSwizzle; ///< Pipe swizzle + UINT_64 baseAddr; ///< Base address (leave it zero for driver clients) + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Client must provide all data + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT +* +* @brief +* Output structure of AddrCombineBankPipeSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 tileSwizzle; ///< Combined swizzle +} ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT; + +/** +**************************************************************************************************** +* AddrCombineBankPipeSwizzle +* +* @brief +* Combine Bank and Pipe swizzle +* @return +* ADDR_OK if no error +* @note +* baseAddr here is full MCAddress instead of base256b +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrCombineBankPipeSwizzle( + ADDR_HANDLE hLib, + const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SLICESWIZZLE_INPUT +* +* @brief +* Input structure of AddrComputeSliceSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SLICESWIZZLE_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrTileMode tileMode; ///< Tile Mode + UINT_32 baseSwizzle; ///< Base tile swizzle + UINT_32 slice; ///< Slice index + UINT_64 baseAddr; ///< Base address, driver should leave it 0 in most cases + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Actually banks needed here! + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_SLICESWIZZLE_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_SLICESWIZZLE_OUTPUT +* +* @brief +* Output structure of AddrComputeSliceSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_SLICESWIZZLE_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 tileSwizzle; ///< Recalculated tileSwizzle value +} ADDR_COMPUTE_SLICESWIZZLE_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeSliceSwizzle +* +* @brief +* Extract Bank and Pipe swizzle from base256b +* @return +* ADDR_OK if no error +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSliceSwizzle( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut); + +/** +**************************************************************************************************** +* AddrSwizzleGenOption +* +* @brief +* Which swizzle generating options: legacy or linear +**************************************************************************************************** +*/ +typedef enum _AddrSwizzleGenOption +{ + ADDR_SWIZZLE_GEN_DEFAULT = 0, ///< As is in client driver implemention for swizzle + ADDR_SWIZZLE_GEN_LINEAR = 1, ///< Using a linear increment of swizzle +} AddrSwizzleGenOption; + +/** +**************************************************************************************************** +* AddrSwizzleOption +* +* @brief +* Controls how swizzle is generated +**************************************************************************************************** +*/ +typedef union _ADDR_SWIZZLE_OPTION +{ + struct + { + UINT_32 genOption : 1; ///< The way swizzle is generated, see AddrSwizzleGenOption + UINT_32 reduceBankBit : 1; ///< TRUE if we need reduce swizzle bits + UINT_32 reserved :30; ///< Reserved bits + }; + + UINT_32 value; + +} ADDR_SWIZZLE_OPTION; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_BASE_SWIZZLE_INPUT +* +* @brief +* Input structure of AddrComputeBaseSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_BASE_SWIZZLE_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR_SWIZZLE_OPTION option; ///< Swizzle option + UINT_32 surfIndex; ///< Index of this surface type + AddrTileMode tileMode; ///< Tile Mode + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< 2D tile parameters. Actually banks needed here! + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_BASE_SWIZZLE_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT +* +* @brief +* Output structure of AddrComputeBaseSwizzle +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 tileSwizzle; ///< Combined swizzle +} ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeBaseSwizzle +* +* @brief +* Return a Combined Bank and Pipe swizzle base on surface based on surface type/index +* @return +* ADDR_OK if no error +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeBaseSwizzle( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ELEM_GETEXPORTNORM_INPUT +* +* @brief +* Input structure for ElemGetExportNorm +* +**************************************************************************************************** +*/ +typedef struct _ELEM_GETEXPORTNORM_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrColorFormat format; ///< Color buffer format; Client should use ColorFormat + AddrSurfaceNumber num; ///< Surface number type; Client should use NumberType + AddrSurfaceSwap swap; ///< Surface swap byte swap; Client should use SurfaceSwap + UINT_32 numSamples; ///< Number of samples +} ELEM_GETEXPORTNORM_INPUT; + +/** +**************************************************************************************************** +* ElemGetExportNorm +* +* @brief +* Helper function to check one format can be EXPORT_NUM, which is a register +* CB_COLOR_INFO.SURFACE_FORMAT. FP16 can be reported as EXPORT_NORM for rv770 in r600 +* family +* @note +* The implementation is only for r600. +* 00 - EXPORT_FULL: PS exports are 4 pixels with 4 components with 32-bits-per-component. (two +* clocks per export) +* 01 - EXPORT_NORM: PS exports are 4 pixels with 4 components with 16-bits-per-component. (one +* clock per export) +* +**************************************************************************************************** +*/ +BOOL_32 ADDR_API ElemGetExportNorm( + ADDR_HANDLE hLib, + const ELEM_GETEXPORTNORM_INPUT* pIn); + +/** +**************************************************************************************************** +* ELEM_FLT32TODEPTHPIXEL_INPUT +* +* @brief +* Input structure for addrFlt32ToDepthPixel +* +**************************************************************************************************** +*/ +typedef struct _ELEM_FLT32TODEPTHPIXEL_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrDepthFormat format; ///< Depth buffer format + ADDR_FLT_32 comps[2]; ///< Component values (Z/stencil) +} ELEM_FLT32TODEPTHPIXEL_INPUT; + +/** +**************************************************************************************************** +* ELEM_FLT32TODEPTHPIXEL_INPUT +* +* @brief +* Output structure for ElemFlt32ToDepthPixel +* +**************************************************************************************************** +*/ +typedef struct _ELEM_FLT32TODEPTHPIXEL_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_8* pPixel; ///< Real depth value. Same data type as depth buffer. + /// Client must provide enough storage for this type. + UINT_32 depthBase; ///< Tile base in bits for depth bits + UINT_32 stencilBase; ///< Tile base in bits for stencil bits + UINT_32 depthBits; ///< Bits for depth + UINT_32 stencilBits; ///< Bits for stencil +} ELEM_FLT32TODEPTHPIXEL_OUTPUT; + +/** +**************************************************************************************************** +* ElemFlt32ToDepthPixel +* +* @brief +* Convert a FLT_32 value to a depth/stencil pixel value +* +* @return +* Return code +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API ElemFlt32ToDepthPixel( + ADDR_HANDLE hLib, + const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, + ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ELEM_FLT32TOCOLORPIXEL_INPUT +* +* @brief +* Input structure for addrFlt32ToColorPixel +* +**************************************************************************************************** +*/ +typedef struct _ELEM_FLT32TOCOLORPIXEL_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrColorFormat format; ///< Color buffer format + AddrSurfaceNumber surfNum; ///< Surface number + AddrSurfaceSwap surfSwap; ///< Surface swap + ADDR_FLT_32 comps[4]; ///< Component values (r/g/b/a) +} ELEM_FLT32TOCOLORPIXEL_INPUT; + +/** +**************************************************************************************************** +* ELEM_FLT32TOCOLORPIXEL_INPUT +* +* @brief +* Output structure for ElemFlt32ToColorPixel +* +**************************************************************************************************** +*/ +typedef struct _ELEM_FLT32TOCOLORPIXEL_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_8* pPixel; ///< Real color value. Same data type as color buffer. + /// Client must provide enough storage for this type. +} ELEM_FLT32TOCOLORPIXEL_OUTPUT; + +/** +**************************************************************************************************** +* ElemFlt32ToColorPixel +* +* @brief +* Convert a FLT_32 value to a red/green/blue/alpha pixel value +* +* @return +* Return code +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API ElemFlt32ToColorPixel( + ADDR_HANDLE hLib, + const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, + ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ElemSize +* +* @brief +* Get bits-per-element for specified format +* +* @return +* Bits-per-element of specified format +* +**************************************************************************************************** +*/ +UINT_32 ADDR_API ElemSize( + ADDR_HANDLE hLib, + AddrFormat format); + +/** +**************************************************************************************************** +* ADDR_CONVERT_TILEINFOTOHW_INPUT +* +* @brief +* Input structure for AddrConvertTileInfoToHW +* @note +* When reverse is TRUE, indices are igonred +**************************************************************************************************** +*/ +typedef struct _ADDR_CONVERT_TILEINFOTOHW_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + BOOL_32 reverse; ///< Convert control flag. + /// FALSE: convert from real value to HW value; + /// TRUE: convert from HW value to real value. + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< Tile parameters with real value + + INT_32 tileIndex; ///< Tile index, MUST be -1 if you don't want to use it + /// while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid + UINT_32 bpp; ///< Bits per pixel +} ADDR_CONVERT_TILEINFOTOHW_INPUT; + +/** +**************************************************************************************************** +* ADDR_CONVERT_TILEINFOTOHW_OUTPUT +* +* @brief +* Output structure for AddrConvertTileInfoToHW +**************************************************************************************************** +*/ +typedef struct _ADDR_CONVERT_TILEINFOTOHW_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + /// r800 and later HWL parameters + ADDR_TILEINFO* pTileInfo; ///< Tile parameters with hardware register value + +} ADDR_CONVERT_TILEINFOTOHW_OUTPUT; + +/** +**************************************************************************************************** +* AddrConvertTileInfoToHW +* +* @brief +* Convert tile info from real value to hardware register value +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrConvertTileInfoToHW( + ADDR_HANDLE hLib, + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_CONVERT_TILEINDEX_INPUT +* +* @brief +* Input structure for AddrConvertTileIndex +**************************************************************************************************** +*/ +typedef struct _ADDR_CONVERT_TILEINDEX_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + INT_32 tileIndex; ///< Tile index + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + UINT_32 bpp; ///< Bits per pixel + BOOL_32 tileInfoHw; ///< Set to TRUE if client wants HW enum, otherwise actual +} ADDR_CONVERT_TILEINDEX_INPUT; + +/** +**************************************************************************************************** +* ADDR_CONVERT_TILEINDEX_OUTPUT +* +* @brief +* Output structure for AddrConvertTileIndex +**************************************************************************************************** +*/ +typedef struct _ADDR_CONVERT_TILEINDEX_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrTileMode tileMode; ///< Tile mode + AddrTileType tileType; ///< Tile type + ADDR_TILEINFO* pTileInfo; ///< Tile info + +} ADDR_CONVERT_TILEINDEX_OUTPUT; + +/** +**************************************************************************************************** +* AddrConvertTileIndex +* +* @brief +* Convert tile index to tile mode/type/info +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex( + ADDR_HANDLE hLib, + const ADDR_CONVERT_TILEINDEX_INPUT* pIn, + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_GET_MACROMODEINDEX_INPUT +* +* @brief +* Input structure for AddrGetMacroModeIndex +**************************************************************************************************** +*/ +typedef struct _ADDR_GET_MACROMODEINDEX_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + ADDR_SURFACE_FLAGS flags; ///< Surface flag + INT_32 tileIndex; ///< Tile index + UINT_32 bpp; ///< Bits per pixel + UINT_32 numFrags; ///< Number of color fragments +} ADDR_GET_MACROMODEINDEX_INPUT; + +/** +**************************************************************************************************** +* ADDR_GET_MACROMODEINDEX_OUTPUT +* +* @brief +* Output structure for AddrGetMacroModeIndex +**************************************************************************************************** +*/ +typedef struct _ADDR_GET_MACROMODEINDEX_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) +} ADDR_GET_MACROMODEINDEX_OUTPUT; + +/** +**************************************************************************************************** +* AddrGetMacroModeIndex +* +* @brief +* Get macro mode index based on input parameters +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetMacroModeIndex( + ADDR_HANDLE hLib, + const ADDR_GET_MACROMODEINDEX_INPUT* pIn, + ADDR_GET_MACROMODEINDEX_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_CONVERT_TILEINDEX1_INPUT +* +* @brief +* Input structure for AddrConvertTileIndex1 (without macro mode index) +**************************************************************************************************** +*/ +typedef struct _ADDR_CONVERT_TILEINDEX1_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + INT_32 tileIndex; ///< Tile index + UINT_32 bpp; ///< Bits per pixel + UINT_32 numSamples; ///< Number of samples + BOOL_32 tileInfoHw; ///< Set to TRUE if client wants HW enum, otherwise actual +} ADDR_CONVERT_TILEINDEX1_INPUT; + +/** +**************************************************************************************************** +* AddrConvertTileIndex1 +* +* @brief +* Convert tile index to tile mode/type/info +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex1( + ADDR_HANDLE hLib, + const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_GET_TILEINDEX_INPUT +* +* @brief +* Input structure for AddrGetTileIndex +**************************************************************************************************** +*/ +typedef struct _ADDR_GET_TILEINDEX_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrTileMode tileMode; ///< Tile mode + AddrTileType tileType; ///< Tile-type: disp/non-disp/... + ADDR_TILEINFO* pTileInfo; ///< Pointer to tile-info structure, can be NULL for linear/1D +} ADDR_GET_TILEINDEX_INPUT; + +/** +**************************************************************************************************** +* ADDR_GET_TILEINDEX_OUTPUT +* +* @brief +* Output structure for AddrGetTileIndex +**************************************************************************************************** +*/ +typedef struct _ADDR_GET_TILEINDEX_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + INT_32 index; ///< index in table +} ADDR_GET_TILEINDEX_OUTPUT; + +/** +**************************************************************************************************** +* AddrGetTileIndex +* +* @brief +* Get the tiling mode index in table +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetTileIndex( + ADDR_HANDLE hLib, + const ADDR_GET_TILEINDEX_INPUT* pIn, + ADDR_GET_TILEINDEX_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_PRT_INFO_INPUT +* +* @brief +* Input structure for AddrComputePrtInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_PRT_INFO_INPUT +{ + AddrFormat format; ///< Surface format + UINT_32 baseMipWidth; ///< Base mipmap width + UINT_32 baseMipHeight; ///< Base mipmap height + UINT_32 baseMipDepth; ///< Base mipmap depth + UINT_32 numFrags; ///< Number of fragments, +} ADDR_PRT_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR_PRT_INFO_OUTPUT +* +* @brief +* Input structure for AddrComputePrtInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_PRT_INFO_OUTPUT +{ + UINT_32 prtTileWidth; + UINT_32 prtTileHeight; +} ADDR_PRT_INFO_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputePrtInfo +* +* @brief +* Compute prt surface related information +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputePrtInfo( + ADDR_HANDLE hLib, + const ADDR_PRT_INFO_INPUT* pIn, + ADDR_PRT_INFO_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// DCC key functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* _ADDR_COMPUTE_DCCINFO_INPUT +* +* @brief +* Input structure of AddrComputeDccInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_DCCINFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 bpp; ///< BitPP of color surface + UINT_32 numSamples; ///< Sample number of color surface + UINT_64 colorSurfSize; ///< Size of color surface to which dcc key is bound + AddrTileMode tileMode; ///< Tile mode of color surface + ADDR_TILEINFO tileInfo; ///< Tile info of color surface + UINT_32 tileSwizzle; ///< Tile swizzle + INT_32 tileIndex; ///< Tile index of color surface, + ///< MUST be -1 if you don't want to use it + ///< while the global useTileIndex is set to 1 + INT_32 macroModeIndex; ///< Index in macro tile mode table if there is one (CI) + ///< README: When tileIndex is not -1, this must be valid +} ADDR_COMPUTE_DCCINFO_INPUT; + +/** +**************************************************************************************************** +* ADDR_COMPUTE_DCCINFO_OUTPUT +* +* @brief +* Output structure of AddrComputeDccInfo +**************************************************************************************************** +*/ +typedef struct _ADDR_COMPUTE_DCCINFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 dccRamBaseAlign; ///< Base alignment of dcc key + UINT_64 dccRamSize; ///< Size of dcc key + UINT_64 dccFastClearSize; ///< Size of dcc key portion that can be fast cleared + BOOL_32 subLvlCompressible; ///< Whether sub resource is compressiable + BOOL_32 dccRamSizeAligned; ///< Whether the dcc key size is aligned +} ADDR_COMPUTE_DCCINFO_OUTPUT; + +/** +**************************************************************************************************** +* AddrComputeDccInfo +* +* @brief +* Compute DCC key size, base alignment +* info +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeDccInfo( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR_GET_MAX_ALINGMENTS_OUTPUT +* +* @brief +* Output structure of AddrGetMaxAlignments +**************************************************************************************************** +*/ +typedef struct _ADDR_GET_MAX_ALINGMENTS_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 baseAlign; ///< Maximum base alignment in bytes +} ADDR_GET_MAX_ALINGMENTS_OUTPUT; + +/** +**************************************************************************************************** +* AddrGetMaxAlignments +* +* @brief +* Gets maximnum alignments +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetMaxAlignments( + ADDR_HANDLE hLib, + ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut); + +/** +**************************************************************************************************** +* AddrGetMaxMetaAlignments +* +* @brief +* Gets maximnum alignments for metadata +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetMaxMetaAlignments( + ADDR_HANDLE hLib, + ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut); + +/** +**************************************************************************************************** +* Address library interface version 2 +* available from Gfx9 hardware +**************************************************************************************************** +* Addr2ComputeSurfaceInfo() +* Addr2ComputeSurfaceAddrFromCoord() +* Addr2ComputeSurfaceCoordFromAddr() + +* Addr2ComputeHtileInfo() +* Addr2ComputeHtileAddrFromCoord() +* Addr2ComputeHtileCoordFromAddr() +* +* Addr2ComputeCmaskInfo() +* Addr2ComputeCmaskAddrFromCoord() +* Addr2ComputeCmaskCoordFromAddr() +* +* Addr2ComputeFmaskInfo() +* Addr2ComputeFmaskAddrFromCoord() +* Addr2ComputeFmaskCoordFromAddr() +* +* Addr2ComputeDccInfo() +* +**/ + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface functions for Gfx9 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR2_SURFACE_FLAGS +* +* @brief +* Surface flags +**************************************************************************************************** +*/ +typedef union _ADDR2_SURFACE_FLAGS +{ + struct + { + UINT_32 color : 1; ///< This resource is a color buffer, can be used with RTV + UINT_32 depth : 1; ///< Thie resource is a depth buffer, can be used with DSV + UINT_32 stencil : 1; ///< Thie resource is a stencil buffer, can be used with DSV + UINT_32 fmask : 1; ///< This is an fmask surface + UINT_32 overlay : 1; ///< This is an overlay surface + UINT_32 display : 1; ///< This resource is displable, can be used with DRV + UINT_32 prt : 1; ///< This is a partially resident texture + UINT_32 qbStereo : 1; ///< This is a quad buffer stereo surface + UINT_32 interleaved : 1; ///< Special flag for interleaved YUV surface padding + UINT_32 texture : 1; ///< This resource can be used with SRV + UINT_32 unordered : 1; ///< This resource can be used with UAV + UINT_32 rotated : 1; ///< This resource is rotated and displable + UINT_32 needEquation : 1; ///< This resource needs equation to be generated if possible + UINT_32 opt4space : 1; ///< This resource should be optimized for space + UINT_32 minimizeAlign : 1; ///< This resource should use minimum alignment + UINT_32 noMetadata : 1; ///< This resource has no metadata + UINT_32 metaRbUnaligned : 1; ///< This resource has rb unaligned metadata + UINT_32 metaPipeUnaligned : 1; ///< This resource has pipe unaligned metadata + UINT_32 view3dAs2dArray : 1; ///< This resource is a 3D resource viewed as 2D array + UINT_32 reserved : 13; ///< Reserved bits + }; + + UINT_32 value; +} ADDR2_SURFACE_FLAGS; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SURFACE_INFO_INPUT +* +* @brief +* Input structure for Addr2ComputeSurfaceInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SURFACE_INFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR2_SURFACE_FLAGS flags; ///< Surface flags + AddrSwizzleMode swizzleMode; ///< Swizzle Mode for Gfx9 + AddrResourceType resourceType; ///< Surface type + AddrFormat format; ///< Surface format + UINT_32 bpp; ///< bits per pixel + UINT_32 width; ///< Width (of mip0), in pixels + UINT_32 height; ///< Height (of mip0), in pixels + UINT_32 numSlices; ///< Number surface slice/depth (of mip0), + UINT_32 numMipLevels; ///< Total mipmap levels. + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + UINT_32 pitchInElement; ///< Pitch in elements (blocks for compressed formats) + UINT_32 sliceAlign; ///< Required slice size in bytes +} ADDR2_COMPUTE_SURFACE_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR2_MIP_INFO +* +* @brief +* Structure that contains information for mip level +* +**************************************************************************************************** +*/ +typedef struct _ADDR2_MIP_INFO +{ + UINT_32 pitch; ///< Pitch in elements + UINT_32 height; ///< Padded height in elements + UINT_32 depth; ///< Padded depth + UINT_32 pixelPitch; ///< Pitch in pixels + UINT_32 pixelHeight; ///< Padded height in pixels + UINT_32 equationIndex; ///< Equation index in the equation table + UINT_64 offset; ///< Offset in bytes from mip base, should only be used + ///< to setup vam surface descriptor, can't be used + ///< to setup swizzle pattern + UINT_64 macroBlockOffset; ///< macro block offset in bytes from mip base + UINT_32 mipTailOffset; ///< mip tail offset in bytes + UINT_32 mipTailCoordX; ///< mip tail coord x + UINT_32 mipTailCoordY; ///< mip tail coord y + UINT_32 mipTailCoordZ; ///< mip tail coord z +} ADDR2_MIP_INFO; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SURFACE_INFO_OUTPUT +* +* @brief +* Output structure for Addr2ComputeSurfInfo +* @note + Element: AddrLib unit for computing. e.g. BCn: 4x4 blocks; R32B32B32: 32bit with 3x pitch + Pixel: Original pixel +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SURFACE_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch in elements (blocks for compressed formats) + UINT_32 height; ///< Padded height (of mip0) in elements + UINT_32 numSlices; ///< Padded depth for 3d resource + ///< or padded number of slices for 2d array resource + UINT_32 mipChainPitch; ///< Pitch (of total mip chain) in elements + UINT_32 mipChainHeight; ///< Padded height (of total mip chain) in elements + UINT_32 mipChainSlice; ///< Padded depth (of total mip chain) + UINT_64 sliceSize; ///< Slice (total mip chain) size in bytes + UINT_64 surfSize; ///< Surface (total mip chain) size in bytes + UINT_32 baseAlign; ///< Base address alignment + UINT_32 bpp; ///< Bits per elements + /// (e.g. blocks for BCn, 1/3 for 96bit) + UINT_32 pixelMipChainPitch; ///< Mip chain pitch in original pixels + UINT_32 pixelMipChainHeight; ///< Mip chain height in original pixels + UINT_32 pixelPitch; ///< Pitch in original pixels + UINT_32 pixelHeight; ///< Height in original pixels + UINT_32 pixelBits; ///< Original bits per pixel, passed from input + + UINT_32 blockWidth; ///< Width in element inside one block + UINT_32 blockHeight; ///< Height in element inside one block + UINT_32 blockSlices; ///< Slice number inside one block + ///< Prt tile is one block, its width/height/slice + ///< equals to blcok width/height/slice + + BOOL_32 epitchIsHeight; ///< Whether to use height to program epitch register + /// Stereo info + ADDR_QBSTEREOINFO* pStereoInfo; ///< Stereo info, needed if qbStereo flag is TRUE + /// Mip info + ADDR2_MIP_INFO* pMipInfo; ///< Pointer to mip information array + /// if it is not NULL, the array is assumed to + /// contain numMipLevels entries + + UINT_32 equationIndex; ///< Equation index in the equation table of mip0 + BOOL_32 mipChainInTail; ///< If whole mipchain falls into mip tail block + UINT_32 firstMipIdInTail; ///< The id of first mip in tail, if there is no mip + /// in tail, it will be set to number of mip levels +} ADDR2_COMPUTE_SURFACE_INFO_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeSurfaceInfo +* +* @brief +* Compute surface width/height/slices/alignments and suitable tiling mode +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceInfo( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for Addr2ComputeSurfaceAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index + UINT_32 sample; ///< Sample index, use fragment index for EQAA + UINT_32 mipId; ///< the mip ID in mip chain + + AddrSwizzleMode swizzleMode; ///< Swizzle mode for Gfx9 + ADDR2_SURFACE_FLAGS flags; ///< Surface flags + AddrResourceType resourceType; ///< Surface type + UINT_32 bpp; ///< Bits per pixel + UINT_32 unalignedWidth; ///< Surface original width (of mip0) + UINT_32 unalignedHeight; ///< Surface original height (of mip0) + UINT_32 numSlices; ///< Surface original slices (of mip0) + UINT_32 numMipLevels; ///< Total mipmap levels + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + + UINT_32 pipeBankXor; ///< Combined swizzle used to do bank/pipe rotation + UINT_32 pitchInElement; ///< Pitch in elements (blocks for compressed formats) +} ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for Addr2ComputeSurfaceAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Byte address + UINT_32 bitPosition; ///< Bit position within surfaceAddr, 0-7. + /// For surface bpp < 8, e.g. FMT_1. + UINT_32 prtBlockIndex; ///< Index of a PRT tile (64K block) +} ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeSurfaceAddrFromCoord +* +* @brief +* Compute surface address from a given coordinate. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT +* +* @brief +* Input structure for Addr2ComputeSurfaceCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address in bytes + UINT_32 bitPosition; ///< Bit position in addr. 0-7. for surface bpp < 8, + /// e.g. FMT_1; + + AddrSwizzleMode swizzleMode; ///< Swizzle mode for Gfx9 + ADDR2_SURFACE_FLAGS flags; ///< Surface flags + AddrResourceType resourceType; ///< Surface type + UINT_32 bpp; ///< Bits per pixel + UINT_32 unalignedWidth; ///< Surface original width (of mip0) + UINT_32 unalignedHeight; ///< Surface original height (of mip0) + UINT_32 numSlices; ///< Surface original slices (of mip0) + UINT_32 numMipLevels; ///< Total mipmap levels. + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + + UINT_32 pipeBankXor; ///< Combined swizzle used to do bank/pipe rotation + UINT_32 pitchInElement; ///< Pitch in elements (blocks for compressed formats) +} ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for Addr2ComputeSurfaceCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + UINT_32 sample; ///< Index of samples, means fragment index for EQAA + UINT_32 mipId; ///< mipmap level id +} ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeSurfaceCoordFromAddr +* +* @brief +* Compute coordinate from a given surface address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// HTile functions for Gfx9 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR2_META_FLAGS +* +* @brief +* Metadata flags +**************************************************************************************************** +*/ +typedef union _ADDR2_META_FLAGS +{ + struct + { + UINT_32 pipeAligned : 1; ///< if Metadata being pipe aligned + UINT_32 rbAligned : 1; ///< if Metadata being RB aligned + UINT_32 linear : 1; ///< if Metadata linear, GFX9 does not suppord this! + UINT_32 reserved : 29; ///< Reserved bits + }; + + UINT_32 value; +} ADDR2_META_FLAGS; + +/** +**************************************************************************************************** +* ADDR2_META_MIP_INFO +* +* @brief +* Structure to store per mip metadata information +**************************************************************************************************** +*/ +typedef struct _ADDR2_META_MIP_INFO +{ + BOOL_32 inMiptail; + union + { + struct + { + UINT_32 startX; + UINT_32 startY; + UINT_32 startZ; + UINT_32 width; + UINT_32 height; + UINT_32 depth; + }; + + struct + { + UINT_32 offset; ///< Metadata offset within one slice, + /// the thickness of a slice is meta block depth. + UINT_32 sliceSize; ///< Metadata size within one slice, + /// the thickness of a slice is meta block depth. + }; + }; +} ADDR2_META_MIP_INFO; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_HTILE_INFO_INPUT +* +* @brief +* Input structure of Addr2ComputeHtileInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_HTILE_INFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR2_META_FLAGS hTileFlags; ///< HTILE flags + ADDR2_SURFACE_FLAGS depthFlags; ///< Depth surface flags + AddrSwizzleMode swizzleMode; ///< Depth surface swizzle mode + UINT_32 unalignedWidth; ///< Depth surface original width (of mip0) + UINT_32 unalignedHeight; ///< Depth surface original height (of mip0) + UINT_32 numSlices; ///< Number of slices of depth surface (of mip0) + UINT_32 numMipLevels; ///< Total mipmap levels of color surface + UINT_32 firstMipIdInTail; /// Id of the first mip in tail, + /// if no mip is in tail, it should be set to + /// number of mip levels +} ADDR2_COMPUTE_HTILE_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_HTILE_INFO_OUTPUT +* +* @brief +* Output structure of Addr2ComputeHtileInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_HTILE_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch in pixels of depth buffer represented in this + /// HTile buffer. This might be larger than original depth + /// buffer pitch when called with an unaligned pitch. + UINT_32 height; ///< Height in pixels, as above + UINT_32 baseAlign; ///< Base alignment + UINT_32 sliceSize; ///< Slice size, in bytes. + UINT_32 htileBytes; ///< Size of HTILE buffer, in bytes + UINT_32 metaBlkWidth; ///< Meta block width + UINT_32 metaBlkHeight; ///< Meta block height + UINT_32 metaBlkNumPerSlice; ///< Number of metablock within one slice + + ADDR2_META_MIP_INFO* pMipInfo; ///< HTILE mip information +} ADDR2_COMPUTE_HTILE_INFO_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeHtileInfo +* +* @brief +* Compute Htile pitch, height, base alignment and size in bytes +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileInfo( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for Addr2ComputeHtileAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + UINT_32 mipId; ///< mipmap level id + + ADDR2_META_FLAGS hTileFlags; ///< HTILE flags + ADDR2_SURFACE_FLAGS depthflags; ///< Depth surface flags + AddrSwizzleMode swizzleMode; ///< Depth surface swizzle mode + UINT_32 bpp; ///< Depth surface bits per pixel + UINT_32 unalignedWidth; ///< Depth surface original width (of mip0) + UINT_32 unalignedHeight; ///< Depth surface original height (of mip0) + UINT_32 numSlices; ///< Depth surface original depth (of mip0) + UINT_32 numMipLevels; ///< Depth surface total mipmap levels + UINT_32 numSamples; ///< Depth surface number of samples + UINT_32 pipeXor; ///< Pipe xor setting +} ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for Addr2ComputeHtileAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address in bytes +} ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeHtileAddrFromCoord +* +* @brief +* Compute Htile address according to coordinates (of depth buffer) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT +* +* @brief +* Input structure for Addr2ComputeHtileCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address + + ADDR2_META_FLAGS hTileFlags; ///< HTILE flags + ADDR2_SURFACE_FLAGS depthFlags; ///< Depth surface flags + AddrSwizzleMode swizzleMode; ///< Depth surface swizzle mode + UINT_32 bpp; ///< Depth surface bits per pixel + UINT_32 unalignedWidth; ///< Depth surface original width (of mip0) + UINT_32 unalignedHeight; ///< Depth surface original height (of mip0) + UINT_32 numSlices; ///< Depth surface original depth (of mip0) + UINT_32 numMipLevels; ///< Depth surface total mipmap levels + UINT_32 numSamples; ///< Depth surface number of samples + UINT_32 pipeXor; ///< Pipe xor setting +} ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for Addr2ComputeHtileCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + UINT_32 mipId; ///< mipmap level id +} ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeHtileCoordFromAddr +* +* @brief +* Compute coordinates within depth buffer (1st pixel of a micro tile) according to +* Htile address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// C-mask functions for Gfx9 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_CMASK_INFO_INPUT +* +* @brief +* Input structure of Addr2ComputeCmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_CMASKINFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR2_META_FLAGS cMaskFlags; ///< CMASK flags + ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags + AddrResourceType resourceType; ///< Color surface type + AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode + UINT_32 unalignedWidth; ///< Color surface original width + UINT_32 unalignedHeight; ///< Color surface original height + UINT_32 numSlices; ///< Number of slices of color buffer +} ADDR2_COMPUTE_CMASK_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_CMASK_INFO_OUTPUT +* +* @brief +* Output structure of Addr2ComputeCmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_CMASK_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch in pixels of color buffer which + /// this Cmask matches. The size might be larger than + /// original color buffer pitch when called with + /// an unaligned pitch. + UINT_32 height; ///< Height in pixels, as above + UINT_32 baseAlign; ///< Base alignment + UINT_32 sliceSize; ///< Slice size, in bytes. + UINT_32 cmaskBytes; ///< Size in bytes of CMask buffer + UINT_32 metaBlkWidth; ///< Meta block width + UINT_32 metaBlkHeight; ///< Meta block height + + UINT_32 metaBlkNumPerSlice; ///< Number of metablock within one slice +} ADDR2_COMPUTE_CMASK_INFO_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeCmaskInfo +* +* @brief +* Compute Cmask pitch, height, base alignment and size in bytes from color buffer +* info +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskInfo( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for Addr2ComputeCmaskAddrFromCoord +* +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + + ADDR2_META_FLAGS cMaskFlags; ///< CMASK flags + ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags + AddrResourceType resourceType; ///< Color surface type + AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode + + UINT_32 unalignedWidth; ///< Color surface original width (of mip0) + UINT_32 unalignedHeight; ///< Color surface original height (of mip0) + UINT_32 numSlices; ///< Color surface original slices (of mip0) + + UINT_32 numSamples; ///< Color surfae sample number + UINT_32 numFrags; ///< Color surface fragment number + + UINT_32 pipeXor; ///< pipe Xor setting +} ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for Addr2ComputeCmaskAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< CMASK address in bytes + UINT_32 bitPosition; ///< Bit position within addr, 0 or 4 +} ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeCmaskAddrFromCoord +* +* @brief +* Compute Cmask address according to coordinates (of MSAA color buffer) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT +* +* @brief +* Input structure for Addr2ComputeCmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< CMASK address in bytes + UINT_32 bitPosition; ///< Bit position within addr, 0 or 4 + + ADDR2_META_FLAGS cMaskFlags; ///< CMASK flags + ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags + AddrResourceType resourceType; ///< Color surface type + AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode + + UINT_32 unalignedWidth; ///< Color surface original width (of mip0) + UINT_32 unalignedHeight; ///< Color surface original height (of mip0) + UINT_32 numSlices; ///< Color surface original slices (of mip0) + UINT_32 numMipLevels; ///< Color surface total mipmap levels. +} ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for Addr2ComputeCmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + UINT_32 mipId; ///< mipmap level id +} ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeCmaskCoordFromAddr +* +* @brief +* Compute coordinates within color buffer (1st pixel of a micro tile) according to +* Cmask address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// F-mask functions for Gfx9 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR2_FMASK_FLAGS +* +* @brief +* FMASK flags +**************************************************************************************************** +*/ +typedef union _ADDR2_FMASK_FLAGS +{ + struct + { + UINT_32 resolved : 1; ///< TRUE if this is a resolved fmask, used by H/W clients + /// by H/W clients. S/W should always set it to FALSE. + UINT_32 reserved : 31; ///< Reserved for future use. + }; + + UINT_32 value; +} ADDR2_FMASK_FLAGS; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_FMASK_INFO_INPUT +* +* @brief +* Input structure for Addr2ComputeFmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_FMASK_INFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode + UINT_32 unalignedWidth; ///< Color surface original width + UINT_32 unalignedHeight; ///< Color surface original height + UINT_32 numSlices; ///< Number of slices/depth + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + ADDR2_FMASK_FLAGS fMaskFlags; ///< FMASK flags +} ADDR2_COMPUTE_FMASK_INFO_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_FMASK_INFO_OUTPUT +* +* @brief +* Output structure for Addr2ComputeFmaskInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_FMASK_INFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 pitch; ///< Pitch of fmask in pixels + UINT_32 height; ///< Height of fmask in pixels + UINT_32 baseAlign; ///< Base alignment + UINT_32 numSlices; ///< Slices of fmask + UINT_32 fmaskBytes; ///< Size of fmask in bytes + UINT_32 bpp; ///< Bits per pixel of FMASK is: number of bit planes + UINT_32 numSamples; ///< Number of samples + UINT_32 sliceSize; ///< Size of slice in bytes +} ADDR2_COMPUTE_FMASK_INFO_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeFmaskInfo +* +* @brief +* Compute Fmask pitch/height/slices/alignments and size in bytes +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskInfo( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for Addr2ComputeFmaskAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index + UINT_32 sample; ///< Sample index (fragment index for EQAA) + UINT_32 plane; ///< Plane number + + UINT_32 unalignedWidth; ///< Color surface original width + UINT_32 unalignedHeight; ///< Color surface original height + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + UINT_32 tileSwizzle; ///< Combined swizzle used to do bank/pipe rotation + + ADDR2_FMASK_FLAGS fMaskFlags; ///< FMASK flags +} ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for Addr2ComputeFmaskAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Fmask address + UINT_32 bitPosition; ///< Bit position within fmaskAddr, 0-7. +} ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeFmaskAddrFromCoord +* +* @brief +* Compute Fmask address according to coordinates (x,y,slice,sample,plane) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT +* +* @brief +* Input structure for Addr2ComputeFmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< Address + UINT_32 bitPosition; ///< Bit position within addr, 0-7. + AddrSwizzleMode swizzleMode; ///< FMask surface swizzle mode + + UINT_32 unalignedWidth; ///< Color surface original width + UINT_32 unalignedHeight; ///< Color surface original height + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments + + UINT_32 tileSwizzle; ///< Combined swizzle used to do bank/pipe rotation + + ADDR2_FMASK_FLAGS fMaskFlags; ///< FMASK flags +} ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT +* +* @brief +* Output structure for Addr2ComputeFmaskCoordFromAddr +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Slice index + UINT_32 sample; ///< Sample index (fragment index for EQAA) + UINT_32 plane; ///< Plane number +} ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeFmaskCoordFromAddr +* +* @brief +* Compute FMASK coordinate from an given address +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskCoordFromAddr( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// DCC key functions for Gfx9 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* _ADDR2_COMPUTE_DCCINFO_INPUT +* +* @brief +* Input structure of Addr2ComputeDccInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_DCCINFO_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR2_META_FLAGS dccKeyFlags; ///< DCC key flags + ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags + AddrResourceType resourceType; ///< Color surface type + AddrSwizzleMode swizzleMode; ///< Color surface swizzle mode + UINT_32 bpp; ///< bits per pixel + UINT_32 unalignedWidth; ///< Color surface original width (of mip0) + UINT_32 unalignedHeight; ///< Color surface original height (of mip0) + UINT_32 numSlices; ///< Number of slices, of color surface (of mip0) + UINT_32 numFrags; ///< Fragment number of color surface + UINT_32 numMipLevels; ///< Total mipmap levels of color surface + UINT_32 dataSurfaceSize; ///< The padded size of all slices and mip levels + ///< useful in meta linear case + UINT_32 firstMipIdInTail; ///< The id of first mip in tail, if no mip is in tail, + /// it should be number of mip levels +} ADDR2_COMPUTE_DCCINFO_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_DCCINFO_OUTPUT +* +* @brief +* Output structure of Addr2ComputeDccInfo +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_DCCINFO_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 dccRamBaseAlign; ///< Base alignment of dcc key + UINT_32 dccRamSize; ///< Size of dcc key + + UINT_32 pitch; ///< DCC surface mip chain pitch + UINT_32 height; ///< DCC surface mip chain height + UINT_32 depth; ///< DCC surface mip chain depth + + UINT_32 compressBlkWidth; ///< DCC compress block width + UINT_32 compressBlkHeight; ///< DCC compress block height + UINT_32 compressBlkDepth; ///< DCC compress block depth + + UINT_32 metaBlkWidth; ///< DCC meta block width + UINT_32 metaBlkHeight; ///< DCC meta block height + UINT_32 metaBlkDepth; ///< DCC meta block depth + + UINT_32 metaBlkNumPerSlice; ///< Number of metablock within one slice + + union + { + UINT_32 fastClearSizePerSlice; ///< Size of DCC within a slice should be fast cleared + UINT_32 dccRamSliceSize; ///< DCC ram size per slice. For mipmap, it's + /// the slize size of a mip chain, the thickness of a + /// a slice is meta block depth + }; + + ADDR2_META_MIP_INFO* pMipInfo; ///< DCC mip information +} ADDR2_COMPUTE_DCCINFO_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeDccInfo +* +* @brief +* Compute DCC key size, base alignment +* info +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccInfo( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT +* +* @brief +* Input structure for Addr2ComputeDccAddrFromCoord +* +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_32 x; ///< X coordinate + UINT_32 y; ///< Y coordinate + UINT_32 slice; ///< Index of slices + UINT_32 sample; ///< Index of samples, means fragment index for EQAA + UINT_32 mipId; ///< mipmap level id + + ADDR2_META_FLAGS dccKeyFlags; ///< DCC flags + ADDR2_SURFACE_FLAGS colorFlags; ///< Color surface flags + AddrResourceType resourceType; ///< Color surface type + AddrSwizzleMode swizzleMode; ///< Color surface swizzle mode + UINT_32 bpp; ///< Color surface bits per pixel + UINT_32 unalignedWidth; ///< Color surface original width (of mip0) + UINT_32 unalignedHeight; ///< Color surface original height (of mip0) + UINT_32 numSlices; ///< Color surface original slices (of mip0) + UINT_32 numMipLevels; ///< Color surface mipmap levels + UINT_32 numFrags; ///< Color surface fragment number + + UINT_32 pipeXor; ///< pipe Xor setting +} ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT +* +* @brief +* Output structure for Addr2ComputeDccAddrFromCoord +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + UINT_64 addr; ///< DCC address in bytes +} ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeDccAddrFromCoord +* +* @brief +* Compute DCC address according to coordinates (of MSAA color buffer) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccAddrFromCoord( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut); + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Misc functions for Gfx9 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_PIPEBANKXOR_INPUT +* +* @brief +* Input structure of Addr2ComputePipebankXor +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_PIPEBANKXOR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 surfIndex; ///< Input surface index + ADDR2_SURFACE_FLAGS flags; ///< Surface flag + AddrSwizzleMode swizzleMode; ///< Surface swizzle mode + AddrResourceType resourceType; ///< Surface resource type + AddrFormat format; ///< Surface format + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA +} ADDR2_COMPUTE_PIPEBANKXOR_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT +* +* @brief +* Output structure of Addr2ComputePipebankXor +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 pipeBankXor; ///< Pipe bank xor +} ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputePipeBankXor +* +* @brief +* Calculate a valid bank pipe xor value for client to use. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputePipeBankXor( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT +* +* @brief +* Input structure of Addr2ComputeSlicePipeBankXor +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + AddrSwizzleMode swizzleMode; ///< Surface swizzle mode + AddrResourceType resourceType; ///< Surface resource type + UINT_32 basePipeBankXor; ///< Base pipe bank xor + UINT_32 slice; ///< Slice id + UINT_32 numSamples; ///< Number of samples +} ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT +* +* @brief +* Output structure of Addr2ComputeSlicePipeBankXor +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_32 pipeBankXor; ///< Pipe bank xor +} ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeSlicePipeBankXor +* +* @brief +* Calculate slice pipe bank xor value based on base pipe bank xor and slice id. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSlicePipeBankXor( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT +* +* @brief +* Input structure of Addr2ComputeSubResourceOffsetForSwizzlePattern +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + AddrSwizzleMode swizzleMode; ///< Surface swizzle mode + AddrResourceType resourceType; ///< Surface resource type + UINT_32 pipeBankXor; ///< Per resource xor + UINT_32 slice; ///< Slice id + UINT_64 sliceSize; ///< Slice size of a mip chain + UINT_64 macroBlockOffset; ///< Macro block offset, returned in ADDR2_MIP_INFO + UINT_32 mipTailOffset; ///< Mip tail offset, returned in ADDR2_MIP_INFO +} ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT; + +/** +**************************************************************************************************** +* ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT +* +* @brief +* Output structure of Addr2ComputeSubResourceOffsetForSwizzlePattern +**************************************************************************************************** +*/ +typedef struct _ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + UINT_64 offset; ///< offset +} ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT; + +/** +**************************************************************************************************** +* Addr2ComputeSubResourceOffsetForSwizzlePattern +* +* @brief +* Calculate sub resource offset to support swizzle pattern. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSubResourceOffsetForSwizzlePattern( + ADDR_HANDLE hLib, + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut); + +/** +**************************************************************************************************** +* ADDR2_BLOCK_SET +* +* @brief +* Bit field that defines block type +**************************************************************************************************** +*/ +typedef union _ADDR2_BLOCK_SET +{ + struct + { + UINT_32 micro : 1; // 256B block for 2D resource + UINT_32 macro4KB : 1; // 4KB for 2D/3D resource + UINT_32 macro64KB : 1; // 64KB for 2D/3D resource + UINT_32 var : 1; // VAR block + UINT_32 linear : 1; // Linear block + UINT_32 reserved : 27; + }; + + UINT_32 value; +} ADDR2_BLOCK_SET; + +/** +**************************************************************************************************** +* ADDR2_SWTYPE_SET +* +* @brief +* Bit field that defines swizzle type +**************************************************************************************************** +*/ +typedef union _ADDR2_SWTYPE_SET +{ + struct + { + UINT_32 sw_Z : 1; // SW_*_Z_* + UINT_32 sw_S : 1; // SW_*_S_* + UINT_32 sw_D : 1; // SW_*_D_* + UINT_32 sw_R : 1; // SW_*_R_* + UINT_32 reserved : 28; + }; + + UINT_32 value; +} ADDR2_SWTYPE_SET; + +/** +**************************************************************************************************** +* ADDR2_SWMODE_SET +* +* @brief +* Bit field that defines swizzle type +**************************************************************************************************** +*/ +typedef union _ADDR2_SWMODE_SET +{ + struct + { + UINT_32 swLinear : 1; + UINT_32 sw256B_S : 1; + UINT_32 sw256B_D : 1; + UINT_32 sw256B_R : 1; + UINT_32 sw4KB_Z : 1; + UINT_32 sw4KB_S : 1; + UINT_32 sw4KB_D : 1; + UINT_32 sw4KB_R : 1; + UINT_32 sw64KB_Z : 1; + UINT_32 sw64KB_S : 1; + UINT_32 sw64KB_D : 1; + UINT_32 sw64KB_R : 1; + UINT_32 swVar_Z : 1; + UINT_32 swVar_S : 1; + UINT_32 swVar_D : 1; + UINT_32 swVar_R : 1; + UINT_32 sw64KB_Z_T : 1; + UINT_32 sw64KB_S_T : 1; + UINT_32 sw64KB_D_T : 1; + UINT_32 sw64KB_R_T : 1; + UINT_32 sw4KB_Z_X : 1; + UINT_32 sw4KB_S_X : 1; + UINT_32 sw4KB_D_X : 1; + UINT_32 sw4KB_R_X : 1; + UINT_32 sw64KB_Z_X : 1; + UINT_32 sw64KB_S_X : 1; + UINT_32 sw64KB_D_X : 1; + UINT_32 sw64KB_R_X : 1; + UINT_32 swVar_Z_X : 1; + UINT_32 swVar_S_X : 1; + UINT_32 swVar_D_X : 1; + UINT_32 swVar_R_X : 1; + }; + + UINT_32 value; +} ADDR2_SWMODE_SET; + +/** +**************************************************************************************************** +* ADDR2_GET_PREFERRED_SURF_SETTING_INPUT +* +* @brief +* Input structure of Addr2GetPreferredSurfaceSetting +**************************************************************************************************** +*/ +typedef struct _ADDR2_GET_PREFERRED_SURF_SETTING_INPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + ADDR2_SURFACE_FLAGS flags; ///< Surface flags + AddrResourceType resourceType; ///< Surface type + AddrFormat format; ///< Surface format + AddrResrouceLocation resourceLoction; ///< Surface heap choice + ADDR2_BLOCK_SET forbiddenBlock; ///< Client can use it to disable some block setting + ///< such as linear for DXTn, tiled for YUV + ADDR2_SWTYPE_SET preferredSwSet; ///< Client can use it to specify sw type(s) wanted + BOOL_32 noXor; ///< Do not use xor mode for this resource + UINT_32 bpp; ///< bits per pixel + UINT_32 width; ///< Width (of mip0), in pixels + UINT_32 height; ///< Height (of mip0), in pixels + UINT_32 numSlices; ///< Number surface slice/depth (of mip0), + UINT_32 numMipLevels; ///< Total mipmap levels. + UINT_32 numSamples; ///< Number of samples + UINT_32 numFrags; ///< Number of fragments, leave it zero or the same as + /// number of samples for normal AA; Set it to the + /// number of fragments for EQAA + UINT_32 maxAlign; ///< maximum base/size alignment requested by client + UINT_32 minSizeAlign; ///< memory allocated for surface in client driver will + /// be padded to multiple of this value (in bytes) +} ADDR2_GET_PREFERRED_SURF_SETTING_INPUT; + +/** +**************************************************************************************************** +* ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT +* +* @brief +* Output structure of Addr2GetPreferredSurfaceSetting +**************************************************************************************************** +*/ +typedef struct _ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT +{ + UINT_32 size; ///< Size of this structure in bytes + + AddrSwizzleMode swizzleMode; ///< Suggested swizzle mode to be used + AddrResourceType resourceType; ///< Suggested resource type to program HW + ADDR2_BLOCK_SET validBlockSet; ///< Valid block type bit conbination + BOOL_32 canXor; ///< If client can use xor on a valid macro block + /// type + ADDR2_SWTYPE_SET validSwTypeSet; ///< Valid swizzle type bit combination + ADDR2_SWTYPE_SET clientPreferredSwSet; ///< Client-preferred swizzle type bit combination + ADDR2_SWMODE_SET validSwModeSet; ///< Valid swizzle mode bit combination +} ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT; + +/** +**************************************************************************************************** +* Addr2GetPreferredSurfaceSetting +* +* @brief +* Suggest a preferred setting for client driver to program HW register +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2GetPreferredSurfaceSetting( + ADDR_HANDLE hLib, + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut); + +/** +**************************************************************************************************** +* Addr2IsValidDisplaySwizzleMode +* +* @brief +* Return whether the swizzle mode is supported by DCE / DCN. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2IsValidDisplaySwizzleMode( + ADDR_HANDLE hLib, + AddrSwizzleMode swizzleMode, + UINT_32 bpp, + bool *result); + +#if defined(__cplusplus) +} +#endif + +#endif // __ADDR_INTERFACE_H__ diff --git a/src/amd/addrlib/inc/addrtypes.h b/src/amd/addrlib/inc/addrtypes.h new file mode 100644 index 00000000000..c9393579b7e --- /dev/null +++ b/src/amd/addrlib/inc/addrtypes.h @@ -0,0 +1,746 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrtypes.h +* @brief Contains the helper function and constants +**************************************************************************************************** +*/ +#ifndef __ADDR_TYPES_H__ +#define __ADDR_TYPES_H__ + +#if defined(__APPLE__) && !defined(HAVE_TSERVER) +// External definitions header maintained by Apple driver team, but not for diag team under Mac. +// Helps address compilation issues & reduces code covered by NDA +#include "addrExtDef.h" + +#else + +// Windows and/or Linux +#if !defined(VOID) +typedef void VOID; +#endif + +#if !defined(FLOAT) +typedef float FLOAT; +#endif + +#if !defined(CHAR) +typedef char CHAR; +#endif + +#if !defined(INT) +typedef int INT; +#endif + +#include // va_list...etc need this header + +#endif // defined (__APPLE__) && !defined(HAVE_TSERVER) + +/** +**************************************************************************************************** +* Calling conventions +**************************************************************************************************** +*/ +#ifndef ADDR_CDECL + #if defined(__GNUC__) + #define ADDR_CDECL __attribute__((cdecl)) + #else + #define ADDR_CDECL __cdecl + #endif +#endif + +#ifndef ADDR_STDCALL + #if defined(__GNUC__) + #if defined(__amd64__) || defined(__x86_64__) + #define ADDR_STDCALL + #else + #define ADDR_STDCALL __attribute__((stdcall)) + #endif + #else + #define ADDR_STDCALL __stdcall + #endif +#endif + +#ifndef ADDR_FASTCALL + #if defined(BRAHMA_ARM) + #define ADDR_FASTCALL + #elif defined(__GNUC__) + #if defined(__i386__) + #define ADDR_FASTCALL __attribute__((regparm(0))) + #else + #define ADDR_FASTCALL + #endif + #else + #define ADDR_FASTCALL __fastcall + #endif +#endif + +#ifndef GC_CDECL + #define GC_CDECL ADDR_CDECL +#endif + +#ifndef GC_STDCALL + #define GC_STDCALL ADDR_STDCALL +#endif + +#ifndef GC_FASTCALL + #define GC_FASTCALL ADDR_FASTCALL +#endif + +#if defined(__GNUC__) + #define ADDR_INLINE static inline // inline needs to be static to link +#else + // win32, win64, other platforms + #define ADDR_INLINE __inline +#endif // #if defined(__GNUC__) + +#define ADDR_API ADDR_FASTCALL //default call convention is fast call + +/** +**************************************************************************************************** +* Global defines used by other modules +**************************************************************************************************** +*/ +#if !defined(TILEINDEX_INVALID) +#define TILEINDEX_INVALID -1 +#endif + +#if !defined(TILEINDEX_LINEAR_GENERAL) +#define TILEINDEX_LINEAR_GENERAL -2 +#endif + +#if !defined(TILEINDEX_LINEAR_ALIGNED) +#define TILEINDEX_LINEAR_ALIGNED 8 +#endif + +/** +**************************************************************************************************** +* Return codes +**************************************************************************************************** +*/ +typedef enum _ADDR_E_RETURNCODE +{ + // General Return + ADDR_OK = 0, + ADDR_ERROR = 1, + + // Specific Errors + ADDR_OUTOFMEMORY, + ADDR_INVALIDPARAMS, + ADDR_NOTSUPPORTED, + ADDR_NOTIMPLEMENTED, + ADDR_PARAMSIZEMISMATCH, + ADDR_INVALIDGBREGVALUES, + +} ADDR_E_RETURNCODE; + +/** +**************************************************************************************************** +* @brief +* Neutral enums that define tile modes for all H/W +* @note +* R600/R800 tiling mode can be cast to hw enums directly but never cast into HW enum from +* ADDR_TM_2D_TILED_XTHICK +* +**************************************************************************************************** +*/ +typedef enum _AddrTileMode +{ + ADDR_TM_LINEAR_GENERAL = 0, ///< Least restrictions, pitch: multiple of 8 if not buffer + ADDR_TM_LINEAR_ALIGNED = 1, ///< Requests pitch or slice to be multiple of 64 pixels + ADDR_TM_1D_TILED_THIN1 = 2, ///< Linear array of 8x8 tiles + ADDR_TM_1D_TILED_THICK = 3, ///< Linear array of 8x8x4 tiles + ADDR_TM_2D_TILED_THIN1 = 4, ///< A set of macro tiles consist of 8x8 tiles + ADDR_TM_2D_TILED_THIN2 = 5, ///< 600 HWL only, macro tile ratio is 1:4 + ADDR_TM_2D_TILED_THIN4 = 6, ///< 600 HWL only, macro tile ratio is 1:16 + ADDR_TM_2D_TILED_THICK = 7, ///< A set of macro tiles consist of 8x8x4 tiles + ADDR_TM_2B_TILED_THIN1 = 8, ///< 600 HWL only, with bank swap + ADDR_TM_2B_TILED_THIN2 = 9, ///< 600 HWL only, with bank swap and ratio is 1:4 + ADDR_TM_2B_TILED_THIN4 = 10, ///< 600 HWL only, with bank swap and ratio is 1:16 + ADDR_TM_2B_TILED_THICK = 11, ///< 600 HWL only, with bank swap, consists of 8x8x4 tiles + ADDR_TM_3D_TILED_THIN1 = 12, ///< Macro tiling w/ pipe rotation between slices + ADDR_TM_3D_TILED_THICK = 13, ///< Macro tiling w/ pipe rotation bwtween slices, thick + ADDR_TM_3B_TILED_THIN1 = 14, ///< 600 HWL only, with bank swap + ADDR_TM_3B_TILED_THICK = 15, ///< 600 HWL only, with bank swap, thick + ADDR_TM_2D_TILED_XTHICK = 16, ///< Tile is 8x8x8, valid from NI + ADDR_TM_3D_TILED_XTHICK = 17, ///< Tile is 8x8x8, valid from NI + ADDR_TM_POWER_SAVE = 18, ///< Power save mode, only used by KMD on NI + ADDR_TM_PRT_TILED_THIN1 = 19, ///< No bank/pipe rotation or hashing beyond macrotile size + ADDR_TM_PRT_2D_TILED_THIN1 = 20, ///< Same as 2D_TILED_THIN1, PRT only + ADDR_TM_PRT_3D_TILED_THIN1 = 21, ///< Same as 3D_TILED_THIN1, PRT only + ADDR_TM_PRT_TILED_THICK = 22, ///< No bank/pipe rotation or hashing beyond macrotile size + ADDR_TM_PRT_2D_TILED_THICK = 23, ///< Same as 2D_TILED_THICK, PRT only + ADDR_TM_PRT_3D_TILED_THICK = 24, ///< Same as 3D_TILED_THICK, PRT only + ADDR_TM_UNKNOWN = 25, ///< Unkown tile mode, should be decided by address lib + ADDR_TM_COUNT = 26, ///< Must be the value of the last tile mode +} AddrTileMode; + +/** +**************************************************************************************************** +* @brief +* Neutral enums that define swizzle modes for Gfx9 ASIC +* @note +* +* ADDR_SW_LINEAR linear aligned addressing mode, for 1D/2D/3D resouce +* ADDR_SW_256B_* addressing block aligned size is 256B, for 2D/3D resouce +* ADDR_SW_4KB_* addressing block aligned size is 4KB, for 2D/3D resouce +* ADDR_SW_64KB_* addressing block aligned size is 64KB, for 2D/3D resouce +* ADDR_SW_VAR_* addressing block aligned size is ASIC specific, for 2D/3D resouce +* +* ADDR_SW_*_Z For 2D resouce, represents Z-order swizzle mode for depth/stencil/FMask + For 3D resouce, represents a swizzle mode similar to legacy thick tile mode +* ADDR_SW_*_S represents standard swizzle mode defined by MS +* ADDR_SW_*_D For 2D resouce, represents a swizzle mode for displayable resource +* For 3D resouce, represents a swizzle mode which places each slice in order & pixel + within slice is placed as 2D ADDR_SW_*_S. Don't use this combination if possible! +* ADDR_SW_*_R For 2D resouce only, represents a swizzle mode for rotated displayable resource +* +**************************************************************************************************** +*/ +typedef enum _AddrSwizzleMode +{ + ADDR_SW_LINEAR = 0, + ADDR_SW_256B_S = 1, + ADDR_SW_256B_D = 2, + ADDR_SW_256B_R = 3, + ADDR_SW_4KB_Z = 4, + ADDR_SW_4KB_S = 5, + ADDR_SW_4KB_D = 6, + ADDR_SW_4KB_R = 7, + ADDR_SW_64KB_Z = 8, + ADDR_SW_64KB_S = 9, + ADDR_SW_64KB_D = 10, + ADDR_SW_64KB_R = 11, + ADDR_SW_VAR_Z = 12, + ADDR_SW_VAR_S = 13, + ADDR_SW_VAR_D = 14, + ADDR_SW_VAR_R = 15, + ADDR_SW_64KB_Z_T = 16, + ADDR_SW_64KB_S_T = 17, + ADDR_SW_64KB_D_T = 18, + ADDR_SW_64KB_R_T = 19, + ADDR_SW_4KB_Z_X = 20, + ADDR_SW_4KB_S_X = 21, + ADDR_SW_4KB_D_X = 22, + ADDR_SW_4KB_R_X = 23, + ADDR_SW_64KB_Z_X = 24, + ADDR_SW_64KB_S_X = 25, + ADDR_SW_64KB_D_X = 26, + ADDR_SW_64KB_R_X = 27, + ADDR_SW_VAR_Z_X = 28, + ADDR_SW_VAR_S_X = 29, + ADDR_SW_VAR_D_X = 30, + ADDR_SW_VAR_R_X = 31, + ADDR_SW_LINEAR_GENERAL = 32, + ADDR_SW_MAX_TYPE = 33, + + // Used for represent block with identical size + ADDR_SW_256B = ADDR_SW_256B_S, + ADDR_SW_4KB = ADDR_SW_4KB_S_X, + ADDR_SW_64KB = ADDR_SW_64KB_S_X, + ADDR_SW_VAR = ADDR_SW_VAR_S_X, +} AddrSwizzleMode; + +/** +**************************************************************************************************** +* @brief +* Neutral enums that define image type +* @note +* this is new for address library interface version 2 +* +**************************************************************************************************** +*/ +typedef enum _AddrResourceType +{ + ADDR_RSRC_TEX_1D = 0, + ADDR_RSRC_TEX_2D = 1, + ADDR_RSRC_TEX_3D = 2, + ADDR_RSRC_MAX_TYPE = 3, +} AddrResourceType; + +/** +**************************************************************************************************** +* @brief +* Neutral enums that define resource heap location +* @note +* this is new for address library interface version 2 +* +**************************************************************************************************** +*/ +typedef enum _AddrResrouceLocation +{ + ADDR_RSRC_LOC_UNDEF = 0, // Resource heap is undefined/unknown + ADDR_RSRC_LOC_LOCAL = 1, // CPU visable and CPU invisable local heap + ADDR_RSRC_LOC_USWC = 2, // CPU write-combined non-cached nonlocal heap + ADDR_RSRC_LOC_CACHED = 3, // CPU cached nonlocal heap + ADDR_RSRC_LOC_INVIS = 4, // CPU invisable local heap only + ADDR_RSRC_LOC_MAX_TYPE = 5, +} AddrResrouceLocation; + +/** +**************************************************************************************************** +* @brief +* Neutral enums that define resource basic swizzle mode +* @note +* this is new for address library interface version 2 +* +**************************************************************************************************** +*/ +typedef enum _AddrSwType +{ + ADDR_SW_Z = 0, // Resource basic swizzle mode is ZOrder + ADDR_SW_S = 1, // Resource basic swizzle mode is Standard + ADDR_SW_D = 2, // Resource basic swizzle mode is Display + ADDR_SW_R = 3, // Resource basic swizzle mode is Rotated +} AddrSwType; + +/** +**************************************************************************************************** +* @brief +* Neutral enums that define mipmap major mode +* @note +* this is new for address library interface version 2 +* +**************************************************************************************************** +*/ +typedef enum _AddrMajorMode +{ + ADDR_MAJOR_X = 0, + ADDR_MAJOR_Y = 1, + ADDR_MAJOR_Z = 2, + ADDR_MAJOR_MAX_TYPE = 3, +} AddrMajorMode; + +/** +**************************************************************************************************** +* AddrFormat +* +* @brief +* Neutral enum for SurfaceFormat +* +**************************************************************************************************** +*/ +typedef enum _AddrFormat { + ADDR_FMT_INVALID = 0x00000000, + ADDR_FMT_8 = 0x00000001, + ADDR_FMT_4_4 = 0x00000002, + ADDR_FMT_3_3_2 = 0x00000003, + ADDR_FMT_RESERVED_4 = 0x00000004, + ADDR_FMT_16 = 0x00000005, + ADDR_FMT_16_FLOAT = ADDR_FMT_16, + ADDR_FMT_8_8 = 0x00000007, + ADDR_FMT_5_6_5 = 0x00000008, + ADDR_FMT_6_5_5 = 0x00000009, + ADDR_FMT_1_5_5_5 = 0x0000000a, + ADDR_FMT_4_4_4_4 = 0x0000000b, + ADDR_FMT_5_5_5_1 = 0x0000000c, + ADDR_FMT_32 = 0x0000000d, + ADDR_FMT_32_FLOAT = ADDR_FMT_32, + ADDR_FMT_16_16 = 0x0000000f, + ADDR_FMT_16_16_FLOAT = ADDR_FMT_16_16, + ADDR_FMT_8_24 = 0x00000011, + ADDR_FMT_8_24_FLOAT = ADDR_FMT_8_24, + ADDR_FMT_24_8 = 0x00000013, + ADDR_FMT_24_8_FLOAT = ADDR_FMT_24_8, + ADDR_FMT_10_11_11 = 0x00000015, + ADDR_FMT_10_11_11_FLOAT = ADDR_FMT_10_11_11, + ADDR_FMT_11_11_10 = 0x00000017, + ADDR_FMT_11_11_10_FLOAT = ADDR_FMT_11_11_10, + ADDR_FMT_2_10_10_10 = 0x00000019, + ADDR_FMT_8_8_8_8 = 0x0000001a, + ADDR_FMT_10_10_10_2 = 0x0000001b, + ADDR_FMT_X24_8_32_FLOAT = 0x0000001c, + ADDR_FMT_32_32 = 0x0000001d, + ADDR_FMT_32_32_FLOAT = ADDR_FMT_32_32, + ADDR_FMT_16_16_16_16 = 0x0000001f, + ADDR_FMT_16_16_16_16_FLOAT = ADDR_FMT_16_16_16_16, + ADDR_FMT_RESERVED_33 = 0x00000021, + ADDR_FMT_32_32_32_32 = 0x00000022, + ADDR_FMT_32_32_32_32_FLOAT = ADDR_FMT_32_32_32_32, + ADDR_FMT_RESERVED_36 = 0x00000024, + ADDR_FMT_1 = 0x00000025, + ADDR_FMT_1_REVERSED = 0x00000026, + ADDR_FMT_GB_GR = 0x00000027, + ADDR_FMT_BG_RG = 0x00000028, + ADDR_FMT_32_AS_8 = 0x00000029, + ADDR_FMT_32_AS_8_8 = 0x0000002a, + ADDR_FMT_5_9_9_9_SHAREDEXP = 0x0000002b, + ADDR_FMT_8_8_8 = 0x0000002c, + ADDR_FMT_16_16_16 = 0x0000002d, + ADDR_FMT_16_16_16_FLOAT = ADDR_FMT_16_16_16, + ADDR_FMT_32_32_32 = 0x0000002f, + ADDR_FMT_32_32_32_FLOAT = ADDR_FMT_32_32_32, + ADDR_FMT_BC1 = 0x00000031, + ADDR_FMT_BC2 = 0x00000032, + ADDR_FMT_BC3 = 0x00000033, + ADDR_FMT_BC4 = 0x00000034, + ADDR_FMT_BC5 = 0x00000035, + ADDR_FMT_BC6 = 0x00000036, + ADDR_FMT_BC7 = 0x00000037, + ADDR_FMT_32_AS_32_32_32_32 = 0x00000038, + ADDR_FMT_APC3 = 0x00000039, + ADDR_FMT_APC4 = 0x0000003a, + ADDR_FMT_APC5 = 0x0000003b, + ADDR_FMT_APC6 = 0x0000003c, + ADDR_FMT_APC7 = 0x0000003d, + ADDR_FMT_CTX1 = 0x0000003e, + ADDR_FMT_RESERVED_63 = 0x0000003f, + ADDR_FMT_ASTC_4x4 = 0x00000040, + ADDR_FMT_ASTC_5x4 = 0x00000041, + ADDR_FMT_ASTC_5x5 = 0x00000042, + ADDR_FMT_ASTC_6x5 = 0x00000043, + ADDR_FMT_ASTC_6x6 = 0x00000044, + ADDR_FMT_ASTC_8x5 = 0x00000045, + ADDR_FMT_ASTC_8x6 = 0x00000046, + ADDR_FMT_ASTC_8x8 = 0x00000047, + ADDR_FMT_ASTC_10x5 = 0x00000048, + ADDR_FMT_ASTC_10x6 = 0x00000049, + ADDR_FMT_ASTC_10x8 = 0x0000004a, + ADDR_FMT_ASTC_10x10 = 0x0000004b, + ADDR_FMT_ASTC_12x10 = 0x0000004c, + ADDR_FMT_ASTC_12x12 = 0x0000004d, + ADDR_FMT_ETC2_64BPP = 0x0000004e, + ADDR_FMT_ETC2_128BPP = 0x0000004f, +} AddrFormat; + +/** +**************************************************************************************************** +* AddrDepthFormat +* +* @brief +* Neutral enum for addrFlt32ToDepthPixel +* +**************************************************************************************************** +*/ +typedef enum _AddrDepthFormat +{ + ADDR_DEPTH_INVALID = 0x00000000, + ADDR_DEPTH_16 = 0x00000001, + ADDR_DEPTH_X8_24 = 0x00000002, + ADDR_DEPTH_8_24 = 0x00000003, + ADDR_DEPTH_X8_24_FLOAT = 0x00000004, + ADDR_DEPTH_8_24_FLOAT = 0x00000005, + ADDR_DEPTH_32_FLOAT = 0x00000006, + ADDR_DEPTH_X24_8_32_FLOAT = 0x00000007, + +} AddrDepthFormat; + +/** +**************************************************************************************************** +* AddrColorFormat +* +* @brief +* Neutral enum for ColorFormat +* +**************************************************************************************************** +*/ +typedef enum _AddrColorFormat +{ + ADDR_COLOR_INVALID = 0x00000000, + ADDR_COLOR_8 = 0x00000001, + ADDR_COLOR_4_4 = 0x00000002, + ADDR_COLOR_3_3_2 = 0x00000003, + ADDR_COLOR_RESERVED_4 = 0x00000004, + ADDR_COLOR_16 = 0x00000005, + ADDR_COLOR_16_FLOAT = 0x00000006, + ADDR_COLOR_8_8 = 0x00000007, + ADDR_COLOR_5_6_5 = 0x00000008, + ADDR_COLOR_6_5_5 = 0x00000009, + ADDR_COLOR_1_5_5_5 = 0x0000000a, + ADDR_COLOR_4_4_4_4 = 0x0000000b, + ADDR_COLOR_5_5_5_1 = 0x0000000c, + ADDR_COLOR_32 = 0x0000000d, + ADDR_COLOR_32_FLOAT = 0x0000000e, + ADDR_COLOR_16_16 = 0x0000000f, + ADDR_COLOR_16_16_FLOAT = 0x00000010, + ADDR_COLOR_8_24 = 0x00000011, + ADDR_COLOR_8_24_FLOAT = 0x00000012, + ADDR_COLOR_24_8 = 0x00000013, + ADDR_COLOR_24_8_FLOAT = 0x00000014, + ADDR_COLOR_10_11_11 = 0x00000015, + ADDR_COLOR_10_11_11_FLOAT = 0x00000016, + ADDR_COLOR_11_11_10 = 0x00000017, + ADDR_COLOR_11_11_10_FLOAT = 0x00000018, + ADDR_COLOR_2_10_10_10 = 0x00000019, + ADDR_COLOR_8_8_8_8 = 0x0000001a, + ADDR_COLOR_10_10_10_2 = 0x0000001b, + ADDR_COLOR_X24_8_32_FLOAT = 0x0000001c, + ADDR_COLOR_32_32 = 0x0000001d, + ADDR_COLOR_32_32_FLOAT = 0x0000001e, + ADDR_COLOR_16_16_16_16 = 0x0000001f, + ADDR_COLOR_16_16_16_16_FLOAT = 0x00000020, + ADDR_COLOR_RESERVED_33 = 0x00000021, + ADDR_COLOR_32_32_32_32 = 0x00000022, + ADDR_COLOR_32_32_32_32_FLOAT = 0x00000023, +} AddrColorFormat; + +/** +**************************************************************************************************** +* AddrSurfaceNumber +* +* @brief +* Neutral enum for SurfaceNumber +* +**************************************************************************************************** +*/ +typedef enum _AddrSurfaceNumber { + ADDR_NUMBER_UNORM = 0x00000000, + ADDR_NUMBER_SNORM = 0x00000001, + ADDR_NUMBER_USCALED = 0x00000002, + ADDR_NUMBER_SSCALED = 0x00000003, + ADDR_NUMBER_UINT = 0x00000004, + ADDR_NUMBER_SINT = 0x00000005, + ADDR_NUMBER_SRGB = 0x00000006, + ADDR_NUMBER_FLOAT = 0x00000007, +} AddrSurfaceNumber; + +/** +**************************************************************************************************** +* AddrSurfaceSwap +* +* @brief +* Neutral enum for SurfaceSwap +* +**************************************************************************************************** +*/ +typedef enum _AddrSurfaceSwap { + ADDR_SWAP_STD = 0x00000000, + ADDR_SWAP_ALT = 0x00000001, + ADDR_SWAP_STD_REV = 0x00000002, + ADDR_SWAP_ALT_REV = 0x00000003, +} AddrSurfaceSwap; + +/** +**************************************************************************************************** +* AddrHtileBlockSize +* +* @brief +* Size of HTILE blocks, valid values are 4 or 8 for now +**************************************************************************************************** +*/ +typedef enum _AddrHtileBlockSize +{ + ADDR_HTILE_BLOCKSIZE_4 = 4, + ADDR_HTILE_BLOCKSIZE_8 = 8, +} AddrHtileBlockSize; + +/** +**************************************************************************************************** +* AddrPipeCfg +* +* @brief +* The pipe configuration field specifies both the number of pipes and +* how pipes are interleaved on the surface. +* The expression of number of pipes, the shader engine tile size, and packer tile size +* is encoded in a PIPE_CONFIG register field. +* In general the number of pipes usually matches the number of memory channels of the +* hardware configuration. +* For hw configurations w/ non-pow2 memory number of memory channels, it usually matches +* the number of ROP units(? TODO: which registers??) +* The enum value = hw enum + 1 which is to reserve 0 for requesting default. +**************************************************************************************************** +*/ +typedef enum _AddrPipeCfg +{ + ADDR_PIPECFG_INVALID = 0, + ADDR_PIPECFG_P2 = 1, /// 2 pipes, + ADDR_PIPECFG_P4_8x16 = 5, /// 4 pipes, + ADDR_PIPECFG_P4_16x16 = 6, + ADDR_PIPECFG_P4_16x32 = 7, + ADDR_PIPECFG_P4_32x32 = 8, + ADDR_PIPECFG_P8_16x16_8x16 = 9, /// 8 pipes + ADDR_PIPECFG_P8_16x32_8x16 = 10, + ADDR_PIPECFG_P8_32x32_8x16 = 11, + ADDR_PIPECFG_P8_16x32_16x16 = 12, + ADDR_PIPECFG_P8_32x32_16x16 = 13, + ADDR_PIPECFG_P8_32x32_16x32 = 14, + ADDR_PIPECFG_P8_32x64_32x32 = 15, + ADDR_PIPECFG_P16_32x32_8x16 = 17, /// 16 pipes + ADDR_PIPECFG_P16_32x32_16x16 = 18, + ADDR_PIPECFG_RESERVED = 19, /// reserved for internal use + ADDR_PIPECFG_MAX = 20, +} AddrPipeCfg; + +/** +**************************************************************************************************** +* AddrTileType +* +* @brief +* Neutral enums that specifies micro tile type (MICRO_TILE_MODE) +**************************************************************************************************** +*/ +typedef enum _AddrTileType +{ + ADDR_DISPLAYABLE = 0, ///< Displayable tiling + ADDR_NON_DISPLAYABLE = 1, ///< Non-displayable tiling, a.k.a thin micro tiling + ADDR_DEPTH_SAMPLE_ORDER = 2, ///< Same as non-displayable plus depth-sample-order + ADDR_ROTATED = 3, ///< Rotated displayable tiling + ADDR_THICK = 4, ///< Thick micro-tiling, only valid for THICK and XTHICK +} AddrTileType; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// +// Type definitions: short system-independent names for address library types +// +//////////////////////////////////////////////////////////////////////////////////////////////////// + +#if !defined(__APPLE__) || defined(HAVE_TSERVER) + +#ifndef BOOL_32 // no bool type in C +/// @brief Boolean type, since none is defined in C +/// @ingroup type +#define BOOL_32 int +#endif + +#ifndef INT_32 +#define INT_32 int +#endif + +#ifndef UINT_32 +#define UINT_32 unsigned int +#endif + +#ifndef INT_16 +#define INT_16 short +#endif + +#ifndef UINT_16 +#define UINT_16 unsigned short +#endif + +#ifndef INT_8 +#define INT_8 char +#endif + +#ifndef UINT_8 +#define UINT_8 unsigned char +#endif + +#ifndef NULL +#define NULL 0 +#endif + +#ifndef TRUE +#define TRUE 1 +#endif + +#ifndef FALSE +#define FALSE 0 +#endif + +// +// 64-bit integer types depend on the compiler +// +#if defined( __GNUC__ ) || defined( __WATCOMC__ ) +#define INT_64 long long +#define UINT_64 unsigned long long + +#elif defined( _WIN32 ) +#define INT_64 __int64 +#define UINT_64 unsigned __int64 + +#else +#error Unsupported compiler and/or operating system for 64-bit integers + +/// @brief 64-bit signed integer type (compiler dependent) +/// @ingroup type +/// +/// The addrlib defines a 64-bit signed integer type for either +/// Gnu/Watcom compilers (which use the first syntax) or for +/// the Windows VCC compiler (which uses the second syntax). +#define INT_64 long long OR __int64 + +/// @brief 64-bit unsigned integer type (compiler dependent) +/// @ingroup type +/// +/// The addrlib defines a 64-bit unsigned integer type for either +/// Gnu/Watcom compilers (which use the first syntax) or for +/// the Windows VCC compiler (which uses the second syntax). +/// +#define UINT_64 unsigned long long OR unsigned __int64 +#endif + +#endif // #if !defined(__APPLE__) || defined(HAVE_TSERVER) + +// ADDR64X is used to print addresses in hex form on both Windows and Linux +// +#if defined( __GNUC__ ) || defined( __WATCOMC__ ) +#define ADDR64X "llx" +#define ADDR64D "lld" + +#elif defined( _WIN32 ) +#define ADDR64X "I64x" +#define ADDR64D "I64d" + +#else +#error Unsupported compiler and/or operating system for 64-bit integers + +/// @brief Addrlib device address 64-bit printf tag (compiler dependent) +/// @ingroup type +/// +/// This allows printf to display an ADDR_64 for either the Windows VCC compiler +/// (which used this value) or the Gnu/Watcom compilers (which use "llx". +/// An example of use is printf("addr 0x%"ADDR64X"\n", address); +/// +#define ADDR64X "llx" OR "I64x" +#define ADDR64D "lld" OR "I64d" +#endif + +/// @brief Union for storing a 32-bit float or 32-bit integer +/// @ingroup type +/// +/// This union provides a simple way to convert between a 32-bit float +/// and a 32-bit integer. It also prevents the compiler from producing +/// code that alters NaN values when assiging or coying floats. +/// Therefore, all address library routines that pass or return 32-bit +/// floating point data do so by passing or returning a FLT_32. +/// +typedef union { + INT_32 i; + UINT_32 u; + float f; +} ADDR_FLT_32; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// +// Macros for controlling linking and building on multiple systems +// +//////////////////////////////////////////////////////////////////////////////////////////////////// +#if defined(_MSC_VER) +#if defined(va_copy) +#undef va_copy //redefine va_copy to support VC2013 +#endif +#endif + +#if !defined(va_copy) +#define va_copy(dst, src) \ + ((void) memcpy(&(dst), &(src), sizeof(va_list))) +#endif + +#endif // __ADDR_TYPES_H__ + diff --git a/src/amd/addrlib/inc/chip/gfx9/gfx9_gb_reg.h b/src/amd/addrlib/inc/chip/gfx9/gfx9_gb_reg.h deleted file mode 100644 index 49cc65a7dcb..00000000000 --- a/src/amd/addrlib/inc/chip/gfx9/gfx9_gb_reg.h +++ /dev/null @@ -1,89 +0,0 @@ -#if !defined (__GFX9_GB_REG_H__) -#define __GFX9_GB_REG_H__ - -/* - * Copyright © 2017 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -#include "util/u_endian.h" - -#if defined(PIPE_ARCH_LITTLE_ENDIAN) -#define LITTLEENDIAN_CPU -#elif defined(PIPE_ARCH_BIG_ENDIAN) -#define BIGENDIAN_CPU -#endif - -// -// Make sure the necessary endian defines are there. -// -#if defined(LITTLEENDIAN_CPU) -#elif defined(BIGENDIAN_CPU) -#else -#error "BIGENDIAN_CPU or LITTLEENDIAN_CPU must be defined" -#endif - -union GB_ADDR_CONFIG { - struct { -#if defined(LITTLEENDIAN_CPU) - unsigned int NUM_PIPES : 3; - unsigned int PIPE_INTERLEAVE_SIZE : 3; - unsigned int MAX_COMPRESSED_FRAGS : 2; - unsigned int BANK_INTERLEAVE_SIZE : 3; - unsigned int : 1; - unsigned int NUM_BANKS : 3; - unsigned int : 1; - unsigned int SHADER_ENGINE_TILE_SIZE : 3; - unsigned int NUM_SHADER_ENGINES : 2; - unsigned int NUM_GPUS : 3; - unsigned int MULTI_GPU_TILE_SIZE : 2; - unsigned int NUM_RB_PER_SE : 2; - unsigned int ROW_SIZE : 2; - unsigned int NUM_LOWER_PIPES : 1; - unsigned int SE_ENABLE : 1; -#elif defined(BIGENDIAN_CPU) - unsigned int SE_ENABLE : 1; - unsigned int NUM_LOWER_PIPES : 1; - unsigned int ROW_SIZE : 2; - unsigned int NUM_RB_PER_SE : 2; - unsigned int MULTI_GPU_TILE_SIZE : 2; - unsigned int NUM_GPUS : 3; - unsigned int NUM_SHADER_ENGINES : 2; - unsigned int SHADER_ENGINE_TILE_SIZE : 3; - unsigned int : 1; - unsigned int NUM_BANKS : 3; - unsigned int : 1; - unsigned int BANK_INTERLEAVE_SIZE : 3; - unsigned int MAX_COMPRESSED_FRAGS : 2; - unsigned int PIPE_INTERLEAVE_SIZE : 3; - unsigned int NUM_PIPES : 3; -#endif - } bitfields, bits; - unsigned int u32All; - signed int i32All; - float f32All; -}; - -#endif - diff --git a/src/amd/addrlib/inc/chip/r800/si_gb_reg.h b/src/amd/addrlib/inc/chip/r800/si_gb_reg.h deleted file mode 100644 index 793edbc6280..00000000000 --- a/src/amd/addrlib/inc/chip/r800/si_gb_reg.h +++ /dev/null @@ -1,163 +0,0 @@ -#if !defined (__SI_GB_REG_H__) -#define __SI_GB_REG_H__ - -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -#include "util/u_endian.h" - -#if defined(PIPE_ARCH_LITTLE_ENDIAN) -#define LITTLEENDIAN_CPU -#elif defined(PIPE_ARCH_BIG_ENDIAN) -#define BIGENDIAN_CPU -#endif - -// -// Make sure the necessary endian defines are there. -// -#if defined(LITTLEENDIAN_CPU) -#elif defined(BIGENDIAN_CPU) -#else -#error "BIGENDIAN_CPU or LITTLEENDIAN_CPU must be defined" -#endif - -/* - * GB_ADDR_CONFIG struct - */ - -#if defined(LITTLEENDIAN_CPU) - - typedef struct _GB_ADDR_CONFIG_T { - unsigned int num_pipes : 3; - unsigned int : 1; - unsigned int pipe_interleave_size : 3; - unsigned int : 1; - unsigned int bank_interleave_size : 3; - unsigned int : 1; - unsigned int num_shader_engines : 2; - unsigned int : 2; - unsigned int shader_engine_tile_size : 3; - unsigned int : 1; - unsigned int num_gpus : 3; - unsigned int : 1; - unsigned int multi_gpu_tile_size : 2; - unsigned int : 2; - unsigned int row_size : 2; - unsigned int num_lower_pipes : 1; - unsigned int : 1; - } GB_ADDR_CONFIG_T; - -#elif defined(BIGENDIAN_CPU) - - typedef struct _GB_ADDR_CONFIG_T { - unsigned int : 1; - unsigned int num_lower_pipes : 1; - unsigned int row_size : 2; - unsigned int : 2; - unsigned int multi_gpu_tile_size : 2; - unsigned int : 1; - unsigned int num_gpus : 3; - unsigned int : 1; - unsigned int shader_engine_tile_size : 3; - unsigned int : 2; - unsigned int num_shader_engines : 2; - unsigned int : 1; - unsigned int bank_interleave_size : 3; - unsigned int : 1; - unsigned int pipe_interleave_size : 3; - unsigned int : 1; - unsigned int num_pipes : 3; - } GB_ADDR_CONFIG_T; - -#endif - -typedef union { - unsigned int val : 32; - GB_ADDR_CONFIG_T f; -} GB_ADDR_CONFIG; - -#if defined(LITTLEENDIAN_CPU) - - typedef struct _GB_TILE_MODE_T { - unsigned int micro_tile_mode : 2; - unsigned int array_mode : 4; - unsigned int pipe_config : 5; - unsigned int tile_split : 3; - unsigned int bank_width : 2; - unsigned int bank_height : 2; - unsigned int macro_tile_aspect : 2; - unsigned int num_banks : 2; - unsigned int micro_tile_mode_new : 3; - unsigned int sample_split : 2; - unsigned int : 5; - } GB_TILE_MODE_T; - - typedef struct _GB_MACROTILE_MODE_T { - unsigned int bank_width : 2; - unsigned int bank_height : 2; - unsigned int macro_tile_aspect : 2; - unsigned int num_banks : 2; - unsigned int : 24; - } GB_MACROTILE_MODE_T; - -#elif defined(BIGENDIAN_CPU) - - typedef struct _GB_TILE_MODE_T { - unsigned int : 5; - unsigned int sample_split : 2; - unsigned int micro_tile_mode_new : 3; - unsigned int num_banks : 2; - unsigned int macro_tile_aspect : 2; - unsigned int bank_height : 2; - unsigned int bank_width : 2; - unsigned int tile_split : 3; - unsigned int pipe_config : 5; - unsigned int array_mode : 4; - unsigned int micro_tile_mode : 2; - } GB_TILE_MODE_T; - - typedef struct _GB_MACROTILE_MODE_T { - unsigned int : 24; - unsigned int num_banks : 2; - unsigned int macro_tile_aspect : 2; - unsigned int bank_height : 2; - unsigned int bank_width : 2; - } GB_MACROTILE_MODE_T; - -#endif - -typedef union { - unsigned int val : 32; - GB_TILE_MODE_T f; -} GB_TILE_MODE; - -typedef union { - unsigned int val : 32; - GB_MACROTILE_MODE_T f; -} GB_MACROTILE_MODE; - -#endif - diff --git a/src/amd/addrlib/meson.build b/src/amd/addrlib/meson.build index b9550afd2ab..edf190d12dc 100644 --- a/src/amd/addrlib/meson.build +++ b/src/amd/addrlib/meson.build @@ -19,35 +19,33 @@ # SOFTWARE. files_addrlib = files( - 'addrinterface.cpp', - 'addrinterface.h', - 'addrtypes.h', - 'core/addrcommon.h', - 'core/addrelemlib.cpp', - 'core/addrelemlib.h', - 'core/addrlib.cpp', - 'core/addrlib.h', - 'core/addrlib1.cpp', - 'core/addrlib1.h', - 'core/addrlib2.cpp', - 'core/addrlib2.h', - 'core/addrobject.cpp', - 'core/addrobject.h', - 'gfx9/chip/gfx9_enum.h', - 'gfx9/coord.cpp', - 'gfx9/coord.h', - 'gfx9/gfx9addrlib.cpp', - 'gfx9/gfx9addrlib.h', - 'amdgpu_asic_addr.h', - 'inc/chip/gfx9/gfx9_gb_reg.h', - 'inc/chip/r800/si_gb_reg.h', - 'r800/chip/si_ci_vi_merged_enum.h', - 'r800/ciaddrlib.cpp', - 'r800/ciaddrlib.h', - 'r800/egbaddrlib.cpp', - 'r800/egbaddrlib.h', - 'r800/siaddrlib.cpp', - 'r800/siaddrlib.h', + 'inc/addrinterface.h', + 'inc/addrtypes.h', + 'src/addrinterface.cpp', + 'src/core/addrcommon.h', + 'src/core/addrelemlib.cpp', + 'src/core/addrelemlib.h', + 'src/core/addrlib.cpp', + 'src/core/addrlib.h', + 'src/core/addrlib1.cpp', + 'src/core/addrlib1.h', + 'src/core/addrlib2.cpp', + 'src/core/addrlib2.h', + 'src/core/addrobject.cpp', + 'src/core/addrobject.h', + 'src/core/coord.cpp', + 'src/core/coord.h', + 'src/gfx9/gfx9addrlib.cpp', + 'src/gfx9/gfx9addrlib.h', + 'src/amdgpu_asic_addr.h', + 'src/chip/gfx9/gfx9_gb_reg.h', + 'src/chip/r800/si_gb_reg.h', + 'src/r800/ciaddrlib.cpp', + 'src/r800/ciaddrlib.h', + 'src/r800/egbaddrlib.cpp', + 'src/r800/egbaddrlib.h', + 'src/r800/siaddrlib.cpp', + 'src/r800/siaddrlib.h', ) libamdgpu_addrlib = static_library( @@ -55,7 +53,7 @@ libamdgpu_addrlib = static_library( files_addrlib, include_directories : [ include_directories( - 'core', 'inc/chip/gfx9', 'inc/chip/r800', 'gfx9/chip', 'r800/chip', + 'inc', 'src', 'src/core', 'src/chip/gfx9', 'src/chip/r800', ), inc_amd_common, inc_common, inc_src, ], diff --git a/src/amd/addrlib/r800/chip/si_ci_vi_merged_enum.h b/src/amd/addrlib/r800/chip/si_ci_vi_merged_enum.h deleted file mode 100644 index 5ed81add264..00000000000 --- a/src/amd/addrlib/r800/chip/si_ci_vi_merged_enum.h +++ /dev/null @@ -1,40 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ -#if !defined (SI_CI_VI_MERGED_ENUM_HEADER) -#define SI_CI_VI_MERGED_ENUM_HEADER - -typedef enum PipeInterleaveSize { -ADDR_CONFIG_PIPE_INTERLEAVE_256B = 0x00000000, -ADDR_CONFIG_PIPE_INTERLEAVE_512B = 0x00000001, -} PipeInterleaveSize; - -typedef enum RowSize { -ADDR_CONFIG_1KB_ROW = 0x00000000, -ADDR_CONFIG_2KB_ROW = 0x00000001, -ADDR_CONFIG_4KB_ROW = 0x00000002, -} RowSize; - -#endif diff --git a/src/amd/addrlib/r800/ciaddrlib.cpp b/src/amd/addrlib/r800/ciaddrlib.cpp deleted file mode 100644 index 3c5e29f8695..00000000000 --- a/src/amd/addrlib/r800/ciaddrlib.cpp +++ /dev/null @@ -1,2341 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file ciaddrlib.cpp -* @brief Contains the implementation for the CiLib class. -**************************************************************************************************** -*/ - -#include "ciaddrlib.h" - -#include "si_gb_reg.h" - -#include "amdgpu_asic_addr.h" - -//////////////////////////////////////////////////////////////////////////////////////////////////// -//////////////////////////////////////////////////////////////////////////////////////////////////// - -namespace Addr -{ - -/** -**************************************************************************************************** -* CiHwlInit -* -* @brief -* Creates an CiLib object. -* -* @return -* Returns an CiLib object pointer. -**************************************************************************************************** -*/ -Lib* CiHwlInit(const Client* pClient) -{ - return V1::CiLib::CreateObj(pClient); -} - -namespace V1 -{ - -/** -**************************************************************************************************** -* Mask -* -* @brief -* Gets a mask of "width" -* @return -* Bit mask -**************************************************************************************************** -*/ -static UINT_64 Mask( - UINT_32 width) ///< Width of bits -{ - UINT_64 ret; - - if (width >= sizeof(UINT_64)*8) - { - ret = ~((UINT_64) 0); - } - else - { - return (((UINT_64) 1) << width) - 1; - } - return ret; -} - -/** -**************************************************************************************************** -* GetBits -* -* @brief -* Gets bits within a range of [msb, lsb] -* @return -* Bits of this range -**************************************************************************************************** -*/ -static UINT_64 GetBits( - UINT_64 bits, ///< Source bits - UINT_32 msb, ///< Most signicant bit - UINT_32 lsb) ///< Least signicant bit -{ - UINT_64 ret = 0; - - if (msb >= lsb) - { - ret = (bits >> lsb) & (Mask(1 + msb - lsb)); - } - return ret; -} - -/** -**************************************************************************************************** -* RemoveBits -* -* @brief -* Removes bits within the range of [msb, lsb] -* @return -* Modified bits -**************************************************************************************************** -*/ -static UINT_64 RemoveBits( - UINT_64 bits, ///< Source bits - UINT_32 msb, ///< Most signicant bit - UINT_32 lsb) ///< Least signicant bit -{ - UINT_64 ret = bits; - - if (msb >= lsb) - { - ret = GetBits(bits, lsb - 1, 0) // low bits - | (GetBits(bits, 8 * sizeof(bits) - 1, msb + 1) << lsb); //high bits - } - return ret; -} - -/** -**************************************************************************************************** -* InsertBits -* -* @brief -* Inserts new bits into the range of [msb, lsb] -* @return -* Modified bits -**************************************************************************************************** -*/ -static UINT_64 InsertBits( - UINT_64 bits, ///< Source bits - UINT_64 newBits, ///< New bits to be inserted - UINT_32 msb, ///< Most signicant bit - UINT_32 lsb) ///< Least signicant bit -{ - UINT_64 ret = bits; - - if (msb >= lsb) - { - ret = GetBits(bits, lsb - 1, 0) // old low bitss - | (GetBits(newBits, msb - lsb, 0) << lsb) //new bits - | (GetBits(bits, 8 * sizeof(bits) - 1, lsb) << (msb + 1)); //old high bits - } - return ret; -} - -/** -**************************************************************************************************** -* CiLib::CiLib -* -* @brief -* Constructor -* -**************************************************************************************************** -*/ -CiLib::CiLib(const Client* pClient) - : - SiLib(pClient), - m_noOfMacroEntries(0), - m_allowNonDispThickModes(FALSE) -{ - m_class = CI_ADDRLIB; -} - -/** -**************************************************************************************************** -* CiLib::~CiLib -* -* @brief -* Destructor -**************************************************************************************************** -*/ -CiLib::~CiLib() -{ -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeDccInfo -* -* @brief -* Compute DCC key size, base alignment -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE CiLib::HwlComputeDccInfo( - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - if (m_settings.isVolcanicIslands && IsMacroTiled(pIn->tileMode)) - { - UINT_64 dccFastClearSize = pIn->colorSurfSize >> 8; - - ADDR_ASSERT(0 == (pIn->colorSurfSize & 0xff)); - - if (pIn->numSamples > 1) - { - UINT_32 tileSizePerSample = BITS_TO_BYTES(pIn->bpp * MicroTileWidth * MicroTileHeight); - UINT_32 samplesPerSplit = pIn->tileInfo.tileSplitBytes / tileSizePerSample; - - if (samplesPerSplit < pIn->numSamples) - { - UINT_32 numSplits = pIn->numSamples / samplesPerSplit; - UINT_32 fastClearBaseAlign = HwlGetPipes(&pIn->tileInfo) * m_pipeInterleaveBytes; - - ADDR_ASSERT(IsPow2(fastClearBaseAlign)); - - dccFastClearSize /= numSplits; - - if (0 != (dccFastClearSize & (fastClearBaseAlign - 1))) - { - // Disable dcc fast clear - // if key size of fisrt sample split is not pipe*interleave aligned - dccFastClearSize = 0; - } - } - } - - pOut->dccRamSize = pIn->colorSurfSize >> 8; - pOut->dccRamBaseAlign = pIn->tileInfo.banks * - HwlGetPipes(&pIn->tileInfo) * - m_pipeInterleaveBytes; - pOut->dccFastClearSize = dccFastClearSize; - pOut->dccRamSizeAligned = TRUE; - - ADDR_ASSERT(IsPow2(pOut->dccRamBaseAlign)); - - if (0 == (pOut->dccRamSize & (pOut->dccRamBaseAlign - 1))) - { - pOut->subLvlCompressible = TRUE; - } - else - { - UINT_64 dccRamSizeAlign = HwlGetPipes(&pIn->tileInfo) * m_pipeInterleaveBytes; - - if (pOut->dccRamSize == pOut->dccFastClearSize) - { - pOut->dccFastClearSize = PowTwoAlign(pOut->dccRamSize, dccRamSizeAlign); - } - if ((pOut->dccRamSize & (dccRamSizeAlign - 1)) != 0) - { - pOut->dccRamSizeAligned = FALSE; - } - pOut->dccRamSize = PowTwoAlign(pOut->dccRamSize, dccRamSizeAlign); - pOut->subLvlCompressible = FALSE; - } - } - else - { - returnCode = ADDR_NOTSUPPORTED; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeCmaskAddrFromCoord -* -* @brief -* Compute tc compatible Cmask address from fmask ram address -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE CiLib::HwlComputeCmaskAddrFromCoord( - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] fmask addr/bpp/tile input - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] cmask address - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_NOTSUPPORTED; - - if ((m_settings.isVolcanicIslands == TRUE) && - (pIn->flags.tcCompatible == TRUE)) - { - UINT_32 numOfPipes = HwlGetPipes(pIn->pTileInfo); - UINT_32 numOfBanks = pIn->pTileInfo->banks; - UINT_64 fmaskAddress = pIn->fmaskAddr; - UINT_32 elemBits = pIn->bpp; - UINT_32 blockByte = 64 * elemBits / 8; - UINT_64 metaNibbleAddress = HwlComputeMetadataNibbleAddress(fmaskAddress, - 0, - 0, - 4, // cmask 4 bits - elemBits, - blockByte, - m_pipeInterleaveBytes, - numOfPipes, - numOfBanks, - 1); - pOut->addr = (metaNibbleAddress >> 1); - pOut->bitPosition = (metaNibbleAddress % 2) ? 4 : 0; - returnCode = ADDR_OK; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeHtileAddrFromCoord -* -* @brief -* Compute tc compatible Htile address from depth/stencil address -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE CiLib::HwlComputeHtileAddrFromCoord( - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] depth/stencil addr/bpp/tile input - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] htile address - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_NOTSUPPORTED; - - if ((m_settings.isVolcanicIslands == TRUE) && - (pIn->flags.tcCompatible == TRUE)) - { - UINT_32 numOfPipes = HwlGetPipes(pIn->pTileInfo); - UINT_32 numOfBanks = pIn->pTileInfo->banks; - UINT_64 zStencilAddr = pIn->zStencilAddr; - UINT_32 elemBits = pIn->bpp; - UINT_32 blockByte = 64 * elemBits / 8; - UINT_64 metaNibbleAddress = HwlComputeMetadataNibbleAddress(zStencilAddr, - 0, - 0, - 32, // htile 32 bits - elemBits, - blockByte, - m_pipeInterleaveBytes, - numOfPipes, - numOfBanks, - 1); - pOut->addr = (metaNibbleAddress >> 1); - pOut->bitPosition = 0; - returnCode = ADDR_OK; - } - - return returnCode; -} - -/** -**************************************************************************************************** -* CiLib::HwlConvertChipFamily -* -* @brief -* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision -* @return -* ChipFamily -**************************************************************************************************** -*/ -ChipFamily CiLib::HwlConvertChipFamily( - UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h - UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h -{ - ChipFamily family = ADDR_CHIP_FAMILY_CI; - - switch (uChipFamily) - { - case FAMILY_CI: - m_settings.isSeaIsland = 1; - m_settings.isBonaire = ASICREV_IS_BONAIRE_M(uChipRevision); - m_settings.isHawaii = ASICREV_IS_HAWAII_P(uChipRevision); - break; - case FAMILY_KV: - m_settings.isKaveri = 1; - m_settings.isSpectre = ASICREV_IS_SPECTRE(uChipRevision); - m_settings.isSpooky = ASICREV_IS_SPOOKY(uChipRevision); - m_settings.isKalindi = ASICREV_IS_KALINDI(uChipRevision); - break; - case FAMILY_VI: - m_settings.isVolcanicIslands = 1; - m_settings.isIceland = ASICREV_IS_ICELAND_M(uChipRevision); - m_settings.isTonga = ASICREV_IS_TONGA_P(uChipRevision); - m_settings.isFiji = ASICREV_IS_FIJI_P(uChipRevision); - m_settings.isPolaris10 = ASICREV_IS_POLARIS10_P(uChipRevision); - m_settings.isPolaris11 = ASICREV_IS_POLARIS11_M(uChipRevision); - m_settings.isPolaris12 = ASICREV_IS_POLARIS12_V(uChipRevision); - m_settings.isVegaM = ASICREV_IS_VEGAM_P(uChipRevision); - family = ADDR_CHIP_FAMILY_VI; - break; - case FAMILY_CZ: - m_settings.isCarrizo = 1; - m_settings.isVolcanicIslands = 1; - family = ADDR_CHIP_FAMILY_VI; - break; - default: - ADDR_ASSERT(!"This should be a unexpected Fusion"); - break; - } - - return family; -} - -/** -**************************************************************************************************** -* CiLib::HwlInitGlobalParams -* -* @brief -* Initializes global parameters -* -* @return -* TRUE if all settings are valid -* -**************************************************************************************************** -*/ -BOOL_32 CiLib::HwlInitGlobalParams( - const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input -{ - BOOL_32 valid = TRUE; - - const ADDR_REGISTER_VALUE* pRegValue = &pCreateIn->regValue; - - valid = DecodeGbRegs(pRegValue); - - // The following assignments for m_pipes is only for fail-safe, InitTileSettingTable should - // read the correct pipes from tile mode table - if (m_settings.isHawaii) - { - m_pipes = 16; - } - else if (m_settings.isBonaire || m_settings.isSpectre) - { - m_pipes = 4; - } - else // Treat other KV asics to be 2-pipe - { - m_pipes = 2; - } - - // @todo: VI - // Move this to VI code path once created - if (m_settings.isTonga || m_settings.isPolaris10) - { - m_pipes = 8; - } - else if (m_settings.isIceland) - { - m_pipes = 2; - } - else if (m_settings.isFiji) - { - m_pipes = 16; - } - else if (m_settings.isPolaris11 || m_settings.isPolaris12) - { - m_pipes = 4; - } - else if (m_settings.isVegaM) - { - m_pipes = 16; - } - - if (valid) - { - valid = InitTileSettingTable(pRegValue->pTileConfig, pRegValue->noOfEntries); - } - if (valid) - { - valid = InitMacroTileCfgTable(pRegValue->pMacroTileConfig, pRegValue->noOfMacroEntries); - } - - if (valid) - { - InitEquationTable(); - } - - return valid; -} - -/** -**************************************************************************************************** -* CiLib::HwlPostCheckTileIndex -* -* @brief -* Map a tile setting to index if curIndex is invalid, otherwise check if curIndex matches -* tile mode/type/info and change the index if needed -* @return -* Tile index. -**************************************************************************************************** -*/ -INT_32 CiLib::HwlPostCheckTileIndex( - const ADDR_TILEINFO* pInfo, ///< [in] Tile Info - AddrTileMode mode, ///< [in] Tile mode - AddrTileType type, ///< [in] Tile type - INT curIndex ///< [in] Current index assigned in HwlSetupTileInfo - ) const -{ - INT_32 index = curIndex; - - if (mode == ADDR_TM_LINEAR_GENERAL) - { - index = TileIndexLinearGeneral; - } - else - { - BOOL_32 macroTiled = IsMacroTiled(mode); - - // We need to find a new index if either of them is true - // 1. curIndex is invalid - // 2. tile mode is changed - // 3. tile info does not match for macro tiled - if ((index == TileIndexInvalid) || - (mode != m_tileTable[index].mode) || - (macroTiled && pInfo->pipeConfig != m_tileTable[index].info.pipeConfig)) - { - for (index = 0; index < static_cast(m_noOfEntries); index++) - { - if (macroTiled) - { - // macro tile modes need all to match - if ((pInfo->pipeConfig == m_tileTable[index].info.pipeConfig) && - (mode == m_tileTable[index].mode) && - (type == m_tileTable[index].type)) - { - // tileSplitBytes stored in m_tileTable is only valid for depth entries - if (type == ADDR_DEPTH_SAMPLE_ORDER) - { - if (Min(m_tileTable[index].info.tileSplitBytes, - m_rowSize) == pInfo->tileSplitBytes) - { - break; - } - } - else // other entries are determined by other 3 fields - { - break; - } - } - } - else if (mode == ADDR_TM_LINEAR_ALIGNED) - { - // linear mode only needs tile mode to match - if (mode == m_tileTable[index].mode) - { - break; - } - } - else - { - // micro tile modes only need tile mode and tile type to match - if (mode == m_tileTable[index].mode && - type == m_tileTable[index].type) - { - break; - } - } - } - } - } - - ADDR_ASSERT(index < static_cast(m_noOfEntries)); - - if (index >= static_cast(m_noOfEntries)) - { - index = TileIndexInvalid; - } - - return index; -} - -/** -**************************************************************************************************** -* CiLib::HwlSetupTileCfg -* -* @brief -* Map tile index to tile setting. -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE CiLib::HwlSetupTileCfg( - UINT_32 bpp, ///< Bits per pixel - INT_32 index, ///< Tile index - INT_32 macroModeIndex, ///< Index in macro tile mode table(CI) - ADDR_TILEINFO* pInfo, ///< [out] Tile Info - AddrTileMode* pMode, ///< [out] Tile mode - AddrTileType* pType ///< [out] Tile type - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - // Global flag to control usage of tileIndex - if (UseTileIndex(index)) - { - if (index == TileIndexLinearGeneral) - { - pInfo->banks = 2; - pInfo->bankWidth = 1; - pInfo->bankHeight = 1; - pInfo->macroAspectRatio = 1; - pInfo->tileSplitBytes = 64; - pInfo->pipeConfig = ADDR_PIPECFG_P2; - } - else if (static_cast(index) >= m_noOfEntries) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - const TileConfig* pCfgTable = GetTileSetting(index); - - if (pInfo != NULL) - { - if (IsMacroTiled(pCfgTable->mode)) - { - ADDR_ASSERT((macroModeIndex != TileIndexInvalid) && - (macroModeIndex != TileIndexNoMacroIndex)); - - UINT_32 tileSplit; - - *pInfo = m_macroTileTable[macroModeIndex]; - - if (pCfgTable->type == ADDR_DEPTH_SAMPLE_ORDER) - { - tileSplit = pCfgTable->info.tileSplitBytes; - } - else - { - if (bpp > 0) - { - UINT_32 thickness = Thickness(pCfgTable->mode); - UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness); - // Non-depth entries store a split factor - UINT_32 sampleSplit = m_tileTable[index].info.tileSplitBytes; - tileSplit = Max(256u, sampleSplit * tileBytes1x); - } - else - { - // Return tileBytes instead if not enough info - tileSplit = pInfo->tileSplitBytes; - } - } - - // Clamp to row_size - pInfo->tileSplitBytes = Min(m_rowSize, tileSplit); - - pInfo->pipeConfig = pCfgTable->info.pipeConfig; - } - else // 1D and linear modes, we return default value stored in table - { - *pInfo = pCfgTable->info; - } - } - - if (pMode != NULL) - { - *pMode = pCfgTable->mode; - } - - if (pType != NULL) - { - *pType = pCfgTable->type; - } - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeSurfaceInfo -* -* @brief -* Entry of CI's ComputeSurfaceInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE CiLib::HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - // If tileIndex is invalid, force macroModeIndex to be invalid, too - if (pIn->tileIndex == TileIndexInvalid) - { - pOut->macroModeIndex = TileIndexInvalid; - } - - ADDR_E_RETURNCODE retCode = SiLib::HwlComputeSurfaceInfo(pIn, pOut); - - if ((pIn->mipLevel > 0) && - (pOut->tcCompatible == TRUE) && - (pOut->tileMode != pIn->tileMode) && - (m_settings.isVolcanicIslands == TRUE)) - { - pOut->tcCompatible = CheckTcCompatibility(pOut->pTileInfo, pIn->bpp, pOut->tileMode, pOut->tileType, pOut); - } - - if (pOut->macroModeIndex == TileIndexNoMacroIndex) - { - pOut->macroModeIndex = TileIndexInvalid; - } - - if ((pIn->flags.matchStencilTileCfg == TRUE) && - (pIn->flags.depth == TRUE)) - { - pOut->stencilTileIdx = TileIndexInvalid; - - if ((MinDepth2DThinIndex <= pOut->tileIndex) && - (MaxDepth2DThinIndex >= pOut->tileIndex)) - { - BOOL_32 depthStencil2DTileConfigMatch = DepthStencilTileCfgMatch(pIn, pOut); - - if ((depthStencil2DTileConfigMatch == FALSE) && - (pOut->tcCompatible == TRUE)) - { - pOut->macroModeIndex = TileIndexInvalid; - - ADDR_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; - localIn.tileIndex = TileIndexInvalid; - localIn.pTileInfo = NULL; - localIn.flags.tcCompatible = FALSE; - - SiLib::HwlComputeSurfaceInfo(&localIn, pOut); - - ADDR_ASSERT((MinDepth2DThinIndex <= pOut->tileIndex) && (MaxDepth2DThinIndex >= pOut->tileIndex)); - - depthStencil2DTileConfigMatch = DepthStencilTileCfgMatch(pIn, pOut); - } - - if ((depthStencil2DTileConfigMatch == FALSE) && - (pIn->numSamples <= 1)) - { - pOut->macroModeIndex = TileIndexInvalid; - - ADDR_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; - localIn.tileMode = ADDR_TM_1D_TILED_THIN1; - localIn.tileIndex = TileIndexInvalid; - localIn.pTileInfo = NULL; - - retCode = SiLib::HwlComputeSurfaceInfo(&localIn, pOut); - } - } - - if (pOut->tileIndex == Depth1DThinIndex) - { - pOut->stencilTileIdx = Depth1DThinIndex; - } - } - - return retCode; -} - -/** -**************************************************************************************************** -* CiLib::HwlFmaskSurfaceInfo -* @brief -* Entry of r800's ComputeFmaskInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE CiLib::HwlComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - ADDR_TILEINFO tileInfo = {0}; - ADDR_COMPUTE_FMASK_INFO_INPUT fmaskIn; - fmaskIn = *pIn; - - AddrTileMode tileMode = pIn->tileMode; - - // Use internal tile info if pOut does not have a valid pTileInfo - if (pOut->pTileInfo == NULL) - { - pOut->pTileInfo = &tileInfo; - } - - ADDR_ASSERT(tileMode == ADDR_TM_2D_TILED_THIN1 || - tileMode == ADDR_TM_3D_TILED_THIN1 || - tileMode == ADDR_TM_PRT_TILED_THIN1 || - tileMode == ADDR_TM_PRT_2D_TILED_THIN1 || - tileMode == ADDR_TM_PRT_3D_TILED_THIN1); - - ADDR_ASSERT(m_tileTable[14].mode == ADDR_TM_2D_TILED_THIN1); - ADDR_ASSERT(m_tileTable[15].mode == ADDR_TM_3D_TILED_THIN1); - - // The only valid tile modes for fmask are 2D_THIN1 and 3D_THIN1 plus non-displayable - INT_32 tileIndex = tileMode == ADDR_TM_2D_TILED_THIN1 ? 14 : 15; - ADDR_SURFACE_FLAGS flags = {{0}}; - flags.fmask = 1; - - INT_32 macroModeIndex = TileIndexInvalid; - - UINT_32 numSamples = pIn->numSamples; - UINT_32 numFrags = pIn->numFrags == 0 ? numSamples : pIn->numFrags; - - UINT_32 bpp = QLog2(numFrags); - - // EQAA needs one more bit - if (numSamples > numFrags) - { - bpp++; - } - - if (bpp == 3) - { - bpp = 4; - } - - bpp = Max(8u, bpp * numSamples); - - macroModeIndex = HwlComputeMacroModeIndex(tileIndex, flags, bpp, numSamples, pOut->pTileInfo); - - fmaskIn.tileIndex = tileIndex; - fmaskIn.pTileInfo = pOut->pTileInfo; - pOut->macroModeIndex = macroModeIndex; - pOut->tileIndex = tileIndex; - - retCode = DispatchComputeFmaskInfo(&fmaskIn, pOut); - - if (retCode == ADDR_OK) - { - pOut->tileIndex = - HwlPostCheckTileIndex(pOut->pTileInfo, pIn->tileMode, ADDR_NON_DISPLAYABLE, - pOut->tileIndex); - } - - // Resets pTileInfo to NULL if the internal tile info is used - if (pOut->pTileInfo == &tileInfo) - { - pOut->pTileInfo = NULL; - } - - return retCode; -} - -/** -**************************************************************************************************** -* CiLib::HwlFmaskPreThunkSurfInfo -* -* @brief -* Some preparation before thunking a ComputeSurfaceInfo call for Fmask -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -VOID CiLib::HwlFmaskPreThunkSurfInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, ///< [in] Input of fmask info - const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, ///< [in] Output of fmask info - ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, ///< [out] Input of thunked surface info - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut ///< [out] Output of thunked surface info - ) const -{ - pSurfIn->tileIndex = pFmaskIn->tileIndex; - pSurfOut->macroModeIndex = pFmaskOut->macroModeIndex; -} - -/** -**************************************************************************************************** -* CiLib::HwlFmaskPostThunkSurfInfo -* -* @brief -* Copy hwl extra field after calling thunked ComputeSurfaceInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -VOID CiLib::HwlFmaskPostThunkSurfInfo( - const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, ///< [in] Output of surface info - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut ///< [out] Output of fmask info - ) const -{ - pFmaskOut->tileIndex = pSurfOut->tileIndex; - pFmaskOut->macroModeIndex = pSurfOut->macroModeIndex; -} - -/** -**************************************************************************************************** -* CiLib::HwlDegradeThickTileMode -* -* @brief -* Degrades valid tile mode for thick modes if needed -* -* @return -* Suitable tile mode -**************************************************************************************************** -*/ -AddrTileMode CiLib::HwlDegradeThickTileMode( - AddrTileMode baseTileMode, ///< [in] base tile mode - UINT_32 numSlices, ///< [in] current number of slices - UINT_32* pBytesPerTile ///< [in,out] pointer to bytes per slice - ) const -{ - return baseTileMode; -} - -/** -**************************************************************************************************** -* CiLib::HwlOptimizeTileMode -* -* @brief -* Optimize tile mode on CI -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID CiLib::HwlOptimizeTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode = pInOut->tileMode; - - // Override 2D/3D macro tile mode to PRT_* tile mode if - // client driver requests this surface is equation compatible - if (IsMacroTiled(tileMode) == TRUE) - { - if ((pInOut->flags.needEquation == TRUE) && - (pInOut->numSamples <= 1) && - (IsPrtTileMode(tileMode) == FALSE)) - { - if ((pInOut->numSlices > 1) && ((pInOut->maxBaseAlign == 0) || (pInOut->maxBaseAlign >= Block64K))) - { - UINT_32 thickness = Thickness(tileMode); - - if (thickness == 1) - { - tileMode = ADDR_TM_PRT_TILED_THIN1; - } - else - { - static const UINT_32 PrtTileBytes = 0x10000; - // First prt thick tile index in the tile mode table - static const UINT_32 PrtThickTileIndex = 22; - ADDR_TILEINFO tileInfo = {0}; - - HwlComputeMacroModeIndex(PrtThickTileIndex, - pInOut->flags, - pInOut->bpp, - pInOut->numSamples, - &tileInfo); - - UINT_32 macroTileBytes = ((pInOut->bpp) >> 3) * 64 * pInOut->numSamples * - thickness * HwlGetPipes(&tileInfo) * - tileInfo.banks * tileInfo.bankWidth * - tileInfo.bankHeight; - - if (macroTileBytes <= PrtTileBytes) - { - tileMode = ADDR_TM_PRT_TILED_THICK; - } - else - { - tileMode = ADDR_TM_PRT_TILED_THIN1; - } - } - } - } - - if (pInOut->maxBaseAlign != 0) - { - pInOut->flags.dccPipeWorkaround = FALSE; - } - } - - if (tileMode != pInOut->tileMode) - { - pInOut->tileMode = tileMode; - } -} - -/** -**************************************************************************************************** -* CiLib::HwlOverrideTileMode -* -* @brief -* Override THICK to THIN, for specific formats on CI -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID CiLib::HwlOverrideTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode = pInOut->tileMode; - AddrTileType tileType = pInOut->tileType; - - // currently, all CI/VI family do not - // support ADDR_TM_PRT_2D_TILED_THICK,ADDR_TM_PRT_3D_TILED_THICK and - // ADDR_TM_PRT_2D_TILED_THIN1, ADDR_TM_PRT_3D_TILED_THIN1 - switch (tileMode) - { - case ADDR_TM_PRT_2D_TILED_THICK: - case ADDR_TM_PRT_3D_TILED_THICK: - tileMode = ADDR_TM_PRT_TILED_THICK; - break; - case ADDR_TM_PRT_2D_TILED_THIN1: - case ADDR_TM_PRT_3D_TILED_THIN1: - tileMode = ADDR_TM_PRT_TILED_THIN1; - break; - default: - break; - } - - // UBTS#404321, we do not need such overriding, as THICK+THICK entries removed from the tile-mode table - if (!m_settings.isBonaire) - { - UINT_32 thickness = Thickness(tileMode); - - // tile_thickness = (array_mode == XTHICK) ? 8 : ((array_mode == THICK) ? 4 : 1) - if (thickness > 1) - { - switch (pInOut->format) - { - // see //gfxip/gcB/devel/cds/src/verif/tc/models/csim/tcp.cpp - // tcpError("Thick micro tiling is not supported for format... - case ADDR_FMT_X24_8_32_FLOAT: - case ADDR_FMT_32_AS_8: - case ADDR_FMT_32_AS_8_8: - case ADDR_FMT_32_AS_32_32_32_32: - - // packed formats - case ADDR_FMT_GB_GR: - case ADDR_FMT_BG_RG: - case ADDR_FMT_1_REVERSED: - case ADDR_FMT_1: - case ADDR_FMT_BC1: - case ADDR_FMT_BC2: - case ADDR_FMT_BC3: - case ADDR_FMT_BC4: - case ADDR_FMT_BC5: - case ADDR_FMT_BC6: - case ADDR_FMT_BC7: - switch (tileMode) - { - case ADDR_TM_1D_TILED_THICK: - tileMode = ADDR_TM_1D_TILED_THIN1; - break; - - case ADDR_TM_2D_TILED_XTHICK: - case ADDR_TM_2D_TILED_THICK: - tileMode = ADDR_TM_2D_TILED_THIN1; - break; - - case ADDR_TM_3D_TILED_XTHICK: - case ADDR_TM_3D_TILED_THICK: - tileMode = ADDR_TM_3D_TILED_THIN1; - break; - - case ADDR_TM_PRT_TILED_THICK: - tileMode = ADDR_TM_PRT_TILED_THIN1; - break; - - case ADDR_TM_PRT_2D_TILED_THICK: - tileMode = ADDR_TM_PRT_2D_TILED_THIN1; - break; - - case ADDR_TM_PRT_3D_TILED_THICK: - tileMode = ADDR_TM_PRT_3D_TILED_THIN1; - break; - - default: - break; - - } - - // Switch tile type from thick to thin - if (tileMode != pInOut->tileMode) - { - // see tileIndex: 13-18 - tileType = ADDR_NON_DISPLAYABLE; - } - - break; - default: - break; - } - } - } - - if (tileMode != pInOut->tileMode) - { - pInOut->tileMode = tileMode; - pInOut->tileType = tileType; - } -} - -/** -**************************************************************************************************** -* CiLib::HwlSelectTileMode -* -* @brief -* Select tile modes. -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID CiLib::HwlSelectTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode; - AddrTileType tileType; - - if (pInOut->flags.rotateDisplay) - { - tileMode = ADDR_TM_2D_TILED_THIN1; - tileType = ADDR_ROTATED; - } - else if (pInOut->flags.volume) - { - BOOL_32 bThin = (m_settings.isBonaire == TRUE) || - ((m_allowNonDispThickModes == TRUE) && (pInOut->flags.color == TRUE)); - - if (pInOut->numSlices >= 8) - { - tileMode = ADDR_TM_2D_TILED_XTHICK; - tileType = (bThin == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; - } - else if (pInOut->numSlices >= 4) - { - tileMode = ADDR_TM_2D_TILED_THICK; - tileType = (bThin == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; - } - else - { - tileMode = ADDR_TM_2D_TILED_THIN1; - tileType = ADDR_NON_DISPLAYABLE; - } - } - else - { - tileMode = ADDR_TM_2D_TILED_THIN1; - - if (pInOut->flags.depth || pInOut->flags.stencil) - { - tileType = ADDR_DEPTH_SAMPLE_ORDER; - } - else if ((pInOut->bpp <= 32) || - (pInOut->flags.display == TRUE) || - (pInOut->flags.overlay == TRUE)) - { - tileType = ADDR_DISPLAYABLE; - } - else - { - tileType = ADDR_NON_DISPLAYABLE; - } - } - - if (pInOut->flags.prt) - { - if (Thickness(tileMode) > 1) - { - tileMode = ADDR_TM_PRT_TILED_THICK; - tileType = (m_settings.isBonaire == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; - } - else - { - tileMode = ADDR_TM_PRT_TILED_THIN1; - } - } - - pInOut->tileMode = tileMode; - pInOut->tileType = tileType; - - if ((pInOut->flags.dccCompatible == FALSE) && - (pInOut->flags.tcCompatible == FALSE)) - { - pInOut->flags.opt4Space = TRUE; - pInOut->maxBaseAlign = Block64K; - } - - // Optimize tile mode if possible - OptimizeTileMode(pInOut); - - HwlOverrideTileMode(pInOut); -} - -/** -**************************************************************************************************** -* CiLib::HwlSetPrtTileMode -* -* @brief -* Set PRT tile mode. -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID CiLib::HwlSetPrtTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode = pInOut->tileMode; - AddrTileType tileType = pInOut->tileType; - - if (Thickness(tileMode) > 1) - { - tileMode = ADDR_TM_PRT_TILED_THICK; - tileType = (m_settings.isBonaire == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; - } - else - { - tileMode = ADDR_TM_PRT_TILED_THIN1; - tileType = (tileType == ADDR_THICK) ? ADDR_NON_DISPLAYABLE : tileType; - } - - pInOut->tileMode = tileMode; - pInOut->tileType = tileType; -} - -/** -**************************************************************************************************** -* CiLib::HwlSetupTileInfo -* -* @brief -* Setup default value of tile info for SI -**************************************************************************************************** -*/ -VOID CiLib::HwlSetupTileInfo( - AddrTileMode tileMode, ///< [in] Tile mode - ADDR_SURFACE_FLAGS flags, ///< [in] Surface type flags - UINT_32 bpp, ///< [in] Bits per pixel - UINT_32 pitch, ///< [in] Pitch in pixels - UINT_32 height, ///< [in] Height in pixels - UINT_32 numSamples, ///< [in] Number of samples - ADDR_TILEINFO* pTileInfoIn, ///< [in] Tile info input: NULL for default - ADDR_TILEINFO* pTileInfoOut, ///< [out] Tile info output - AddrTileType inTileType, ///< [in] Tile type - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output - ) const -{ - UINT_32 thickness = Thickness(tileMode); - ADDR_TILEINFO* pTileInfo = pTileInfoOut; - INT index = TileIndexInvalid; - INT macroModeIndex = TileIndexInvalid; - - // Fail-safe code - if (IsLinear(tileMode) == FALSE) - { - // Thick tile modes must use thick micro tile mode but Bonaire does not support due to - // old derived netlists (UBTS 404321) - if (thickness > 1) - { - if (m_settings.isBonaire) - { - inTileType = ADDR_NON_DISPLAYABLE; - } - else if ((m_allowNonDispThickModes == FALSE) || - (inTileType != ADDR_NON_DISPLAYABLE) || - // There is no PRT_THICK + THIN entry in tile mode table except Bonaire - (IsPrtTileMode(tileMode) == TRUE)) - { - inTileType = ADDR_THICK; - } - } - // 128 bpp tiling must be non-displayable. - // Fmask reuse color buffer's entry but bank-height field can be from another entry - // To simplify the logic, fmask entry should be picked from non-displayable ones - else if (bpp == 128 || flags.fmask) - { - inTileType = ADDR_NON_DISPLAYABLE; - } - // These two modes only have non-disp entries though they can be other micro tile modes - else if (tileMode == ADDR_TM_3D_TILED_THIN1 || tileMode == ADDR_TM_PRT_3D_TILED_THIN1) - { - inTileType = ADDR_NON_DISPLAYABLE; - } - - if (flags.depth || flags.stencil) - { - inTileType = ADDR_DEPTH_SAMPLE_ORDER; - } - } - - // tcCompatible flag is only meaningful for gfx8. - if (m_settings.isVolcanicIslands == FALSE) - { - flags.tcCompatible = FALSE; - } - - if (IsTileInfoAllZero(pTileInfo)) - { - // See table entries 0-4 - if (flags.depth || flags.stencil) - { - // tileSize = thickness * bpp * numSamples * 8 * 8 / 8 - UINT_32 tileSize = thickness * bpp * numSamples * 8; - - // Turn off tc compatible if row_size is smaller than tile size (tile split occurs). - if (m_rowSize < tileSize) - { - flags.tcCompatible = FALSE; - } - - if (flags.nonSplit | flags.tcCompatible | flags.needEquation) - { - // Texture readable depth surface should not be split - switch (tileSize) - { - case 64: - index = 0; - break; - case 128: - index = 1; - break; - case 256: - index = 2; - break; - case 512: - index = 3; - break; - default: - index = 4; - break; - } - } - else - { - // Depth and stencil need to use the same index, thus the pre-defined tile_split - // can meet the requirement to choose the same macro mode index - // uncompressed depth/stencil are not supported for now - switch (numSamples) - { - case 1: - index = 0; - break; - case 2: - case 4: - index = 1; - break; - case 8: - index = 2; - break; - default: - break; - } - } - } - - // See table entries 5-6 - if (inTileType == ADDR_DEPTH_SAMPLE_ORDER) - { - switch (tileMode) - { - case ADDR_TM_1D_TILED_THIN1: - index = 5; - break; - case ADDR_TM_PRT_TILED_THIN1: - index = 6; - break; - default: - break; - } - } - - // See table entries 8-12 - if (inTileType == ADDR_DISPLAYABLE) - { - switch (tileMode) - { - case ADDR_TM_1D_TILED_THIN1: - index = 9; - break; - case ADDR_TM_2D_TILED_THIN1: - index = 10; - break; - case ADDR_TM_PRT_TILED_THIN1: - index = 11; - break; - default: - break; - } - } - - // See table entries 13-18 - if (inTileType == ADDR_NON_DISPLAYABLE) - { - switch (tileMode) - { - case ADDR_TM_1D_TILED_THIN1: - index = 13; - break; - case ADDR_TM_2D_TILED_THIN1: - index = 14; - break; - case ADDR_TM_3D_TILED_THIN1: - index = 15; - break; - case ADDR_TM_PRT_TILED_THIN1: - index = 16; - break; - default: - break; - } - } - - // See table entries 19-26 - if (thickness > 1) - { - switch (tileMode) - { - case ADDR_TM_1D_TILED_THICK: - // special check for bonaire, for the compatablity between old KMD and new UMD - index = ((inTileType == ADDR_THICK) || m_settings.isBonaire) ? 19 : 18; - break; - case ADDR_TM_2D_TILED_THICK: - // special check for bonaire, for the compatablity between old KMD and new UMD - index = ((inTileType == ADDR_THICK) || m_settings.isBonaire) ? 20 : 24; - break; - case ADDR_TM_3D_TILED_THICK: - index = 21; - break; - case ADDR_TM_PRT_TILED_THICK: - index = 22; - break; - case ADDR_TM_2D_TILED_XTHICK: - index = 25; - break; - case ADDR_TM_3D_TILED_XTHICK: - index = 26; - break; - default: - break; - } - } - - // See table entries 27-30 - if (inTileType == ADDR_ROTATED) - { - switch (tileMode) - { - case ADDR_TM_1D_TILED_THIN1: - index = 27; - break; - case ADDR_TM_2D_TILED_THIN1: - index = 28; - break; - case ADDR_TM_PRT_TILED_THIN1: - index = 29; - break; - case ADDR_TM_PRT_2D_TILED_THIN1: - index = 30; - break; - default: - break; - } - } - - if (m_pipes >= 8) - { - ADDR_ASSERT((index + 1) < static_cast(m_noOfEntries)); - // Only do this when tile mode table is updated. - if (((tileMode == ADDR_TM_PRT_TILED_THIN1) || (tileMode == ADDR_TM_PRT_TILED_THICK)) && - (m_tileTable[index + 1].mode == tileMode)) - { - static const UINT_32 PrtTileBytes = 0x10000; - ADDR_TILEINFO tileInfo = {0}; - - HwlComputeMacroModeIndex(index, flags, bpp, numSamples, &tileInfo); - - UINT_32 macroTileBytes = (bpp >> 3) * 64 * numSamples * thickness * - HwlGetPipes(&tileInfo) * tileInfo.banks * - tileInfo.bankWidth * tileInfo.bankHeight; - - if (macroTileBytes != PrtTileBytes) - { - // Switching to next tile mode entry to make sure macro tile size is 64KB - index += 1; - - tileInfo.pipeConfig = m_tileTable[index].info.pipeConfig; - - macroTileBytes = (bpp >> 3) * 64 * numSamples * thickness * - HwlGetPipes(&tileInfo) * tileInfo.banks * - tileInfo.bankWidth * tileInfo.bankHeight; - - ADDR_ASSERT(macroTileBytes == PrtTileBytes); - - flags.tcCompatible = FALSE; - pOut->dccUnsupport = TRUE; - } - } - } - } - else - { - // A pre-filled tile info is ready - index = pOut->tileIndex; - macroModeIndex = pOut->macroModeIndex; - - // pass tile type back for post tile index compute - pOut->tileType = inTileType; - - if (flags.depth || flags.stencil) - { - // tileSize = thickness * bpp * numSamples * 8 * 8 / 8 - UINT_32 tileSize = thickness * bpp * numSamples * 8; - - // Turn off tc compatible if row_size is smaller than tile size (tile split occurs). - if (m_rowSize < tileSize) - { - flags.tcCompatible = FALSE; - } - } - - UINT_32 numPipes = GetPipePerSurf(pTileInfo->pipeConfig); - - if (m_pipes != numPipes) - { - pOut->dccUnsupport = TRUE; - } - } - - // We only need to set up tile info if there is a valid index but macroModeIndex is invalid - if ((index != TileIndexInvalid) && (macroModeIndex == TileIndexInvalid)) - { - macroModeIndex = HwlComputeMacroModeIndex(index, flags, bpp, numSamples, pTileInfo); - - // Copy to pOut->tileType/tileIndex/macroModeIndex - pOut->tileIndex = index; - pOut->tileType = m_tileTable[index].type; // Or inTileType, the samea - pOut->macroModeIndex = macroModeIndex; - } - else if (tileMode == ADDR_TM_LINEAR_GENERAL) - { - pOut->tileIndex = TileIndexLinearGeneral; - - // Copy linear-aligned entry?? - *pTileInfo = m_tileTable[8].info; - } - else if (tileMode == ADDR_TM_LINEAR_ALIGNED) - { - pOut->tileIndex = 8; - *pTileInfo = m_tileTable[8].info; - } - - if (flags.tcCompatible) - { - flags.tcCompatible = CheckTcCompatibility(pTileInfo, bpp, tileMode, inTileType, pOut); - } - - pOut->tcCompatible = flags.tcCompatible; -} - -/** -**************************************************************************************************** -* CiLib::ReadGbTileMode -* -* @brief -* Convert GB_TILE_MODE HW value to ADDR_TILE_CONFIG. -**************************************************************************************************** -*/ -VOID CiLib::ReadGbTileMode( - UINT_32 regValue, ///< [in] GB_TILE_MODE register - TileConfig* pCfg ///< [out] output structure - ) const -{ - GB_TILE_MODE gbTileMode; - gbTileMode.val = regValue; - - pCfg->type = static_cast(gbTileMode.f.micro_tile_mode_new); - pCfg->info.pipeConfig = static_cast(gbTileMode.f.pipe_config + 1); - - if (pCfg->type == ADDR_DEPTH_SAMPLE_ORDER) - { - pCfg->info.tileSplitBytes = 64 << gbTileMode.f.tile_split; - } - else - { - pCfg->info.tileSplitBytes = 1 << gbTileMode.f.sample_split; - } - - UINT_32 regArrayMode = gbTileMode.f.array_mode; - - pCfg->mode = static_cast(regArrayMode); - - switch (regArrayMode) - { - case 5: - pCfg->mode = ADDR_TM_PRT_TILED_THIN1; - break; - case 6: - pCfg->mode = ADDR_TM_PRT_2D_TILED_THIN1; - break; - case 8: - pCfg->mode = ADDR_TM_2D_TILED_XTHICK; - break; - case 9: - pCfg->mode = ADDR_TM_PRT_TILED_THICK; - break; - case 0xa: - pCfg->mode = ADDR_TM_PRT_2D_TILED_THICK; - break; - case 0xb: - pCfg->mode = ADDR_TM_PRT_3D_TILED_THIN1; - break; - case 0xe: - pCfg->mode = ADDR_TM_3D_TILED_XTHICK; - break; - case 0xf: - pCfg->mode = ADDR_TM_PRT_3D_TILED_THICK; - break; - default: - break; - } - - // Fail-safe code for these always convert tile info, as the non-macro modes - // return the entry of tile mode table directly without looking up macro mode table - if (!IsMacroTiled(pCfg->mode)) - { - pCfg->info.banks = 2; - pCfg->info.bankWidth = 1; - pCfg->info.bankHeight = 1; - pCfg->info.macroAspectRatio = 1; - pCfg->info.tileSplitBytes = 64; - } -} - -/** -**************************************************************************************************** -* CiLib::InitTileSettingTable -* -* @brief -* Initialize the ADDR_TILE_CONFIG table. -* @return -* TRUE if tile table is correctly initialized -**************************************************************************************************** -*/ -BOOL_32 CiLib::InitTileSettingTable( - const UINT_32* pCfg, ///< [in] Pointer to table of tile configs - UINT_32 noOfEntries ///< [in] Numbe of entries in the table above - ) -{ - BOOL_32 initOk = TRUE; - - ADDR_ASSERT(noOfEntries <= TileTableSize); - - memset(m_tileTable, 0, sizeof(m_tileTable)); - - if (noOfEntries != 0) - { - m_noOfEntries = noOfEntries; - } - else - { - m_noOfEntries = TileTableSize; - } - - if (pCfg) // From Client - { - for (UINT_32 i = 0; i < m_noOfEntries; i++) - { - ReadGbTileMode(*(pCfg + i), &m_tileTable[i]); - } - } - else - { - ADDR_ASSERT_ALWAYS(); - initOk = FALSE; - } - - if (initOk) - { - ADDR_ASSERT(m_tileTable[TILEINDEX_LINEAR_ALIGNED].mode == ADDR_TM_LINEAR_ALIGNED); - - if (m_settings.isBonaire == FALSE) - { - // Check if entry 18 is "thick+thin" combination - if ((m_tileTable[18].mode == ADDR_TM_1D_TILED_THICK) && - (m_tileTable[18].type == ADDR_NON_DISPLAYABLE)) - { - m_allowNonDispThickModes = TRUE; - ADDR_ASSERT(m_tileTable[24].mode == ADDR_TM_2D_TILED_THICK); - } - } - else - { - m_allowNonDispThickModes = TRUE; - } - - // Assume the first entry is always programmed with full pipes - m_pipes = HwlGetPipes(&m_tileTable[0].info); - } - - return initOk; -} - -/** -**************************************************************************************************** -* CiLib::ReadGbMacroTileCfg -* -* @brief -* Convert GB_MACRO_TILE_CFG HW value to ADDR_TILE_CONFIG. -**************************************************************************************************** -*/ -VOID CiLib::ReadGbMacroTileCfg( - UINT_32 regValue, ///< [in] GB_MACRO_TILE_MODE register - ADDR_TILEINFO* pCfg ///< [out] output structure - ) const -{ - GB_MACROTILE_MODE gbTileMode; - gbTileMode.val = regValue; - - pCfg->bankHeight = 1 << gbTileMode.f.bank_height; - pCfg->bankWidth = 1 << gbTileMode.f.bank_width; - pCfg->banks = 1 << (gbTileMode.f.num_banks + 1); - pCfg->macroAspectRatio = 1 << gbTileMode.f.macro_tile_aspect; -} - -/** -**************************************************************************************************** -* CiLib::InitMacroTileCfgTable -* -* @brief -* Initialize the ADDR_MACRO_TILE_CONFIG table. -* @return -* TRUE if macro tile table is correctly initialized -**************************************************************************************************** -*/ -BOOL_32 CiLib::InitMacroTileCfgTable( - const UINT_32* pCfg, ///< [in] Pointer to table of tile configs - UINT_32 noOfMacroEntries ///< [in] Numbe of entries in the table above - ) -{ - BOOL_32 initOk = TRUE; - - ADDR_ASSERT(noOfMacroEntries <= MacroTileTableSize); - - memset(m_macroTileTable, 0, sizeof(m_macroTileTable)); - - if (noOfMacroEntries != 0) - { - m_noOfMacroEntries = noOfMacroEntries; - } - else - { - m_noOfMacroEntries = MacroTileTableSize; - } - - if (pCfg) // From Client - { - for (UINT_32 i = 0; i < m_noOfMacroEntries; i++) - { - ReadGbMacroTileCfg(*(pCfg + i), &m_macroTileTable[i]); - - m_macroTileTable[i].tileSplitBytes = 64 << (i % 8); - } - } - else - { - ADDR_ASSERT_ALWAYS(); - initOk = FALSE; - } - return initOk; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeMacroModeIndex -* -* @brief -* Computes macro tile mode index -* @return -* TRUE if macro tile table is correctly initialized -**************************************************************************************************** -*/ -INT_32 CiLib::HwlComputeMacroModeIndex( - INT_32 tileIndex, ///< [in] Tile mode index - ADDR_SURFACE_FLAGS flags, ///< [in] Surface flags - UINT_32 bpp, ///< [in] Bit per pixel - UINT_32 numSamples, ///< [in] Number of samples - ADDR_TILEINFO* pTileInfo, ///< [out] Pointer to ADDR_TILEINFO - AddrTileMode* pTileMode, ///< [out] Pointer to AddrTileMode - AddrTileType* pTileType ///< [out] Pointer to AddrTileType - ) const -{ - INT_32 macroModeIndex = TileIndexInvalid; - - AddrTileMode tileMode = m_tileTable[tileIndex].mode; - AddrTileType tileType = m_tileTable[tileIndex].type; - UINT_32 thickness = Thickness(tileMode); - - if (!IsMacroTiled(tileMode)) - { - *pTileInfo = m_tileTable[tileIndex].info; - macroModeIndex = TileIndexNoMacroIndex; - } - else - { - UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness); - UINT_32 tileSplit; - - if (m_tileTable[tileIndex].type == ADDR_DEPTH_SAMPLE_ORDER) - { - // Depth entries store real tileSplitBytes - tileSplit = m_tileTable[tileIndex].info.tileSplitBytes; - } - else - { - // Non-depth entries store a split factor - UINT_32 sampleSplit = m_tileTable[tileIndex].info.tileSplitBytes; - UINT_32 colorTileSplit = Max(256u, sampleSplit * tileBytes1x); - - tileSplit = colorTileSplit; - } - - UINT_32 tileSplitC = Min(m_rowSize, tileSplit); - UINT_32 tileBytes; - - if (flags.fmask) - { - tileBytes = Min(tileSplitC, tileBytes1x); - } - else - { - tileBytes = Min(tileSplitC, numSamples * tileBytes1x); - } - - if (tileBytes < 64) - { - tileBytes = 64; - } - - macroModeIndex = Log2(tileBytes / 64); - - if (flags.prt || IsPrtTileMode(tileMode)) - { - macroModeIndex += PrtMacroModeOffset; - *pTileInfo = m_macroTileTable[macroModeIndex]; - } - else - { - *pTileInfo = m_macroTileTable[macroModeIndex]; - } - - pTileInfo->pipeConfig = m_tileTable[tileIndex].info.pipeConfig; - - pTileInfo->tileSplitBytes = tileSplitC; - } - - if (NULL != pTileMode) - { - *pTileMode = tileMode; - } - - if (NULL != pTileType) - { - *pTileType = tileType; - } - - return macroModeIndex; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeTileDataWidthAndHeightLinear -* -* @brief -* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout -* -* @note -* MacroWidth and macroHeight are measured in pixels -**************************************************************************************************** -*/ -VOID CiLib::HwlComputeTileDataWidthAndHeightLinear( - UINT_32* pMacroWidth, ///< [out] macro tile width - UINT_32* pMacroHeight, ///< [out] macro tile height - UINT_32 bpp, ///< [in] bits per pixel - ADDR_TILEINFO* pTileInfo ///< [in] tile info - ) const -{ - ADDR_ASSERT(pTileInfo != NULL); - - UINT_32 numTiles; - - switch (pTileInfo->pipeConfig) - { - case ADDR_PIPECFG_P16_32x32_8x16: - case ADDR_PIPECFG_P16_32x32_16x16: - case ADDR_PIPECFG_P8_32x64_32x32: - case ADDR_PIPECFG_P8_32x32_16x32: - case ADDR_PIPECFG_P8_32x32_16x16: - case ADDR_PIPECFG_P8_32x32_8x16: - case ADDR_PIPECFG_P4_32x32: - numTiles = 8; - break; - default: - numTiles = 4; - break; - } - - *pMacroWidth = numTiles * MicroTileWidth; - *pMacroHeight = numTiles * MicroTileHeight; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeMetadataNibbleAddress -* -* @brief -* calculate meta data address based on input information -* -* ¶meter -* uncompressedDataByteAddress - address of a pixel in color surface -* dataBaseByteAddress - base address of color surface -* metadataBaseByteAddress - base address of meta ram -* metadataBitSize - meta key size, 8 for DCC, 4 for cmask -* elementBitSize - element size of color surface -* blockByteSize - compression block size, 256 for DCC -* pipeInterleaveBytes - pipe interleave size -* numOfPipes - number of pipes -* numOfBanks - number of banks -* numOfSamplesPerSplit - number of samples per tile split -* @return -* meta data nibble address (nibble address is used to support DCC compatible cmask) -* -**************************************************************************************************** -*/ -UINT_64 CiLib::HwlComputeMetadataNibbleAddress( - UINT_64 uncompressedDataByteAddress, - UINT_64 dataBaseByteAddress, - UINT_64 metadataBaseByteAddress, - UINT_32 metadataBitSize, - UINT_32 elementBitSize, - UINT_32 blockByteSize, - UINT_32 pipeInterleaveBytes, - UINT_32 numOfPipes, - UINT_32 numOfBanks, - UINT_32 numOfSamplesPerSplit) const -{ - ///-------------------------------------------------------------------------------------------- - /// Get pipe interleave, bank and pipe bits - ///-------------------------------------------------------------------------------------------- - UINT_32 pipeInterleaveBits = Log2(pipeInterleaveBytes); - UINT_32 pipeBits = Log2(numOfPipes); - UINT_32 bankBits = Log2(numOfBanks); - - ///-------------------------------------------------------------------------------------------- - /// Clear pipe and bank swizzles - ///-------------------------------------------------------------------------------------------- - UINT_32 dataMacrotileBits = pipeInterleaveBits + pipeBits + bankBits; - UINT_32 metadataMacrotileBits = pipeInterleaveBits + pipeBits + bankBits; - - UINT_64 dataMacrotileClearMask = ~((1L << dataMacrotileBits) - 1); - UINT_64 metadataMacrotileClearMask = ~((1L << metadataMacrotileBits) - 1); - - UINT_64 dataBaseByteAddressNoSwizzle = dataBaseByteAddress & dataMacrotileClearMask; - UINT_64 metadataBaseByteAddressNoSwizzle = metadataBaseByteAddress & metadataMacrotileClearMask; - - ///-------------------------------------------------------------------------------------------- - /// Modify metadata base before adding in so that when final address is divided by data ratio, - /// the base address returns to where it should be - ///-------------------------------------------------------------------------------------------- - ADDR_ASSERT((0 != metadataBitSize)); - UINT_64 metadataBaseShifted = metadataBaseByteAddressNoSwizzle * blockByteSize * 8 / - metadataBitSize; - UINT_64 offset = uncompressedDataByteAddress - - dataBaseByteAddressNoSwizzle + - metadataBaseShifted; - - ///-------------------------------------------------------------------------------------------- - /// Save bank data bits - ///-------------------------------------------------------------------------------------------- - UINT_32 lsb = pipeBits + pipeInterleaveBits; - UINT_32 msb = bankBits - 1 + lsb; - - UINT_64 bankDataBits = GetBits(offset, msb, lsb); - - ///-------------------------------------------------------------------------------------------- - /// Save pipe data bits - ///-------------------------------------------------------------------------------------------- - lsb = pipeInterleaveBits; - msb = pipeBits - 1 + lsb; - - UINT_64 pipeDataBits = GetBits(offset, msb, lsb); - - ///-------------------------------------------------------------------------------------------- - /// Remove pipe and bank bits - ///-------------------------------------------------------------------------------------------- - lsb = pipeInterleaveBits; - msb = dataMacrotileBits - 1; - - UINT_64 offsetWithoutPipeBankBits = RemoveBits(offset, msb, lsb); - - ADDR_ASSERT((0 != blockByteSize)); - UINT_64 blockInBankpipe = offsetWithoutPipeBankBits / blockByteSize; - - UINT_32 tileSize = 8 * 8 * elementBitSize/8 * numOfSamplesPerSplit; - UINT_32 blocksInTile = tileSize / blockByteSize; - - if (0 == blocksInTile) - { - lsb = 0; - } - else - { - lsb = Log2(blocksInTile); - } - msb = bankBits - 1 + lsb; - - UINT_64 blockInBankpipeWithBankBits = InsertBits(blockInBankpipe, bankDataBits, msb, lsb); - - /// NOTE *2 because we are converting to Nibble address in this step - UINT_64 metaAddressInPipe = blockInBankpipeWithBankBits * 2 * metadataBitSize / 8; - - - ///-------------------------------------------------------------------------------------------- - /// Reinsert pipe bits back into the final address - ///-------------------------------------------------------------------------------------------- - lsb = pipeInterleaveBits + 1; ///<+1 due to Nibble address now gives interleave bits extra lsb. - msb = pipeBits - 1 + lsb; - UINT_64 metadataAddress = InsertBits(metaAddressInPipe, pipeDataBits, msb, lsb); - - return metadataAddress; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeSurfaceAlignmentsMacroTiled -* -* @brief -* Hardware layer function to compute alignment request for macro tile mode -* -**************************************************************************************************** -*/ -VOID CiLib::HwlComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 mipLevel, ///< [in] mip level - UINT_32 numSamples, ///< [in] number of samples - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Surface output - ) const -{ - // This is to workaround a H/W limitation that DCC doesn't work when pipe config is switched to - // P4. In theory, all asics that have such switching should be patched but we now only know what - // to pad for Fiji. - if ((m_settings.isFiji == TRUE) && - (flags.dccPipeWorkaround == TRUE) && - (flags.prt == FALSE) && - (mipLevel == 0) && - (tileMode == ADDR_TM_PRT_TILED_THIN1) && - (pOut->dccUnsupport == TRUE)) - { - pOut->pitchAlign = PowTwoAlign(pOut->pitchAlign, 256); - // In case the client still requests DCC usage. - pOut->dccUnsupport = FALSE; - } -} - -/** -**************************************************************************************************** -* CiLib::HwlPadDimensions -* -* @brief -* Helper function to pad dimensions -* -**************************************************************************************************** -*/ -VOID CiLib::HwlPadDimensions( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples, ///< [in] number of samples - ADDR_TILEINFO* pTileInfo, ///< [in] tile info - UINT_32 mipLevel, ///< [in] mip level - UINT_32* pPitch, ///< [in,out] pitch in pixels - UINT_32* pPitchAlign, ///< [in,out] pitch alignment - UINT_32 height, ///< [in] height in pixels - UINT_32 heightAlign ///< [in] height alignment - ) const -{ - if ((m_settings.isVolcanicIslands == TRUE) && - (flags.dccCompatible == TRUE) && - (numSamples > 1) && - (mipLevel == 0) && - (IsMacroTiled(tileMode) == TRUE)) - { - UINT_32 tileSizePerSample = BITS_TO_BYTES(bpp * MicroTileWidth * MicroTileHeight); - UINT_32 samplesPerSplit = pTileInfo->tileSplitBytes / tileSizePerSample; - - if (samplesPerSplit < numSamples) - { - UINT_32 dccFastClearByteAlign = HwlGetPipes(pTileInfo) * m_pipeInterleaveBytes * 256; - UINT_32 bytesPerSplit = BITS_TO_BYTES((*pPitch) * height * bpp * samplesPerSplit); - - ADDR_ASSERT(IsPow2(dccFastClearByteAlign)); - - if (0 != (bytesPerSplit & (dccFastClearByteAlign - 1))) - { - UINT_32 dccFastClearPixelAlign = dccFastClearByteAlign / - BITS_TO_BYTES(bpp) / - samplesPerSplit; - UINT_32 macroTilePixelAlign = (*pPitchAlign) * heightAlign; - - if ((dccFastClearPixelAlign >= macroTilePixelAlign) && - ((dccFastClearPixelAlign % macroTilePixelAlign) == 0)) - { - UINT_32 dccFastClearPitchAlignInMacroTile = - dccFastClearPixelAlign / macroTilePixelAlign; - UINT_32 heightInMacroTile = height / heightAlign; - - while ((heightInMacroTile > 1) && - ((heightInMacroTile % 2) == 0) && - (dccFastClearPitchAlignInMacroTile > 1) && - ((dccFastClearPitchAlignInMacroTile % 2) == 0)) - { - heightInMacroTile >>= 1; - dccFastClearPitchAlignInMacroTile >>= 1; - } - - UINT_32 dccFastClearPitchAlignInPixels = - (*pPitchAlign) * dccFastClearPitchAlignInMacroTile; - - if (IsPow2(dccFastClearPitchAlignInPixels)) - { - *pPitch = PowTwoAlign((*pPitch), dccFastClearPitchAlignInPixels); - } - else - { - *pPitch += (dccFastClearPitchAlignInPixels - 1); - *pPitch /= dccFastClearPitchAlignInPixels; - *pPitch *= dccFastClearPitchAlignInPixels; - } - - *pPitchAlign = dccFastClearPitchAlignInPixels; - } - } - } - } -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeMaxBaseAlignments -* -* @brief -* Gets maximum alignments -* @return -* maximum alignments -**************************************************************************************************** -*/ -UINT_32 CiLib::HwlComputeMaxBaseAlignments() const -{ - const UINT_32 pipes = HwlGetPipes(&m_tileTable[0].info); - - // Initial size is 64 KiB for PRT. - UINT_32 maxBaseAlign = 64 * 1024; - - for (UINT_32 i = 0; i < m_noOfMacroEntries; i++) - { - // The maximum tile size is 16 byte-per-pixel and either 8-sample or 8-slice. - UINT_32 tileSize = m_macroTileTable[i].tileSplitBytes; - - UINT_32 baseAlign = tileSize * pipes * m_macroTileTable[i].banks * - m_macroTileTable[i].bankWidth * m_macroTileTable[i].bankHeight; - - if (baseAlign > maxBaseAlign) - { - maxBaseAlign = baseAlign; - } - } - - return maxBaseAlign; -} - -/** -**************************************************************************************************** -* CiLib::HwlComputeMaxMetaBaseAlignments -* -* @brief -* Gets maximum alignments for metadata -* @return -* maximum alignments for metadata -**************************************************************************************************** -*/ -UINT_32 CiLib::HwlComputeMaxMetaBaseAlignments() const -{ - UINT_32 maxBank = 1; - - for (UINT_32 i = 0; i < m_noOfMacroEntries; i++) - { - if ((m_settings.isVolcanicIslands) && IsMacroTiled(m_tileTable[i].mode)) - { - maxBank = Max(maxBank, m_macroTileTable[i].banks); - } - } - - return SiLib::HwlComputeMaxMetaBaseAlignments() * maxBank; -} - -/** -**************************************************************************************************** -* CiLib::DepthStencilTileCfgMatch -* -* @brief -* Try to find a tile index for stencil which makes its tile config parameters matches to depth -* @return -* TRUE if such tile index for stencil can be found -**************************************************************************************************** -*/ -BOOL_32 CiLib::DepthStencilTileCfgMatch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - BOOL_32 depthStencil2DTileConfigMatch = FALSE; - - for (INT_32 stencilTileIndex = MinDepth2DThinIndex; - stencilTileIndex <= MaxDepth2DThinIndex; - stencilTileIndex++) - { - ADDR_TILEINFO tileInfo = {0}; - INT_32 stencilMacroIndex = HwlComputeMacroModeIndex(stencilTileIndex, - pIn->flags, - 8, - pIn->numSamples, - &tileInfo); - - if (stencilMacroIndex != TileIndexNoMacroIndex) - { - if ((m_macroTileTable[stencilMacroIndex].banks == - m_macroTileTable[pOut->macroModeIndex].banks) && - (m_macroTileTable[stencilMacroIndex].bankWidth == - m_macroTileTable[pOut->macroModeIndex].bankWidth) && - (m_macroTileTable[stencilMacroIndex].bankHeight == - m_macroTileTable[pOut->macroModeIndex].bankHeight) && - (m_macroTileTable[stencilMacroIndex].macroAspectRatio == - m_macroTileTable[pOut->macroModeIndex].macroAspectRatio) && - (m_macroTileTable[stencilMacroIndex].pipeConfig == - m_macroTileTable[pOut->macroModeIndex].pipeConfig)) - { - if ((pOut->tcCompatible == FALSE) || - (tileInfo.tileSplitBytes >= MicroTileWidth * MicroTileHeight * pIn->numSamples)) - { - depthStencil2DTileConfigMatch = TRUE; - pOut->stencilTileIdx = stencilTileIndex; - break; - } - } - } - else - { - ADDR_ASSERT_ALWAYS(); - } - } - - return depthStencil2DTileConfigMatch; -} - -/** -**************************************************************************************************** -* CiLib::DepthStencilTileCfgMatch -* -* @brief -* Check if tc compatibility is available -* @return -* If tc compatibility is not available -**************************************************************************************************** -*/ -BOOL_32 CiLib::CheckTcCompatibility( - const ADDR_TILEINFO* pTileInfo, ///< [in] input tile info - UINT_32 bpp, ///< [in] Bits per pixel - AddrTileMode tileMode, ///< [in] input tile mode - AddrTileType tileType, ///< [in] input tile type - const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in] output surf info - ) const -{ - BOOL_32 tcCompatible = TRUE; - - if (IsMacroTiled(tileMode)) - { - if (tileType != ADDR_DEPTH_SAMPLE_ORDER) - { - // Turn off tcCompatible for color surface if tileSplit happens. Depth/stencil - // tileSplit case was handled at tileIndex selecting time. - INT_32 tileIndex = pOut->tileIndex; - - if ((tileIndex == TileIndexInvalid) && (IsTileInfoAllZero(pTileInfo) == FALSE)) - { - tileIndex = HwlPostCheckTileIndex(pTileInfo, tileMode, tileType, tileIndex); - } - - if (tileIndex != TileIndexInvalid) - { - UINT_32 thickness = Thickness(tileMode); - - ADDR_ASSERT(static_cast(tileIndex) < TileTableSize); - // Non-depth entries store a split factor - UINT_32 sampleSplit = m_tileTable[tileIndex].info.tileSplitBytes; - UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness); - UINT_32 colorTileSplit = Max(256u, sampleSplit * tileBytes1x); - - if (m_rowSize < colorTileSplit) - { - tcCompatible = FALSE; - } - } - } - } - else - { - // Client should not enable tc compatible for linear and 1D tile modes. - tcCompatible = FALSE; - } - - return tcCompatible; -} - -} // V1 -} // Addr diff --git a/src/amd/addrlib/r800/ciaddrlib.h b/src/amd/addrlib/r800/ciaddrlib.h deleted file mode 100644 index 28c19f06031..00000000000 --- a/src/amd/addrlib/r800/ciaddrlib.h +++ /dev/null @@ -1,201 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file ciaddrlib.h -* @brief Contains the CiLib class definition. -**************************************************************************************************** -*/ - -#ifndef __CI_ADDR_LIB_H__ -#define __CI_ADDR_LIB_H__ - -#include "addrlib1.h" -#include "siaddrlib.h" - -namespace Addr -{ -namespace V1 -{ - -/** -**************************************************************************************************** -* @brief This class is the CI specific address library -* function set. -**************************************************************************************************** -*/ -class CiLib : public SiLib -{ -public: - /// Creates CiLib object - static Addr::Lib* CreateObj(const Client* pClient) - { - VOID* pMem = Object::ClientAlloc(sizeof(CiLib), pClient); - return (pMem != NULL) ? new (pMem) CiLib(pClient) : NULL; - } - -private: - CiLib(const Client* pClient); - virtual ~CiLib(); - -protected: - - // Hwl interface - defined in AddrLib1 - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); - - virtual ChipFamily HwlConvertChipFamily( - UINT_32 uChipFamily, UINT_32 uChipRevision); - - virtual BOOL_32 HwlInitGlobalParams( - const ADDR_CREATE_INPUT* pCreateIn); - - virtual ADDR_E_RETURNCODE HwlSetupTileCfg( - UINT_32 bpp, INT_32 index, INT_32 macroModeIndex, ADDR_TILEINFO* pInfo, - AddrTileMode* pMode = 0, AddrTileType* pType = 0) const; - - virtual VOID HwlComputeTileDataWidthAndHeightLinear( - UINT_32* pMacroWidth, UINT_32* pMacroHeight, - UINT_32 bpp, ADDR_TILEINFO* pTileInfo) const; - - virtual INT_32 HwlComputeMacroModeIndex( - INT_32 tileIndex, ADDR_SURFACE_FLAGS flags, UINT_32 bpp, UINT_32 numSamples, - ADDR_TILEINFO* pTileInfo, AddrTileMode* pTileMode = NULL, AddrTileType* pTileType = NULL - ) const; - - // Sub-hwl interface - defined in EgBasedLib - virtual VOID HwlSetupTileInfo( - AddrTileMode tileMode, ADDR_SURFACE_FLAGS flags, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - ADDR_TILEINFO* inputTileInfo, ADDR_TILEINFO* outputTileInfo, - AddrTileType inTileType, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual INT_32 HwlPostCheckTileIndex( - const ADDR_TILEINFO* pInfo, AddrTileMode mode, AddrTileType type, - INT curIndex = TileIndexInvalid) const; - - virtual VOID HwlFmaskPreThunkSurfInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, - const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, - ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut) const; - - virtual VOID HwlFmaskPostThunkSurfInfo( - const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut) const; - - virtual AddrTileMode HwlDegradeThickTileMode( - AddrTileMode baseTileMode, UINT_32 numSlices, UINT_32* pBytesPerTile) const; - - virtual VOID HwlOverrideTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - virtual VOID HwlOptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - virtual VOID HwlSelectTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - /// Overwrite tile setting to PRT - virtual VOID HwlSetPrtTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeDccInfo( - const ADDR_COMPUTE_DCCINFO_INPUT* pIn, - ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( - const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( - const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) const; - - virtual UINT_32 HwlComputeMaxBaseAlignments() const; - - virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const; - - virtual VOID HwlPadDimensions( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 numSamples, ADDR_TILEINFO* pTileInfo, UINT_32 mipLevel, - UINT_32* pPitch, UINT_32 *PitchAlign, UINT_32 height, UINT_32 heightAlign) const; - - virtual VOID HwlComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 mipLevel, UINT_32 numSamples, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - -private: - VOID ReadGbTileMode( - UINT_32 regValue, TileConfig* pCfg) const; - - VOID ReadGbMacroTileCfg( - UINT_32 regValue, ADDR_TILEINFO* pCfg) const; - - BOOL_32 InitTileSettingTable( - const UINT_32 *pSetting, UINT_32 noOfEntries); - - BOOL_32 InitMacroTileCfgTable( - const UINT_32 *pSetting, UINT_32 noOfEntries); - - UINT_64 HwlComputeMetadataNibbleAddress( - UINT_64 uncompressedDataByteAddress, - UINT_64 dataBaseByteAddress, - UINT_64 metadataBaseByteAddress, - UINT_32 metadataBitSize, - UINT_32 elementBitSize, - UINT_32 blockByteSize, - UINT_32 pipeInterleaveBytes, - UINT_32 numOfPipes, - UINT_32 numOfBanks, - UINT_32 numOfSamplesPerSplit) const; - - BOOL_32 DepthStencilTileCfgMatch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - BOOL_32 CheckTcCompatibility(const ADDR_TILEINFO* pTileInfo, UINT_32 bpp, AddrTileMode tileMode, - AddrTileType tileType, const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - static const UINT_32 MacroTileTableSize = 16; - static const UINT_32 PrtMacroModeOffset = MacroTileTableSize / 2; - static const INT_32 MinDepth2DThinIndex = 0; - static const INT_32 MaxDepth2DThinIndex = 4; - static const INT_32 Depth1DThinIndex = 5; - - ADDR_TILEINFO m_macroTileTable[MacroTileTableSize]; - UINT_32 m_noOfMacroEntries; - BOOL_32 m_allowNonDispThickModes; -}; - -} // V1 -} // Addr - -#endif - - diff --git a/src/amd/addrlib/r800/egbaddrlib.cpp b/src/amd/addrlib/r800/egbaddrlib.cpp deleted file mode 100644 index ed116180868..00000000000 --- a/src/amd/addrlib/r800/egbaddrlib.cpp +++ /dev/null @@ -1,4168 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file egbaddrlib.cpp -* @brief Contains the EgBasedLib class implementation. -**************************************************************************************************** -*/ - -#include "egbaddrlib.h" - -#include "util/macros.h" - -namespace Addr -{ -namespace V1 -{ - -/** -**************************************************************************************************** -* EgBasedLib::EgBasedLib -* -* @brief -* Constructor -* -* @note -* -**************************************************************************************************** -*/ -EgBasedLib::EgBasedLib(const Client* pClient) - : - Lib(pClient), - m_ranks(0), - m_logicalBanks(0), - m_bankInterleave(1) -{ -} - -/** -**************************************************************************************************** -* EgBasedLib::~EgBasedLib -* -* @brief -* Destructor -**************************************************************************************************** -*/ -EgBasedLib::~EgBasedLib() -{ -} - -/** -**************************************************************************************************** -* EgBasedLib::DispatchComputeSurfaceInfo -* -* @brief -* Compute surface sizes include padded pitch,height,slices,total size in bytes, -* meanwhile output suitable tile mode and base alignment might be changed in this -* call as well. Results are returned through output parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::DispatchComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - AddrTileMode tileMode = pIn->tileMode; - UINT_32 bpp = pIn->bpp; - UINT_32 numSamples = pIn->numSamples; - UINT_32 numFrags = ((pIn->numFrags == 0) ? numSamples : pIn->numFrags); - UINT_32 pitch = pIn->width; - UINT_32 height = pIn->height; - UINT_32 numSlices = pIn->numSlices; - UINT_32 mipLevel = pIn->mipLevel; - ADDR_SURFACE_FLAGS flags = pIn->flags; - - ADDR_TILEINFO tileInfoDef = {0}; - ADDR_TILEINFO* pTileInfo = &tileInfoDef; - UINT_32 padDims = 0; - BOOL_32 valid; - - if (pIn->flags.disallowLargeThickDegrade == 0) - { - tileMode = DegradeLargeThickTile(tileMode, bpp); - } - - // Only override numSamples for NI above - if (m_chipFamily >= ADDR_CHIP_FAMILY_NI) - { - if (numFrags != numSamples) // This means EQAA - { - // The real surface size needed is determined by number of fragments - numSamples = numFrags; - } - - // Save altered numSamples in pOut - pOut->numSamples = numSamples; - } - - // Caller makes sure pOut->pTileInfo is not NULL, see HwlComputeSurfaceInfo - ADDR_ASSERT(pOut->pTileInfo); - - if (pOut->pTileInfo != NULL) - { - pTileInfo = pOut->pTileInfo; - } - - // Set default values - if (pIn->pTileInfo != NULL) - { - if (pTileInfo != pIn->pTileInfo) - { - *pTileInfo = *pIn->pTileInfo; - } - } - else - { - memset(pTileInfo, 0, sizeof(ADDR_TILEINFO)); - } - - // For macro tile mode, we should calculate default tiling parameters - HwlSetupTileInfo(tileMode, - flags, - bpp, - pitch, - height, - numSamples, - pIn->pTileInfo, - pTileInfo, - pIn->tileType, - pOut); - - if (flags.cube) - { - if (mipLevel == 0) - { - padDims = 2; - } - - if (numSlices == 1) - { - // This is calculating one face, remove cube flag - flags.cube = 0; - } - } - - switch (tileMode) - { - case ADDR_TM_LINEAR_GENERAL://fall through - case ADDR_TM_LINEAR_ALIGNED: - valid = ComputeSurfaceInfoLinear(pIn, pOut, padDims); - break; - - case ADDR_TM_1D_TILED_THIN1://fall through - case ADDR_TM_1D_TILED_THICK: - valid = ComputeSurfaceInfoMicroTiled(pIn, pOut, padDims, tileMode); - break; - - case ADDR_TM_2D_TILED_THIN1: //fall through - case ADDR_TM_2D_TILED_THICK: //fall through - case ADDR_TM_3D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THICK: //fall through - case ADDR_TM_2D_TILED_XTHICK: //fall through - case ADDR_TM_3D_TILED_XTHICK: //fall through - case ADDR_TM_PRT_TILED_THIN1: //fall through - case ADDR_TM_PRT_2D_TILED_THIN1://fall through - case ADDR_TM_PRT_3D_TILED_THIN1://fall through - case ADDR_TM_PRT_TILED_THICK: //fall through - case ADDR_TM_PRT_2D_TILED_THICK://fall through - case ADDR_TM_PRT_3D_TILED_THICK: - valid = ComputeSurfaceInfoMacroTiled(pIn, pOut, padDims, tileMode); - break; - - default: - valid = FALSE; - ADDR_ASSERT_ALWAYS(); - break; - } - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceInfoLinear -* -* @brief -* Compute linear surface sizes include padded pitch, height, slices, total size in -* bytes, meanwhile alignments as well. Since it is linear mode, so output tile mode -* will not be changed here. Results are returned through output parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::ComputeSurfaceInfoLinear( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, ///< [out] Output structure - UINT_32 padDims ///< [in] Dimensions to padd - ) const -{ - UINT_32 expPitch = pIn->width; - UINT_32 expHeight = pIn->height; - UINT_32 expNumSlices = pIn->numSlices; - - // No linear MSAA on real H/W, keep this for TGL - UINT_32 numSamples = pOut->numSamples; - - const UINT_32 microTileThickness = 1; - - // - // Compute the surface alignments. - // - ComputeSurfaceAlignmentsLinear(pIn->tileMode, - pIn->bpp, - pIn->flags, - &pOut->baseAlign, - &pOut->pitchAlign, - &pOut->heightAlign); - - if ((pIn->tileMode == ADDR_TM_LINEAR_GENERAL) && pIn->flags.color && (pIn->height > 1)) - { -#if !ALT_TEST - // When linear_general surface is accessed in multiple lines, it requires 8 pixels in pitch - // alignment since PITCH_TILE_MAX is in unit of 8 pixels. - // It is OK if it is accessed per line. - ADDR_ASSERT((pIn->width % 8) == 0); -#endif - } - - pOut->depthAlign = microTileThickness; - - expPitch = HwlPreHandleBaseLvl3xPitch(pIn, expPitch); - - // - // Pad pitch and height to the required granularities. - // - PadDimensions(pIn->tileMode, - pIn->bpp, - pIn->flags, - numSamples, - pOut->pTileInfo, - padDims, - pIn->mipLevel, - &expPitch, &pOut->pitchAlign, - &expHeight, pOut->heightAlign, - &expNumSlices, microTileThickness); - - expPitch = HwlPostHandleBaseLvl3xPitch(pIn, expPitch); - - // - // Adjust per HWL - // - - UINT_64 logicalSliceSize; - - logicalSliceSize = HwlGetSizeAdjustmentLinear(pIn->tileMode, - pIn->bpp, - numSamples, - pOut->baseAlign, - pOut->pitchAlign, - &expPitch, - &expHeight, - &pOut->heightAlign); - - if ((pIn->pitchAlign != 0) || (pIn->heightAlign != 0)) - { - if (pIn->pitchAlign != 0) - { - ADDR_ASSERT((pIn->pitchAlign % pOut->pitchAlign) == 0); - pOut->pitchAlign = pIn->pitchAlign; - - if (IsPow2(pOut->pitchAlign)) - { - expPitch = PowTwoAlign(expPitch, pOut->pitchAlign); - } - else - { - expPitch += pOut->pitchAlign - 1; - expPitch /= pOut->pitchAlign; - expPitch *= pOut->pitchAlign; - } - } - - if (pIn->heightAlign != 0) - { - ADDR_ASSERT((pIn->heightAlign % pOut->heightAlign) == 0); - pOut->heightAlign = pIn->heightAlign; - - if (IsPow2(pOut->heightAlign)) - { - expHeight = PowTwoAlign(expHeight, pOut->heightAlign); - } - else - { - expHeight += pOut->heightAlign - 1; - expHeight /= pOut->heightAlign; - expHeight *= pOut->heightAlign; - } - } - - logicalSliceSize = BITS_TO_BYTES(expPitch * expHeight * pIn->bpp); - } - - pOut->pitch = expPitch; - pOut->height = expHeight; - pOut->depth = expNumSlices; - - pOut->surfSize = logicalSliceSize * expNumSlices; - - pOut->tileMode = pIn->tileMode; - - return TRUE; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceInfoMicroTiled -* -* @brief -* Compute 1D/Micro Tiled surface sizes include padded pitch, height, slices, total -* size in bytes, meanwhile alignments as well. Results are returned through output -* parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::ComputeSurfaceInfoMicroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, ///< [out] Output structure - UINT_32 padDims, ///< [in] Dimensions to padd - AddrTileMode expTileMode ///< [in] Expected tile mode - ) const -{ - BOOL_32 valid = TRUE; - - UINT_32 microTileThickness; - UINT_32 expPitch = pIn->width; - UINT_32 expHeight = pIn->height; - UINT_32 expNumSlices = pIn->numSlices; - - // No 1D MSAA on real H/W, keep this for TGL - UINT_32 numSamples = pOut->numSamples; - - // - // Compute the micro tile thickness. - // - microTileThickness = Thickness(expTileMode); - - // - // Extra override for mip levels - // - if (pIn->mipLevel > 0) - { - // - // Reduce tiling mode from thick to thin if the number of slices is less than the - // micro tile thickness. - // - if ((expTileMode == ADDR_TM_1D_TILED_THICK) && - (expNumSlices < ThickTileThickness)) - { - expTileMode = HwlDegradeThickTileMode(ADDR_TM_1D_TILED_THICK, expNumSlices, NULL); - if (expTileMode != ADDR_TM_1D_TILED_THICK) - { - microTileThickness = 1; - } - } - } - - // - // Compute the surface restrictions. - // - ComputeSurfaceAlignmentsMicroTiled(expTileMode, - pIn->bpp, - pIn->flags, - pIn->mipLevel, - numSamples, - &pOut->baseAlign, - &pOut->pitchAlign, - &pOut->heightAlign); - - pOut->depthAlign = microTileThickness; - - // - // Pad pitch and height to the required granularities. - // Compute surface size. - // Return parameters. - // - PadDimensions(expTileMode, - pIn->bpp, - pIn->flags, - numSamples, - pOut->pTileInfo, - padDims, - pIn->mipLevel, - &expPitch, &pOut->pitchAlign, - &expHeight, pOut->heightAlign, - &expNumSlices, microTileThickness); - - // - // Get HWL specific pitch adjustment - // - UINT_64 logicalSliceSize = HwlGetSizeAdjustmentMicroTiled(microTileThickness, - pIn->bpp, - pIn->flags, - numSamples, - pOut->baseAlign, - pOut->pitchAlign, - &expPitch, - &expHeight); - - - pOut->pitch = expPitch; - pOut->height = expHeight; - pOut->depth = expNumSlices; - - pOut->surfSize = logicalSliceSize * expNumSlices; - - pOut->tileMode = expTileMode; - - return valid; -} - - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceInfoMacroTiled -* -* @brief -* Compute 2D/macro tiled surface sizes include padded pitch, height, slices, total -* size in bytes, meanwhile output suitable tile mode and alignments might be changed -* in this call as well. Results are returned through output parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::ComputeSurfaceInfoMacroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, ///< [out] Output structure - UINT_32 padDims, ///< [in] Dimensions to padd - AddrTileMode expTileMode ///< [in] Expected tile mode - ) const -{ - BOOL_32 valid = TRUE; - - AddrTileMode origTileMode = expTileMode; - UINT_32 microTileThickness; - - UINT_32 paddedPitch; - UINT_32 paddedHeight; - UINT_64 bytesPerSlice; - - UINT_32 expPitch = pIn->width; - UINT_32 expHeight = pIn->height; - UINT_32 expNumSlices = pIn->numSlices; - - UINT_32 numSamples = pOut->numSamples; - - // - // Compute the surface restrictions as base - // SanityCheckMacroTiled is called in ComputeSurfaceAlignmentsMacroTiled - // - valid = ComputeSurfaceAlignmentsMacroTiled(expTileMode, - pIn->bpp, - pIn->flags, - pIn->mipLevel, - numSamples, - pOut); - - if (valid) - { - // - // Compute the micro tile thickness. - // - microTileThickness = Thickness(expTileMode); - - // - // Find the correct tiling mode for mip levels - // - if (pIn->mipLevel > 0) - { - // - // Try valid tile mode - // - expTileMode = ComputeSurfaceMipLevelTileMode(expTileMode, - pIn->bpp, - expPitch, - expHeight, - expNumSlices, - numSamples, - pOut->blockWidth, - pOut->blockHeight, - pOut->pTileInfo); - - if (!IsMacroTiled(expTileMode)) // Downgraded to micro-tiled - { - return ComputeSurfaceInfoMicroTiled(pIn, pOut, padDims, expTileMode); - } - else if (microTileThickness != Thickness(expTileMode)) - { - // - // Re-compute if thickness changed since bank-height may be changed! - // - return ComputeSurfaceInfoMacroTiled(pIn, pOut, padDims, expTileMode); - } - } - - paddedPitch = expPitch; - paddedHeight = expHeight; - - // - // Re-cal alignment - // - if (expTileMode != origTileMode) // Tile mode is changed but still macro-tiled - { - valid = ComputeSurfaceAlignmentsMacroTiled(expTileMode, - pIn->bpp, - pIn->flags, - pIn->mipLevel, - numSamples, - pOut); - } - - // - // Do padding - // - PadDimensions(expTileMode, - pIn->bpp, - pIn->flags, - numSamples, - pOut->pTileInfo, - padDims, - pIn->mipLevel, - &paddedPitch, &pOut->pitchAlign, - &paddedHeight, pOut->heightAlign, - &expNumSlices, microTileThickness); - - if (pIn->flags.qbStereo && - (pOut->pStereoInfo != NULL)) - { - UINT_32 stereoHeightAlign = HwlStereoCheckRightOffsetPadding(pOut->pTileInfo); - - if (stereoHeightAlign != 0) - { - paddedHeight = PowTwoAlign(paddedHeight, stereoHeightAlign); - } - } - - if ((pIn->flags.needEquation == TRUE) && - (m_chipFamily == ADDR_CHIP_FAMILY_SI) && - (pIn->numMipLevels > 1) && - (pIn->mipLevel == 0)) - { - BOOL_32 convertTo1D = FALSE; - - ADDR_ASSERT(Thickness(expTileMode) == 1); - - for (UINT_32 i = 1; i < pIn->numMipLevels; i++) - { - UINT_32 mipPitch = Max(1u, paddedPitch >> i); - UINT_32 mipHeight = Max(1u, pIn->height >> i); - UINT_32 mipSlices = pIn->flags.volume ? - Max(1u, pIn->numSlices >> i) : pIn->numSlices; - expTileMode = ComputeSurfaceMipLevelTileMode(expTileMode, - pIn->bpp, - mipPitch, - mipHeight, - mipSlices, - numSamples, - pOut->blockWidth, - pOut->blockHeight, - pOut->pTileInfo); - - if (IsMacroTiled(expTileMode)) - { - if (PowTwoAlign(mipPitch, pOut->blockWidth) != - PowTwoAlign(mipPitch, pOut->pitchAlign)) - { - convertTo1D = TRUE; - break; - } - } - else - { - break; - } - } - - if (convertTo1D) - { - return ComputeSurfaceInfoMicroTiled(pIn, pOut, padDims, ADDR_TM_1D_TILED_THIN1); - } - } - - pOut->pitch = paddedPitch; - // Put this check right here to workaround special mipmap cases which the original height - // is needed. - // The original height is pre-stored in pOut->height in PostComputeMipLevel and - // pOut->pitch is needed in HwlCheckLastMacroTiledLvl, too. - if (m_configFlags.checkLast2DLevel && (numSamples == 1)) // Don't check MSAA - { - // Set a TRUE in pOut if next Level is the first 1D sub level - HwlCheckLastMacroTiledLvl(pIn, pOut); - } - pOut->height = paddedHeight; - - pOut->depth = expNumSlices; - - // - // Compute the size of a slice. - // - bytesPerSlice = BITS_TO_BYTES(static_cast(paddedPitch) * - paddedHeight * NextPow2(pIn->bpp) * numSamples); - - pOut->surfSize = bytesPerSlice * expNumSlices; - - pOut->tileMode = expTileMode; - - pOut->depthAlign = microTileThickness; - - } // if (valid) - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceAlignmentsLinear -* -* @brief -* Compute linear surface alignment, calculation results are returned through -* output parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::ComputeSurfaceAlignmentsLinear( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32* pBaseAlign, ///< [out] base address alignment in bytes - UINT_32* pPitchAlign, ///< [out] pitch alignment in pixels - UINT_32* pHeightAlign ///< [out] height alignment in pixels - ) const -{ - BOOL_32 valid = TRUE; - - switch (tileMode) - { - case ADDR_TM_LINEAR_GENERAL: - // - // The required base alignment and pitch and height granularities is to 1 element. - // - *pBaseAlign = (bpp > 8) ? bpp / 8 : 1; - *pPitchAlign = 1; - *pHeightAlign = 1; - break; - case ADDR_TM_LINEAR_ALIGNED: - // - // The required alignment for base is the pipe interleave size. - // The required granularity for pitch is hwl dependent. - // The required granularity for height is one row. - // - *pBaseAlign = m_pipeInterleaveBytes; - *pPitchAlign = HwlGetPitchAlignmentLinear(bpp, flags); - *pHeightAlign = 1; - break; - default: - *pBaseAlign = 1; - *pPitchAlign = 1; - *pHeightAlign = 1; - ADDR_UNHANDLED_CASE(); - break; - } - - AdjustPitchAlignment(flags, pPitchAlign); - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceAlignmentsMicroTiled -* -* @brief -* Compute 1D tiled surface alignment, calculation results are returned through -* output parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::ComputeSurfaceAlignmentsMicroTiled( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 mipLevel, ///< [in] mip level - UINT_32 numSamples, ///< [in] number of samples - UINT_32* pBaseAlign, ///< [out] base address alignment in bytes - UINT_32* pPitchAlign, ///< [out] pitch alignment in pixels - UINT_32* pHeightAlign ///< [out] height alignment in pixels - ) const -{ - BOOL_32 valid = TRUE; - - // - // The required alignment for base is the pipe interleave size. - // - *pBaseAlign = m_pipeInterleaveBytes; - - *pPitchAlign = HwlGetPitchAlignmentMicroTiled(tileMode, bpp, flags, numSamples); - - *pHeightAlign = MicroTileHeight; - - AdjustPitchAlignment(flags, pPitchAlign); - - // Workaround 2 for 1D tiling - There is HW bug for Carrizo, - // where it requires the following alignments for 1D tiling. - if (flags.czDispCompatible && (mipLevel == 0)) - { - *pBaseAlign = PowTwoAlign(*pBaseAlign, 4096); //Base address MOD 4096 = 0 - *pPitchAlign = PowTwoAlign(*pPitchAlign, 512 / (BITS_TO_BYTES(bpp))); //(8 lines * pitch * bytes per pixel) MOD 4096 = 0 - } - // end Carrizo workaround for 1D tilling - - return valid; -} - - -/** -**************************************************************************************************** -* EgBasedLib::HwlReduceBankWidthHeight -* -* @brief -* Additional checks, reduce bankHeight/bankWidth if needed and possible -* tileSize*BANK_WIDTH*BANK_HEIGHT <= ROW_SIZE -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::HwlReduceBankWidthHeight( - UINT_32 tileSize, ///< [in] tile size - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples, ///< [in] number of samples - UINT_32 bankHeightAlign, ///< [in] bank height alignment - UINT_32 pipes, ///< [in] pipes - ADDR_TILEINFO* pTileInfo ///< [in,out] bank structure. - ) const -{ - UINT_32 macroAspectAlign; - BOOL_32 valid = TRUE; - - if (tileSize * pTileInfo->bankWidth * pTileInfo->bankHeight > m_rowSize) - { - BOOL_32 stillGreater = TRUE; - - // Try reducing bankWidth first - if (stillGreater && pTileInfo->bankWidth > 1) - { - while (stillGreater && pTileInfo->bankWidth > 0) - { - pTileInfo->bankWidth >>= 1; - - if (pTileInfo->bankWidth == 0) - { - pTileInfo->bankWidth = 1; - break; - } - - stillGreater = - tileSize * pTileInfo->bankWidth * pTileInfo->bankHeight > m_rowSize; - } - - // bankWidth is reduced above, so we need to recalculate bankHeight and ratio - bankHeightAlign = Max(1u, - m_pipeInterleaveBytes * m_bankInterleave / - (tileSize * pTileInfo->bankWidth) - ); - - // We cannot increase bankHeight so just assert this case. - ADDR_ASSERT((pTileInfo->bankHeight % bankHeightAlign) == 0); - - if (numSamples == 1) - { - macroAspectAlign = Max(1u, - m_pipeInterleaveBytes * m_bankInterleave / - (tileSize * pipes * pTileInfo->bankWidth) - ); - pTileInfo->macroAspectRatio = PowTwoAlign(pTileInfo->macroAspectRatio, - macroAspectAlign); - } - } - - // Early quit bank_height degradation for "64" bit z buffer - if (flags.depth && bpp >= 64) - { - stillGreater = FALSE; - } - - // Then try reducing bankHeight - if (stillGreater && pTileInfo->bankHeight > bankHeightAlign) - { - while (stillGreater && pTileInfo->bankHeight > bankHeightAlign) - { - pTileInfo->bankHeight >>= 1; - - if (pTileInfo->bankHeight < bankHeightAlign) - { - pTileInfo->bankHeight = bankHeightAlign; - break; - } - - stillGreater = - tileSize * pTileInfo->bankWidth * pTileInfo->bankHeight > m_rowSize; - } - } - - valid = !stillGreater; - - // Generate a warning if we still fail to meet this constraint - if (valid == FALSE) - { - ADDR_WARN( - 0, ("TILE_SIZE(%d)*BANK_WIDTH(%d)*BANK_HEIGHT(%d) <= ROW_SIZE(%d)", - tileSize, pTileInfo->bankWidth, pTileInfo->bankHeight, m_rowSize)); - } - } - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceAlignmentsMacroTiled -* -* @brief -* Compute 2D tiled surface alignment, calculation results are returned through -* output parameters. -* -* @return -* TRUE if no error occurs -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::ComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 mipLevel, ///< [in] mip level - UINT_32 numSamples, ///< [in] number of samples - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Surface output - ) const -{ - ADDR_TILEINFO* pTileInfo = pOut->pTileInfo; - - BOOL_32 valid = SanityCheckMacroTiled(pTileInfo); - - if (valid) - { - UINT_32 macroTileWidth; - UINT_32 macroTileHeight; - - UINT_32 tileSize; - UINT_32 bankHeightAlign; - UINT_32 macroAspectAlign; - - UINT_32 thickness = Thickness(tileMode); - UINT_32 pipes = HwlGetPipes(pTileInfo); - - // - // Align bank height first according to latest h/w spec - // - - // tile_size = MIN(tile_split, 64 * tile_thickness * element_bytes * num_samples) - tileSize = Min(pTileInfo->tileSplitBytes, - BITS_TO_BYTES(64 * thickness * bpp * numSamples)); - - // bank_height_align = - // MAX(1, (pipe_interleave_bytes * bank_interleave)/(tile_size*bank_width)) - bankHeightAlign = Max(1u, - m_pipeInterleaveBytes * m_bankInterleave / - (tileSize * pTileInfo->bankWidth) - ); - - pTileInfo->bankHeight = PowTwoAlign(pTileInfo->bankHeight, bankHeightAlign); - - // num_pipes * bank_width * macro_tile_aspect >= - // (pipe_interleave_size * bank_interleave) / tile_size - if (numSamples == 1) - { - // this restriction is only for mipmap (mipmap's numSamples must be 1) - macroAspectAlign = Max(1u, - m_pipeInterleaveBytes * m_bankInterleave / - (tileSize * pipes * pTileInfo->bankWidth) - ); - pTileInfo->macroAspectRatio = PowTwoAlign(pTileInfo->macroAspectRatio, macroAspectAlign); - } - - valid = HwlReduceBankWidthHeight(tileSize, - bpp, - flags, - numSamples, - bankHeightAlign, - pipes, - pTileInfo); - - // - // The required granularity for pitch is the macro tile width. - // - macroTileWidth = MicroTileWidth * pTileInfo->bankWidth * pipes * - pTileInfo->macroAspectRatio; - - pOut->pitchAlign = macroTileWidth; - pOut->blockWidth = macroTileWidth; - - AdjustPitchAlignment(flags, &pOut->pitchAlign); - - // - // The required granularity for height is the macro tile height. - // - macroTileHeight = MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks / - pTileInfo->macroAspectRatio; - - pOut->heightAlign = macroTileHeight; - pOut->blockHeight = macroTileHeight; - - // - // Compute base alignment - // - pOut->baseAlign = - pipes * pTileInfo->bankWidth * pTileInfo->banks * pTileInfo->bankHeight * tileSize; - - HwlComputeSurfaceAlignmentsMacroTiled(tileMode, bpp, flags, mipLevel, numSamples, pOut); - } - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::SanityCheckMacroTiled -* -* @brief -* Check if macro-tiled parameters are valid -* @return -* TRUE if valid -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::SanityCheckMacroTiled( - ADDR_TILEINFO* pTileInfo ///< [in] macro-tiled parameters - ) const -{ - BOOL_32 valid = TRUE; - MAYBE_UNUSED UINT_32 numPipes = HwlGetPipes(pTileInfo); - - switch (pTileInfo->banks) - { - case 2: //fall through - case 4: //fall through - case 8: //fall through - case 16: - break; - default: - valid = FALSE; - break; - - } - - if (valid) - { - switch (pTileInfo->bankWidth) - { - case 1: //fall through - case 2: //fall through - case 4: //fall through - case 8: - break; - default: - valid = FALSE; - break; - } - } - - if (valid) - { - switch (pTileInfo->bankHeight) - { - case 1: //fall through - case 2: //fall through - case 4: //fall through - case 8: - break; - default: - valid = FALSE; - break; - } - } - - if (valid) - { - switch (pTileInfo->macroAspectRatio) - { - case 1: //fall through - case 2: //fall through - case 4: //fall through - case 8: - break; - default: - valid = FALSE; - break; - } - } - - if (valid) - { - if (pTileInfo->banks < pTileInfo->macroAspectRatio) - { - // This will generate macro tile height <= 1 - valid = FALSE; - } - } - - if (valid) - { - if (pTileInfo->tileSplitBytes > m_rowSize) - { - ADDR_WARN(0, ("tileSplitBytes is bigger than row size")); - } - } - - if (valid) - { - valid = HwlSanityCheckMacroTiled(pTileInfo); - } - - ADDR_ASSERT(valid == TRUE); - - // Add this assert for guidance - ADDR_ASSERT(numPipes * pTileInfo->banks >= 4); - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceMipLevelTileMode -* -* @brief -* Compute valid tile mode for surface mipmap sub-levels -* -* @return -* Suitable tile mode -**************************************************************************************************** -*/ -AddrTileMode EgBasedLib::ComputeSurfaceMipLevelTileMode( - AddrTileMode baseTileMode, ///< [in] base tile mode - UINT_32 bpp, ///< [in] bits per pixels - UINT_32 pitch, ///< [in] current level pitch - UINT_32 height, ///< [in] current level height - UINT_32 numSlices, ///< [in] current number of slices - UINT_32 numSamples, ///< [in] number of samples - UINT_32 pitchAlign, ///< [in] pitch alignment - UINT_32 heightAlign, ///< [in] height alignment - ADDR_TILEINFO* pTileInfo ///< [in] ptr to bank structure - ) const -{ - UINT_64 bytesPerSlice; - (void)bytesPerSlice; - UINT_32 bytesPerTile; - - AddrTileMode expTileMode = baseTileMode; - UINT_32 microTileThickness = Thickness(expTileMode); - UINT_32 interleaveSize = m_pipeInterleaveBytes * m_bankInterleave; - - // - // Compute the size of a slice. - // - bytesPerSlice = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); - bytesPerTile = BITS_TO_BYTES(MicroTilePixels * microTileThickness * NextPow2(bpp) * numSamples); - - // - // Reduce tiling mode from thick to thin if the number of slices is less than the - // micro tile thickness. - // - if (numSlices < microTileThickness) - { - expTileMode = HwlDegradeThickTileMode(expTileMode, numSlices, &bytesPerTile); - } - - if (bytesPerTile > pTileInfo->tileSplitBytes) - { - bytesPerTile = pTileInfo->tileSplitBytes; - } - - UINT_32 threshold1 = - bytesPerTile * HwlGetPipes(pTileInfo) * pTileInfo->bankWidth * pTileInfo->macroAspectRatio; - - UINT_32 threshold2 = - bytesPerTile * pTileInfo->bankWidth * pTileInfo->bankHeight; - - // - // Reduce the tile mode from 2D/3D to 1D in following conditions - // - switch (expTileMode) - { - case ADDR_TM_2D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THIN1: - case ADDR_TM_PRT_TILED_THIN1: - case ADDR_TM_PRT_2D_TILED_THIN1: - case ADDR_TM_PRT_3D_TILED_THIN1: - if ((pitch < pitchAlign) || - (height < heightAlign) || - (interleaveSize > threshold1) || - (interleaveSize > threshold2)) - { - expTileMode = ADDR_TM_1D_TILED_THIN1; - } - break; - case ADDR_TM_2D_TILED_THICK: //fall through - case ADDR_TM_3D_TILED_THICK: - case ADDR_TM_2D_TILED_XTHICK: - case ADDR_TM_3D_TILED_XTHICK: - case ADDR_TM_PRT_TILED_THICK: - case ADDR_TM_PRT_2D_TILED_THICK: - case ADDR_TM_PRT_3D_TILED_THICK: - if ((pitch < pitchAlign) || - (height < heightAlign)) - { - expTileMode = ADDR_TM_1D_TILED_THICK; - } - break; - default: - break; - } - - return expTileMode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlGetAlignmentInfoMacroTiled -* @brief -* Get alignment info for giving tile mode -* @return -* TRUE if getting alignment is OK -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::HwlGetAlignmentInfoMacroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] create surface info - UINT_32* pPitchAlign, ///< [out] pitch alignment - UINT_32* pHeightAlign, ///< [out] height alignment - UINT_32* pSizeAlign ///< [out] size alignment - ) const -{ - BOOL_32 valid = TRUE; - - ADDR_ASSERT(IsMacroTiled(pIn->tileMode)); - - UINT_32 numSamples = (pIn->numFrags == 0) ? pIn->numSamples : pIn->numFrags; - - ADDR_ASSERT(pIn->pTileInfo); - ADDR_TILEINFO tileInfo = *pIn->pTileInfo; - ADDR_COMPUTE_SURFACE_INFO_OUTPUT out = {0}; - out.pTileInfo = &tileInfo; - - if (UseTileIndex(pIn->tileIndex)) - { - out.tileIndex = pIn->tileIndex; - out.macroModeIndex = TileIndexInvalid; - } - - HwlSetupTileInfo(pIn->tileMode, - pIn->flags, - pIn->bpp, - pIn->width, - pIn->height, - numSamples, - &tileInfo, - &tileInfo, - pIn->tileType, - &out); - - valid = ComputeSurfaceAlignmentsMacroTiled(pIn->tileMode, - pIn->bpp, - pIn->flags, - pIn->mipLevel, - numSamples, - &out); - - if (valid) - { - *pPitchAlign = out.pitchAlign; - *pHeightAlign = out.heightAlign; - *pSizeAlign = out.baseAlign; - } - - return valid; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlDegradeThickTileMode -* -* @brief -* Degrades valid tile mode for thick modes if needed -* -* @return -* Suitable tile mode -**************************************************************************************************** -*/ -AddrTileMode EgBasedLib::HwlDegradeThickTileMode( - AddrTileMode baseTileMode, ///< [in] base tile mode - UINT_32 numSlices, ///< [in] current number of slices - UINT_32* pBytesPerTile ///< [in,out] pointer to bytes per slice - ) const -{ - ADDR_ASSERT(numSlices < Thickness(baseTileMode)); - // if pBytesPerTile is NULL, this is a don't-care.... - UINT_32 bytesPerTile = pBytesPerTile != NULL ? *pBytesPerTile : 64; - - AddrTileMode expTileMode = baseTileMode; - switch (baseTileMode) - { - case ADDR_TM_1D_TILED_THICK: - expTileMode = ADDR_TM_1D_TILED_THIN1; - bytesPerTile >>= 2; - break; - case ADDR_TM_2D_TILED_THICK: - expTileMode = ADDR_TM_2D_TILED_THIN1; - bytesPerTile >>= 2; - break; - case ADDR_TM_3D_TILED_THICK: - expTileMode = ADDR_TM_3D_TILED_THIN1; - bytesPerTile >>= 2; - break; - case ADDR_TM_2D_TILED_XTHICK: - if (numSlices < ThickTileThickness) - { - expTileMode = ADDR_TM_2D_TILED_THIN1; - bytesPerTile >>= 3; - } - else - { - expTileMode = ADDR_TM_2D_TILED_THICK; - bytesPerTile >>= 1; - } - break; - case ADDR_TM_3D_TILED_XTHICK: - if (numSlices < ThickTileThickness) - { - expTileMode = ADDR_TM_3D_TILED_THIN1; - bytesPerTile >>= 3; - } - else - { - expTileMode = ADDR_TM_3D_TILED_THICK; - bytesPerTile >>= 1; - } - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - if (pBytesPerTile != NULL) - { - *pBytesPerTile = bytesPerTile; - } - - return expTileMode; -} - -/** -**************************************************************************************************** -* EgBasedLib::DispatchComputeSurfaceAddrFromCoord -* -* @brief -* Compute surface address from given coord (x, y, slice,sample) -* -* @return -* Address in bytes -**************************************************************************************************** -*/ -UINT_64 EgBasedLib::DispatchComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - UINT_32 x = pIn->x; - UINT_32 y = pIn->y; - UINT_32 slice = pIn->slice; - UINT_32 sample = pIn->sample; - UINT_32 bpp = pIn->bpp; - UINT_32 pitch = pIn->pitch; - UINT_32 height = pIn->height; - UINT_32 numSlices = pIn->numSlices; - UINT_32 numSamples = ((pIn->numSamples == 0) ? 1 : pIn->numSamples); - UINT_32 numFrags = ((pIn->numFrags == 0) ? numSamples : pIn->numFrags); - AddrTileMode tileMode = pIn->tileMode; - AddrTileType microTileType = pIn->tileType; - BOOL_32 ignoreSE = pIn->ignoreSE; - BOOL_32 isDepthSampleOrder = pIn->isDepth; - ADDR_TILEINFO* pTileInfo = pIn->pTileInfo; - - UINT_32* pBitPosition = &pOut->bitPosition; - UINT_64 addr; - - // ADDR_DEPTH_SAMPLE_ORDER = non-disp + depth-sample-order - if (microTileType == ADDR_DEPTH_SAMPLE_ORDER) - { - isDepthSampleOrder = TRUE; - } - - if (m_chipFamily >= ADDR_CHIP_FAMILY_NI) - { - if (numFrags != numSamples) - { - numSamples = numFrags; - ADDR_ASSERT(sample < numSamples); - } - - /// @note - /// 128 bit/thick tiled surface doesn't support display tiling and - /// mipmap chain must have the same tileType, so please fill tileType correctly - if (IsLinear(pIn->tileMode) == FALSE) - { - if (bpp >= 128 || Thickness(tileMode) > 1) - { - ADDR_ASSERT(microTileType != ADDR_DISPLAYABLE); - } - } - } - - switch (tileMode) - { - case ADDR_TM_LINEAR_GENERAL://fall through - case ADDR_TM_LINEAR_ALIGNED: - addr = ComputeSurfaceAddrFromCoordLinear(x, - y, - slice, - sample, - bpp, - pitch, - height, - numSlices, - pBitPosition); - break; - case ADDR_TM_1D_TILED_THIN1://fall through - case ADDR_TM_1D_TILED_THICK: - addr = ComputeSurfaceAddrFromCoordMicroTiled(x, - y, - slice, - sample, - bpp, - pitch, - height, - numSamples, - tileMode, - microTileType, - isDepthSampleOrder, - pBitPosition); - break; - case ADDR_TM_2D_TILED_THIN1: //fall through - case ADDR_TM_2D_TILED_THICK: //fall through - case ADDR_TM_3D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THICK: //fall through - case ADDR_TM_2D_TILED_XTHICK: //fall through - case ADDR_TM_3D_TILED_XTHICK: //fall through - case ADDR_TM_PRT_TILED_THIN1: //fall through - case ADDR_TM_PRT_2D_TILED_THIN1://fall through - case ADDR_TM_PRT_3D_TILED_THIN1://fall through - case ADDR_TM_PRT_TILED_THICK: //fall through - case ADDR_TM_PRT_2D_TILED_THICK://fall through - case ADDR_TM_PRT_3D_TILED_THICK: - UINT_32 pipeSwizzle; - UINT_32 bankSwizzle; - - if (m_configFlags.useCombinedSwizzle) - { - ExtractBankPipeSwizzle(pIn->tileSwizzle, pIn->pTileInfo, - &bankSwizzle, &pipeSwizzle); - } - else - { - pipeSwizzle = pIn->pipeSwizzle; - bankSwizzle = pIn->bankSwizzle; - } - - addr = ComputeSurfaceAddrFromCoordMacroTiled(x, - y, - slice, - sample, - bpp, - pitch, - height, - numSamples, - tileMode, - microTileType, - ignoreSE, - isDepthSampleOrder, - pipeSwizzle, - bankSwizzle, - pTileInfo, - pBitPosition); - break; - default: - addr = 0; - ADDR_ASSERT_ALWAYS(); - break; - } - - return addr; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeMacroTileEquation -* -* @brief -* Computes the address equation in macro tile -* @return -* If equation can be computed -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::ComputeMacroTileEquation( - UINT_32 log2BytesPP, ///< [in] log2 of bytes per pixel - AddrTileMode tileMode, ///< [in] tile mode - AddrTileType microTileType, ///< [in] micro tiling type - ADDR_TILEINFO* pTileInfo, ///< [in] bank structure - ADDR_EQUATION* pEquation ///< [out] Equation for addressing in macro tile - ) const -{ - ADDR_E_RETURNCODE retCode; - - // Element equation within a tile - retCode = ComputeMicroTileEquation(log2BytesPP, tileMode, microTileType, pEquation); - - if (retCode == ADDR_OK) - { - // Tile equesiton with signle pipe bank - UINT_32 numPipes = HwlGetPipes(pTileInfo); - UINT_32 numPipeBits = Log2(numPipes); - - for (UINT_32 i = 0; i < Log2(pTileInfo->bankWidth); i++) - { - pEquation->addr[pEquation->numBits].valid = 1; - pEquation->addr[pEquation->numBits].channel = 0; - pEquation->addr[pEquation->numBits].index = i + log2BytesPP + 3 + numPipeBits; - pEquation->numBits++; - } - - for (UINT_32 i = 0; i < Log2(pTileInfo->bankHeight); i++) - { - pEquation->addr[pEquation->numBits].valid = 1; - pEquation->addr[pEquation->numBits].channel = 1; - pEquation->addr[pEquation->numBits].index = i + 3; - pEquation->numBits++; - } - - ADDR_EQUATION equation; - memset(&equation, 0, sizeof(ADDR_EQUATION)); - - UINT_32 thresholdX = 32; - UINT_32 thresholdY = 32; - - if (IsPrtNoRotationTileMode(tileMode)) - { - UINT_32 macroTilePitch = - (MicroTileWidth * pTileInfo->bankWidth * numPipes) * pTileInfo->macroAspectRatio; - UINT_32 macroTileHeight = - (MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks) / - pTileInfo->macroAspectRatio; - thresholdX = Log2(macroTilePitch); - thresholdY = Log2(macroTileHeight); - } - - // Pipe equation - retCode = ComputePipeEquation(log2BytesPP, thresholdX, thresholdY, pTileInfo, &equation); - - if (retCode == ADDR_OK) - { - UINT_32 pipeBitStart = Log2(m_pipeInterleaveBytes); - - if (pEquation->numBits > pipeBitStart) - { - UINT_32 numLeftShift = pEquation->numBits - pipeBitStart; - - for (UINT_32 i = 0; i < numLeftShift; i++) - { - pEquation->addr[pEquation->numBits + equation.numBits - i - 1] = - pEquation->addr[pEquation->numBits - i - 1]; - pEquation->xor1[pEquation->numBits + equation.numBits - i - 1] = - pEquation->xor1[pEquation->numBits - i - 1]; - pEquation->xor2[pEquation->numBits + equation.numBits - i - 1] = - pEquation->xor2[pEquation->numBits - i - 1]; - } - } - - for (UINT_32 i = 0; i < equation.numBits; i++) - { - pEquation->addr[pipeBitStart + i] = equation.addr[i]; - pEquation->xor1[pipeBitStart + i] = equation.xor1[i]; - pEquation->xor2[pipeBitStart + i] = equation.xor2[i]; - pEquation->numBits++; - } - - // Bank equation - memset(&equation, 0, sizeof(ADDR_EQUATION)); - - retCode = ComputeBankEquation(log2BytesPP, thresholdX, thresholdY, - pTileInfo, &equation); - - if (retCode == ADDR_OK) - { - UINT_32 bankBitStart = pipeBitStart + numPipeBits + Log2(m_bankInterleave); - - if (pEquation->numBits > bankBitStart) - { - UINT_32 numLeftShift = pEquation->numBits - bankBitStart; - - for (UINT_32 i = 0; i < numLeftShift; i++) - { - pEquation->addr[pEquation->numBits + equation.numBits - i - 1] = - pEquation->addr[pEquation->numBits - i - 1]; - pEquation->xor1[pEquation->numBits + equation.numBits - i - 1] = - pEquation->xor1[pEquation->numBits - i - 1]; - pEquation->xor2[pEquation->numBits + equation.numBits - i - 1] = - pEquation->xor2[pEquation->numBits - i - 1]; - } - } - - for (UINT_32 i = 0; i < equation.numBits; i++) - { - pEquation->addr[bankBitStart + i] = equation.addr[i]; - pEquation->xor1[bankBitStart + i] = equation.xor1[i]; - pEquation->xor2[bankBitStart + i] = equation.xor2[i]; - pEquation->numBits++; - } - } - } - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceAddrFromCoordMicroTiled -* -* @brief -* Computes the surface address and bit position from a -* coordinate for 2D tilied (macro tiled) -* @return -* The byte address -**************************************************************************************************** -*/ -UINT_64 EgBasedLib::ComputeSurfaceAddrFromCoordMacroTiled( - UINT_32 x, ///< [in] x coordinate - UINT_32 y, ///< [in] y coordinate - UINT_32 slice, ///< [in] slice index - UINT_32 sample, ///< [in] sample index - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 pitch, ///< [in] surface pitch, in pixels - UINT_32 height, ///< [in] surface height, in pixels - UINT_32 numSamples, ///< [in] number of samples - AddrTileMode tileMode, ///< [in] tile mode - AddrTileType microTileType, ///< [in] micro tiling type - BOOL_32 ignoreSE, ///< [in] TRUE if shader enginers can be ignored - BOOL_32 isDepthSampleOrder, ///< [in] TRUE if it depth sample ordering is used - UINT_32 pipeSwizzle, ///< [in] pipe swizzle - UINT_32 bankSwizzle, ///< [in] bank swizzle - ADDR_TILEINFO* pTileInfo, ///< [in] bank structure - /// **All fields to be valid on entry** - UINT_32* pBitPosition ///< [out] bit position, e.g. FMT_1 will use this - ) const -{ - UINT_64 addr; - - UINT_32 microTileBytes; - UINT_32 microTileBits; - UINT_32 sampleOffset; - UINT_32 pixelIndex; - UINT_32 pixelOffset; - UINT_32 elementOffset; - UINT_32 tileSplitSlice; - UINT_32 pipe; - UINT_32 bank; - UINT_64 sliceBytes; - UINT_64 sliceOffset; - UINT_32 macroTilePitch; - UINT_32 macroTileHeight; - UINT_32 macroTilesPerRow; - UINT_32 macroTilesPerSlice; - UINT_64 macroTileBytes; - UINT_32 macroTileIndexX; - UINT_32 macroTileIndexY; - UINT_64 macroTileOffset; - UINT_64 totalOffset; - UINT_64 pipeInterleaveMask; - UINT_64 bankInterleaveMask; - UINT_64 pipeInterleaveOffset; - UINT_32 bankInterleaveOffset; - UINT_64 offset; - UINT_32 tileRowIndex; - UINT_32 tileColumnIndex; - UINT_32 tileIndex; - UINT_32 tileOffset; - - UINT_32 microTileThickness = Thickness(tileMode); - - // - // Compute the number of group, pipe, and bank bits. - // - UINT_32 numPipes = HwlGetPipes(pTileInfo); - UINT_32 numPipeInterleaveBits = Log2(m_pipeInterleaveBytes); - UINT_32 numPipeBits = Log2(numPipes); - UINT_32 numBankInterleaveBits = Log2(m_bankInterleave); - UINT_32 numBankBits = Log2(pTileInfo->banks); - - // - // Compute the micro tile size. - // - microTileBits = MicroTilePixels * microTileThickness * bpp * numSamples; - - microTileBytes = microTileBits / 8; - // - // Compute the pixel index within the micro tile. - // - pixelIndex = ComputePixelIndexWithinMicroTile(x, - y, - slice, - bpp, - tileMode, - microTileType); - - // - // Compute the sample offset and pixel offset. - // - if (isDepthSampleOrder) - { - // - // For depth surfaces, samples are stored contiguously for each element, so the sample - // offset is the sample number times the element size. - // - sampleOffset = sample * bpp; - pixelOffset = pixelIndex * bpp * numSamples; - } - else - { - // - // For color surfaces, all elements for a particular sample are stored contiguously, so - // the sample offset is the sample number times the micro tile size divided yBit the number - // of samples. - // - sampleOffset = sample * (microTileBits / numSamples); - pixelOffset = pixelIndex * bpp; - } - - // - // Compute the element offset. - // - elementOffset = pixelOffset + sampleOffset; - - *pBitPosition = static_cast(elementOffset % 8); - - elementOffset /= 8; //bit-to-byte - - // - // Determine if tiles need to be split across slices. - // - // If the size of the micro tile is larger than the tile split size, then the tile will be - // split across multiple slices. - // - UINT_32 slicesPerTile = 1; - - if ((microTileBytes > pTileInfo->tileSplitBytes) && (microTileThickness == 1)) - { //don't support for thick mode - - // - // Compute the number of slices per tile. - // - slicesPerTile = microTileBytes / pTileInfo->tileSplitBytes; - - // - // Compute the tile split slice number for use in rotating the bank. - // - tileSplitSlice = elementOffset / pTileInfo->tileSplitBytes; - - // - // Adjust the element offset to account for the portion of the tile that is being moved to - // a new slice.. - // - elementOffset %= pTileInfo->tileSplitBytes; - - // - // Adjust the microTileBytes size to tileSplitBytes size since - // a new slice.. - // - microTileBytes = pTileInfo->tileSplitBytes; - } - else - { - tileSplitSlice = 0; - } - - // - // Compute macro tile pitch and height. - // - macroTilePitch = - (MicroTileWidth * pTileInfo->bankWidth * numPipes) * pTileInfo->macroAspectRatio; - macroTileHeight = - (MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks) / pTileInfo->macroAspectRatio; - - // - // Compute the number of bytes per macro tile. Note: bytes of the same bank/pipe actually - // - macroTileBytes = - static_cast(microTileBytes) * - (macroTilePitch / MicroTileWidth) * (macroTileHeight / MicroTileHeight) / - (numPipes * pTileInfo->banks); - - // - // Compute the number of macro tiles per row. - // - macroTilesPerRow = pitch / macroTilePitch; - - // - // Compute the offset to the macro tile containing the specified coordinate. - // - macroTileIndexX = x / macroTilePitch; - macroTileIndexY = y / macroTileHeight; - macroTileOffset = ((macroTileIndexY * macroTilesPerRow) + macroTileIndexX) * macroTileBytes; - - // - // Compute the number of macro tiles per slice. - // - macroTilesPerSlice = macroTilesPerRow * (height / macroTileHeight); - - // - // Compute the slice size. - // - sliceBytes = macroTilesPerSlice * macroTileBytes; - - // - // Compute the slice offset. - // - sliceOffset = sliceBytes * (tileSplitSlice + slicesPerTile * (slice / microTileThickness)); - - // - // Compute tile offest - // - tileRowIndex = (y / MicroTileHeight) % pTileInfo->bankHeight; - tileColumnIndex = ((x / MicroTileWidth) / numPipes) % pTileInfo->bankWidth; - tileIndex = (tileRowIndex * pTileInfo->bankWidth) + tileColumnIndex; - tileOffset = tileIndex * microTileBytes; - - // - // Combine the slice offset and macro tile offset with the pixel and sample offsets, accounting - // for the pipe and bank bits in the middle of the address. - // - totalOffset = sliceOffset + macroTileOffset + elementOffset + tileOffset; - - // - // Get the pipe and bank. - // - - // when the tileMode is PRT type, then adjust x and y coordinates - if (IsPrtNoRotationTileMode(tileMode)) - { - x = x % macroTilePitch; - y = y % macroTileHeight; - } - - pipe = ComputePipeFromCoord(x, - y, - slice, - tileMode, - pipeSwizzle, - ignoreSE, - pTileInfo); - - bank = ComputeBankFromCoord(x, - y, - slice, - tileMode, - bankSwizzle, - tileSplitSlice, - pTileInfo); - - - // - // Split the offset to put some bits below the pipe+bank bits and some above. - // - pipeInterleaveMask = (1 << numPipeInterleaveBits) - 1; - bankInterleaveMask = (1 << numBankInterleaveBits) - 1; - pipeInterleaveOffset = totalOffset & pipeInterleaveMask; - bankInterleaveOffset = static_cast((totalOffset >> numPipeInterleaveBits) & - bankInterleaveMask); - offset = totalOffset >> (numPipeInterleaveBits + numBankInterleaveBits); - - // - // Assemble the address from its components. - // - addr = pipeInterleaveOffset; - // This is to remove /analyze warnings - UINT_32 pipeBits = pipe << numPipeInterleaveBits; - UINT_32 bankInterleaveBits = bankInterleaveOffset << (numPipeInterleaveBits + numPipeBits); - UINT_32 bankBits = bank << (numPipeInterleaveBits + numPipeBits + - numBankInterleaveBits); - UINT_64 offsetBits = offset << (numPipeInterleaveBits + numPipeBits + - numBankInterleaveBits + numBankBits); - - addr |= pipeBits; - addr |= bankInterleaveBits; - addr |= bankBits; - addr |= offsetBits; - - return addr; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceAddrFromCoordMicroTiled -* -* @brief -* Computes the surface address and bit position from a coordinate for 1D tilied -* (micro tiled) -* @return -* The byte address -**************************************************************************************************** -*/ -UINT_64 EgBasedLib::ComputeSurfaceAddrFromCoordMicroTiled( - UINT_32 x, ///< [in] x coordinate - UINT_32 y, ///< [in] y coordinate - UINT_32 slice, ///< [in] slice index - UINT_32 sample, ///< [in] sample index - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 pitch, ///< [in] pitch, in pixels - UINT_32 height, ///< [in] height, in pixels - UINT_32 numSamples, ///< [in] number of samples - AddrTileMode tileMode, ///< [in] tile mode - AddrTileType microTileType, ///< [in] micro tiling type - BOOL_32 isDepthSampleOrder, ///< [in] TRUE if depth sample ordering is used - UINT_32* pBitPosition ///< [out] bit position, e.g. FMT_1 will use this - ) const -{ - UINT_64 addr = 0; - - UINT_32 microTileBytes; - UINT_64 sliceBytes; - UINT_32 microTilesPerRow; - UINT_32 microTileIndexX; - UINT_32 microTileIndexY; - UINT_32 microTileIndexZ; - UINT_64 sliceOffset; - UINT_64 microTileOffset; - UINT_32 sampleOffset; - UINT_32 pixelIndex; - UINT_32 pixelOffset; - - UINT_32 microTileThickness = Thickness(tileMode); - - // - // Compute the micro tile size. - // - microTileBytes = BITS_TO_BYTES(MicroTilePixels * microTileThickness * bpp * numSamples); - - // - // Compute the slice size. - // - sliceBytes = - BITS_TO_BYTES(static_cast(pitch) * height * microTileThickness * bpp * numSamples); - - // - // Compute the number of micro tiles per row. - // - microTilesPerRow = pitch / MicroTileWidth; - - // - // Compute the micro tile index. - // - microTileIndexX = x / MicroTileWidth; - microTileIndexY = y / MicroTileHeight; - microTileIndexZ = slice / microTileThickness; - - // - // Compute the slice offset. - // - sliceOffset = static_cast(microTileIndexZ) * sliceBytes; - - // - // Compute the offset to the micro tile containing the specified coordinate. - // - microTileOffset = (static_cast(microTileIndexY) * microTilesPerRow + microTileIndexX) * - microTileBytes; - - // - // Compute the pixel index within the micro tile. - // - pixelIndex = ComputePixelIndexWithinMicroTile(x, - y, - slice, - bpp, - tileMode, - microTileType); - - // Compute the sample offset. - // - if (isDepthSampleOrder) - { - // - // For depth surfaces, samples are stored contiguously for each element, so the sample - // offset is the sample number times the element size. - // - sampleOffset = sample * bpp; - pixelOffset = pixelIndex * bpp * numSamples; - } - else - { - // - // For color surfaces, all elements for a particular sample are stored contiguously, so - // the sample offset is the sample number times the micro tile size divided yBit the number - // of samples. - // - sampleOffset = sample * (microTileBytes*8 / numSamples); - pixelOffset = pixelIndex * bpp; - } - - // - // Compute the bit position of the pixel. Each element is stored with one bit per sample. - // - - UINT_32 elemOffset = sampleOffset + pixelOffset; - - *pBitPosition = elemOffset % 8; - elemOffset /= 8; - - // - // Combine the slice offset, micro tile offset, sample offset, and pixel offsets. - // - addr = sliceOffset + microTileOffset + elemOffset; - - return addr; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputePixelCoordFromOffset -* -* @brief -* Compute pixel coordinate from offset inside a micro tile -* @return -* N/A -**************************************************************************************************** -*/ -VOID EgBasedLib::HwlComputePixelCoordFromOffset( - UINT_32 offset, ///< [in] offset inside micro tile in bits - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 numSamples, ///< [in] number of samples - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 tileBase, ///< [in] base offset within a tile - UINT_32 compBits, ///< [in] component bits actually needed(for planar surface) - UINT_32* pX, ///< [out] x coordinate - UINT_32* pY, ///< [out] y coordinate - UINT_32* pSlice, ///< [out] slice index - UINT_32* pSample, ///< [out] sample index - AddrTileType microTileType, ///< [in] micro tiling type - BOOL_32 isDepthSampleOrder ///< [in] TRUE if depth sample order in microtile is used - ) const -{ - UINT_32 x = 0; - UINT_32 y = 0; - UINT_32 z = 0; - UINT_32 thickness = Thickness(tileMode); - - // For planar surface, we adjust offset acoording to tile base - if ((bpp != compBits) && (compBits != 0) && isDepthSampleOrder) - { - offset -= tileBase; - - ADDR_ASSERT(microTileType == ADDR_NON_DISPLAYABLE || - microTileType == ADDR_DEPTH_SAMPLE_ORDER); - - bpp = compBits; - } - - UINT_32 sampleTileBits; - UINT_32 samplePixelBits; - UINT_32 pixelIndex; - - if (isDepthSampleOrder) - { - samplePixelBits = bpp * numSamples; - pixelIndex = offset / samplePixelBits; - *pSample = (offset % samplePixelBits) / bpp; - } - else - { - sampleTileBits = MicroTilePixels * bpp * thickness; - *pSample = offset / sampleTileBits; - pixelIndex = (offset % sampleTileBits) / bpp; - } - - if (microTileType != ADDR_THICK) - { - if (microTileType == ADDR_DISPLAYABLE) // displayable - { - switch (bpp) - { - case 8: - x = pixelIndex & 0x7; - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,3),_BIT(pixelIndex,4)); - break; - case 16: - x = pixelIndex & 0x7; - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,3)); - break; - case 32: - x = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,1),_BIT(pixelIndex,0)); - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,2)); - break; - case 64: - x = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,1)); - break; - case 128: - x = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,2),_BIT(pixelIndex,1)); - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,0)); - break; - default: - break; - } - } - else if (microTileType == ADDR_NON_DISPLAYABLE || microTileType == ADDR_DEPTH_SAMPLE_ORDER) - { - x = Bits2Number(3, _BIT(pixelIndex,4),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,3),_BIT(pixelIndex,1)); - } - else if (microTileType == ADDR_ROTATED) - { - /* - 8-Bit Elements - element_index[5:0] = { x[2], x[0], x[1], y[2], y[1], y[0] } - - 16-Bit Elements - element_index[5:0] = { x[2], x[1], x[0], y[2], y[1], y[0] } - - 32-Bit Elements - element_index[5:0] = { x[2], x[1], y[2], x[0], y[1], y[0] } - - 64-Bit Elements - element_index[5:0] = { y[2], x[2], x[1], y[1], x[0], y[0] } - */ - switch(bpp) - { - case 8: - x = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,3),_BIT(pixelIndex,4)); - y = pixelIndex & 0x7; - break; - case 16: - x = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,3)); - y = pixelIndex & 0x7; - break; - case 32: - x = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,2)); - y = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,1),_BIT(pixelIndex,0)); - break; - case 64: - x = Bits2Number(3, _BIT(pixelIndex,4),_BIT(pixelIndex,3),_BIT(pixelIndex,1)); - y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - - if (thickness > 1) // thick - { - z = Bits2Number(3, _BIT(pixelIndex,8),_BIT(pixelIndex,7),_BIT(pixelIndex,6)); - } - } - else - { - ADDR_ASSERT((m_chipFamily >= ADDR_CHIP_FAMILY_CI) && (thickness > 1)); - /* - 8-Bit Elements and 16-Bit Elements - element_index[7:0] = { y[2], x[2], z[1], z[0], y[1], x[1], y[0], x[0] } - - 32-Bit Elements - element_index[7:0] = { y[2], x[2], z[1], y[1], z[0], x[1], y[0], x[0] } - - 64-Bit Elements and 128-Bit Elements - element_index[7:0] = { y[2], x[2], z[1], y[1], x[1], z[0], y[0], x[0] } - - The equation to compute the element index for the extra thick tile: - element_index[8] = z[2] - */ - switch (bpp) - { - case 8: - case 16: // fall-through - x = Bits2Number(3, _BIT(pixelIndex,6),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); - y = Bits2Number(3, _BIT(pixelIndex,7),_BIT(pixelIndex,3),_BIT(pixelIndex,1)); - z = Bits2Number(2, _BIT(pixelIndex,5),_BIT(pixelIndex,4)); - break; - case 32: - x = Bits2Number(3, _BIT(pixelIndex,6),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); - y = Bits2Number(3, _BIT(pixelIndex,7),_BIT(pixelIndex,4),_BIT(pixelIndex,1)); - z = Bits2Number(2, _BIT(pixelIndex,5),_BIT(pixelIndex,3)); - break; - case 64: - case 128: // fall-through - x = Bits2Number(3, _BIT(pixelIndex,6),_BIT(pixelIndex,3),_BIT(pixelIndex,0)); - y = Bits2Number(3, _BIT(pixelIndex,7),_BIT(pixelIndex,4),_BIT(pixelIndex,1)); - z = Bits2Number(2, _BIT(pixelIndex,5),_BIT(pixelIndex,2)); - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - if (thickness == 8) - { - z += Bits2Number(3,_BIT(pixelIndex,8),0,0); - } - } - - *pX = x; - *pY = y; - *pSlice += z; -} - - -/** -**************************************************************************************************** -* EgBasedLib::DispatchComputeSurfaceCoordFromAddrDispatch -* -* @brief -* Compute (x,y,slice,sample) coordinates from surface address -* @return -* N/A -**************************************************************************************************** -*/ -VOID EgBasedLib::DispatchComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - UINT_64 addr = pIn->addr; - UINT_32 bitPosition = pIn->bitPosition; - UINT_32 bpp = pIn->bpp; - UINT_32 pitch = pIn->pitch; - UINT_32 height = pIn->height; - UINT_32 numSlices = pIn->numSlices; - UINT_32 numSamples = ((pIn->numSamples == 0) ? 1 : pIn->numSamples); - UINT_32 numFrags = ((pIn->numFrags == 0) ? numSamples : pIn->numFrags); - AddrTileMode tileMode = pIn->tileMode; - UINT_32 tileBase = pIn->tileBase; - UINT_32 compBits = pIn->compBits; - AddrTileType microTileType = pIn->tileType; - BOOL_32 ignoreSE = pIn->ignoreSE; - BOOL_32 isDepthSampleOrder = pIn->isDepth; - ADDR_TILEINFO* pTileInfo = pIn->pTileInfo; - - UINT_32* pX = &pOut->x; - UINT_32* pY = &pOut->y; - UINT_32* pSlice = &pOut->slice; - UINT_32* pSample = &pOut->sample; - - if (microTileType == ADDR_DEPTH_SAMPLE_ORDER) - { - isDepthSampleOrder = TRUE; - } - - if (m_chipFamily >= ADDR_CHIP_FAMILY_NI) - { - if (numFrags != numSamples) - { - numSamples = numFrags; - } - - /// @note - /// 128 bit/thick tiled surface doesn't support display tiling and - /// mipmap chain must have the same tileType, so please fill tileType correctly - if (IsLinear(pIn->tileMode) == FALSE) - { - if (bpp >= 128 || Thickness(tileMode) > 1) - { - ADDR_ASSERT(microTileType != ADDR_DISPLAYABLE); - } - } - } - - switch (tileMode) - { - case ADDR_TM_LINEAR_GENERAL://fall through - case ADDR_TM_LINEAR_ALIGNED: - ComputeSurfaceCoordFromAddrLinear(addr, - bitPosition, - bpp, - pitch, - height, - numSlices, - pX, - pY, - pSlice, - pSample); - break; - case ADDR_TM_1D_TILED_THIN1://fall through - case ADDR_TM_1D_TILED_THICK: - ComputeSurfaceCoordFromAddrMicroTiled(addr, - bitPosition, - bpp, - pitch, - height, - numSamples, - tileMode, - tileBase, - compBits, - pX, - pY, - pSlice, - pSample, - microTileType, - isDepthSampleOrder); - break; - case ADDR_TM_2D_TILED_THIN1: //fall through - case ADDR_TM_2D_TILED_THICK: //fall through - case ADDR_TM_3D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THICK: //fall through - case ADDR_TM_2D_TILED_XTHICK: //fall through - case ADDR_TM_3D_TILED_XTHICK: //fall through - case ADDR_TM_PRT_TILED_THIN1: //fall through - case ADDR_TM_PRT_2D_TILED_THIN1://fall through - case ADDR_TM_PRT_3D_TILED_THIN1://fall through - case ADDR_TM_PRT_TILED_THICK: //fall through - case ADDR_TM_PRT_2D_TILED_THICK://fall through - case ADDR_TM_PRT_3D_TILED_THICK: - UINT_32 pipeSwizzle; - UINT_32 bankSwizzle; - - if (m_configFlags.useCombinedSwizzle) - { - ExtractBankPipeSwizzle(pIn->tileSwizzle, pIn->pTileInfo, - &bankSwizzle, &pipeSwizzle); - } - else - { - pipeSwizzle = pIn->pipeSwizzle; - bankSwizzle = pIn->bankSwizzle; - } - - ComputeSurfaceCoordFromAddrMacroTiled(addr, - bitPosition, - bpp, - pitch, - height, - numSamples, - tileMode, - tileBase, - compBits, - microTileType, - ignoreSE, - isDepthSampleOrder, - pipeSwizzle, - bankSwizzle, - pTileInfo, - pX, - pY, - pSlice, - pSample); - break; - default: - ADDR_ASSERT_ALWAYS(); - } -} - - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceCoordFromAddrMacroTiled -* -* @brief -* Compute surface coordinates from address for macro tiled surface -* @return -* N/A -**************************************************************************************************** -*/ -VOID EgBasedLib::ComputeSurfaceCoordFromAddrMacroTiled( - UINT_64 addr, ///< [in] byte address - UINT_32 bitPosition, ///< [in] bit position - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 pitch, ///< [in] pitch in pixels - UINT_32 height, ///< [in] height in pixels - UINT_32 numSamples, ///< [in] number of samples - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 tileBase, ///< [in] tile base offset - UINT_32 compBits, ///< [in] component bits (for planar surface) - AddrTileType microTileType, ///< [in] micro tiling type - BOOL_32 ignoreSE, ///< [in] TRUE if shader engines can be ignored - BOOL_32 isDepthSampleOrder, ///< [in] TRUE if depth sample order is used - UINT_32 pipeSwizzle, ///< [in] pipe swizzle - UINT_32 bankSwizzle, ///< [in] bank swizzle - ADDR_TILEINFO* pTileInfo, ///< [in] bank structure. - /// **All fields to be valid on entry** - UINT_32* pX, ///< [out] X coord - UINT_32* pY, ///< [out] Y coord - UINT_32* pSlice, ///< [out] slice index - UINT_32* pSample ///< [out] sample index - ) const -{ - UINT_32 mx; - UINT_32 my; - UINT_64 tileBits; - UINT_64 macroTileBits; - UINT_32 slices; - UINT_32 tileSlices; - UINT_64 elementOffset; - UINT_64 macroTileIndex; - UINT_32 tileIndex; - UINT_64 totalOffset; - - - UINT_32 bank; - UINT_32 pipe; - UINT_32 groupBits = m_pipeInterleaveBytes << 3; - UINT_32 pipes = HwlGetPipes(pTileInfo); - UINT_32 banks = pTileInfo->banks; - - UINT_32 bankInterleave = m_bankInterleave; - - UINT_64 addrBits = BYTES_TO_BITS(addr) + bitPosition; - - // - // remove bits for bank and pipe - // - totalOffset = (addrBits % groupBits) + - (((addrBits / groupBits / pipes) % bankInterleave) * groupBits) + - (((addrBits / groupBits / pipes) / bankInterleave) / banks) * groupBits * bankInterleave; - - UINT_32 microTileThickness = Thickness(tileMode); - - UINT_32 microTileBits = bpp * microTileThickness * MicroTilePixels * numSamples; - - UINT_32 microTileBytes = BITS_TO_BYTES(microTileBits); - // - // Determine if tiles need to be split across slices. - // - // If the size of the micro tile is larger than the tile split size, then the tile will be - // split across multiple slices. - // - UINT_32 slicesPerTile = 1; //_State->TileSlices - - if ((microTileBytes > pTileInfo->tileSplitBytes) && (microTileThickness == 1)) - { //don't support for thick mode - - // - // Compute the number of slices per tile. - // - slicesPerTile = microTileBytes / pTileInfo->tileSplitBytes; - } - - tileBits = microTileBits / slicesPerTile; // micro tile bits - - // in micro tiles because not MicroTileWidth timed. - UINT_32 macroWidth = pTileInfo->bankWidth * pipes * pTileInfo->macroAspectRatio; - // in micro tiles as well - UINT_32 macroHeight = pTileInfo->bankHeight * banks / pTileInfo->macroAspectRatio; - - UINT_32 pitchInMacroTiles = pitch / MicroTileWidth / macroWidth; - - macroTileBits = (macroWidth * macroHeight) * tileBits / (banks * pipes); - - macroTileIndex = totalOffset / macroTileBits; - - // pitchMacros * height / heightMacros; macroTilesPerSlice == _State->SliceMacros - UINT_32 macroTilesPerSlice = (pitch / (macroWidth * MicroTileWidth)) * height / - (macroHeight * MicroTileWidth); - - slices = static_cast(macroTileIndex / macroTilesPerSlice); - - *pSlice = static_cast(slices / slicesPerTile * microTileThickness); - - // - // calculate element offset and x[2:0], y[2:0], z[1:0] for thick - // - tileSlices = slices % slicesPerTile; - - elementOffset = tileSlices * tileBits; - elementOffset += totalOffset % tileBits; - - UINT_32 coordZ = 0; - - HwlComputePixelCoordFromOffset(static_cast(elementOffset), - bpp, - numSamples, - tileMode, - tileBase, - compBits, - pX, - pY, - &coordZ, - pSample, - microTileType, - isDepthSampleOrder); - - macroTileIndex = macroTileIndex % macroTilesPerSlice; - *pY += static_cast(macroTileIndex / pitchInMacroTiles * macroHeight * MicroTileHeight); - *pX += static_cast(macroTileIndex % pitchInMacroTiles * macroWidth * MicroTileWidth); - - *pSlice += coordZ; - - tileIndex = static_cast((totalOffset % macroTileBits) / tileBits); - - my = (tileIndex / pTileInfo->bankWidth) % pTileInfo->bankHeight * MicroTileHeight; - mx = (tileIndex % pTileInfo->bankWidth) * pipes * MicroTileWidth; - - *pY += my; - *pX += mx; - - bank = ComputeBankFromAddr(addr, banks, pipes); - pipe = ComputePipeFromAddr(addr, pipes); - - HwlComputeSurfaceCoord2DFromBankPipe(tileMode, - pX, - pY, - *pSlice, - bank, - pipe, - bankSwizzle, - pipeSwizzle, - tileSlices, - ignoreSE, - pTileInfo); -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSurfaceCoord2DFromBankPipe -* -* @brief -* Compute surface x,y coordinates from bank/pipe info -* @return -* N/A -**************************************************************************************************** -*/ -VOID EgBasedLib::ComputeSurfaceCoord2DFromBankPipe( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 x, ///< [in] x coordinate - UINT_32 y, ///< [in] y coordinate - UINT_32 slice, ///< [in] slice index - UINT_32 bank, ///< [in] bank number - UINT_32 pipe, ///< [in] pipe number - UINT_32 bankSwizzle,///< [in] bank swizzle - UINT_32 pipeSwizzle,///< [in] pipe swizzle - UINT_32 tileSlices, ///< [in] slices in a micro tile - ADDR_TILEINFO* pTileInfo, ///< [in] bank structure. **All fields to be valid on entry** - CoordFromBankPipe* pOutput ///< [out] pointer to extracted x/y bits - ) const -{ - UINT_32 yBit3 = 0; - UINT_32 yBit4 = 0; - UINT_32 yBit5 = 0; - UINT_32 yBit6 = 0; - - UINT_32 xBit3 = 0; - UINT_32 xBit4 = 0; - UINT_32 xBit5 = 0; - - UINT_32 tileSplitRotation; - - UINT_32 numPipes = HwlGetPipes(pTileInfo); - - UINT_32 bankRotation = ComputeBankRotation(tileMode, - pTileInfo->banks, numPipes); - - UINT_32 pipeRotation = ComputePipeRotation(tileMode, numPipes); - - UINT_32 xBit = x / (MicroTileWidth * pTileInfo->bankWidth * numPipes); - UINT_32 yBit = y / (MicroTileHeight * pTileInfo->bankHeight); - - //calculate the bank and pipe before rotation and swizzle - - switch (tileMode) - { - case ADDR_TM_2D_TILED_THIN1: //fall through - case ADDR_TM_2D_TILED_THICK: //fall through - case ADDR_TM_2D_TILED_XTHICK: //fall through - case ADDR_TM_3D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THICK: //fall through - case ADDR_TM_3D_TILED_XTHICK: - tileSplitRotation = ((pTileInfo->banks / 2) + 1); - break; - default: - tileSplitRotation = 0; - break; - } - - UINT_32 microTileThickness = Thickness(tileMode); - - bank ^= tileSplitRotation * tileSlices; - if (pipeRotation == 0) - { - bank ^= bankRotation * (slice / microTileThickness) + bankSwizzle; - bank %= pTileInfo->banks; - pipe ^= pipeSwizzle; - } - else - { - bank ^= bankRotation * (slice / microTileThickness) / numPipes + bankSwizzle; - bank %= pTileInfo->banks; - pipe ^= pipeRotation * (slice / microTileThickness) + pipeSwizzle; - } - - if (pTileInfo->macroAspectRatio == 1) - { - switch (pTileInfo->banks) - { - case 2: - yBit3 = _BIT(bank, 0) ^ _BIT(xBit,0); - break; - case 4: - yBit4 = _BIT(bank, 0) ^ _BIT(xBit,0); - yBit3 = _BIT(bank, 1) ^ _BIT(xBit,1); - break; - case 8: - yBit3 = _BIT(bank, 2) ^ _BIT(xBit,2); - yBit5 = _BIT(bank, 0) ^ _BIT(xBit,0); - yBit4 = _BIT(bank, 1) ^ _BIT(xBit,1) ^ yBit5; - break; - case 16: - yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); - yBit4 = _BIT(bank, 2) ^ _BIT(xBit, 2); - yBit6 = _BIT(bank, 0) ^ _BIT(xBit, 0); - yBit5 = _BIT(bank, 1) ^ _BIT(xBit, 1) ^ yBit6; - break; - default: - break; - } - - } - else if (pTileInfo->macroAspectRatio == 2) - { - switch (pTileInfo->banks) - { - case 2: //xBit3 = yBit3^b0 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit,0); - break; - case 4: //xBit3=yBit4^b0; yBit3=xBit4^b1 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit,1); - yBit3 = _BIT(bank, 1) ^ _BIT(xBit,1); - break; - case 8: //xBit4, xBit5, yBit5 are known - xBit3 = _BIT(bank, 0) ^ _BIT(yBit,2); - yBit3 = _BIT(bank, 2) ^ _BIT(xBit,2); - yBit4 = _BIT(bank, 1) ^ _BIT(xBit,1) ^ _BIT(yBit, 2); - break; - case 16://x4,x5,x6,y6 are known - xBit3 = _BIT(bank, 0) ^ _BIT(yBit, 3); //x3 = y6 ^ b0 - yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); //y3 = x6 ^ b3 - yBit4 = _BIT(bank, 2) ^ _BIT(xBit, 2); //y4 = x5 ^ b2 - yBit5 = _BIT(bank, 1) ^ _BIT(xBit, 1) ^ _BIT(yBit, 3); //y5=x4^y6^b1 - break; - default: - break; - } - } - else if (pTileInfo->macroAspectRatio == 4) - { - switch (pTileInfo->banks) - { - case 4: //yBit3, yBit4 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit,1); - xBit4 = _BIT(bank, 1) ^ _BIT(yBit,0); - break; - case 8: //xBit5, yBit4, yBit5 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit,2); - yBit3 = _BIT(bank, 2) ^ _BIT(xBit,2); - xBit4 = _BIT(bank, 1) ^ _BIT(yBit,1) ^ _BIT(yBit,2); - break; - case 16: //xBit5, xBit6, yBit5, yBit6 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit, 3);//x3 = b0 ^ y6 - xBit4 = _BIT(bank, 1) ^ _BIT(yBit, 2) ^ _BIT(yBit, 3);//x4 = b1 ^ y5 ^ y6; - yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); //y3 = b3 ^ x6; - yBit4 = _BIT(bank, 2) ^ _BIT(xBit, 2); //y4 = b2 ^ x5; - break; - default: - break; - } - } - else if (pTileInfo->macroAspectRatio == 8) - { - switch (pTileInfo->banks) - { - case 8: //yBit3, yBit4, yBit5 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit,2); //x3 = b0 ^ y5; - xBit4 = _BIT(bank, 1) ^ _BIT(yBit,1) ^ _BIT(yBit, 2);//x4 = b1 ^ y4 ^ y5; - xBit5 = _BIT(bank, 2) ^ _BIT(yBit,0); - break; - case 16: //xBit6, yBit4, yBit5, yBit6 - xBit3 = _BIT(bank, 0) ^ _BIT(yBit, 3);//x3 = y6 ^ b0 - xBit4 = _BIT(bank, 1) ^ _BIT(yBit, 2) ^ _BIT(yBit, 3);//x4 = y5 ^ y6 ^ b1 - xBit5 = _BIT(bank, 2) ^ _BIT(yBit, 1);//x5 = y4 ^ b2 - yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); //y3 = x6 ^ b3 - break; - default: - break; - } - } - - pOutput->xBits = xBit; - pOutput->yBits = yBit; - - pOutput->xBit3 = xBit3; - pOutput->xBit4 = xBit4; - pOutput->xBit5 = xBit5; - pOutput->yBit3 = yBit3; - pOutput->yBit4 = yBit4; - pOutput->yBit5 = yBit5; - pOutput->yBit6 = yBit6; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlExtractBankPipeSwizzle -* @brief -* Entry of EgBasedLib ExtractBankPipeSwizzle -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlExtractBankPipeSwizzle( - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut ///< [out] output structure - ) const -{ - ExtractBankPipeSwizzle(pIn->base256b, - pIn->pTileInfo, - &pOut->bankSwizzle, - &pOut->pipeSwizzle); - - return ADDR_OK; -} - - -/** -**************************************************************************************************** -* EgBasedLib::HwlCombineBankPipeSwizzle -* @brief -* Combine bank/pipe swizzle -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlCombineBankPipeSwizzle( - UINT_32 bankSwizzle, ///< [in] bank swizzle - UINT_32 pipeSwizzle, ///< [in] pipe swizzle - ADDR_TILEINFO* pTileInfo, ///< [in] tile info - UINT_64 baseAddr, ///< [in] base address - UINT_32* pTileSwizzle ///< [out] combined swizzle - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - if (pTileSwizzle) - { - *pTileSwizzle = GetBankPipeSwizzle(bankSwizzle, pipeSwizzle, baseAddr, pTileInfo); - } - else - { - retCode = ADDR_INVALIDPARAMS; - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeBaseSwizzle -* @brief -* Compute base swizzle -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeBaseSwizzle( - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut - ) const -{ - UINT_32 bankSwizzle = 0; - UINT_32 pipeSwizzle = 0; - ADDR_TILEINFO* pTileInfo = pIn->pTileInfo; - - ADDR_ASSERT(IsMacroTiled(pIn->tileMode)); - ADDR_ASSERT(pIn->pTileInfo); - - /// This is a legacy misreading of h/w doc, use it as it doesn't hurt. - static const UINT_8 bankRotationArray[4][16] = { - { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, // ADDR_SURF_2_BANK - { 0, 1, 2, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, // ADDR_SURF_4_BANK - { 0, 3, 6, 1, 4, 7, 2, 5, 0, 0, 0, 0, 0, 0, 0, 0 }, // ADDR_SURF_8_BANK - { 0, 7, 14, 5, 12, 3, 10, 1, 8, 15, 6, 13, 4, 11, 2, 9 }, // ADDR_SURF_16_BANK - }; - - UINT_32 pipes = HwlGetPipes(pTileInfo); - (void)pipes; - UINT_32 banks = pTileInfo ? pTileInfo->banks : 2; - UINT_32 hwNumBanks; - - // Uses less bank swizzle bits - if (pIn->option.reduceBankBit && banks > 2) - { - banks >>= 1; - } - - switch (banks) - { - case 2: - hwNumBanks = 0; - break; - case 4: - hwNumBanks = 1; - break; - case 8: - hwNumBanks = 2; - break; - case 16: - hwNumBanks = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - hwNumBanks = 0; - break; - } - - if (pIn->option.genOption == ADDR_SWIZZLE_GEN_LINEAR) - { - bankSwizzle = pIn->surfIndex & (banks - 1); - } - else // (pIn->option.genOption == ADDR_SWIZZLE_GEN_DEFAULT) - { - bankSwizzle = bankRotationArray[hwNumBanks][pIn->surfIndex & (banks - 1)]; - } - - if (IsMacro3dTiled(pIn->tileMode)) - { - pipeSwizzle = pIn->surfIndex & (HwlGetPipes(pTileInfo) - 1); - } - - return HwlCombineBankPipeSwizzle(bankSwizzle, pipeSwizzle, pTileInfo, 0, &pOut->tileSwizzle); -} - -/** -**************************************************************************************************** -* EgBasedLib::ExtractBankPipeSwizzle -* @brief -* Extract bank/pipe swizzle from base256b -* @return -* N/A -**************************************************************************************************** -*/ -VOID EgBasedLib::ExtractBankPipeSwizzle( - UINT_32 base256b, ///< [in] input base256b register value - ADDR_TILEINFO* pTileInfo, ///< [in] 2D tile parameters. Client must provide all data - UINT_32* pBankSwizzle, ///< [out] bank swizzle - UINT_32* pPipeSwizzle ///< [out] pipe swizzle - ) const -{ - UINT_32 bankSwizzle = 0; - UINT_32 pipeSwizzle = 0; - - if (base256b != 0) - { - UINT_32 numPipes = HwlGetPipes(pTileInfo); - UINT_32 bankBits = QLog2(pTileInfo->banks); - UINT_32 pipeBits = QLog2(numPipes); - UINT_32 groupBytes = m_pipeInterleaveBytes; - UINT_32 bankInterleave = m_bankInterleave; - - pipeSwizzle = - (base256b / (groupBytes >> 8)) & ((1<> 8) / numPipes / bankInterleave) & ((1 << bankBits) - 1); - } - - *pPipeSwizzle = pipeSwizzle; - *pBankSwizzle = bankSwizzle; -} - -/** -**************************************************************************************************** -* EgBasedLib::GetBankPipeSwizzle -* @brief -* Combine bank/pipe swizzle -* @return -* Base256b bits (only filled bank/pipe bits) -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::GetBankPipeSwizzle( - UINT_32 bankSwizzle, ///< [in] bank swizzle - UINT_32 pipeSwizzle, ///< [in] pipe swizzle - UINT_64 baseAddr, ///< [in] base address - ADDR_TILEINFO* pTileInfo ///< [in] tile info - ) const -{ - UINT_32 pipeBits = QLog2(HwlGetPipes(pTileInfo)); - UINT_32 bankInterleaveBits = QLog2(m_bankInterleave); - UINT_32 tileSwizzle = pipeSwizzle + ((bankSwizzle << bankInterleaveBits) << pipeBits); - - baseAddr ^= tileSwizzle * m_pipeInterleaveBytes; - baseAddr >>= 8; - - return static_cast(baseAddr); -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeSliceTileSwizzle -* @brief -* Compute cubemap/3d texture faces/slices tile swizzle -* @return -* Tile swizzle -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputeSliceTileSwizzle( - AddrTileMode tileMode, ///< [in] Tile mode - UINT_32 baseSwizzle, ///< [in] Base swizzle - UINT_32 slice, ///< [in] Slice index, Cubemap face index, 0 means +X - UINT_64 baseAddr, ///< [in] Base address - ADDR_TILEINFO* pTileInfo ///< [in] Bank structure - ) const -{ - UINT_32 tileSwizzle = 0; - - if (IsMacroTiled(tileMode)) // Swizzle only for macro tile mode - { - UINT_32 firstSlice = slice / Thickness(tileMode); - - UINT_32 numPipes = HwlGetPipes(pTileInfo); - UINT_32 numBanks = pTileInfo->banks; - - UINT_32 pipeRotation; - UINT_32 bankRotation; - - UINT_32 bankSwizzle = 0; - UINT_32 pipeSwizzle = 0; - - pipeRotation = ComputePipeRotation(tileMode, numPipes); - bankRotation = ComputeBankRotation(tileMode, numBanks, numPipes); - - if (baseSwizzle != 0) - { - ExtractBankPipeSwizzle(baseSwizzle, - pTileInfo, - &bankSwizzle, - &pipeSwizzle); - } - - if (pipeRotation == 0) //2D mode - { - bankSwizzle += firstSlice * bankRotation; - bankSwizzle %= numBanks; - } - else //3D mode - { - pipeSwizzle += firstSlice * pipeRotation; - pipeSwizzle %= numPipes; - bankSwizzle += firstSlice * bankRotation / numPipes; - bankSwizzle %= numBanks; - } - - tileSwizzle = GetBankPipeSwizzle(bankSwizzle, - pipeSwizzle, - baseAddr, - pTileInfo); - } - - return tileSwizzle; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeQbStereoRightSwizzle -* -* @brief -* Compute right eye swizzle -* @return -* swizzle -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::HwlComputeQbStereoRightSwizzle( - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pInfo ///< [in] Surface info, must be valid - ) const -{ - UINT_32 bankBits = 0; - UINT_32 swizzle = 0; - - // The assumption is default swizzle for left eye is 0 - if (IsMacroTiled(pInfo->tileMode) && pInfo->pStereoInfo && pInfo->pTileInfo) - { - bankBits = ComputeBankFromCoord(0, pInfo->height, 0, - pInfo->tileMode, 0, 0, pInfo->pTileInfo); - - if (bankBits) - { - HwlCombineBankPipeSwizzle(bankBits, 0, pInfo->pTileInfo, 0, &swizzle); - } - } - - return swizzle; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeBankFromCoord -* -* @brief -* Compute bank number from coordinates -* @return -* Bank number -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputeBankFromCoord( - UINT_32 x, ///< [in] x coordinate - UINT_32 y, ///< [in] y coordinate - UINT_32 slice, ///< [in] slice index - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bankSwizzle, ///< [in] bank swizzle - UINT_32 tileSplitSlice, ///< [in] If the size of the pixel offset is larger than the - /// tile split size, then the pixel will be moved to a separate - /// slice. This value equals pixelOffset / tileSplitBytes - /// in this case. Otherwise this is 0. - ADDR_TILEINFO* pTileInfo ///< [in] tile info - ) const -{ - UINT_32 pipes = HwlGetPipes(pTileInfo); - UINT_32 bankBit0 = 0; - UINT_32 bankBit1 = 0; - UINT_32 bankBit2 = 0; - UINT_32 bankBit3 = 0; - UINT_32 sliceRotation; - UINT_32 tileSplitRotation; - UINT_32 bank; - UINT_32 numBanks = pTileInfo->banks; - UINT_32 bankWidth = pTileInfo->bankWidth; - UINT_32 bankHeight = pTileInfo->bankHeight; - - UINT_32 tx = x / MicroTileWidth / (bankWidth * pipes); - UINT_32 ty = y / MicroTileHeight / bankHeight; - - UINT_32 x3 = _BIT(tx,0); - UINT_32 x4 = _BIT(tx,1); - UINT_32 x5 = _BIT(tx,2); - UINT_32 x6 = _BIT(tx,3); - UINT_32 y3 = _BIT(ty,0); - UINT_32 y4 = _BIT(ty,1); - UINT_32 y5 = _BIT(ty,2); - UINT_32 y6 = _BIT(ty,3); - - switch (numBanks) - { - case 16: - bankBit0 = x3 ^ y6; - bankBit1 = x4 ^ y5 ^ y6; - bankBit2 = x5 ^ y4; - bankBit3 = x6 ^ y3; - break; - case 8: - bankBit0 = x3 ^ y5; - bankBit1 = x4 ^ y4 ^ y5; - bankBit2 = x5 ^ y3; - break; - case 4: - bankBit0 = x3 ^ y4; - bankBit1 = x4 ^ y3; - break; - case 2: - bankBit0 = x3 ^ y3; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - - bank = bankBit0 | (bankBit1 << 1) | (bankBit2 << 2) | (bankBit3 << 3); - - //Bits2Number(4, bankBit3, bankBit2, bankBit1, bankBit0); - - bank = HwlPreAdjustBank((x / MicroTileWidth), bank, pTileInfo); - // - // Compute bank rotation for the slice. - // - UINT_32 microTileThickness = Thickness(tileMode); - - switch (tileMode) - { - case ADDR_TM_2D_TILED_THIN1: // fall through - case ADDR_TM_2D_TILED_THICK: // fall through - case ADDR_TM_2D_TILED_XTHICK: - sliceRotation = ((numBanks / 2) - 1) * (slice / microTileThickness); - break; - case ADDR_TM_3D_TILED_THIN1: // fall through - case ADDR_TM_3D_TILED_THICK: // fall through - case ADDR_TM_3D_TILED_XTHICK: - sliceRotation = - Max(1u, (pipes / 2) - 1) * (slice / microTileThickness) / pipes; - break; - default: - sliceRotation = 0; - break; - } - - - // - // Compute bank rotation for the tile split slice. - // - // The sample slice will be non-zero if samples must be split across multiple slices. - // This situation arises when the micro tile size multiplied yBit the number of samples exceeds - // the split size (set in GB_ADDR_CONFIG). - // - switch (tileMode) - { - case ADDR_TM_2D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THIN1: //fall through - case ADDR_TM_PRT_2D_TILED_THIN1: //fall through - case ADDR_TM_PRT_3D_TILED_THIN1: //fall through - tileSplitRotation = ((numBanks / 2) + 1) * tileSplitSlice; - break; - default: - tileSplitRotation = 0; - break; - } - - // - // Apply bank rotation for the slice and tile split slice. - // - bank ^= bankSwizzle + sliceRotation; - bank ^= tileSplitRotation; - - bank &= (numBanks - 1); - - return bank; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeBankFromAddr -* -* @brief -* Compute the bank number from an address -* @return -* Bank number -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputeBankFromAddr( - UINT_64 addr, ///< [in] address - UINT_32 numBanks, ///< [in] number of banks - UINT_32 numPipes ///< [in] number of pipes - ) const -{ - UINT_32 bank; - - // - // The LSBs of the address are arranged as follows: - // bank | bankInterleave | pipe | pipeInterleave - // - // To get the bank number, shift off the pipe interleave, pipe, and bank interlave bits and - // mask the bank bits. - // - bank = static_cast( - (addr >> Log2(m_pipeInterleaveBytes * numPipes * m_bankInterleave)) & - (numBanks - 1) - ); - - return bank; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputePipeRotation -* -* @brief -* Compute pipe rotation value -* @return -* Pipe rotation -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputePipeRotation( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 numPipes ///< [in] number of pipes - ) const -{ - UINT_32 rotation; - - switch (tileMode) - { - case ADDR_TM_3D_TILED_THIN1: //fall through - case ADDR_TM_3D_TILED_THICK: //fall through - case ADDR_TM_3D_TILED_XTHICK: //fall through - case ADDR_TM_PRT_3D_TILED_THIN1: //fall through - case ADDR_TM_PRT_3D_TILED_THICK: - rotation = (numPipes < 4) ? 1 : (numPipes / 2 - 1); - break; - default: - rotation = 0; - } - - return rotation; -} - - - -/** -**************************************************************************************************** -* EgBasedLib::ComputeBankRotation -* -* @brief -* Compute bank rotation value -* @return -* Bank rotation -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputeBankRotation( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 numBanks, ///< [in] number of banks - UINT_32 numPipes ///< [in] number of pipes - ) const -{ - UINT_32 rotation; - - switch (tileMode) - { - case ADDR_TM_2D_TILED_THIN1: // fall through - case ADDR_TM_2D_TILED_THICK: // fall through - case ADDR_TM_2D_TILED_XTHICK: - case ADDR_TM_PRT_2D_TILED_THIN1: - case ADDR_TM_PRT_2D_TILED_THICK: - // Rotate banks per Z-slice yBit 1 for 4-bank or 3 for 8-bank - rotation = numBanks / 2 - 1; - break; - case ADDR_TM_3D_TILED_THIN1: // fall through - case ADDR_TM_3D_TILED_THICK: // fall through - case ADDR_TM_3D_TILED_XTHICK: - case ADDR_TM_PRT_3D_TILED_THIN1: - case ADDR_TM_PRT_3D_TILED_THICK: - rotation = (numPipes < 4) ? 1 : (numPipes / 2 - 1); // rotate pipes & banks - break; - default: - rotation = 0; - } - - return rotation; -} - - -/** -**************************************************************************************************** -* EgBasedLib::ComputeHtileBytes -* -* @brief -* Compute htile size in bytes -* -* @return -* Htile size in bytes -**************************************************************************************************** -*/ -UINT_64 EgBasedLib::ComputeHtileBytes( - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 bpp, ///< [in] bits per pixel - BOOL_32 isLinear, ///< [in] if it is linear mode - UINT_32 numSlices, ///< [in] number of slices - UINT_64* sliceBytes, ///< [out] bytes per slice - UINT_32 baseAlign ///< [in] base alignments - ) const -{ - UINT_64 surfBytes; - - const UINT_64 HtileCacheLineSize = BITS_TO_BYTES(HtileCacheBits); - - *sliceBytes = BITS_TO_BYTES(static_cast(pitch) * height * bpp / 64); - - if (m_configFlags.useHtileSliceAlign) - { - // Align the sliceSize to htilecachelinesize * pipes at first - *sliceBytes = PowTwoAlign(*sliceBytes, HtileCacheLineSize * m_pipes); - surfBytes = *sliceBytes * numSlices; - } - else - { - // Align the surfSize to htilecachelinesize * pipes at last - surfBytes = *sliceBytes * numSlices; - surfBytes = PowTwoAlign(surfBytes, HtileCacheLineSize * m_pipes); - } - - return surfBytes; -} - -/** -**************************************************************************************************** -* EgBasedLib::DispatchComputeFmaskInfo -* -* @brief -* Compute fmask sizes include padded pitch, height, slices, total size in bytes, -* meanwhile output suitable tile mode and alignments as well. Results are returned -* through output parameters. -* -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::DispatchComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut) ///< [out] output structure -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - ADDR_COMPUTE_SURFACE_INFO_INPUT surfIn = {0}; - ADDR_COMPUTE_SURFACE_INFO_OUTPUT surfOut = {0}; - - // Setup input structure - surfIn.tileMode = pIn->tileMode; - surfIn.width = pIn->pitch; - surfIn.height = pIn->height; - surfIn.numSlices = pIn->numSlices; - surfIn.pTileInfo = pIn->pTileInfo; - surfIn.tileType = ADDR_NON_DISPLAYABLE; - surfIn.flags.fmask = 1; - - // Setup output structure - surfOut.pTileInfo = pOut->pTileInfo; - - // Setup hwl specific fields - HwlFmaskPreThunkSurfInfo(pIn, pOut, &surfIn, &surfOut); - - surfIn.bpp = HwlComputeFmaskBits(pIn, &surfIn.numSamples); - - // ComputeSurfaceInfo needs numSamples in surfOut as surface routines need adjusted numSamples - surfOut.numSamples = surfIn.numSamples; - - retCode = HwlComputeSurfaceInfo(&surfIn, &surfOut); - - // Save bpp field for surface dump support - surfOut.bpp = surfIn.bpp; - - if (retCode == ADDR_OK) - { - pOut->bpp = surfOut.bpp; - pOut->pitch = surfOut.pitch; - pOut->height = surfOut.height; - pOut->numSlices = surfOut.depth; - pOut->fmaskBytes = surfOut.surfSize; - pOut->baseAlign = surfOut.baseAlign; - pOut->pitchAlign = surfOut.pitchAlign; - pOut->heightAlign = surfOut.heightAlign; - - if (surfOut.depth > 1) - { - // For fmask, expNumSlices is stored in depth. - pOut->sliceSize = surfOut.surfSize / surfOut.depth; - } - else - { - pOut->sliceSize = surfOut.surfSize; - } - - // Save numSamples field for surface dump support - pOut->numSamples = surfOut.numSamples; - - HwlFmaskPostThunkSurfInfo(&surfOut, pOut); - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlFmaskSurfaceInfo -* @brief -* Entry of EgBasedLib ComputeFmaskInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure - ) -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - ADDR_TILEINFO tileInfo = {0}; - - // Use internal tile info if pOut does not have a valid pTileInfo - if (pOut->pTileInfo == NULL) - { - pOut->pTileInfo = &tileInfo; - } - - retCode = DispatchComputeFmaskInfo(pIn, pOut); - - if (retCode == ADDR_OK) - { - pOut->tileIndex = - HwlPostCheckTileIndex(pOut->pTileInfo, pIn->tileMode, ADDR_NON_DISPLAYABLE, - pOut->tileIndex); - } - - // Resets pTileInfo to NULL if the internal tile info is used - if (pOut->pTileInfo == &tileInfo) - { - pOut->pTileInfo = NULL; - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeFmaskAddrFromCoord -* @brief -* Entry of EgBasedLib ComputeFmaskAddrFromCoord -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeFmaskAddrFromCoord( - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeFmaskCoordFromAddr -* @brief -* Entry of EgBasedLib ComputeFmaskCoordFromAddr -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeFmaskCoordFromAddr( - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeFmaskNumPlanesFromNumSamples -* -* @brief -* Compute fmask number of planes from number of samples -* -* @return -* Number of planes -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputeFmaskNumPlanesFromNumSamples( - UINT_32 numSamples) ///< [in] number of samples -{ - UINT_32 numPlanes; - - // - // FMASK is stored such that each micro tile is composed of elements containing N bits, where - // N is the number of samples. There is a micro tile for each bit in the FMASK address, and - // micro tiles for each address bit, sometimes referred to as a plane, are stored sequentially. - // The FMASK for a 2-sample surface looks like a general surface with 2 bits per element. - // The FMASK for a 4-sample surface looks like a general surface with 4 bits per element and - // 2 samples. The FMASK for an 8-sample surface looks like a general surface with 8 bits per - // element and 4 samples. R6xx and R7xx only stored 3 planes for 8-sample FMASK surfaces. - // This was changed for R8xx to simplify the logic in the CB. - // - switch (numSamples) - { - case 2: - numPlanes = 1; - break; - case 4: - numPlanes = 2; - break; - case 8: - numPlanes = 4; - break; - default: - ADDR_UNHANDLED_CASE(); - numPlanes = 0; - break; - } - return numPlanes; -} - -/** -**************************************************************************************************** -* EgBasedLib::ComputeFmaskResolvedBppFromNumSamples -* -* @brief -* Compute resolved fmask effective bpp based on number of samples -* -* @return -* bpp -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::ComputeFmaskResolvedBppFromNumSamples( - UINT_32 numSamples) ///< number of samples -{ - UINT_32 bpp; - - // - // Resolved FMASK surfaces are generated yBit the CB and read yBit the texture unit - // so that the texture unit can read compressed multi-sample color data. - // These surfaces store each index value packed per element. - // Each element contains at least num_samples * log2(num_samples) bits. - // Resolved FMASK surfaces are addressed as follows: - // 2-sample Addressed similarly to a color surface with 8 bits per element and 1 sample. - // 4-sample Addressed similarly to a color surface with 8 bits per element and 1 sample. - // 8-sample Addressed similarly to a color surface with 32 bits per element and 1 sample. - - switch (numSamples) - { - case 2: - bpp = 8; - break; - case 4: - bpp = 8; - break; - case 8: - bpp = 32; - break; - default: - ADDR_UNHANDLED_CASE(); - bpp = 0; - break; - } - return bpp; -} - -/** -**************************************************************************************************** -* EgBasedLib::IsTileInfoAllZero -* -* @brief -* Return TRUE if all field are zero -* @note -* Since NULL input is consider to be all zero -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::IsTileInfoAllZero( - const ADDR_TILEINFO* pTileInfo) -{ - BOOL_32 allZero = TRUE; - - if (pTileInfo) - { - if ((pTileInfo->banks != 0) || - (pTileInfo->bankWidth != 0) || - (pTileInfo->bankHeight != 0) || - (pTileInfo->macroAspectRatio != 0) || - (pTileInfo->tileSplitBytes != 0) || - (pTileInfo->pipeConfig != 0) - ) - { - allZero = FALSE; - } - } - - return allZero; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlTileInfoEqual -* -* @brief -* Return TRUE if all field are equal -* @note -* Only takes care of current HWL's data -**************************************************************************************************** -*/ -BOOL_32 EgBasedLib::HwlTileInfoEqual( - const ADDR_TILEINFO* pLeft, ///<[in] Left compare operand - const ADDR_TILEINFO* pRight ///<[in] Right compare operand - ) const -{ - BOOL_32 equal = FALSE; - - if (pLeft->banks == pRight->banks && - pLeft->bankWidth == pRight->bankWidth && - pLeft->bankHeight == pRight->bankHeight && - pLeft->macroAspectRatio == pRight->macroAspectRatio && - pLeft->tileSplitBytes == pRight->tileSplitBytes) - { - equal = TRUE; - } - - return equal; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlConvertTileInfoToHW -* @brief -* Entry of EgBasedLib ConvertTileInfoToHW -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] input structure - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - ADDR_TILEINFO *pTileInfoIn = pIn->pTileInfo; - ADDR_TILEINFO *pTileInfoOut = pOut->pTileInfo; - - if ((pTileInfoIn != NULL) && (pTileInfoOut != NULL)) - { - if (pIn->reverse == FALSE) - { - switch (pTileInfoIn->banks) - { - case 2: - pTileInfoOut->banks = 0; - break; - case 4: - pTileInfoOut->banks = 1; - break; - case 8: - pTileInfoOut->banks = 2; - break; - case 16: - pTileInfoOut->banks = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->banks = 0; - break; - } - - switch (pTileInfoIn->bankWidth) - { - case 1: - pTileInfoOut->bankWidth = 0; - break; - case 2: - pTileInfoOut->bankWidth = 1; - break; - case 4: - pTileInfoOut->bankWidth = 2; - break; - case 8: - pTileInfoOut->bankWidth = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->bankWidth = 0; - break; - } - - switch (pTileInfoIn->bankHeight) - { - case 1: - pTileInfoOut->bankHeight = 0; - break; - case 2: - pTileInfoOut->bankHeight = 1; - break; - case 4: - pTileInfoOut->bankHeight = 2; - break; - case 8: - pTileInfoOut->bankHeight = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->bankHeight = 0; - break; - } - - switch (pTileInfoIn->macroAspectRatio) - { - case 1: - pTileInfoOut->macroAspectRatio = 0; - break; - case 2: - pTileInfoOut->macroAspectRatio = 1; - break; - case 4: - pTileInfoOut->macroAspectRatio = 2; - break; - case 8: - pTileInfoOut->macroAspectRatio = 3; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->macroAspectRatio = 0; - break; - } - - switch (pTileInfoIn->tileSplitBytes) - { - case 64: - pTileInfoOut->tileSplitBytes = 0; - break; - case 128: - pTileInfoOut->tileSplitBytes = 1; - break; - case 256: - pTileInfoOut->tileSplitBytes = 2; - break; - case 512: - pTileInfoOut->tileSplitBytes = 3; - break; - case 1024: - pTileInfoOut->tileSplitBytes = 4; - break; - case 2048: - pTileInfoOut->tileSplitBytes = 5; - break; - case 4096: - pTileInfoOut->tileSplitBytes = 6; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->tileSplitBytes = 0; - break; - } - } - else - { - switch (pTileInfoIn->banks) - { - case 0: - pTileInfoOut->banks = 2; - break; - case 1: - pTileInfoOut->banks = 4; - break; - case 2: - pTileInfoOut->banks = 8; - break; - case 3: - pTileInfoOut->banks = 16; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->banks = 2; - break; - } - - switch (pTileInfoIn->bankWidth) - { - case 0: - pTileInfoOut->bankWidth = 1; - break; - case 1: - pTileInfoOut->bankWidth = 2; - break; - case 2: - pTileInfoOut->bankWidth = 4; - break; - case 3: - pTileInfoOut->bankWidth = 8; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->bankWidth = 1; - break; - } - - switch (pTileInfoIn->bankHeight) - { - case 0: - pTileInfoOut->bankHeight = 1; - break; - case 1: - pTileInfoOut->bankHeight = 2; - break; - case 2: - pTileInfoOut->bankHeight = 4; - break; - case 3: - pTileInfoOut->bankHeight = 8; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->bankHeight = 1; - break; - } - - switch (pTileInfoIn->macroAspectRatio) - { - case 0: - pTileInfoOut->macroAspectRatio = 1; - break; - case 1: - pTileInfoOut->macroAspectRatio = 2; - break; - case 2: - pTileInfoOut->macroAspectRatio = 4; - break; - case 3: - pTileInfoOut->macroAspectRatio = 8; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->macroAspectRatio = 1; - break; - } - - switch (pTileInfoIn->tileSplitBytes) - { - case 0: - pTileInfoOut->tileSplitBytes = 64; - break; - case 1: - pTileInfoOut->tileSplitBytes = 128; - break; - case 2: - pTileInfoOut->tileSplitBytes = 256; - break; - case 3: - pTileInfoOut->tileSplitBytes = 512; - break; - case 4: - pTileInfoOut->tileSplitBytes = 1024; - break; - case 5: - pTileInfoOut->tileSplitBytes = 2048; - break; - case 6: - pTileInfoOut->tileSplitBytes = 4096; - break; - default: - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - pTileInfoOut->tileSplitBytes = 64; - break; - } - } - - if (pTileInfoIn != pTileInfoOut) - { - pTileInfoOut->pipeConfig = pTileInfoIn->pipeConfig; - } - } - else - { - ADDR_ASSERT_ALWAYS(); - retCode = ADDR_INVALIDPARAMS; - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeSurfaceInfo -* @brief -* Entry of EgBasedLib ComputeSurfaceInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - if (pIn->numSamples < pIn->numFrags) - { - retCode = ADDR_INVALIDPARAMS; - } - - ADDR_TILEINFO tileInfo = {0}; - - if (retCode == ADDR_OK) - { - // Uses internal tile info if pOut does not have a valid pTileInfo - if (pOut->pTileInfo == NULL) - { - pOut->pTileInfo = &tileInfo; - } - - if (DispatchComputeSurfaceInfo(pIn, pOut) == FALSE) - { - retCode = ADDR_INVALIDPARAMS; - } - - // In case client uses tile info as input and would like to calculate a correct size and - // alignment together with tile info as output when the tile info is not suppose to have any - // matching indices in tile mode tables. - if (pIn->flags.skipIndicesOutput == FALSE) - { - // Returns an index - pOut->tileIndex = HwlPostCheckTileIndex(pOut->pTileInfo, - pOut->tileMode, - pOut->tileType, - pOut->tileIndex); - - if (IsMacroTiled(pOut->tileMode) && (pOut->macroModeIndex == TileIndexInvalid)) - { - pOut->macroModeIndex = HwlComputeMacroModeIndex(pOut->tileIndex, - pIn->flags, - pIn->bpp, - pIn->numSamples, - pOut->pTileInfo); - } - } - - // Resets pTileInfo to NULL if the internal tile info is used - if (pOut->pTileInfo == &tileInfo) - { -#if DEBUG - // Client does not pass in a valid pTileInfo - if (IsMacroTiled(pOut->tileMode)) - { - // If a valid index is returned, then no pTileInfo is okay - ADDR_ASSERT((m_configFlags.useTileIndex == FALSE) || - (pOut->tileIndex != TileIndexInvalid)); - - if (IsTileInfoAllZero(pIn->pTileInfo) == FALSE) - { - // The initial value of pIn->pTileInfo is copied to tileInfo - // We do not expect any of these value to be changed nor any 0 of inputs - ADDR_ASSERT(tileInfo.banks == pIn->pTileInfo->banks); - ADDR_ASSERT(tileInfo.bankWidth == pIn->pTileInfo->bankWidth); - ADDR_ASSERT(tileInfo.bankHeight == pIn->pTileInfo->bankHeight); - ADDR_ASSERT(tileInfo.macroAspectRatio == pIn->pTileInfo->macroAspectRatio); - ADDR_ASSERT(tileInfo.tileSplitBytes == pIn->pTileInfo->tileSplitBytes); - } - } -#endif - pOut->pTileInfo = NULL; - } - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeSurfaceAddrFromCoord -* @brief -* Entry of EgBasedLib ComputeSurfaceAddrFromCoord -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - if ( -#if !ALT_TEST // Overflow test needs this out-of-boundary coord - (pIn->x > pIn->pitch) || - (pIn->y > pIn->height) || -#endif - (pIn->numSamples > m_maxSamples)) - { - retCode = ADDR_INVALIDPARAMS; - } - else - { - pOut->addr = DispatchComputeSurfaceAddrFromCoord(pIn, pOut); - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeSurfaceCoordFromAddr -* @brief -* Entry of EgBasedLib ComputeSurfaceCoordFromAddr -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - if ((pIn->bitPosition >= 8) || - (pIn->numSamples > m_maxSamples)) - { - retCode = ADDR_INVALIDPARAMS; - } - else - { - DispatchComputeSurfaceCoordFromAddr(pIn, pOut); - } - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeSliceTileSwizzle -* @brief -* Entry of EgBasedLib ComputeSurfaceCoordFromAddr -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE EgBasedLib::HwlComputeSliceTileSwizzle( - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - if (pIn->pTileInfo && (pIn->pTileInfo->banks > 0)) - { - - pOut->tileSwizzle = ComputeSliceTileSwizzle(pIn->tileMode, - pIn->baseSwizzle, - pIn->slice, - pIn->baseAddr, - pIn->pTileInfo); - } - else - { - retCode = ADDR_INVALIDPARAMS; - } - - return retCode; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeHtileBpp -* -* @brief -* Compute htile bpp -* -* @return -* Htile bpp -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::HwlComputeHtileBpp( - BOOL_32 isWidth8, ///< [in] TRUE if block width is 8 - BOOL_32 isHeight8 ///< [in] TRUE if block height is 8 - ) const -{ - // only support 8x8 mode - ADDR_ASSERT(isWidth8 && isHeight8); - return 32; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlComputeHtileBaseAlign -* -* @brief -* Compute htile base alignment -* -* @return -* Htile base alignment -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::HwlComputeHtileBaseAlign( - BOOL_32 isTcCompatible, ///< [in] if TC compatible - BOOL_32 isLinear, ///< [in] if it is linear mode - ADDR_TILEINFO* pTileInfo ///< [in] Tile info - ) const -{ - UINT_32 baseAlign = m_pipeInterleaveBytes * HwlGetPipes(pTileInfo); - - if (isTcCompatible) - { - ADDR_ASSERT(pTileInfo != NULL); - if (pTileInfo) - { - baseAlign *= pTileInfo->banks; - } - } - - return baseAlign; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlGetPitchAlignmentMicroTiled -* -* @brief -* Compute 1D tiled surface pitch alignment, calculation results are returned through -* output parameters. -* -* @return -* pitch alignment -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::HwlGetPitchAlignmentMicroTiled( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples ///< [in] number of samples - ) const -{ - UINT_32 pitchAlign; - - UINT_32 microTileThickness = Thickness(tileMode); - - UINT_32 pixelsPerMicroTile; - UINT_32 pixelsPerPipeInterleave; - UINT_32 microTilesPerPipeInterleave; - - // - // Special workaround for depth/stencil buffer, use 8 bpp to meet larger requirement for - // stencil buffer since pitch alignment is related to bpp. - // For a depth only buffer do not set this. - // - // Note: this actually does not work for mipmap but mipmap depth texture is not really - // sampled with mipmap. - // - if (flags.depth && (flags.noStencil == FALSE)) - { - bpp = 8; - } - - pixelsPerMicroTile = MicroTilePixels * microTileThickness; - pixelsPerPipeInterleave = BYTES_TO_BITS(m_pipeInterleaveBytes) / (bpp * numSamples); - microTilesPerPipeInterleave = pixelsPerPipeInterleave / pixelsPerMicroTile; - - pitchAlign = Max(MicroTileWidth, microTilesPerPipeInterleave * MicroTileWidth); - - return pitchAlign; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlGetSizeAdjustmentMicroTiled -* -* @brief -* Adjust 1D tiled surface pitch and slice size -* -* @return -* Logical slice size in bytes -**************************************************************************************************** -*/ -UINT_64 EgBasedLib::HwlGetSizeAdjustmentMicroTiled( - UINT_32 thickness, ///< [in] thickness - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples, ///< [in] number of samples - UINT_32 baseAlign, ///< [in] base alignment - UINT_32 pitchAlign, ///< [in] pitch alignment - UINT_32* pPitch, ///< [in,out] pointer to pitch - UINT_32* pHeight ///< [in,out] pointer to height - ) const -{ - UINT_64 logicalSliceSize; - MAYBE_UNUSED UINT_64 physicalSliceSize; - - UINT_32 pitch = *pPitch; - UINT_32 height = *pHeight; - - // Logical slice: pitch * height * bpp * numSamples (no 1D MSAA so actually numSamples == 1) - logicalSliceSize = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); - - // Physical slice: multiplied by thickness - physicalSliceSize = logicalSliceSize * thickness; - - // - // R800 will always pad physical slice size to baseAlign which is pipe_interleave_bytes - // - ADDR_ASSERT((physicalSliceSize % baseAlign) == 0); - - return logicalSliceSize; -} - -/** -**************************************************************************************************** -* EgBasedLib::HwlStereoCheckRightOffsetPadding -* -* @brief -* check if the height needs extra padding for stereo right eye offset, to avoid swizzling -* -* @return -* TRUE is the extra padding is needed -* -**************************************************************************************************** -*/ -UINT_32 EgBasedLib::HwlStereoCheckRightOffsetPadding( - ADDR_TILEINFO* pTileInfo ///< Tiling info - ) const -{ - UINT_32 stereoHeightAlign = 0; - - if (pTileInfo->macroAspectRatio > 2) - { - // Since 3D rendering treats right eye surface starting from y == "eye height" while - // display engine treats it to be 0, so the bank bits may be different. - // Additional padding in height is required to make sure it's possible - // to achieve synonym by adjusting bank swizzle of right eye surface. - - static const UINT_32 StereoAspectRatio = 2; - stereoHeightAlign = pTileInfo->banks * - pTileInfo->bankHeight * - MicroTileHeight / - StereoAspectRatio; - } - - return stereoHeightAlign; -} - -} // V1 -} // Addr diff --git a/src/amd/addrlib/r800/egbaddrlib.h b/src/amd/addrlib/r800/egbaddrlib.h deleted file mode 100644 index ee2c689df62..00000000000 --- a/src/amd/addrlib/r800/egbaddrlib.h +++ /dev/null @@ -1,430 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file egbaddrlib.h -* @brief Contains the EgBasedLib class definition. -**************************************************************************************************** -*/ - -#ifndef __EG_BASED_ADDR_LIB_H__ -#define __EG_BASED_ADDR_LIB_H__ - -#include "addrlib1.h" - -namespace Addr -{ -namespace V1 -{ -/// Structures for functions -struct CoordFromBankPipe -{ - UINT_32 xBits : 3; - UINT_32 yBits : 4; - - UINT_32 xBit3 : 1; - UINT_32 xBit4 : 1; - UINT_32 xBit5 : 1; - UINT_32 yBit3 : 1; - UINT_32 yBit4 : 1; - UINT_32 yBit5 : 1; - UINT_32 yBit6 : 1; -}; - -/** -**************************************************************************************************** -* @brief This class is the Evergreen based address library -* @note Abstract class -**************************************************************************************************** -*/ -class EgBasedLib : public Lib -{ -protected: - EgBasedLib(const Client* pClient); - virtual ~EgBasedLib(); - -public: - - /// Surface info functions - - // NOTE: DispatchComputeSurfaceInfo using TileInfo takes both an input and an output. - // On input: - // One or more fields may be 0 to be calculated/defaulted - pre-SI h/w. - // H/W using tile mode index only accepts none or all 0's - SI and newer h/w. - // It then returns the actual tiling configuration used. - // Other methods' TileInfo must be valid on entry - BOOL_32 DispatchComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - ADDR_E_RETURNCODE DispatchComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); - -protected: - // Hwl interface - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeSliceTileSwizzle( - const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, - ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlExtractBankPipeSwizzle( - const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, - ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlCombineBankPipeSwizzle( - UINT_32 bankSwizzle, UINT_32 pipeSwizzle, ADDR_TILEINFO* pTileInfo, - UINT_64 baseAddr, UINT_32* pTileSwizzle) const; - - virtual ADDR_E_RETURNCODE HwlComputeBaseSwizzle( - const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, - ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const; - - virtual UINT_32 HwlComputeHtileBpp( - BOOL_32 isWidth8, BOOL_32 isHeight8) const; - - virtual UINT_32 HwlComputeHtileBaseAlign( - BOOL_32 isTcCompatible, BOOL_32 isLinear, ADDR_TILEINFO* pTileInfo) const; - - virtual ADDR_E_RETURNCODE HwlComputeFmaskInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); - - virtual ADDR_E_RETURNCODE HwlComputeFmaskAddrFromCoord( - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlComputeFmaskCoordFromAddr( - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; - - virtual BOOL_32 HwlGetAlignmentInfoMacroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - UINT_32* pPitchAlign, UINT_32* pHeightAlign, UINT_32* pSizeAlign) const; - - virtual UINT_32 HwlComputeQbStereoRightSwizzle( - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pInfo) const; - - virtual VOID HwlComputePixelCoordFromOffset( - UINT_32 offset, UINT_32 bpp, UINT_32 numSamples, - AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, - AddrTileType microTileType, BOOL_32 isDepthSampleOrder) const; - - /// Return Cmask block max - virtual BOOL_32 HwlGetMaxCmaskBlockMax() const - { - return 0x3FFF; // 14 bits, 0n16383 - } - - // Sub-hwl interface - /// Pure virtual function to setup tile info (indices) if client requests to do so - virtual VOID HwlSetupTileInfo( - AddrTileMode tileMode, ADDR_SURFACE_FLAGS flags, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - ADDR_TILEINFO* inputTileInfo, ADDR_TILEINFO* outputTileInfo, - AddrTileType inTileType, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; - - /// Pure virtual function to get pitch alignment for linear modes - virtual UINT_32 HwlGetPitchAlignmentLinear(UINT_32 bpp, ADDR_SURFACE_FLAGS flags) const = 0; - - /// Pure virtual function to get size adjustment for linear modes - virtual UINT_64 HwlGetSizeAdjustmentLinear( - AddrTileMode tileMode, - UINT_32 bpp, UINT_32 numSamples, UINT_32 baseAlign, UINT_32 pitchAlign, - UINT_32 *pPitch, UINT_32 *pHeight, UINT_32 *pHeightAlign) const = 0; - - virtual UINT_32 HwlGetPitchAlignmentMicroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples) const; - - virtual UINT_64 HwlGetSizeAdjustmentMicroTiled( - UINT_32 thickness, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, - UINT_32 baseAlign, UINT_32 pitchAlign, - UINT_32 *pPitch, UINT_32 *pHeight) const; - - /// Pure virtual function to do extra sanity check - virtual BOOL_32 HwlSanityCheckMacroTiled( - ADDR_TILEINFO* pTileInfo) const = 0; - - /// Pure virtual function to check current level to be the last macro tiled one - virtual VOID HwlCheckLastMacroTiledLvl( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; - - /// Adjusts bank before bank is modified by rotation - virtual UINT_32 HwlPreAdjustBank( - UINT_32 tileX, UINT_32 bank, ADDR_TILEINFO* pTileInfo) const = 0; - - virtual VOID HwlComputeSurfaceCoord2DFromBankPipe( - AddrTileMode tileMode, UINT_32* pX, UINT_32* pY, UINT_32 slice, - UINT_32 bank, UINT_32 pipe, - UINT_32 bankSwizzle, UINT_32 pipeSwizzle, UINT_32 tileSlices, - BOOL_32 ignoreSE, - ADDR_TILEINFO* pTileInfo) const = 0; - - virtual BOOL_32 HwlTileInfoEqual( - const ADDR_TILEINFO* pLeft, const ADDR_TILEINFO* pRight) const; - - virtual AddrTileMode HwlDegradeThickTileMode( - AddrTileMode baseTileMode, UINT_32 numSlices, UINT_32* pBytesPerTile) const; - - virtual INT_32 HwlPostCheckTileIndex( - const ADDR_TILEINFO* pInfo, AddrTileMode mode, AddrTileType type, - INT curIndex = TileIndexInvalid) const - { - return TileIndexInvalid; - } - - virtual VOID HwlFmaskPreThunkSurfInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, - const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, - ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut) const - { - } - - virtual VOID HwlFmaskPostThunkSurfInfo( - const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut) const - { - } - - virtual UINT_32 HwlStereoCheckRightOffsetPadding(ADDR_TILEINFO* pTileInfo) const; - - virtual BOOL_32 HwlReduceBankWidthHeight( - UINT_32 tileSize, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, - UINT_32 bankHeightAlign, UINT_32 pipes, - ADDR_TILEINFO* pTileInfo) const; - - // Protected non-virtual functions - - /// Mip level functions - AddrTileMode ComputeSurfaceMipLevelTileMode( - AddrTileMode baseTileMode, UINT_32 bpp, - UINT_32 pitch, UINT_32 height, UINT_32 numSlices, UINT_32 numSamples, - UINT_32 pitchAlign, UINT_32 heightAlign, - ADDR_TILEINFO* pTileInfo) const; - - /// Swizzle functions - VOID ExtractBankPipeSwizzle( - UINT_32 base256b, ADDR_TILEINFO* pTileInfo, - UINT_32* pBankSwizzle, UINT_32* pPipeSwizzle) const; - - UINT_32 GetBankPipeSwizzle( - UINT_32 bankSwizzle, UINT_32 pipeSwizzle, - UINT_64 baseAddr, ADDR_TILEINFO* pTileInfo) const; - - UINT_32 ComputeSliceTileSwizzle( - AddrTileMode tileMode, UINT_32 baseSwizzle, UINT_32 slice, UINT_64 baseAddr, - ADDR_TILEINFO* pTileInfo) const; - - /// Addressing functions - virtual ADDR_E_RETURNCODE ComputeBankEquation( - UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, - ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const - { - return ADDR_NOTSUPPORTED; - } - - UINT_32 ComputeBankFromCoord( - UINT_32 x, UINT_32 y, UINT_32 slice, - AddrTileMode tileMode, UINT_32 bankSwizzle, UINT_32 tileSpitSlice, - ADDR_TILEINFO* pTileInfo) const; - - UINT_32 ComputeBankFromAddr( - UINT_64 addr, UINT_32 numBanks, UINT_32 numPipes) const; - - UINT_32 ComputePipeRotation( - AddrTileMode tileMode, UINT_32 numPipes) const; - - UINT_32 ComputeBankRotation( - AddrTileMode tileMode, UINT_32 numBanks, - UINT_32 numPipes) const; - - VOID ComputeSurfaceCoord2DFromBankPipe( - AddrTileMode tileMode, UINT_32 x, UINT_32 y, UINT_32 slice, - UINT_32 bank, UINT_32 pipe, - UINT_32 bankSwizzle, UINT_32 pipeSwizzle, UINT_32 tileSlices, - ADDR_TILEINFO* pTileInfo, - CoordFromBankPipe *pOutput) const; - - /// Htile/Cmask functions - UINT_64 ComputeHtileBytes( - UINT_32 pitch, UINT_32 height, UINT_32 bpp, - BOOL_32 isLinear, UINT_32 numSlices, UINT_64* sliceBytes, UINT_32 baseAlign) const; - - ADDR_E_RETURNCODE ComputeMacroTileEquation( - UINT_32 log2BytesPP, AddrTileMode tileMode, AddrTileType microTileType, - ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const; - - // Static functions - static BOOL_32 IsTileInfoAllZero(const ADDR_TILEINFO* pTileInfo); - static UINT_32 ComputeFmaskNumPlanesFromNumSamples(UINT_32 numSamples); - static UINT_32 ComputeFmaskResolvedBppFromNumSamples(UINT_32 numSamples); - - virtual VOID HwlComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 mipLevel, UINT_32 numSamples, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const - { - } - -private: - - BOOL_32 ComputeSurfaceInfoLinear( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, - UINT_32 padDims) const; - - BOOL_32 ComputeSurfaceInfoMicroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, - UINT_32 padDims, - AddrTileMode expTileMode) const; - - BOOL_32 ComputeSurfaceInfoMacroTiled( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, - UINT_32 padDims, - AddrTileMode expTileMode) const; - - BOOL_32 ComputeSurfaceAlignmentsLinear( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32* pBaseAlign, UINT_32* pPitchAlign, UINT_32* pHeightAlign) const; - - BOOL_32 ComputeSurfaceAlignmentsMicroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 mipLevel, UINT_32 numSamples, - UINT_32* pBaseAlign, UINT_32* pPitchAlign, UINT_32* pHeightAlign) const; - - BOOL_32 ComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 mipLevel, UINT_32 numSamples, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - /// Surface addressing functions - UINT_64 DispatchComputeSurfaceAddrFromCoord( - const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; - - VOID DispatchComputeSurfaceCoordFromAddr( - const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; - - UINT_64 ComputeSurfaceAddrFromCoordMicroTiled( - UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - AddrTileMode tileMode, - AddrTileType microTileType, BOOL_32 isDepthSampleOrder, - UINT_32* pBitPosition) const; - - UINT_64 ComputeSurfaceAddrFromCoordMacroTiled( - UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - AddrTileMode tileMode, - AddrTileType microTileType, BOOL_32 ignoreSE, BOOL_32 isDepthSampleOrder, - UINT_32 pipeSwizzle, UINT_32 bankSwizzle, - ADDR_TILEINFO* pTileInfo, - UINT_32* pBitPosition) const; - - VOID ComputeSurfaceCoordFromAddrMacroTiled( - UINT_64 addr, UINT_32 bitPosition, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, - AddrTileType microTileType, BOOL_32 ignoreSE, BOOL_32 isDepthSampleOrder, - UINT_32 pipeSwizzle, UINT_32 bankSwizzle, - ADDR_TILEINFO* pTileInfo, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample) const; - - /// Fmask functions - UINT_64 DispatchComputeFmaskAddrFromCoord( - const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, - ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; - - VOID DispatchComputeFmaskCoordFromAddr( - const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, - ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; - - // FMASK related methods - private - UINT_64 ComputeFmaskAddrFromCoordMicroTiled( - UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, UINT_32 plane, - UINT_32 pitch, UINT_32 height, UINT_32 numSamples, AddrTileMode tileMode, - BOOL_32 resolved, UINT_32* pBitPosition) const; - - VOID ComputeFmaskCoordFromAddrMicroTiled( - UINT_64 addr, UINT_32 bitPosition, - UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - AddrTileMode tileMode, BOOL_32 resolved, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, UINT_32* pPlane) const; - - VOID ComputeFmaskCoordFromAddrMacroTiled( - UINT_64 addr, UINT_32 bitPosition, - UINT_32 pitch, UINT_32 height, UINT_32 numSamples, AddrTileMode tileMode, - UINT_32 pipeSwizzle, UINT_32 bankSwizzle, - BOOL_32 ignoreSE, - ADDR_TILEINFO* pTileInfo, - BOOL_32 resolved, - UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, UINT_32* pPlane) const; - - UINT_64 ComputeFmaskAddrFromCoordMacroTiled( - UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, UINT_32 plane, - UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - AddrTileMode tileMode, UINT_32 pipeSwizzle, UINT_32 bankSwizzle, - BOOL_32 ignoreSE, - ADDR_TILEINFO* pTileInfo, - BOOL_32 resolved, - UINT_32* pBitPosition) const; - - /// Sanity check functions - BOOL_32 SanityCheckMacroTiled( - ADDR_TILEINFO* pTileInfo) const; - -protected: - UINT_32 m_ranks; ///< Number of ranks - MC_ARB_RAMCFG.NOOFRANK - UINT_32 m_logicalBanks; ///< Logical banks = m_banks * m_ranks if m_banks != 16 - UINT_32 m_bankInterleave; ///< Bank interleave, as a multiple of pipe interleave size -}; - -} // V1 -} // Addr - -#endif - diff --git a/src/amd/addrlib/r800/siaddrlib.cpp b/src/amd/addrlib/r800/siaddrlib.cpp deleted file mode 100644 index bc009f5aff0..00000000000 --- a/src/amd/addrlib/r800/siaddrlib.cpp +++ /dev/null @@ -1,3872 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file siaddrlib.cpp -* @brief Contains the implementation for the SiLib class. -**************************************************************************************************** -*/ - -#include "siaddrlib.h" -#include "si_gb_reg.h" - -#include "amdgpu_asic_addr.h" - -//////////////////////////////////////////////////////////////////////////////////////////////////// -//////////////////////////////////////////////////////////////////////////////////////////////////// -namespace Addr -{ - -/** -**************************************************************************************************** -* SiHwlInit -* -* @brief -* Creates an SiLib object. -* -* @return -* Returns an SiLib object pointer. -**************************************************************************************************** -*/ -Lib* SiHwlInit(const Client* pClient) -{ - return V1::SiLib::CreateObj(pClient); -} - -namespace V1 -{ - -// We don't support MSAA for equation -const BOOL_32 SiLib::m_EquationSupport[SiLib::TileTableSize][SiLib::MaxNumElementBytes] = -{ - {TRUE, TRUE, TRUE, FALSE, FALSE}, // 0, non-AA compressed depth or any stencil - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 1, 2xAA/4xAA compressed depth with or without stencil - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 2, 8xAA compressed depth with or without stencil - {FALSE, TRUE, FALSE, FALSE, FALSE}, // 3, 16 bpp depth PRT (non-MSAA), don't support uncompressed depth - {TRUE, TRUE, TRUE, FALSE, FALSE}, // 4, 1D depth - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 5, 16 bpp depth PRT (4xMSAA) - {FALSE, FALSE, TRUE, FALSE, FALSE}, // 6, 32 bpp depth PRT (non-MSAA) - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 7, 32 bpp depth PRT (4xMSAA) - {TRUE, TRUE, TRUE, TRUE, TRUE }, // 8, Linear - {TRUE, TRUE, TRUE, TRUE, TRUE }, // 9, 1D display - {TRUE, FALSE, FALSE, FALSE, FALSE}, // 10, 8 bpp color (displayable) - {FALSE, TRUE, FALSE, FALSE, FALSE}, // 11, 16 bpp color (displayable) - {FALSE, FALSE, TRUE, TRUE, FALSE}, // 12, 32/64 bpp color (displayable) - {TRUE, TRUE, TRUE, TRUE, TRUE }, // 13, 1D thin - {TRUE, FALSE, FALSE, FALSE, FALSE}, // 14, 8 bpp color non-displayable - {FALSE, TRUE, FALSE, FALSE, FALSE}, // 15, 16 bpp color non-displayable - {FALSE, FALSE, TRUE, FALSE, FALSE}, // 16, 32 bpp color non-displayable - {FALSE, FALSE, FALSE, TRUE, TRUE }, // 17, 64/128 bpp color non-displayable - {TRUE, TRUE, TRUE, TRUE, TRUE }, // 18, 1D THICK - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 19, 2D XTHICK - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 20, 2D THICK - {TRUE, FALSE, FALSE, FALSE, FALSE}, // 21, 8 bpp 2D PRTs (non-MSAA) - {FALSE, TRUE, FALSE, FALSE, FALSE}, // 22, 16 bpp 2D PRTs (non-MSAA) - {FALSE, FALSE, TRUE, FALSE, FALSE}, // 23, 32 bpp 2D PRTs (non-MSAA) - {FALSE, FALSE, FALSE, TRUE, FALSE}, // 24, 64 bpp 2D PRTs (non-MSAA) - {FALSE, FALSE, FALSE, FALSE, TRUE }, // 25, 128bpp 2D PRTs (non-MSAA) - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 26, none - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 27, none - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 28, none - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 29, none - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 30, 64bpp 2D PRTs (4xMSAA) - {FALSE, FALSE, FALSE, FALSE, FALSE}, // 31, none -}; - -/** -**************************************************************************************************** -* SiLib::SiLib -* -* @brief -* Constructor -* -**************************************************************************************************** -*/ -SiLib::SiLib(const Client* pClient) - : - EgBasedLib(pClient), - m_noOfEntries(0), - m_numEquations(0) -{ - m_class = SI_ADDRLIB; - memset(&m_settings, 0, sizeof(m_settings)); -} - -/** -**************************************************************************************************** -* SiLib::~SiLib -* -* @brief -* Destructor -**************************************************************************************************** -*/ -SiLib::~SiLib() -{ -} - -/** -**************************************************************************************************** -* SiLib::HwlGetPipes -* -* @brief -* Get number pipes -* @return -* num pipes -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlGetPipes( - const ADDR_TILEINFO* pTileInfo ///< [in] Tile info - ) const -{ - UINT_32 numPipes; - - if (pTileInfo) - { - numPipes = GetPipePerSurf(pTileInfo->pipeConfig); - } - else - { - ADDR_ASSERT_ALWAYS(); - numPipes = m_pipes; // Suppose we should still have a global pipes - } - - return numPipes; -} - -/** -**************************************************************************************************** -* SiLib::GetPipePerSurf -* @brief -* get pipe num base on inputing tileinfo->pipeconfig -* @return -* pipe number -**************************************************************************************************** -*/ -UINT_32 SiLib::GetPipePerSurf( - AddrPipeCfg pipeConfig ///< [in] pipe config - ) const -{ - UINT_32 numPipes = 0; - - switch (pipeConfig) - { - case ADDR_PIPECFG_P2: - numPipes = 2; - break; - case ADDR_PIPECFG_P4_8x16: - case ADDR_PIPECFG_P4_16x16: - case ADDR_PIPECFG_P4_16x32: - case ADDR_PIPECFG_P4_32x32: - numPipes = 4; - break; - case ADDR_PIPECFG_P8_16x16_8x16: - case ADDR_PIPECFG_P8_16x32_8x16: - case ADDR_PIPECFG_P8_32x32_8x16: - case ADDR_PIPECFG_P8_16x32_16x16: - case ADDR_PIPECFG_P8_32x32_16x16: - case ADDR_PIPECFG_P8_32x32_16x32: - case ADDR_PIPECFG_P8_32x64_32x32: - numPipes = 8; - break; - case ADDR_PIPECFG_P16_32x32_8x16: - case ADDR_PIPECFG_P16_32x32_16x16: - numPipes = 16; - break; - default: - ADDR_ASSERT(!"Invalid pipe config"); - numPipes = m_pipes; - } - return numPipes; -} - -/** -**************************************************************************************************** -* SiLib::ComputeBankEquation -* -* @brief -* Compute bank equation -* -* @return -* If equation can be computed -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE SiLib::ComputeBankEquation( - UINT_32 log2BytesPP, ///< [in] log2 of bytes per pixel - UINT_32 threshX, ///< [in] threshold for x channel - UINT_32 threshY, ///< [in] threshold for y channel - ADDR_TILEINFO* pTileInfo, ///< [in] tile info - ADDR_EQUATION* pEquation ///< [out] bank equation - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - UINT_32 pipes = HwlGetPipes(pTileInfo); - UINT_32 bankXStart = 3 + Log2(pipes) + Log2(pTileInfo->bankWidth); - UINT_32 bankYStart = 3 + Log2(pTileInfo->bankHeight); - - ADDR_CHANNEL_SETTING x3 = InitChannel(1, 0, log2BytesPP + bankXStart); - ADDR_CHANNEL_SETTING x4 = InitChannel(1, 0, log2BytesPP + bankXStart + 1); - ADDR_CHANNEL_SETTING x5 = InitChannel(1, 0, log2BytesPP + bankXStart + 2); - ADDR_CHANNEL_SETTING x6 = InitChannel(1, 0, log2BytesPP + bankXStart + 3); - ADDR_CHANNEL_SETTING y3 = InitChannel(1, 1, bankYStart); - ADDR_CHANNEL_SETTING y4 = InitChannel(1, 1, bankYStart + 1); - ADDR_CHANNEL_SETTING y5 = InitChannel(1, 1, bankYStart + 2); - ADDR_CHANNEL_SETTING y6 = InitChannel(1, 1, bankYStart + 3); - - x3.value = (threshX > bankXStart) ? x3.value : 0; - x4.value = (threshX > bankXStart + 1) ? x4.value : 0; - x5.value = (threshX > bankXStart + 2) ? x5.value : 0; - x6.value = (threshX > bankXStart + 3) ? x6.value : 0; - y3.value = (threshY > bankYStart) ? y3.value : 0; - y4.value = (threshY > bankYStart + 1) ? y4.value : 0; - y5.value = (threshY > bankYStart + 2) ? y5.value : 0; - y6.value = (threshY > bankYStart + 3) ? y6.value : 0; - - switch (pTileInfo->banks) - { - case 16: - if (pTileInfo->macroAspectRatio == 1) - { - pEquation->addr[0] = y6; - pEquation->xor1[0] = x3; - pEquation->addr[1] = y5; - pEquation->xor1[1] = y6; - pEquation->xor2[1] = x4; - pEquation->addr[2] = y4; - pEquation->xor1[2] = x5; - pEquation->addr[3] = y3; - pEquation->xor1[3] = x6; - } - else if (pTileInfo->macroAspectRatio == 2) - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y6; - pEquation->addr[1] = y5; - pEquation->xor1[1] = y6; - pEquation->xor2[1] = x4; - pEquation->addr[2] = y4; - pEquation->xor1[2] = x5; - pEquation->addr[3] = y3; - pEquation->xor1[3] = x6; - } - else if (pTileInfo->macroAspectRatio == 4) - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y6; - pEquation->addr[1] = x4; - pEquation->xor1[1] = y5; - pEquation->xor2[1] = y6; - pEquation->addr[2] = y4; - pEquation->xor1[2] = x5; - pEquation->addr[3] = y3; - pEquation->xor1[3] = x6; - } - else if (pTileInfo->macroAspectRatio == 8) - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y6; - pEquation->addr[1] = x4; - pEquation->xor1[1] = y5; - pEquation->xor2[1] = y6; - pEquation->addr[2] = x5; - pEquation->xor1[2] = y4; - pEquation->addr[3] = y3; - pEquation->xor1[3] = x6; - } - else - { - ADDR_ASSERT_ALWAYS(); - } - pEquation->numBits = 4; - break; - case 8: - if (pTileInfo->macroAspectRatio == 1) - { - pEquation->addr[0] = y5; - pEquation->xor1[0] = x3; - pEquation->addr[1] = y4; - pEquation->xor1[1] = y5; - pEquation->xor2[1] = x4; - pEquation->addr[2] = y3; - pEquation->xor1[2] = x5; - } - else if (pTileInfo->macroAspectRatio == 2) - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y5; - pEquation->addr[1] = y4; - pEquation->xor1[1] = y5; - pEquation->xor2[1] = x4; - pEquation->addr[2] = y3; - pEquation->xor1[2] = x5; - } - else if (pTileInfo->macroAspectRatio == 4) - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y5; - pEquation->addr[1] = x4; - pEquation->xor1[1] = y4; - pEquation->xor2[1] = y5; - pEquation->addr[2] = y3; - pEquation->xor1[2] = x5; - } - else - { - ADDR_ASSERT_ALWAYS(); - } - pEquation->numBits = 3; - break; - case 4: - if (pTileInfo->macroAspectRatio == 1) - { - pEquation->addr[0] = y4; - pEquation->xor1[0] = x3; - pEquation->addr[1] = y3; - pEquation->xor1[1] = x4; - } - else if (pTileInfo->macroAspectRatio == 2) - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y4; - pEquation->addr[1] = y3; - pEquation->xor1[1] = x4; - } - else - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y4; - pEquation->addr[1] = x4; - pEquation->xor1[1] = y3; - } - pEquation->numBits = 2; - break; - case 2: - if (pTileInfo->macroAspectRatio == 1) - { - pEquation->addr[0] = y3; - pEquation->xor1[0] = x3; - } - else - { - pEquation->addr[0] = x3; - pEquation->xor1[0] = y3; - } - pEquation->numBits = 1; - break; - default: - pEquation->numBits = 0; - retCode = ADDR_NOTSUPPORTED; - ADDR_ASSERT_ALWAYS(); - break; - } - - for (UINT_32 i = 0; i < pEquation->numBits; i++) - { - if (pEquation->addr[i].value == 0) - { - if (pEquation->xor1[i].value == 0) - { - // 00X -> X00 - pEquation->addr[i].value = pEquation->xor2[i].value; - pEquation->xor2[i].value = 0; - } - else - { - pEquation->addr[i].value = pEquation->xor1[i].value; - - if (pEquation->xor2[i].value != 0) - { - // 0XY -> XY0 - pEquation->xor1[i].value = pEquation->xor2[i].value; - pEquation->xor2[i].value = 0; - } - else - { - // 0X0 -> X00 - pEquation->xor1[i].value = 0; - } - } - } - else if (pEquation->xor1[i].value == 0) - { - if (pEquation->xor2[i].value != 0) - { - // X0Y -> XY0 - pEquation->xor1[i].value = pEquation->xor2[i].value; - pEquation->xor2[i].value = 0; - } - } - } - - if ((pTileInfo->bankWidth == 1) && - ((pTileInfo->pipeConfig == ADDR_PIPECFG_P4_32x32) || - (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32))) - { - retCode = ADDR_NOTSUPPORTED; - } - - return retCode; -} - -/** -**************************************************************************************************** -* SiLib::ComputePipeEquation -* -* @brief -* Compute pipe equation -* -* @return -* If equation can be computed -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE SiLib::ComputePipeEquation( - UINT_32 log2BytesPP, ///< [in] Log2 of bytes per pixel - UINT_32 threshX, ///< [in] Threshold for X channel - UINT_32 threshY, ///< [in] Threshold for Y channel - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - ADDR_EQUATION* pEquation ///< [out] Pipe configure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - ADDR_CHANNEL_SETTING* pAddr = pEquation->addr; - ADDR_CHANNEL_SETTING* pXor1 = pEquation->xor1; - ADDR_CHANNEL_SETTING* pXor2 = pEquation->xor2; - - ADDR_CHANNEL_SETTING x3 = InitChannel(1, 0, 3 + log2BytesPP); - ADDR_CHANNEL_SETTING x4 = InitChannel(1, 0, 4 + log2BytesPP); - ADDR_CHANNEL_SETTING x5 = InitChannel(1, 0, 5 + log2BytesPP); - ADDR_CHANNEL_SETTING x6 = InitChannel(1, 0, 6 + log2BytesPP); - ADDR_CHANNEL_SETTING y3 = InitChannel(1, 1, 3); - ADDR_CHANNEL_SETTING y4 = InitChannel(1, 1, 4); - ADDR_CHANNEL_SETTING y5 = InitChannel(1, 1, 5); - ADDR_CHANNEL_SETTING y6 = InitChannel(1, 1, 6); - - x3.value = (threshX > 3) ? x3.value : 0; - x4.value = (threshX > 4) ? x4.value : 0; - x5.value = (threshX > 5) ? x5.value : 0; - x6.value = (threshX > 6) ? x6.value : 0; - y3.value = (threshY > 3) ? y3.value : 0; - y4.value = (threshY > 4) ? y4.value : 0; - y5.value = (threshY > 5) ? y5.value : 0; - y6.value = (threshY > 6) ? y6.value : 0; - - switch (pTileInfo->pipeConfig) - { - case ADDR_PIPECFG_P2: - pAddr[0] = x3; - pXor1[0] = y3; - pEquation->numBits = 1; - break; - case ADDR_PIPECFG_P4_8x16: - pAddr[0] = x4; - pXor1[0] = y3; - pAddr[1] = x3; - pXor1[1] = y4; - pEquation->numBits = 2; - break; - case ADDR_PIPECFG_P4_16x16: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x4; - pAddr[1] = x4; - pXor1[1] = y4; - pEquation->numBits = 2; - break; - case ADDR_PIPECFG_P4_16x32: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x4; - pAddr[1] = x4; - pXor1[1] = y5; - pEquation->numBits = 2; - break; - case ADDR_PIPECFG_P4_32x32: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x5; - pAddr[1] = x5; - pXor1[1] = y5; - pEquation->numBits = 2; - break; - case ADDR_PIPECFG_P8_16x16_8x16: - pAddr[0] = x4; - pXor1[0] = y3; - pXor2[0] = x5; - pAddr[1] = x3; - pXor1[1] = y5; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P8_16x32_8x16: - pAddr[0] = x4; - pXor1[0] = y3; - pXor2[0] = x5; - pAddr[1] = x3; - pXor1[1] = y4; - pAddr[2] = x4; - pXor1[2] = y5; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P8_16x32_16x16: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x4; - pAddr[1] = x5; - pXor1[1] = y4; - pAddr[2] = x4; - pXor1[2] = y5; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P8_32x32_8x16: - pAddr[0] = x4; - pXor1[0] = y3; - pXor2[0] = x5; - pAddr[1] = x3; - pXor1[1] = y4; - pAddr[2] = x5; - pXor1[2] = y5; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P8_32x32_16x16: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x4; - pAddr[1] = x4; - pXor1[1] = y4; - pAddr[2] = x5; - pXor1[2] = y5; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P8_32x32_16x32: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x4; - pAddr[1] = x4; - pXor1[1] = y6; - pAddr[2] = x5; - pXor1[2] = y5; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P8_32x64_32x32: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x5; - pAddr[1] = x6; - pXor1[1] = y5; - pAddr[2] = x5; - pXor1[2] = y6; - pEquation->numBits = 3; - break; - case ADDR_PIPECFG_P16_32x32_8x16: - pAddr[0] = x4; - pXor1[0] = y3; - pAddr[1] = x3; - pXor1[1] = y4; - pAddr[2] = x5; - pXor1[2] = y6; - pAddr[3] = x6; - pXor1[3] = y5; - pEquation->numBits = 4; - break; - case ADDR_PIPECFG_P16_32x32_16x16: - pAddr[0] = x3; - pXor1[0] = y3; - pXor2[0] = x4; - pAddr[1] = x4; - pXor1[1] = y4; - pAddr[2] = x5; - pXor1[2] = y6; - pAddr[3] = x6; - pXor1[3] = y5; - pEquation->numBits = 4; - break; - default: - ADDR_UNHANDLED_CASE(); - pEquation->numBits = 0; - retCode = ADDR_NOTSUPPORTED; - break; - } - - if (m_settings.isVegaM && (pEquation->numBits == 4)) - { - ADDR_CHANNEL_SETTING addeMsb = pAddr[0]; - ADDR_CHANNEL_SETTING xor1Msb = pXor1[0]; - ADDR_CHANNEL_SETTING xor2Msb = pXor2[0]; - - pAddr[0] = pAddr[1]; - pXor1[0] = pXor1[1]; - pXor2[0] = pXor2[1]; - - pAddr[1] = pAddr[2]; - pXor1[1] = pXor1[2]; - pXor2[1] = pXor2[2]; - - pAddr[2] = pAddr[3]; - pXor1[2] = pXor1[3]; - pXor2[2] = pXor2[3]; - - pAddr[3] = addeMsb; - pXor1[3] = xor1Msb; - pXor2[3] = xor2Msb; - } - - for (UINT_32 i = 0; i < pEquation->numBits; i++) - { - if (pAddr[i].value == 0) - { - if (pXor1[i].value == 0) - { - pAddr[i].value = pXor2[i].value; - } - else - { - pAddr[i].value = pXor1[i].value; - pXor1[i].value = 0; - } - } - } - - return retCode; -} - -/** -**************************************************************************************************** -* SiLib::ComputePipeFromCoord -* -* @brief -* Compute pipe number from coordinates -* @return -* Pipe number -**************************************************************************************************** -*/ -UINT_32 SiLib::ComputePipeFromCoord( - UINT_32 x, ///< [in] x coordinate - UINT_32 y, ///< [in] y coordinate - UINT_32 slice, ///< [in] slice index - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 pipeSwizzle, ///< [in] pipe swizzle - BOOL_32 ignoreSE, ///< [in] TRUE if shader engines are ignored - ADDR_TILEINFO* pTileInfo ///< [in] Tile info - ) const -{ - UINT_32 pipe; - UINT_32 pipeBit0 = 0; - UINT_32 pipeBit1 = 0; - UINT_32 pipeBit2 = 0; - UINT_32 pipeBit3 = 0; - UINT_32 sliceRotation; - UINT_32 numPipes = 0; - - UINT_32 tx = x / MicroTileWidth; - UINT_32 ty = y / MicroTileHeight; - UINT_32 x3 = _BIT(tx,0); - UINT_32 x4 = _BIT(tx,1); - UINT_32 x5 = _BIT(tx,2); - UINT_32 x6 = _BIT(tx,3); - UINT_32 y3 = _BIT(ty,0); - UINT_32 y4 = _BIT(ty,1); - UINT_32 y5 = _BIT(ty,2); - UINT_32 y6 = _BIT(ty,3); - - switch (pTileInfo->pipeConfig) - { - case ADDR_PIPECFG_P2: - pipeBit0 = x3 ^ y3; - numPipes = 2; - break; - case ADDR_PIPECFG_P4_8x16: - pipeBit0 = x4 ^ y3; - pipeBit1 = x3 ^ y4; - numPipes = 4; - break; - case ADDR_PIPECFG_P4_16x16: - pipeBit0 = x3 ^ y3 ^ x4; - pipeBit1 = x4 ^ y4; - numPipes = 4; - break; - case ADDR_PIPECFG_P4_16x32: - pipeBit0 = x3 ^ y3 ^ x4; - pipeBit1 = x4 ^ y5; - numPipes = 4; - break; - case ADDR_PIPECFG_P4_32x32: - pipeBit0 = x3 ^ y3 ^ x5; - pipeBit1 = x5 ^ y5; - numPipes = 4; - break; - case ADDR_PIPECFG_P8_16x16_8x16: - pipeBit0 = x4 ^ y3 ^ x5; - pipeBit1 = x3 ^ y5; - numPipes = 8; - break; - case ADDR_PIPECFG_P8_16x32_8x16: - pipeBit0 = x4 ^ y3 ^ x5; - pipeBit1 = x3 ^ y4; - pipeBit2 = x4 ^ y5; - numPipes = 8; - break; - case ADDR_PIPECFG_P8_16x32_16x16: - pipeBit0 = x3 ^ y3 ^ x4; - pipeBit1 = x5 ^ y4; - pipeBit2 = x4 ^ y5; - numPipes = 8; - break; - case ADDR_PIPECFG_P8_32x32_8x16: - pipeBit0 = x4 ^ y3 ^ x5; - pipeBit1 = x3 ^ y4; - pipeBit2 = x5 ^ y5; - numPipes = 8; - break; - case ADDR_PIPECFG_P8_32x32_16x16: - pipeBit0 = x3 ^ y3 ^ x4; - pipeBit1 = x4 ^ y4; - pipeBit2 = x5 ^ y5; - numPipes = 8; - break; - case ADDR_PIPECFG_P8_32x32_16x32: - pipeBit0 = x3 ^ y3 ^ x4; - pipeBit1 = x4 ^ y6; - pipeBit2 = x5 ^ y5; - numPipes = 8; - break; - case ADDR_PIPECFG_P8_32x64_32x32: - pipeBit0 = x3 ^ y3 ^ x5; - pipeBit1 = x6 ^ y5; - pipeBit2 = x5 ^ y6; - numPipes = 8; - break; - case ADDR_PIPECFG_P16_32x32_8x16: - pipeBit0 = x4 ^ y3; - pipeBit1 = x3 ^ y4; - pipeBit2 = x5 ^ y6; - pipeBit3 = x6 ^ y5; - numPipes = 16; - break; - case ADDR_PIPECFG_P16_32x32_16x16: - pipeBit0 = x3 ^ y3 ^ x4; - pipeBit1 = x4 ^ y4; - pipeBit2 = x5 ^ y6; - pipeBit3 = x6 ^ y5; - numPipes = 16; - break; - default: - ADDR_UNHANDLED_CASE(); - break; - } - - if (m_settings.isVegaM && (numPipes == 16)) - { - UINT_32 pipeMsb = pipeBit0; - pipeBit0 = pipeBit1; - pipeBit1 = pipeBit2; - pipeBit2 = pipeBit3; - pipeBit3 = pipeMsb; - } - - pipe = pipeBit0 | (pipeBit1 << 1) | (pipeBit2 << 2) | (pipeBit3 << 3); - - UINT_32 microTileThickness = Thickness(tileMode); - - // - // Apply pipe rotation for the slice. - // - switch (tileMode) - { - case ADDR_TM_3D_TILED_THIN1: //fall through thin - case ADDR_TM_3D_TILED_THICK: //fall through thick - case ADDR_TM_3D_TILED_XTHICK: - sliceRotation = - Max(1, static_cast(numPipes / 2) - 1) * (slice / microTileThickness); - break; - default: - sliceRotation = 0; - break; - } - pipeSwizzle += sliceRotation; - pipeSwizzle &= (numPipes - 1); - - pipe = pipe ^ pipeSwizzle; - - return pipe; -} - -/** -**************************************************************************************************** -* SiLib::ComputeTileCoordFromPipeAndElemIdx -* -* @brief -* Compute (x,y) of a tile within a macro tile from address -* @return -* Pipe number -**************************************************************************************************** -*/ -VOID SiLib::ComputeTileCoordFromPipeAndElemIdx( - UINT_32 elemIdx, ///< [in] per pipe element index within a macro tile - UINT_32 pipe, ///< [in] pipe index - AddrPipeCfg pipeCfg, ///< [in] pipe config - UINT_32 pitchInMacroTile, ///< [in] surface pitch in macro tile - UINT_32 x, ///< [in] x coordinate of the (0,0) tile in a macro tile - UINT_32 y, ///< [in] y coordinate of the (0,0) tile in a macro tile - UINT_32* pX, ///< [out] x coordinate - UINT_32* pY ///< [out] y coordinate - ) const -{ - UINT_32 pipebit0 = _BIT(pipe,0); - UINT_32 pipebit1 = _BIT(pipe,1); - UINT_32 pipebit2 = _BIT(pipe,2); - UINT_32 pipebit3 = _BIT(pipe,3); - UINT_32 elemIdx0 = _BIT(elemIdx,0); - UINT_32 elemIdx1 = _BIT(elemIdx,1); - UINT_32 elemIdx2 = _BIT(elemIdx,2); - UINT_32 x3 = 0; - UINT_32 x4 = 0; - UINT_32 x5 = 0; - UINT_32 x6 = 0; - UINT_32 y3 = 0; - UINT_32 y4 = 0; - UINT_32 y5 = 0; - UINT_32 y6 = 0; - - switch(pipeCfg) - { - case ADDR_PIPECFG_P2: - x4 = elemIdx2; - y4 = elemIdx1 ^ x4; - y3 = elemIdx0 ^ x4; - x3 = pipebit0 ^ y3; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P4_8x16: - x4 = elemIdx1; - y4 = elemIdx0 ^ x4; - x3 = pipebit1 ^ y4; - y3 = pipebit0 ^ x4; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P4_16x16: - x4 = elemIdx1; - y3 = elemIdx0 ^ x4; - y4 = pipebit1 ^ x4; - x3 = pipebit0 ^ y3 ^ x4; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P4_16x32: - x3 = elemIdx0 ^ pipebit0; - y5 = _BIT(y,5); - x4 = pipebit1 ^ y5; - y3 = pipebit0 ^ x3 ^ x4; - y4 = elemIdx1 ^ x4; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P4_32x32: - x4 = elemIdx2; - y3 = elemIdx0 ^ x4; - y4 = elemIdx1 ^ x4; - if((pitchInMacroTile % 2) == 0) - { //even - y5 = _BIT(y,5); - x5 = pipebit1 ^ y5; - x3 = pipebit0 ^ y3 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - else - { //odd - x5 = _BIT(x,5); - x3 = pipebit0 ^ y3 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - } - break; - case ADDR_PIPECFG_P8_16x16_8x16: - x4 = elemIdx0; - y5 = _BIT(y,5); - x5 = _BIT(x,5); - x3 = pipebit1 ^ y5; - y4 = pipebit2 ^ x4; - y3 = pipebit0 ^ x5 ^ x4; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P8_16x32_8x16: - x3 = elemIdx0; - y4 = pipebit1 ^ x3; - y5 = _BIT(y,5); - x5 = _BIT(x,5); - x4 = pipebit2 ^ y5; - y3 = pipebit0 ^ x4 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P8_32x32_8x16: - x4 = elemIdx1; - y4 = elemIdx0 ^ x4; - x3 = pipebit1 ^ y4; - if((pitchInMacroTile % 2) == 0) - { //even - y5 = _BIT(y,5); - x5 = _BIT(x,5); - x5 = pipebit2 ^ y5; - y3 = pipebit0 ^ x4 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - else - { //odd - x5 = _BIT(x,5); - y3 = pipebit0 ^ x4 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - } - break; - case ADDR_PIPECFG_P8_16x32_16x16: - x3 = elemIdx0; - x5 = _BIT(x,5); - y5 = _BIT(y,5); - x4 = pipebit2 ^ y5; - y4 = pipebit1 ^ x5; - y3 = pipebit0 ^ x3 ^ x4; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - break; - case ADDR_PIPECFG_P8_32x32_16x16: - x4 = elemIdx1; - y3 = elemIdx0 ^ x4; - x3 = y3^x4^pipebit0; - y4 = pipebit1 ^ x4; - if((pitchInMacroTile % 2) == 0) - { //even - y5 = _BIT(y,5); - x5 = pipebit2 ^ y5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - else - { //odd - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - } - break; - case ADDR_PIPECFG_P8_32x32_16x32: - if((pitchInMacroTile % 2) == 0) - { //even - y5 = _BIT(y,5); - y6 = _BIT(y,6); - x4 = pipebit1 ^ y6; - y3 = elemIdx0 ^ x4; - y4 = elemIdx1 ^ x4; - x3 = pipebit0 ^ y3 ^ x4; - x5 = pipebit2 ^ y5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - else - { //odd - y6 = _BIT(y,6); - x4 = pipebit1 ^ y6; - y3 = elemIdx0 ^ x4; - y4 = elemIdx1 ^ x4; - x3 = pipebit0 ^ y3 ^ x4; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(2, x4, x3); - } - break; - case ADDR_PIPECFG_P8_32x64_32x32: - x4 = elemIdx2; - y3 = elemIdx0 ^ x4; - y4 = elemIdx1 ^ x4; - if((pitchInMacroTile % 4) == 0) - { //multiple of 4 - y5 = _BIT(y,5); - y6 = _BIT(y,6); - x5 = pipebit2 ^ y6; - x6 = pipebit1 ^ y5; - x3 = pipebit0 ^ y3 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(4, x6, x5, x4, x3); - } - else - { - y6 = _BIT(y,6); - x5 = pipebit2 ^ y6; - x3 = pipebit0 ^ y3 ^ x5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - break; - case ADDR_PIPECFG_P16_32x32_8x16: - x4 = elemIdx1; - y4 = elemIdx0 ^ x4; - y3 = pipebit0 ^ x4; - x3 = pipebit1 ^ y4; - if((pitchInMacroTile % 4) == 0) - { //multiple of 4 - y5 = _BIT(y,5); - y6 = _BIT(y,6); - x5 = pipebit2 ^ y6; - x6 = pipebit3 ^ y5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(4, x6, x5,x4, x3); - } - else - { - y6 = _BIT(y,6); - x5 = pipebit2 ^ y6; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - break; - case ADDR_PIPECFG_P16_32x32_16x16: - x4 = elemIdx1; - y3 = elemIdx0 ^ x4; - y4 = pipebit1 ^ x4; - x3 = pipebit0 ^ y3 ^ x4; - if((pitchInMacroTile % 4) == 0) - { //multiple of 4 - y5 = _BIT(y,5); - y6 = _BIT(y,6); - x5 = pipebit2 ^ y6; - x6 = pipebit3 ^ y5; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(4, x6, x5, x4, x3); - } - else - { - y6 = _BIT(y,6); - x5 = pipebit2 ^ y6; - *pY = Bits2Number(2, y4, y3); - *pX = Bits2Number(3, x5, x4, x3); - } - break; - default: - ADDR_UNHANDLED_CASE(); - } -} - -/** -**************************************************************************************************** -* SiLib::TileCoordToMaskElementIndex -* -* @brief -* Compute element index from coordinates in tiles -* @return -* Element index -**************************************************************************************************** -*/ -UINT_32 SiLib::TileCoordToMaskElementIndex( - UINT_32 tx, ///< [in] x coord, in Tiles - UINT_32 ty, ///< [in] y coord, in Tiles - AddrPipeCfg pipeConfig, ///< [in] pipe config - UINT_32* macroShift, ///< [out] macro shift - UINT_32* elemIdxBits ///< [out] tile offset bits - ) const -{ - UINT_32 elemIdx = 0; - UINT_32 elemIdx0, elemIdx1, elemIdx2; - UINT_32 tx0, tx1; - UINT_32 ty0, ty1; - - tx0 = _BIT(tx,0); - tx1 = _BIT(tx,1); - ty0 = _BIT(ty,0); - ty1 = _BIT(ty,1); - - switch(pipeConfig) - { - case ADDR_PIPECFG_P2: - *macroShift = 3; - *elemIdxBits =3; - elemIdx2 = tx1; - elemIdx1 = tx1 ^ ty1; - elemIdx0 = tx1 ^ ty0; - elemIdx = Bits2Number(3,elemIdx2,elemIdx1,elemIdx0); - break; - case ADDR_PIPECFG_P4_8x16: - *macroShift = 2; - *elemIdxBits =2; - elemIdx1 = tx1; - elemIdx0 = tx1 ^ ty1; - elemIdx = Bits2Number(2,elemIdx1,elemIdx0); - break; - case ADDR_PIPECFG_P4_16x16: - *macroShift = 2; - *elemIdxBits =2; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P4_16x32: - *macroShift = 2; - *elemIdxBits =2; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1^ty1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P4_32x32: - *macroShift = 2; - *elemIdxBits =3; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1^ty1; - elemIdx2 = tx1; - elemIdx = Bits2Number(3, elemIdx2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P8_16x16_8x16: - *macroShift = 1; - *elemIdxBits =1; - elemIdx0 = tx1; - elemIdx = elemIdx0; - break; - case ADDR_PIPECFG_P8_16x32_8x16: - *macroShift = 1; - *elemIdxBits =1; - elemIdx0 = tx0; - elemIdx = elemIdx0; - break; - case ADDR_PIPECFG_P8_32x32_8x16: - *macroShift = 1; - *elemIdxBits =2; - elemIdx1 = tx1; - elemIdx0 = tx1^ty1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P8_16x32_16x16: - *macroShift = 1; - *elemIdxBits =1; - elemIdx0 = tx0; - elemIdx = elemIdx0; - break; - case ADDR_PIPECFG_P8_32x32_16x16: - *macroShift = 1; - *elemIdxBits =2; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P8_32x32_16x32: - *macroShift = 1; - *elemIdxBits =2; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1^ty1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P8_32x64_32x32: - *macroShift = 1; - *elemIdxBits =3; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1^ty1; - elemIdx2 = tx1; - elemIdx = Bits2Number(3, elemIdx2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P16_32x32_8x16: - *macroShift = 0; - *elemIdxBits =2; - elemIdx0 = tx1^ty1; - elemIdx1 = tx1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - case ADDR_PIPECFG_P16_32x32_16x16: - *macroShift = 0; - *elemIdxBits =2; - elemIdx0 = tx1^ty0; - elemIdx1 = tx1; - elemIdx = Bits2Number(2, elemIdx1, elemIdx0); - break; - default: - ADDR_UNHANDLED_CASE(); - break; - } - - return elemIdx; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeTileDataWidthAndHeightLinear -* -* @brief -* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout -* -* @return -* N/A -* -* @note -* MacroWidth and macroHeight are measured in pixels -**************************************************************************************************** -*/ -VOID SiLib::HwlComputeTileDataWidthAndHeightLinear( - UINT_32* pMacroWidth, ///< [out] macro tile width - UINT_32* pMacroHeight, ///< [out] macro tile height - UINT_32 bpp, ///< [in] bits per pixel - ADDR_TILEINFO* pTileInfo ///< [in] tile info - ) const -{ - ADDR_ASSERT(pTileInfo != NULL); - UINT_32 macroWidth; - UINT_32 macroHeight; - - /// In linear mode, the htile or cmask buffer must be padded out to 4 tiles - /// but for P8_32x64_32x32, it must be padded out to 8 tiles - /// Actually there are more pipe configs which need 8-tile padding but SI family - /// has a bug which is fixed in CI family - if ((pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32) || - (pTileInfo->pipeConfig == ADDR_PIPECFG_P16_32x32_8x16) || - (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x32_16x16)) - { - macroWidth = 8*MicroTileWidth; - macroHeight = 8*MicroTileHeight; - } - else - { - macroWidth = 4*MicroTileWidth; - macroHeight = 4*MicroTileHeight; - } - - *pMacroWidth = macroWidth; - *pMacroHeight = macroHeight; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeHtileBytes -* -* @brief -* Compute htile size in bytes -* -* @return -* Htile size in bytes -**************************************************************************************************** -*/ -UINT_64 SiLib::HwlComputeHtileBytes( - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 bpp, ///< [in] bits per pixel - BOOL_32 isLinear, ///< [in] if it is linear mode - UINT_32 numSlices, ///< [in] number of slices - UINT_64* pSliceBytes, ///< [out] bytes per slice - UINT_32 baseAlign ///< [in] base alignments - ) const -{ - return ComputeHtileBytes(pitch, height, bpp, isLinear, numSlices, pSliceBytes, baseAlign); -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeXmaskAddrFromCoord -* -* @brief -* Compute address from coordinates for htile/cmask -* @return -* Byte address -**************************************************************************************************** -*/ -UINT_64 SiLib::HwlComputeXmaskAddrFromCoord( - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 x, ///< [in] x coord - UINT_32 y, ///< [in] y coord - UINT_32 slice, ///< [in] slice/depth index - UINT_32 numSlices, ///< [in] number of slices - UINT_32 factor, ///< [in] factor that indicates cmask(2) or htile(1) - BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout - BOOL_32 isWidth8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value - BOOL_32 isHeight8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pBitPosition ///< [out] bit position inside a byte - ) const -{ - UINT_32 tx = x / MicroTileWidth; - UINT_32 ty = y / MicroTileHeight; - UINT_32 newPitch; - UINT_32 newHeight; - UINT_64 totalBytes; - UINT_32 macroWidth; - UINT_32 macroHeight; - UINT_64 pSliceBytes; - UINT_32 pBaseAlign; - UINT_32 tileNumPerPipe; - UINT_32 elemBits; - - if (factor == 2) //CMASK - { - ADDR_CMASK_FLAGS flags = {{0}}; - - tileNumPerPipe = 256; - - ComputeCmaskInfo(flags, - pitch, - height, - numSlices, - isLinear, - pTileInfo, - &newPitch, - &newHeight, - &totalBytes, - ¯oWidth, - ¯oHeight); - elemBits = CmaskElemBits; - } - else //HTile - { - ADDR_HTILE_FLAGS flags = {{0}}; - - tileNumPerPipe = 512; - - ComputeHtileInfo(flags, - pitch, - height, - numSlices, - isLinear, - TRUE, - TRUE, - pTileInfo, - &newPitch, - &newHeight, - &totalBytes, - ¯oWidth, - ¯oHeight, - &pSliceBytes, - &pBaseAlign); - elemBits = 32; - } - - const UINT_32 pitchInTile = newPitch / MicroTileWidth; - const UINT_32 heightInTile = newHeight / MicroTileWidth; - UINT_64 macroOffset; // Per pipe starting offset of the macro tile in which this tile lies. - UINT_64 microNumber; // Per pipe starting offset of the macro tile in which this tile lies. - UINT_32 microX; - UINT_32 microY; - UINT_64 microOffset; - UINT_32 microShift; - UINT_64 totalOffset; - UINT_32 elemIdxBits; - UINT_32 elemIdx = - TileCoordToMaskElementIndex(tx, ty, pTileInfo->pipeConfig, µShift, &elemIdxBits); - - UINT_32 numPipes = HwlGetPipes(pTileInfo); - - if (isLinear) - { //linear addressing - // Linear addressing is extremelly wasting memory if slice > 1, since each pipe has the full - // slice memory foot print instead of divided by numPipes. - microX = tx / 4; // Macro Tile is 4x4 - microY = ty / 4 ; - microNumber = static_cast(microX + microY * (pitchInTile / 4)) << microShift; - - UINT_32 sliceBits = pitchInTile * heightInTile; - - // do htile single slice alignment if the flag is true - if (m_configFlags.useHtileSliceAlign && (factor == 1)) //Htile - { - sliceBits = PowTwoAlign(sliceBits, BITS_TO_BYTES(HtileCacheBits) * numPipes / elemBits); - } - macroOffset = slice * (sliceBits / numPipes) * elemBits ; - } - else - { //tiled addressing - const UINT_32 macroWidthInTile = macroWidth / MicroTileWidth; // Now in unit of Tiles - const UINT_32 macroHeightInTile = macroHeight / MicroTileHeight; - const UINT_32 pitchInCL = pitchInTile / macroWidthInTile; - const UINT_32 heightInCL = heightInTile / macroHeightInTile; - - const UINT_32 macroX = x / macroWidth; - const UINT_32 macroY = y / macroHeight; - const UINT_32 macroNumber = macroX + macroY * pitchInCL + slice * pitchInCL * heightInCL; - - // Per pipe starting offset of the cache line in which this tile lies. - microX = (x % macroWidth) / MicroTileWidth / 4; // Macro Tile is 4x4 - microY = (y % macroHeight) / MicroTileHeight / 4 ; - microNumber = static_cast(microX + microY * (macroWidth / MicroTileWidth / 4)) << microShift; - - macroOffset = macroNumber * tileNumPerPipe * elemBits; - } - - if(elemIdxBits == microShift) - { - microNumber += elemIdx; - } - else - { - microNumber >>= elemIdxBits; - microNumber <<= elemIdxBits; - microNumber += elemIdx; - } - - microOffset = elemBits * microNumber; - totalOffset = microOffset + macroOffset; - - UINT_32 pipe = ComputePipeFromCoord(x, y, 0, ADDR_TM_2D_TILED_THIN1, 0, FALSE, pTileInfo); - UINT_64 addrInBits = totalOffset % (m_pipeInterleaveBytes * 8) + - pipe * (m_pipeInterleaveBytes * 8) + - totalOffset / (m_pipeInterleaveBytes * 8) * (m_pipeInterleaveBytes * 8) * numPipes; - *pBitPosition = static_cast(addrInBits) % 8; - UINT_64 addr = addrInBits / 8; - - return addr; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeXmaskCoordFromAddr -* -* @brief -* Compute the coord from an address of a cmask/htile -* -* @return -* N/A -* -* @note -* This method is reused by htile, so rename to Xmask -**************************************************************************************************** -*/ -VOID SiLib::HwlComputeXmaskCoordFromAddr( - UINT_64 addr, ///< [in] address - UINT_32 bitPosition, ///< [in] bitPosition in a byte - UINT_32 pitch, ///< [in] pitch - UINT_32 height, ///< [in] height - UINT_32 numSlices, ///< [in] number of slices - UINT_32 factor, ///< [in] factor that indicates cmask or htile - BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout - BOOL_32 isWidth8, ///< [in] Not used by SI - BOOL_32 isHeight8, ///< [in] Not used by SI - ADDR_TILEINFO* pTileInfo, ///< [in] Tile info - UINT_32* pX, ///< [out] x coord - UINT_32* pY, ///< [out] y coord - UINT_32* pSlice ///< [out] slice index - ) const -{ - UINT_32 newPitch; - UINT_32 newHeight; - UINT_64 totalBytes; - UINT_32 clWidth; - UINT_32 clHeight; - UINT_32 tileNumPerPipe; - UINT_64 sliceBytes; - - *pX = 0; - *pY = 0; - *pSlice = 0; - - if (factor == 2) //CMASK - { - ADDR_CMASK_FLAGS flags = {{0}}; - - tileNumPerPipe = 256; - - ComputeCmaskInfo(flags, - pitch, - height, - numSlices, - isLinear, - pTileInfo, - &newPitch, - &newHeight, - &totalBytes, - &clWidth, - &clHeight); - } - else //HTile - { - ADDR_HTILE_FLAGS flags = {{0}}; - - tileNumPerPipe = 512; - - ComputeHtileInfo(flags, - pitch, - height, - numSlices, - isLinear, - TRUE, - TRUE, - pTileInfo, - &newPitch, - &newHeight, - &totalBytes, - &clWidth, - &clHeight, - &sliceBytes); - } - - const UINT_32 pitchInTile = newPitch / MicroTileWidth; - const UINT_32 heightInTile = newHeight / MicroTileWidth; - const UINT_32 pitchInMacroTile = pitchInTile / 4; - UINT_32 macroShift; - UINT_32 elemIdxBits; - // get macroShift and elemIdxBits - TileCoordToMaskElementIndex(0, 0, pTileInfo->pipeConfig, ¯oShift, &elemIdxBits); - - const UINT_32 numPipes = HwlGetPipes(pTileInfo); - const UINT_32 pipe = (UINT_32)((addr / m_pipeInterleaveBytes) % numPipes); - // per pipe - UINT_64 localOffset = (addr % m_pipeInterleaveBytes) + - (addr / m_pipeInterleaveBytes / numPipes)* m_pipeInterleaveBytes; - - UINT_32 tileIndex; - if (factor == 2) //CMASK - { - tileIndex = (UINT_32)(localOffset * 2 + (bitPosition != 0)); - } - else - { - tileIndex = (UINT_32)(localOffset / 4); - } - - UINT_32 macroOffset; - if (isLinear) - { - UINT_32 sliceSizeInTile = pitchInTile * heightInTile; - - // do htile single slice alignment if the flag is true - if (m_configFlags.useHtileSliceAlign && (factor == 1)) //Htile - { - sliceSizeInTile = PowTwoAlign(sliceSizeInTile, static_cast(sliceBytes) / 64); - } - *pSlice = tileIndex / (sliceSizeInTile / numPipes); - macroOffset = tileIndex % (sliceSizeInTile / numPipes); - } - else - { - const UINT_32 clWidthInTile = clWidth / MicroTileWidth; // Now in unit of Tiles - const UINT_32 clHeightInTile = clHeight / MicroTileHeight; - const UINT_32 pitchInCL = pitchInTile / clWidthInTile; - const UINT_32 heightInCL = heightInTile / clHeightInTile; - const UINT_32 clIndex = tileIndex / tileNumPerPipe; - - UINT_32 clX = clIndex % pitchInCL; - UINT_32 clY = (clIndex % (heightInCL * pitchInCL)) / pitchInCL; - - *pX = clX * clWidthInTile * MicroTileWidth; - *pY = clY * clHeightInTile * MicroTileHeight; - *pSlice = clIndex / (heightInCL * pitchInCL); - - macroOffset = tileIndex % tileNumPerPipe; - } - - UINT_32 elemIdx = macroOffset & 7; - macroOffset >>= elemIdxBits; - - if (elemIdxBits != macroShift) - { - macroOffset <<= (elemIdxBits - macroShift); - - UINT_32 pipebit1 = _BIT(pipe,1); - UINT_32 pipebit2 = _BIT(pipe,2); - UINT_32 pipebit3 = _BIT(pipe,3); - if (pitchInMacroTile % 2) - { //odd - switch (pTileInfo->pipeConfig) - { - case ADDR_PIPECFG_P4_32x32: - macroOffset |= pipebit1; - break; - case ADDR_PIPECFG_P8_32x32_8x16: - case ADDR_PIPECFG_P8_32x32_16x16: - case ADDR_PIPECFG_P8_32x32_16x32: - macroOffset |= pipebit2; - break; - default: - break; - } - - } - - if (pitchInMacroTile % 4) - { - if (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32) - { - macroOffset |= (pipebit1<<1); - } - if((pTileInfo->pipeConfig == ADDR_PIPECFG_P16_32x32_8x16) || - (pTileInfo->pipeConfig == ADDR_PIPECFG_P16_32x32_16x16)) - { - macroOffset |= (pipebit3<<1); - } - } - } - - UINT_32 macroX; - UINT_32 macroY; - - if (isLinear) - { - macroX = macroOffset % pitchInMacroTile; - macroY = macroOffset / pitchInMacroTile; - } - else - { - const UINT_32 clWidthInMacroTile = clWidth / (MicroTileWidth * 4); - macroX = macroOffset % clWidthInMacroTile; - macroY = macroOffset / clWidthInMacroTile; - } - - *pX += macroX * 4 * MicroTileWidth; - *pY += macroY * 4 * MicroTileHeight; - - UINT_32 microX; - UINT_32 microY; - ComputeTileCoordFromPipeAndElemIdx(elemIdx, pipe, pTileInfo->pipeConfig, pitchInMacroTile, - *pX, *pY, µX, µY); - - *pX += microX * MicroTileWidth; - *pY += microY * MicroTileWidth; -} - -/** -**************************************************************************************************** -* SiLib::HwlGetPitchAlignmentLinear -* @brief -* Get pitch alignment -* @return -* pitch alignment -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlGetPitchAlignmentLinear( - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags ///< [in] surface flags - ) const -{ - UINT_32 pitchAlign; - - // Interleaved access requires a 256B aligned pitch, so fall back to pre-SI alignment - if (flags.interleaved) - { - pitchAlign = Max(64u, m_pipeInterleaveBytes / BITS_TO_BYTES(bpp)); - - } - else - { - pitchAlign = Max(8u, 64 / BITS_TO_BYTES(bpp)); - } - - return pitchAlign; -} - -/** -**************************************************************************************************** -* SiLib::HwlGetSizeAdjustmentLinear -* -* @brief -* Adjust linear surface pitch and slice size -* -* @return -* Logical slice size in bytes -**************************************************************************************************** -*/ -UINT_64 SiLib::HwlGetSizeAdjustmentLinear( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - UINT_32 numSamples, ///< [in] number of samples - UINT_32 baseAlign, ///< [in] base alignment - UINT_32 pitchAlign, ///< [in] pitch alignment - UINT_32* pPitch, ///< [in,out] pointer to pitch - UINT_32* pHeight, ///< [in,out] pointer to height - UINT_32* pHeightAlign ///< [in,out] pointer to height align - ) const -{ - UINT_64 sliceSize; - if (tileMode == ADDR_TM_LINEAR_GENERAL) - { - sliceSize = BITS_TO_BYTES(static_cast(*pPitch) * (*pHeight) * bpp * numSamples); - } - else - { - UINT_32 pitch = *pPitch; - UINT_32 height = *pHeight; - - UINT_32 pixelsPerPipeInterleave = m_pipeInterleaveBytes / BITS_TO_BYTES(bpp); - UINT_32 sliceAlignInPixel = pixelsPerPipeInterleave < 64 ? 64 : pixelsPerPipeInterleave; - - // numSamples should be 1 in real cases (no MSAA for linear but TGL may pass non 1 value) - UINT_64 pixelPerSlice = static_cast(pitch) * height * numSamples; - - while (pixelPerSlice % sliceAlignInPixel) - { - pitch += pitchAlign; - pixelPerSlice = static_cast(pitch) * height * numSamples; - } - - *pPitch = pitch; - - UINT_32 heightAlign = 1; - - while ((pitch * heightAlign) % sliceAlignInPixel) - { - heightAlign++; - } - - *pHeightAlign = heightAlign; - - sliceSize = BITS_TO_BYTES(pixelPerSlice * bpp); - } - - return sliceSize; -} - -/** -**************************************************************************************************** -* SiLib::HwlPreHandleBaseLvl3xPitch -* -* @brief -* Pre-handler of 3x pitch (96 bit) adjustment -* -* @return -* Expected pitch -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlPreHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input - UINT_32 expPitch ///< [in] pitch - ) const -{ - ADDR_ASSERT(pIn->width == expPitch); - - // From SI, if pow2Pad is 1 the pitch is expanded 3x first, then padded to pow2, so nothing to - // do here - if (pIn->flags.pow2Pad == FALSE) - { - Addr::V1::Lib::HwlPreHandleBaseLvl3xPitch(pIn, expPitch); - } - else - { - ADDR_ASSERT(IsPow2(expPitch)); - } - - return expPitch; -} - -/** -**************************************************************************************************** -* SiLib::HwlPostHandleBaseLvl3xPitch -* -* @brief -* Post-handler of 3x pitch adjustment -* -* @return -* Expected pitch -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlPostHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input - UINT_32 expPitch ///< [in] pitch - ) const -{ - /** - * @note The pitch will be divided by 3 in the end so the value will look odd but h/w should - * be able to compute a correct pitch from it as h/w address library is doing the job. - */ - // From SI, the pitch is expanded 3x first, then padded to pow2, so no special handler here - if (pIn->flags.pow2Pad == FALSE) - { - Addr::V1::Lib::HwlPostHandleBaseLvl3xPitch(pIn, expPitch); - } - - return expPitch; -} - -/** -**************************************************************************************************** -* SiLib::HwlGetPitchAlignmentMicroTiled -* -* @brief -* Compute 1D tiled surface pitch alignment -* -* @return -* pitch alignment -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlGetPitchAlignmentMicroTiled( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples ///< [in] number of samples - ) const -{ - UINT_32 pitchAlign; - - if (flags.qbStereo) - { - pitchAlign = EgBasedLib::HwlGetPitchAlignmentMicroTiled(tileMode,bpp,flags,numSamples); - } - else - { - pitchAlign = 8; - } - - return pitchAlign; -} - -/** -**************************************************************************************************** -* SiLib::HwlGetSizeAdjustmentMicroTiled -* -* @brief -* Adjust 1D tiled surface pitch and slice size -* -* @return -* Logical slice size in bytes -**************************************************************************************************** -*/ -UINT_64 SiLib::HwlGetSizeAdjustmentMicroTiled( - UINT_32 thickness, ///< [in] thickness - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 numSamples, ///< [in] number of samples - UINT_32 baseAlign, ///< [in] base alignment - UINT_32 pitchAlign, ///< [in] pitch alignment - UINT_32* pPitch, ///< [in,out] pointer to pitch - UINT_32* pHeight ///< [in,out] pointer to height - ) const -{ - UINT_64 logicalSliceSize; - UINT_64 physicalSliceSize; - - UINT_32 pitch = *pPitch; - UINT_32 height = *pHeight; - - // Logical slice: pitch * height * bpp * numSamples (no 1D MSAA so actually numSamples == 1) - logicalSliceSize = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); - - // Physical slice: multiplied by thickness - physicalSliceSize = logicalSliceSize * thickness; - - // Pitch alignment is always 8, so if slice size is not padded to base alignment - // (pipe_interleave_size), we need to increase pitch - while ((physicalSliceSize % baseAlign) != 0) - { - pitch += pitchAlign; - - logicalSliceSize = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); - - physicalSliceSize = logicalSliceSize * thickness; - } - -#if !ALT_TEST - // - // Special workaround for depth/stencil buffer, use 8 bpp to align depth buffer again since - // the stencil plane may have larger pitch if the slice size is smaller than base alignment. - // - // Note: this actually does not work for mipmap but mipmap depth texture is not really - // sampled with mipmap. - // - if (flags.depth && (flags.noStencil == FALSE)) - { - ADDR_ASSERT(numSamples == 1); - - UINT_64 logicalSiceSizeStencil = static_cast(pitch) * height; // 1 byte stencil - - while ((logicalSiceSizeStencil % baseAlign) != 0) - { - pitch += pitchAlign; // Stencil plane's pitch alignment is the same as depth plane's - - logicalSiceSizeStencil = static_cast(pitch) * height; - } - - if (pitch != *pPitch) - { - // If this is a mipmap, this padded one cannot be sampled as a whole mipmap! - logicalSliceSize = logicalSiceSizeStencil * BITS_TO_BYTES(bpp); - } - } -#endif - *pPitch = pitch; - - // No adjust for pHeight - - return logicalSliceSize; -} - -/** -**************************************************************************************************** -* SiLib::HwlConvertChipFamily -* -* @brief -* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision -* @return -* ChipFamily -**************************************************************************************************** -*/ -ChipFamily SiLib::HwlConvertChipFamily( - UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h - UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h -{ - ChipFamily family = ADDR_CHIP_FAMILY_SI; - - switch (uChipFamily) - { - case FAMILY_SI: - m_settings.isSouthernIsland = 1; - m_settings.isTahiti = ASICREV_IS_TAHITI_P(uChipRevision); - m_settings.isPitCairn = ASICREV_IS_PITCAIRN_PM(uChipRevision); - m_settings.isCapeVerde = ASICREV_IS_CAPEVERDE_M(uChipRevision); - m_settings.isOland = ASICREV_IS_OLAND_M(uChipRevision); - m_settings.isHainan = ASICREV_IS_HAINAN_V(uChipRevision); - break; - default: - ADDR_ASSERT(!"This should be a Fusion"); - break; - } - - return family; -} - -/** -**************************************************************************************************** -* SiLib::HwlSetupTileInfo -* -* @brief -* Setup default value of tile info for SI -**************************************************************************************************** -*/ -VOID SiLib::HwlSetupTileInfo( - AddrTileMode tileMode, ///< [in] Tile mode - ADDR_SURFACE_FLAGS flags, ///< [in] Surface type flags - UINT_32 bpp, ///< [in] Bits per pixel - UINT_32 pitch, ///< [in] Pitch in pixels - UINT_32 height, ///< [in] Height in pixels - UINT_32 numSamples, ///< [in] Number of samples - ADDR_TILEINFO* pTileInfoIn, ///< [in] Tile info input: NULL for default - ADDR_TILEINFO* pTileInfoOut, ///< [out] Tile info output - AddrTileType inTileType, ///< [in] Tile type - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output - ) const -{ - UINT_32 thickness = Thickness(tileMode); - ADDR_TILEINFO* pTileInfo = pTileInfoOut; - INT index = TileIndexInvalid; - - // Fail-safe code - if (IsLinear(tileMode) == FALSE) - { - // 128 bpp/thick tiling must be non-displayable. - // Fmask reuse color buffer's entry but bank-height field can be from another entry - // To simplify the logic, fmask entry should be picked from non-displayable ones - if (bpp == 128 || thickness > 1 || flags.fmask || flags.prt) - { - inTileType = ADDR_NON_DISPLAYABLE; - } - - if (flags.depth || flags.stencil) - { - inTileType = ADDR_DEPTH_SAMPLE_ORDER; - } - } - - // Partial valid fields are not allowed for SI. - if (IsTileInfoAllZero(pTileInfo)) - { - if (IsMacroTiled(tileMode)) - { - if (flags.prt) - { - if (numSamples == 1) - { - if (flags.depth) - { - switch (bpp) - { - case 16: - index = 3; - break; - case 32: - index = 6; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - else - { - switch (bpp) - { - case 8: - index = 21; - break; - case 16: - index = 22; - break; - case 32: - index = 23; - break; - case 64: - index = 24; - break; - case 128: - index = 25; - break; - default: - break; - } - - if (thickness > 1) - { - ADDR_ASSERT(bpp != 128); - index += 5; - } - } - } - else - { - ADDR_ASSERT(numSamples == 4); - - if (flags.depth) - { - switch (bpp) - { - case 16: - index = 5; - break; - case 32: - index = 7; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - else - { - switch (bpp) - { - case 8: - index = 23; - break; - case 16: - index = 24; - break; - case 32: - index = 25; - break; - case 64: - index = 30; - break; - default: - ADDR_ASSERT_ALWAYS(); - break; - } - } - } - }//end of PRT part - // See table entries 0-7 - else if (flags.depth || flags.stencil) - { - if (flags.compressZ) - { - if (flags.stencil) - { - index = 0; - } - else - { - // optimal tile index for compressed depth/stencil. - switch (numSamples) - { - case 1: - index = 0; - break; - case 2: - case 4: - index = 1; - break; - case 8: - index = 2; - break; - default: - break; - } - } - } - else // unCompressZ - { - index = 3; - } - } - else //non PRT & non Depth & non Stencil - { - // See table entries 9-12 - if (inTileType == ADDR_DISPLAYABLE) - { - switch (bpp) - { - case 8: - index = 10; - break; - case 16: - index = 11; - break; - case 32: - index = 12; - break; - case 64: - index = 12; - break; - default: - break; - } - } - else - { - // See table entries 13-17 - if (thickness == 1) - { - if (flags.fmask) - { - UINT_32 fmaskPixelSize = bpp * numSamples; - - switch (fmaskPixelSize) - { - case 8: - index = 14; - break; - case 16: - index = 15; - break; - case 32: - index = 16; - break; - case 64: - index = 17; - break; - default: - ADDR_ASSERT_ALWAYS(); - } - } - else - { - switch (bpp) - { - case 8: - index = 14; - break; - case 16: - index = 15; - break; - case 32: - index = 16; - break; - case 64: - index = 17; - break; - case 128: - index = 17; - break; - default: - break; - } - } - } - else // thick tiling - entries 18-20 - { - switch (thickness) - { - case 4: - index = 20; - break; - case 8: - index = 19; - break; - default: - break; - } - } - } - } - } - else - { - if (tileMode == ADDR_TM_LINEAR_ALIGNED) - { - index = 8; - } - else if (tileMode == ADDR_TM_LINEAR_GENERAL) - { - index = TileIndexLinearGeneral; - } - else - { - if (flags.depth || flags.stencil) - { - index = 4; - } - else if (inTileType == ADDR_DISPLAYABLE) - { - index = 9; - } - else if (thickness == 1) - { - index = 13; - } - else - { - index = 18; - } - } - } - - if (index >= 0 && index <= 31) - { - *pTileInfo = m_tileTable[index].info; - pOut->tileType = m_tileTable[index].type; - } - - if (index == TileIndexLinearGeneral) - { - *pTileInfo = m_tileTable[8].info; - pOut->tileType = m_tileTable[8].type; - } - } - else - { - if (pTileInfoIn) - { - if (flags.stencil && pTileInfoIn->tileSplitBytes == 0) - { - // Stencil always uses index 0 - *pTileInfo = m_tileTable[0].info; - } - } - // Pass through tile type - pOut->tileType = inTileType; - } - - pOut->tileIndex = index; - pOut->prtTileIndex = flags.prt; -} - -/** -**************************************************************************************************** -* SiLib::DecodeGbRegs -* -* @brief -* Decodes GB_ADDR_CONFIG and noOfBanks/noOfRanks -* -* @return -* TRUE if all settings are valid -* -**************************************************************************************************** -*/ -BOOL_32 SiLib::DecodeGbRegs( - const ADDR_REGISTER_VALUE* pRegValue) ///< [in] create input -{ - GB_ADDR_CONFIG reg; - BOOL_32 valid = TRUE; - - reg.val = pRegValue->gbAddrConfig; - - switch (reg.f.pipe_interleave_size) - { - case ADDR_CONFIG_PIPE_INTERLEAVE_256B: - m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_256B; - break; - case ADDR_CONFIG_PIPE_INTERLEAVE_512B: - m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_512B; - break; - default: - valid = FALSE; - ADDR_UNHANDLED_CASE(); - break; - } - - switch (reg.f.row_size) - { - case ADDR_CONFIG_1KB_ROW: - m_rowSize = ADDR_ROWSIZE_1KB; - break; - case ADDR_CONFIG_2KB_ROW: - m_rowSize = ADDR_ROWSIZE_2KB; - break; - case ADDR_CONFIG_4KB_ROW: - m_rowSize = ADDR_ROWSIZE_4KB; - break; - default: - valid = FALSE; - ADDR_UNHANDLED_CASE(); - break; - } - - switch (pRegValue->noOfBanks) - { - case 0: - m_banks = 4; - break; - case 1: - m_banks = 8; - break; - case 2: - m_banks = 16; - break; - default: - valid = FALSE; - ADDR_UNHANDLED_CASE(); - break; - } - - switch (pRegValue->noOfRanks) - { - case 0: - m_ranks = 1; - break; - case 1: - m_ranks = 2; - break; - default: - valid = FALSE; - ADDR_UNHANDLED_CASE(); - break; - } - - m_logicalBanks = m_banks * m_ranks; - - ADDR_ASSERT(m_logicalBanks <= 16); - - return valid; -} - -/** -**************************************************************************************************** -* SiLib::HwlInitGlobalParams -* -* @brief -* Initializes global parameters -* -* @return -* TRUE if all settings are valid -* -**************************************************************************************************** -*/ -BOOL_32 SiLib::HwlInitGlobalParams( - const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input -{ - BOOL_32 valid = TRUE; - const ADDR_REGISTER_VALUE* pRegValue = &pCreateIn->regValue; - - valid = DecodeGbRegs(pRegValue); - - if (valid) - { - if (m_settings.isTahiti || m_settings.isPitCairn) - { - m_pipes = 8; - } - else if (m_settings.isCapeVerde || m_settings.isOland) - { - m_pipes = 4; - } - else - { - // Hainan is 2-pipe (m_settings.isHainan == 1) - m_pipes = 2; - } - - valid = InitTileSettingTable(pRegValue->pTileConfig, pRegValue->noOfEntries); - - if (valid) - { - InitEquationTable(); - } - - m_maxSamples = 16; - } - - return valid; -} - -/** -**************************************************************************************************** -* SiLib::HwlConvertTileInfoToHW -* @brief -* Entry of si's ConvertTileInfoToHW -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE SiLib::HwlConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] input structure - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut ///< [out] output structure - ) const -{ - ADDR_E_RETURNCODE retCode = ADDR_OK; - - retCode = EgBasedLib::HwlConvertTileInfoToHW(pIn, pOut); - - if (retCode == ADDR_OK) - { - if (pIn->reverse == FALSE) - { - if (pIn->pTileInfo->pipeConfig == ADDR_PIPECFG_INVALID) - { - retCode = ADDR_INVALIDPARAMS; - } - else - { - pOut->pTileInfo->pipeConfig = - static_cast(pIn->pTileInfo->pipeConfig - 1); - } - } - else - { - pOut->pTileInfo->pipeConfig = - static_cast(pIn->pTileInfo->pipeConfig + 1); - } - } - - return retCode; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeXmaskCoordYFrom8Pipe -* -* @brief -* Compute the Y coord which will be added to Xmask Y -* coord. -* @return -* Y coord -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlComputeXmaskCoordYFrom8Pipe( - UINT_32 pipe, ///< [in] pipe id - UINT_32 x ///< [in] tile coord x, which is original x coord / 8 - ) const -{ - // This function should never be called since it is 6xx/8xx specfic. - // Keep this empty implementation to avoid any mis-use. - ADDR_ASSERT_ALWAYS(); - - return 0; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeSurfaceCoord2DFromBankPipe -* -* @brief -* Compute surface x,y coordinates from bank/pipe info -* @return -* N/A -**************************************************************************************************** -*/ -VOID SiLib::HwlComputeSurfaceCoord2DFromBankPipe( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32* pX, ///< [in,out] x coordinate - UINT_32* pY, ///< [in,out] y coordinate - UINT_32 slice, ///< [in] slice index - UINT_32 bank, ///< [in] bank number - UINT_32 pipe, ///< [in] pipe number - UINT_32 bankSwizzle,///< [in] bank swizzle - UINT_32 pipeSwizzle,///< [in] pipe swizzle - UINT_32 tileSlices, ///< [in] slices in a micro tile - BOOL_32 ignoreSE, ///< [in] TRUE if shader engines are ignored - ADDR_TILEINFO* pTileInfo ///< [in] bank structure. **All fields to be valid on entry** - ) const -{ - UINT_32 xBit; - UINT_32 yBit; - UINT_32 yBit3 = 0; - UINT_32 yBit4 = 0; - UINT_32 yBit5 = 0; - UINT_32 yBit6 = 0; - - UINT_32 xBit3 = 0; - UINT_32 xBit4 = 0; - UINT_32 xBit5 = 0; - - UINT_32 numPipes = GetPipePerSurf(pTileInfo->pipeConfig); - - CoordFromBankPipe xyBits = {0}; - ComputeSurfaceCoord2DFromBankPipe(tileMode, *pX, *pY, slice, bank, pipe, - bankSwizzle, pipeSwizzle, tileSlices, pTileInfo, - &xyBits); - yBit3 = xyBits.yBit3; - yBit4 = xyBits.yBit4; - yBit5 = xyBits.yBit5; - yBit6 = xyBits.yBit6; - - xBit3 = xyBits.xBit3; - xBit4 = xyBits.xBit4; - xBit5 = xyBits.xBit5; - - yBit = xyBits.yBits; - - UINT_32 yBitTemp = 0; - - if ((pTileInfo->pipeConfig == ADDR_PIPECFG_P4_32x32) || - (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32)) - { - ADDR_ASSERT(pTileInfo->bankWidth == 1 && pTileInfo->macroAspectRatio > 1); - UINT_32 yBitToCheck = QLog2(pTileInfo->banks) - 1; - - ADDR_ASSERT(yBitToCheck <= 3); - - yBitTemp = _BIT(yBit, yBitToCheck); - - xBit3 = 0; - } - - yBit = Bits2Number(4, yBit6, yBit5, yBit4, yBit3); - xBit = Bits2Number(3, xBit5, xBit4, xBit3); - - *pY += yBit * pTileInfo->bankHeight * MicroTileHeight; - *pX += xBit * numPipes * pTileInfo->bankWidth * MicroTileWidth; - - //calculate the bank and pipe bits in x, y - UINT_32 xTile; //x in micro tile - UINT_32 x3 = 0; - UINT_32 x4 = 0; - UINT_32 x5 = 0; - UINT_32 x6 = 0; - UINT_32 y = *pY; - - UINT_32 pipeBit0 = _BIT(pipe,0); - UINT_32 pipeBit1 = _BIT(pipe,1); - UINT_32 pipeBit2 = _BIT(pipe,2); - - UINT_32 y3 = _BIT(y, 3); - UINT_32 y4 = _BIT(y, 4); - UINT_32 y5 = _BIT(y, 5); - UINT_32 y6 = _BIT(y, 6); - - // bankbit0 after ^x4^x5 - UINT_32 bankBit00 = _BIT(bank,0); - UINT_32 bankBit0 = 0; - - switch (pTileInfo->pipeConfig) - { - case ADDR_PIPECFG_P2: - x3 = pipeBit0 ^ y3; - break; - case ADDR_PIPECFG_P4_8x16: - x4 = pipeBit0 ^ y3; - x3 = pipeBit0 ^ y4; - break; - case ADDR_PIPECFG_P4_16x16: - x4 = pipeBit1 ^ y4; - x3 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P4_16x32: - x4 = pipeBit1 ^ y4; - x3 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P4_32x32: - x5 = pipeBit1 ^ y5; - x3 = pipeBit0 ^ y3 ^ x5; - bankBit0 = yBitTemp ^ x5; - x4 = bankBit00 ^ x5 ^ bankBit0; - *pX += x5 * 4 * 1 * 8; // x5 * num_pipes * bank_width * 8; - break; - case ADDR_PIPECFG_P8_16x16_8x16: - x3 = pipeBit1 ^ y5; - x4 = pipeBit2 ^ y4; - x5 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P8_16x32_8x16: - x3 = pipeBit1 ^ y4; - x4 = pipeBit2 ^ y5; - x5 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P8_32x32_8x16: - x3 = pipeBit1 ^ y4; - x5 = pipeBit2 ^ y5; - x4 = pipeBit0 ^ y3 ^ x5; - break; - case ADDR_PIPECFG_P8_16x32_16x16: - x4 = pipeBit2 ^ y5; - x5 = pipeBit1 ^ y4; - x3 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P8_32x32_16x16: - x5 = pipeBit2 ^ y5; - x4 = pipeBit1 ^ y4; - x3 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P8_32x32_16x32: - x5 = pipeBit2 ^ y5; - x4 = pipeBit1 ^ y6; - x3 = pipeBit0 ^ y3 ^ x4; - break; - case ADDR_PIPECFG_P8_32x64_32x32: - x6 = pipeBit1 ^ y5; - x5 = pipeBit2 ^ y6; - x3 = pipeBit0 ^ y3 ^ x5; - bankBit0 = yBitTemp ^ x6; - x4 = bankBit00 ^ x5 ^ bankBit0; - *pX += x6 * 8 * 1 * 8; // x6 * num_pipes * bank_width * 8; - break; - default: - ADDR_ASSERT_ALWAYS(); - } - - xTile = Bits2Number(3, x5, x4, x3); - - *pX += xTile << 3; -} - -/** -**************************************************************************************************** -* SiLib::HwlPreAdjustBank -* -* @brief -* Adjust bank before calculating address acoording to bank/pipe -* @return -* Adjusted bank -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlPreAdjustBank( - UINT_32 tileX, ///< [in] x coordinate in unit of tile - UINT_32 bank, ///< [in] bank - ADDR_TILEINFO* pTileInfo ///< [in] tile info - ) const -{ - if (((pTileInfo->pipeConfig == ADDR_PIPECFG_P4_32x32) || - (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32)) && (pTileInfo->bankWidth == 1)) - { - UINT_32 bankBit0 = _BIT(bank, 0); - UINT_32 x4 = _BIT(tileX, 1); - UINT_32 x5 = _BIT(tileX, 2); - - bankBit0 = bankBit0 ^ x4 ^ x5; - bank |= bankBit0; - - ADDR_ASSERT(pTileInfo->macroAspectRatio > 1); - } - - return bank; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeSurfaceInfo -* -* @brief -* Entry of si's ComputeSurfaceInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE SiLib::HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure - ) const -{ - pOut->tileIndex = pIn->tileIndex; - - ADDR_E_RETURNCODE retCode = EgBasedLib::HwlComputeSurfaceInfo(pIn, pOut); - - UINT_32 tileIndex = static_cast(pOut->tileIndex); - - if (((pIn->flags.needEquation == TRUE) || - (pIn->flags.preferEquation == TRUE)) && - (pIn->numSamples <= 1) && - (tileIndex < TileTableSize)) - { - static const UINT_32 SiUncompressDepthTileIndex = 3; - - if ((pIn->numSlices > 1) && - (IsMacroTiled(pOut->tileMode) == TRUE) && - ((m_chipFamily == ADDR_CHIP_FAMILY_SI) || - (IsPrtTileMode(pOut->tileMode) == FALSE))) - { - pOut->equationIndex = ADDR_INVALID_EQUATION_INDEX; - } - else if ((pIn->flags.prt == FALSE) && - (m_uncompressDepthEqIndex != 0) && - (tileIndex == SiUncompressDepthTileIndex)) - { - pOut->equationIndex = m_uncompressDepthEqIndex + Log2(pIn->bpp >> 3); - } - else - { - - pOut->equationIndex = m_equationLookupTable[Log2(pIn->bpp >> 3)][tileIndex]; - } - - if (pOut->equationIndex != ADDR_INVALID_EQUATION_INDEX) - { - pOut->blockWidth = m_blockWidth[pOut->equationIndex]; - - pOut->blockHeight = m_blockHeight[pOut->equationIndex]; - - pOut->blockSlices = m_blockSlices[pOut->equationIndex]; - } - } - else - { - pOut->equationIndex = ADDR_INVALID_EQUATION_INDEX; - } - - return retCode; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeMipLevel -* @brief -* Compute MipLevel info (including level 0) -* @return -* TRUE if HWL's handled -**************************************************************************************************** -*/ -BOOL_32 SiLib::HwlComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn ///< [in,out] Input structure - ) const -{ - // basePitch is calculated from level 0 so we only check this for mipLevel > 0 - if (pIn->mipLevel > 0) - { - // Note: Don't check expand 3x formats(96 bit) as the basePitch is not pow2 even if - // we explicity set pow2Pad flag. The 3x base pitch is padded to pow2 but after being - // divided by expandX factor (3) - to program texture pitch, the basePitch is never pow2. - if (ElemLib::IsExpand3x(pIn->format) == FALSE) - { - // Sublevel pitches are generated from base level pitch instead of width on SI - // If pow2Pad is 0, we don't assert - as this is not really used for a mip chain - ADDR_ASSERT((pIn->flags.pow2Pad == FALSE) || - ((pIn->basePitch != 0) && IsPow2(pIn->basePitch))); - } - - if (pIn->basePitch != 0) - { - pIn->width = Max(1u, pIn->basePitch >> pIn->mipLevel); - } - } - - // pow2Pad is done in PostComputeMipLevel - - return TRUE; -} - -/** -**************************************************************************************************** -* SiLib::HwlCheckLastMacroTiledLvl -* -* @brief -* Sets pOut->last2DLevel to TRUE if it is -* @note -* -**************************************************************************************************** -*/ -VOID SiLib::HwlCheckLastMacroTiledLvl( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Output structure (used as input, too) - ) const -{ - // pow2Pad covers all mipmap cases - if (pIn->flags.pow2Pad) - { - ADDR_ASSERT(IsMacroTiled(pIn->tileMode)); - - UINT_32 nextPitch; - UINT_32 nextHeight; - UINT_32 nextSlices; - - AddrTileMode nextTileMode; - - if (pIn->mipLevel == 0 || pIn->basePitch == 0) - { - // Base level or fail-safe case (basePitch == 0) - nextPitch = pOut->pitch >> 1; - } - else - { - // Sub levels - nextPitch = pIn->basePitch >> (pIn->mipLevel + 1); - } - - // nextHeight must be shifted from this level's original height rather than a pow2 padded - // one but this requires original height stored somewhere (pOut->height) - ADDR_ASSERT(pOut->height != 0); - - // next level's height is just current level's >> 1 in pixels - nextHeight = pOut->height >> 1; - // Special format such as FMT_1 and FMT_32_32_32 can be linear only so we consider block - // compressed foramts - if (ElemLib::IsBlockCompressed(pIn->format)) - { - nextHeight = (nextHeight + 3) / 4; - } - nextHeight = NextPow2(nextHeight); - - // nextSlices may be 0 if this level's is 1 - if (pIn->flags.volume) - { - nextSlices = Max(1u, pIn->numSlices >> 1); - } - else - { - nextSlices = pIn->numSlices; - } - - nextTileMode = ComputeSurfaceMipLevelTileMode(pIn->tileMode, - pIn->bpp, - nextPitch, - nextHeight, - nextSlices, - pIn->numSamples, - pOut->blockWidth, - pOut->blockHeight, - pOut->pTileInfo); - - pOut->last2DLevel = IsMicroTiled(nextTileMode); - } -} - -/** -**************************************************************************************************** -* SiLib::HwlDegradeThickTileMode -* -* @brief -* Degrades valid tile mode for thick modes if needed -* -* @return -* Suitable tile mode -**************************************************************************************************** -*/ -AddrTileMode SiLib::HwlDegradeThickTileMode( - AddrTileMode baseTileMode, ///< base tile mode - UINT_32 numSlices, ///< current number of slices - UINT_32* pBytesPerTile ///< [in,out] pointer to bytes per slice - ) const -{ - return EgBasedLib::HwlDegradeThickTileMode(baseTileMode, numSlices, pBytesPerTile); -} - -/** -**************************************************************************************************** -* SiLib::HwlTileInfoEqual -* -* @brief -* Return TRUE if all field are equal -* @note -* Only takes care of current HWL's data -**************************************************************************************************** -*/ -BOOL_32 SiLib::HwlTileInfoEqual( - const ADDR_TILEINFO* pLeft, ///<[in] Left compare operand - const ADDR_TILEINFO* pRight ///<[in] Right compare operand - ) const -{ - BOOL_32 equal = FALSE; - - if (pLeft->pipeConfig == pRight->pipeConfig) - { - equal = EgBasedLib::HwlTileInfoEqual(pLeft, pRight); - } - - return equal; -} - -/** -**************************************************************************************************** -* SiLib::GetTileSettings -* -* @brief -* Get tile setting infos by index. -* @return -* Tile setting info. -**************************************************************************************************** -*/ -const TileConfig* SiLib::GetTileSetting( - UINT_32 index ///< [in] Tile index - ) const -{ - ADDR_ASSERT(index < m_noOfEntries); - return &m_tileTable[index]; -} - -/** -**************************************************************************************************** -* SiLib::HwlPostCheckTileIndex -* -* @brief -* Map a tile setting to index if curIndex is invalid, otherwise check if curIndex matches -* tile mode/type/info and change the index if needed -* @return -* Tile index. -**************************************************************************************************** -*/ -INT_32 SiLib::HwlPostCheckTileIndex( - const ADDR_TILEINFO* pInfo, ///< [in] Tile Info - AddrTileMode mode, ///< [in] Tile mode - AddrTileType type, ///< [in] Tile type - INT curIndex ///< [in] Current index assigned in HwlSetupTileInfo - ) const -{ - INT_32 index = curIndex; - - if (mode == ADDR_TM_LINEAR_GENERAL) - { - index = TileIndexLinearGeneral; - } - else - { - BOOL_32 macroTiled = IsMacroTiled(mode); - - // We need to find a new index if either of them is true - // 1. curIndex is invalid - // 2. tile mode is changed - // 3. tile info does not match for macro tiled - if ((index == TileIndexInvalid || - (mode != m_tileTable[index].mode) || - (macroTiled && (HwlTileInfoEqual(pInfo, &m_tileTable[index].info) == FALSE)))) - { - for (index = 0; index < static_cast(m_noOfEntries); index++) - { - if (macroTiled) - { - // macro tile modes need all to match - if (HwlTileInfoEqual(pInfo, &m_tileTable[index].info) && - (mode == m_tileTable[index].mode) && - (type == m_tileTable[index].type)) - { - break; - } - } - else if (mode == ADDR_TM_LINEAR_ALIGNED) - { - // linear mode only needs tile mode to match - if (mode == m_tileTable[index].mode) - { - break; - } - } - else - { - // micro tile modes only need tile mode and tile type to match - if (mode == m_tileTable[index].mode && - type == m_tileTable[index].type) - { - break; - } - } - } - } - } - - ADDR_ASSERT(index < static_cast(m_noOfEntries)); - - if (index >= static_cast(m_noOfEntries)) - { - index = TileIndexInvalid; - } - - return index; -} - -/** -**************************************************************************************************** -* SiLib::HwlSetupTileCfg -* -* @brief -* Map tile index to tile setting. -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE SiLib::HwlSetupTileCfg( - UINT_32 bpp, ///< Bits per pixel - INT_32 index, ///< Tile index - INT_32 macroModeIndex, ///< Index in macro tile mode table(CI) - ADDR_TILEINFO* pInfo, ///< [out] Tile Info - AddrTileMode* pMode, ///< [out] Tile mode - AddrTileType* pType ///< [out] Tile type - ) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - // Global flag to control usage of tileIndex - if (UseTileIndex(index)) - { - if (index == TileIndexLinearGeneral) - { - if (pMode) - { - *pMode = ADDR_TM_LINEAR_GENERAL; - } - - if (pType) - { - *pType = ADDR_DISPLAYABLE; - } - - if (pInfo) - { - pInfo->banks = 2; - pInfo->bankWidth = 1; - pInfo->bankHeight = 1; - pInfo->macroAspectRatio = 1; - pInfo->tileSplitBytes = 64; - pInfo->pipeConfig = ADDR_PIPECFG_P2; - } - } - else if (static_cast(index) >= m_noOfEntries) - { - returnCode = ADDR_INVALIDPARAMS; - } - else - { - const TileConfig* pCfgTable = GetTileSetting(index); - - if (pInfo) - { - *pInfo = pCfgTable->info; - } - else - { - if (IsMacroTiled(pCfgTable->mode)) - { - returnCode = ADDR_INVALIDPARAMS; - } - } - - if (pMode) - { - *pMode = pCfgTable->mode; - } - - if (pType) - { - *pType = pCfgTable->type; - } - } - } - - return returnCode; -} - -/** -**************************************************************************************************** -* SiLib::ReadGbTileMode -* -* @brief -* Convert GB_TILE_MODE HW value to TileConfig. -* @return -* NA. -**************************************************************************************************** -*/ -VOID SiLib::ReadGbTileMode( - UINT_32 regValue, ///< [in] GB_TILE_MODE register - TileConfig* pCfg ///< [out] output structure - ) const -{ - GB_TILE_MODE gbTileMode; - gbTileMode.val = regValue; - - pCfg->type = static_cast(gbTileMode.f.micro_tile_mode); - pCfg->info.bankHeight = 1 << gbTileMode.f.bank_height; - pCfg->info.bankWidth = 1 << gbTileMode.f.bank_width; - pCfg->info.banks = 1 << (gbTileMode.f.num_banks + 1); - pCfg->info.macroAspectRatio = 1 << gbTileMode.f.macro_tile_aspect; - pCfg->info.tileSplitBytes = 64 << gbTileMode.f.tile_split; - pCfg->info.pipeConfig = static_cast(gbTileMode.f.pipe_config + 1); - - UINT_32 regArrayMode = gbTileMode.f.array_mode; - - pCfg->mode = static_cast(regArrayMode); - - if (regArrayMode == 8) //ARRAY_2D_TILED_XTHICK - { - pCfg->mode = ADDR_TM_2D_TILED_XTHICK; - } - else if (regArrayMode >= 14) //ARRAY_3D_TILED_XTHICK - { - pCfg->mode = static_cast(pCfg->mode + 3); - } -} - -/** -**************************************************************************************************** -* SiLib::InitTileSettingTable -* -* @brief -* Initialize the ADDR_TILE_CONFIG table. -* @return -* TRUE if tile table is correctly initialized -**************************************************************************************************** -*/ -BOOL_32 SiLib::InitTileSettingTable( - const UINT_32* pCfg, ///< [in] Pointer to table of tile configs - UINT_32 noOfEntries ///< [in] Numbe of entries in the table above - ) -{ - BOOL_32 initOk = TRUE; - - ADDR_ASSERT(noOfEntries <= TileTableSize); - - memset(m_tileTable, 0, sizeof(m_tileTable)); - - if (noOfEntries != 0) - { - m_noOfEntries = noOfEntries; - } - else - { - m_noOfEntries = TileTableSize; - } - - if (pCfg) // From Client - { - for (UINT_32 i = 0; i < m_noOfEntries; i++) - { - ReadGbTileMode(*(pCfg + i), &m_tileTable[i]); - } - } - else - { - ADDR_ASSERT_ALWAYS(); - initOk = FALSE; - } - - if (initOk) - { - ADDR_ASSERT(m_tileTable[TILEINDEX_LINEAR_ALIGNED].mode == ADDR_TM_LINEAR_ALIGNED); - } - - return initOk; -} - -/** -**************************************************************************************************** -* SiLib::HwlGetTileIndex -* -* @brief -* Return the virtual/real index for given mode/type/info -* @return -* ADDR_OK if successful. -**************************************************************************************************** -*/ -ADDR_E_RETURNCODE SiLib::HwlGetTileIndex( - const ADDR_GET_TILEINDEX_INPUT* pIn, - ADDR_GET_TILEINDEX_OUTPUT* pOut) const -{ - ADDR_E_RETURNCODE returnCode = ADDR_OK; - - pOut->index = HwlPostCheckTileIndex(pIn->pTileInfo, pIn->tileMode, pIn->tileType); - - return returnCode; -} - -/** -**************************************************************************************************** -* SiLib::HwlFmaskPreThunkSurfInfo -* -* @brief -* Some preparation before thunking a ComputeSurfaceInfo call for Fmask -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -VOID SiLib::HwlFmaskPreThunkSurfInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, ///< [in] Input of fmask info - const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, ///< [in] Output of fmask info - ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, ///< [out] Input of thunked surface info - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut ///< [out] Output of thunked surface info - ) const -{ - pSurfIn->tileIndex = pFmaskIn->tileIndex; -} - -/** -**************************************************************************************************** -* SiLib::HwlFmaskPostThunkSurfInfo -* -* @brief -* Copy hwl extra field after calling thunked ComputeSurfaceInfo -* @return -* ADDR_E_RETURNCODE -**************************************************************************************************** -*/ -VOID SiLib::HwlFmaskPostThunkSurfInfo( - const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, ///< [in] Output of surface info - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut ///< [out] Output of fmask info - ) const -{ - pFmaskOut->macroModeIndex = TileIndexInvalid; - pFmaskOut->tileIndex = pSurfOut->tileIndex; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeFmaskBits -* @brief -* Computes fmask bits -* @return -* Fmask bits -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlComputeFmaskBits( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - UINT_32* pNumSamples - ) const -{ - UINT_32 numSamples = pIn->numSamples; - UINT_32 numFrags = GetNumFragments(numSamples, pIn->numFrags); - UINT_32 bpp; - - if (numFrags != numSamples) // EQAA - { - ADDR_ASSERT(numFrags <= 8); - - if (pIn->resolved == FALSE) - { - if (numFrags == 1) - { - bpp = 1; - numSamples = numSamples == 16 ? 16 : 8; - } - else if (numFrags == 2) - { - ADDR_ASSERT(numSamples >= 4); - - bpp = 2; - numSamples = numSamples; - } - else if (numFrags == 4) - { - ADDR_ASSERT(numSamples >= 4); - - bpp = 4; - numSamples = numSamples; - } - else // numFrags == 8 - { - ADDR_ASSERT(numSamples == 16); - - bpp = 4; - numSamples = numSamples; - } - } - else - { - if (numFrags == 1) - { - bpp = (numSamples == 16) ? 16 : 8; - numSamples = 1; - } - else if (numFrags == 2) - { - ADDR_ASSERT(numSamples >= 4); - - bpp = numSamples*2; - numSamples = 1; - } - else if (numFrags == 4) - { - ADDR_ASSERT(numSamples >= 4); - - bpp = numSamples*4; - numSamples = 1; - } - else // numFrags == 8 - { - ADDR_ASSERT(numSamples >= 16); - - bpp = 16*4; - numSamples = 1; - } - } - } - else // Normal AA - { - if (pIn->resolved == FALSE) - { - bpp = ComputeFmaskNumPlanesFromNumSamples(numSamples); - numSamples = numSamples == 2 ? 8 : numSamples; - } - else - { - // The same as 8XX - bpp = ComputeFmaskResolvedBppFromNumSamples(numSamples); - numSamples = 1; // 1x sample - } - } - - SafeAssign(pNumSamples, numSamples); - - return bpp; -} - -/** -**************************************************************************************************** -* SiLib::HwlOptimizeTileMode -* -* @brief -* Optimize tile mode on SI -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID SiLib::HwlOptimizeTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode = pInOut->tileMode; - - if ((pInOut->flags.needEquation == TRUE) && - (IsMacroTiled(tileMode) == TRUE) && - (pInOut->numSamples <= 1)) - { - UINT_32 thickness = Thickness(tileMode); - - if (thickness > 1) - { - tileMode = ADDR_TM_1D_TILED_THICK; - } - else if (pInOut->numSlices > 1) - { - tileMode = ADDR_TM_1D_TILED_THIN1; - } - else - { - tileMode = ADDR_TM_2D_TILED_THIN1; - } - } - - if (tileMode != pInOut->tileMode) - { - pInOut->tileMode = tileMode; - } -} - -/** -**************************************************************************************************** -* SiLib::HwlOverrideTileMode -* -* @brief -* Override tile modes (for PRT only, avoid client passes in an invalid PRT mode for SI. -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID SiLib::HwlOverrideTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode = pInOut->tileMode; - - switch (tileMode) - { - case ADDR_TM_PRT_TILED_THIN1: - tileMode = ADDR_TM_2D_TILED_THIN1; - break; - - case ADDR_TM_PRT_TILED_THICK: - tileMode = ADDR_TM_2D_TILED_THICK; - break; - - case ADDR_TM_PRT_2D_TILED_THICK: - tileMode = ADDR_TM_2D_TILED_THICK; - break; - - case ADDR_TM_PRT_3D_TILED_THICK: - tileMode = ADDR_TM_3D_TILED_THICK; - break; - - default: - break; - } - - if (tileMode != pInOut->tileMode) - { - pInOut->tileMode = tileMode; - // Only PRT tile modes are overridden for now. Revisit this once new modes are added above. - pInOut->flags.prt = TRUE; - } -} - -/** -**************************************************************************************************** -* SiLib::HwlSetPrtTileMode -* -* @brief -* Set prt tile modes. -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID SiLib::HwlSetPrtTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - pInOut->tileMode = ADDR_TM_2D_TILED_THIN1; - pInOut->tileType = (pInOut->tileType == ADDR_DEPTH_SAMPLE_ORDER) ? - ADDR_DEPTH_SAMPLE_ORDER : ADDR_NON_DISPLAYABLE; - pInOut->flags.prt = TRUE; -} - -/** -**************************************************************************************************** -* SiLib::HwlSelectTileMode -* -* @brief -* Select tile modes. -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID SiLib::HwlSelectTileMode( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure - ) const -{ - AddrTileMode tileMode; - AddrTileType tileType; - - if (pInOut->flags.volume) - { - if (pInOut->numSlices >= 8) - { - tileMode = ADDR_TM_2D_TILED_XTHICK; - } - else if (pInOut->numSlices >= 4) - { - tileMode = ADDR_TM_2D_TILED_THICK; - } - else - { - tileMode = ADDR_TM_2D_TILED_THIN1; - } - tileType = ADDR_NON_DISPLAYABLE; - } - else - { - tileMode = ADDR_TM_2D_TILED_THIN1; - - if (pInOut->flags.depth || pInOut->flags.stencil) - { - tileType = ADDR_DEPTH_SAMPLE_ORDER; - } - else if ((pInOut->bpp <= 32) || - (pInOut->flags.display == TRUE) || - (pInOut->flags.overlay == TRUE)) - { - tileType = ADDR_DISPLAYABLE; - } - else - { - tileType = ADDR_NON_DISPLAYABLE; - } - } - - if (pInOut->flags.prt) - { - tileMode = ADDR_TM_2D_TILED_THIN1; - tileType = (tileType == ADDR_DISPLAYABLE) ? ADDR_NON_DISPLAYABLE : tileType; - } - - pInOut->tileMode = tileMode; - pInOut->tileType = tileType; - - // Optimize tile mode if possible - pInOut->flags.opt4Space = TRUE; - - // Optimize tile mode if possible - OptimizeTileMode(pInOut); - - HwlOverrideTileMode(pInOut); -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeMaxBaseAlignments -* -* @brief -* Gets maximum alignments -* @return -* maximum alignments -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlComputeMaxBaseAlignments() const -{ - const UINT_32 pipes = HwlGetPipes(&m_tileTable[0].info); - - // Initial size is 64 KiB for PRT. - UINT_32 maxBaseAlign = 64 * 1024; - - for (UINT_32 i = 0; i < m_noOfEntries; i++) - { - if ((IsMacroTiled(m_tileTable[i].mode) == TRUE) && - (IsPrtTileMode(m_tileTable[i].mode) == FALSE)) - { - // The maximum tile size is 16 byte-per-pixel and either 8-sample or 8-slice. - UINT_32 tileSize = Min(m_tileTable[i].info.tileSplitBytes, - MicroTilePixels * 8 * 16); - - UINT_32 baseAlign = tileSize * pipes * m_tileTable[i].info.banks * - m_tileTable[i].info.bankWidth * m_tileTable[i].info.bankHeight; - - if (baseAlign > maxBaseAlign) - { - maxBaseAlign = baseAlign; - } - } - } - - return maxBaseAlign; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeMaxMetaBaseAlignments -* -* @brief -* Gets maximum alignments for metadata -* @return -* maximum alignments for metadata -**************************************************************************************************** -*/ -UINT_32 SiLib::HwlComputeMaxMetaBaseAlignments() const -{ - UINT_32 maxPipe = 1; - - for (UINT_32 i = 0; i < m_noOfEntries; i++) - { - maxPipe = Max(maxPipe, HwlGetPipes(&m_tileTable[i].info)); - } - - return m_pipeInterleaveBytes * maxPipe; -} - -/** -**************************************************************************************************** -* SiLib::HwlComputeSurfaceAlignmentsMacroTiled -* -* @brief -* Hardware layer function to compute alignment request for macro tile mode -* -* @return -* N/A -* -**************************************************************************************************** -*/ -VOID SiLib::HwlComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, ///< [in] tile mode - UINT_32 bpp, ///< [in] bits per pixel - ADDR_SURFACE_FLAGS flags, ///< [in] surface flags - UINT_32 mipLevel, ///< [in] mip level - UINT_32 numSamples, ///< [in] number of samples - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Surface output - ) const -{ - if ((mipLevel == 0) && (flags.prt)) - { - UINT_32 macroTileSize = pOut->blockWidth * pOut->blockHeight * numSamples * bpp / 8; - - if (macroTileSize < PrtTileSize) - { - UINT_32 numMacroTiles = PrtTileSize / macroTileSize; - - ADDR_ASSERT((PrtTileSize % macroTileSize) == 0); - - pOut->pitchAlign *= numMacroTiles; - pOut->baseAlign *= numMacroTiles; - } - } -} - -/** -**************************************************************************************************** -* SiLib::InitEquationTable -* -* @brief -* Initialize Equation table. -* -* @return -* N/A -**************************************************************************************************** -*/ -VOID SiLib::InitEquationTable() -{ - ADDR_EQUATION_KEY equationKeyTable[EquationTableSize]; - memset(equationKeyTable, 0, sizeof(equationKeyTable)); - - memset(m_equationTable, 0, sizeof(m_equationTable)); - - memset(m_blockWidth, 0, sizeof(m_blockWidth)); - - memset(m_blockHeight, 0, sizeof(m_blockHeight)); - - memset(m_blockSlices, 0, sizeof(m_blockSlices)); - - // Loop all possible bpp - for (UINT_32 log2ElementBytes = 0; log2ElementBytes < MaxNumElementBytes; log2ElementBytes++) - { - // Get bits per pixel - UINT_32 bpp = 1 << (log2ElementBytes + 3); - - // Loop all possible tile index - for (INT_32 tileIndex = 0; tileIndex < static_cast(m_noOfEntries); tileIndex++) - { - UINT_32 equationIndex = ADDR_INVALID_EQUATION_INDEX; - - TileConfig tileConfig = m_tileTable[tileIndex]; - - ADDR_SURFACE_FLAGS flags = {{0}}; - - // Compute tile info, hardcode numSamples to 1 because MSAA is not supported - // in swizzle pattern equation - HwlComputeMacroModeIndex(tileIndex, flags, bpp, 1, &tileConfig.info, NULL, NULL); - - // Check if the input is supported - if (IsEquationSupported(bpp, tileConfig, tileIndex, log2ElementBytes) == TRUE) - { - ADDR_EQUATION_KEY key = {{0}}; - - // Generate swizzle equation key from bpp and tile config - key.fields.log2ElementBytes = log2ElementBytes; - key.fields.tileMode = tileConfig.mode; - // Treat depth micro tile type and non-display micro tile type as the same key - // because they have the same equation actually - key.fields.microTileType = (tileConfig.type == ADDR_DEPTH_SAMPLE_ORDER) ? - ADDR_NON_DISPLAYABLE : tileConfig.type; - key.fields.pipeConfig = tileConfig.info.pipeConfig; - key.fields.numBanksLog2 = Log2(tileConfig.info.banks); - key.fields.bankWidth = tileConfig.info.bankWidth; - key.fields.bankHeight = tileConfig.info.bankHeight; - key.fields.macroAspectRatio = tileConfig.info.macroAspectRatio; - key.fields.prt = ((m_chipFamily == ADDR_CHIP_FAMILY_SI) && - ((1 << tileIndex) & SiPrtTileIndexMask)) ? 1 : 0; - - // Find in the table if the equation has been built based on the key - for (UINT_32 i = 0; i < m_numEquations; i++) - { - if (key.value == equationKeyTable[i].value) - { - equationIndex = i; - break; - } - } - - // If found, just fill the index into the lookup table and no need - // to generate the equation again. Otherwise, generate the equation. - if (equationIndex == ADDR_INVALID_EQUATION_INDEX) - { - ADDR_EQUATION equation; - ADDR_E_RETURNCODE retCode; - - memset(&equation, 0, sizeof(ADDR_EQUATION)); - - // Generate the equation - if (IsMicroTiled(tileConfig.mode)) - { - retCode = ComputeMicroTileEquation(log2ElementBytes, - tileConfig.mode, - tileConfig.type, - &equation); - } - else - { - retCode = ComputeMacroTileEquation(log2ElementBytes, - tileConfig.mode, - tileConfig.type, - &tileConfig.info, - &equation); - } - // Only fill the equation into the table if the return code is ADDR_OK, - // otherwise if the return code is not ADDR_OK, it indicates this is not - // a valid input, we do nothing but just fill invalid equation index - // into the lookup table. - if (retCode == ADDR_OK) - { - equationIndex = m_numEquations; - ADDR_ASSERT(equationIndex < EquationTableSize); - - m_blockSlices[equationIndex] = Thickness(tileConfig.mode); - - if (IsMicroTiled(tileConfig.mode)) - { - m_blockWidth[equationIndex] = MicroTileWidth; - m_blockHeight[equationIndex] = MicroTileHeight; - } - else - { - const ADDR_TILEINFO* pTileInfo = &tileConfig.info; - - m_blockWidth[equationIndex] = - HwlGetPipes(pTileInfo) * MicroTileWidth * pTileInfo->bankWidth * - pTileInfo->macroAspectRatio; - m_blockHeight[equationIndex] = - MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks / - pTileInfo->macroAspectRatio; - - if (key.fields.prt) - { - UINT_32 macroTileSize = - m_blockWidth[equationIndex] * m_blockHeight[equationIndex] * - bpp / 8; - - if (macroTileSize < PrtTileSize) - { - UINT_32 numMacroTiles = PrtTileSize / macroTileSize; - - ADDR_ASSERT(macroTileSize == (1u << equation.numBits)); - ADDR_ASSERT((PrtTileSize % macroTileSize) == 0); - - UINT_32 numBits = Log2(numMacroTiles); - - UINT_32 xStart = Log2(m_blockWidth[equationIndex]) + - log2ElementBytes; - - m_blockWidth[equationIndex] *= numMacroTiles; - - for (UINT_32 i = 0; i < numBits; i++) - { - equation.addr[equation.numBits + i].valid = 1; - equation.addr[equation.numBits + i].index = xStart + i; - } - - equation.numBits += numBits; - } - } - } - - equationKeyTable[equationIndex] = key; - m_equationTable[equationIndex] = equation; - - m_numEquations++; - } - } - } - - // Fill the index into the lookup table, if the combination is not supported - // fill the invalid equation index - m_equationLookupTable[log2ElementBytes][tileIndex] = equationIndex; - } - - if (m_chipFamily == ADDR_CHIP_FAMILY_SI) - { - // For tile index 3 which is shared between PRT depth and uncompressed depth - m_uncompressDepthEqIndex = m_numEquations; - - for (UINT_32 log2ElemBytes = 0; log2ElemBytes < MaxNumElementBytes; log2ElemBytes++) - { - TileConfig tileConfig = m_tileTable[3]; - ADDR_EQUATION equation; - ADDR_E_RETURNCODE retCode; - - memset(&equation, 0, sizeof(ADDR_EQUATION)); - - retCode = ComputeMacroTileEquation(log2ElemBytes, - tileConfig.mode, - tileConfig.type, - &tileConfig.info, - &equation); - - if (retCode == ADDR_OK) - { - UINT_32 equationIndex = m_numEquations; - ADDR_ASSERT(equationIndex < EquationTableSize); - - m_blockSlices[equationIndex] = 1; - - const ADDR_TILEINFO* pTileInfo = &tileConfig.info; - - m_blockWidth[equationIndex] = - HwlGetPipes(pTileInfo) * MicroTileWidth * pTileInfo->bankWidth * - pTileInfo->macroAspectRatio; - m_blockHeight[equationIndex] = - MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks / - pTileInfo->macroAspectRatio; - - m_equationTable[equationIndex] = equation; - - m_numEquations++; - } - } - } - } -} - -/** -**************************************************************************************************** -* SiLib::IsEquationSupported -* -* @brief -* Check if it is supported for given bpp and tile config to generate a equation. -* -* @return -* TRUE if supported -**************************************************************************************************** -*/ -BOOL_32 SiLib::IsEquationSupported( - UINT_32 bpp, ///< Bits per pixel - TileConfig tileConfig, ///< Tile config - INT_32 tileIndex, ///< Tile index - UINT_32 elementBytesLog2 ///< Log2 of element bytes - ) const -{ - BOOL_32 supported = TRUE; - - // Linear tile mode is not supported in swizzle pattern equation - if (IsLinear(tileConfig.mode)) - { - supported = FALSE; - } - // These tile modes are for Tex2DArray and Tex3D which has depth (num_slice > 1) use, - // which is not supported in swizzle pattern equation due to slice rotation - else if ((tileConfig.mode == ADDR_TM_2D_TILED_THICK) || - (tileConfig.mode == ADDR_TM_2D_TILED_XTHICK) || - (tileConfig.mode == ADDR_TM_3D_TILED_THIN1) || - (tileConfig.mode == ADDR_TM_3D_TILED_THICK) || - (tileConfig.mode == ADDR_TM_3D_TILED_XTHICK)) - { - supported = FALSE; - } - // Only 8bpp(stencil), 16bpp and 32bpp is supported for depth - else if ((tileConfig.type == ADDR_DEPTH_SAMPLE_ORDER) && (bpp > 32)) - { - supported = FALSE; - } - // Tile split is not supported in swizzle pattern equation - else if (IsMacroTiled(tileConfig.mode)) - { - UINT_32 thickness = Thickness(tileConfig.mode); - if (((bpp >> 3) * MicroTilePixels * thickness) > tileConfig.info.tileSplitBytes) - { - supported = FALSE; - } - - if ((supported == TRUE) && (m_chipFamily == ADDR_CHIP_FAMILY_SI)) - { - supported = m_EquationSupport[tileIndex][elementBytesLog2]; - } - } - - return supported; -} - -} // V1 -} // Addr diff --git a/src/amd/addrlib/r800/siaddrlib.h b/src/amd/addrlib/r800/siaddrlib.h deleted file mode 100644 index d363df8d641..00000000000 --- a/src/amd/addrlib/r800/siaddrlib.h +++ /dev/null @@ -1,348 +0,0 @@ -/* - * Copyright © 2014 Advanced Micro Devices, Inc. - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining - * a copy of this software and associated documentation files (the - * "Software"), to deal in the Software without restriction, including - * without limitation the rights to use, copy, modify, merge, publish, - * distribute, sub license, and/or sell copies of the Software, and to - * permit persons to whom the Software is furnished to do so, subject to - * the following conditions: - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES - * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS - * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, - * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - * - * The above copyright notice and this permission notice (including the - * next paragraph) shall be included in all copies or substantial portions - * of the Software. - */ - -/** -**************************************************************************************************** -* @file siaddrlib.h -* @brief Contains the R800Lib class definition. -**************************************************************************************************** -*/ - -#ifndef __SI_ADDR_LIB_H__ -#define __SI_ADDR_LIB_H__ - -#include "addrlib1.h" -#include "egbaddrlib.h" - -namespace Addr -{ -namespace V1 -{ - -/** -**************************************************************************************************** -* @brief Describes the information in tile mode table -**************************************************************************************************** -*/ -struct TileConfig -{ - AddrTileMode mode; - AddrTileType type; - ADDR_TILEINFO info; -}; - -/** -**************************************************************************************************** -* @brief SI specific settings structure. -**************************************************************************************************** -*/ -struct SiChipSettings -{ - UINT_32 isSouthernIsland : 1; - UINT_32 isTahiti : 1; - UINT_32 isPitCairn : 1; - UINT_32 isCapeVerde : 1; - // Oland/Hainan are of GFXIP 6.0, similar with SI - UINT_32 isOland : 1; - UINT_32 isHainan : 1; - - // CI - UINT_32 isSeaIsland : 1; - UINT_32 isBonaire : 1; - UINT_32 isKaveri : 1; - UINT_32 isSpectre : 1; - UINT_32 isSpooky : 1; - UINT_32 isKalindi : 1; - // Hawaii is GFXIP 7.2 - UINT_32 isHawaii : 1; - - // VI - UINT_32 isVolcanicIslands : 1; - UINT_32 isIceland : 1; - UINT_32 isTonga : 1; - UINT_32 isFiji : 1; - UINT_32 isPolaris10 : 1; - UINT_32 isPolaris11 : 1; - UINT_32 isPolaris12 : 1; - UINT_32 isVegaM : 1; - // VI fusion - UINT_32 isCarrizo : 1; -}; - -/** -**************************************************************************************************** -* @brief This class is the SI specific address library -* function set. -**************************************************************************************************** -*/ -class SiLib : public EgBasedLib -{ -public: - /// Creates SiLib object - static Addr::Lib* CreateObj(const Client* pClient) - { - VOID* pMem = Object::ClientAlloc(sizeof(SiLib), pClient); - return (pMem != NULL) ? new (pMem) SiLib(pClient) : NULL; - } - -protected: - SiLib(const Client* pClient); - virtual ~SiLib(); - - // Hwl interface - defined in AddrLib1 - virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual ADDR_E_RETURNCODE HwlConvertTileInfoToHW( - const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, - ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const; - - virtual UINT_64 HwlComputeXmaskAddrFromCoord( - UINT_32 pitch, UINT_32 height, UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 numSlices, - UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, - ADDR_TILEINFO* pTileInfo, UINT_32* pBitPosition) const; - - virtual VOID HwlComputeXmaskCoordFromAddr( - UINT_64 addr, UINT_32 bitPosition, UINT_32 pitch, UINT_32 height, UINT_32 numSlices, - UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, - ADDR_TILEINFO* pTileInfo, UINT_32* pX, UINT_32* pY, UINT_32* pSlice) const; - - virtual ADDR_E_RETURNCODE HwlGetTileIndex( - const ADDR_GET_TILEINDEX_INPUT* pIn, - ADDR_GET_TILEINDEX_OUTPUT* pOut) const; - - virtual BOOL_32 HwlComputeMipLevel( - ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn) const; - - virtual ChipFamily HwlConvertChipFamily( - UINT_32 uChipFamily, UINT_32 uChipRevision); - - virtual BOOL_32 HwlInitGlobalParams( - const ADDR_CREATE_INPUT* pCreateIn); - - virtual ADDR_E_RETURNCODE HwlSetupTileCfg( - UINT_32 bpp, INT_32 index, INT_32 macroModeIndex, - ADDR_TILEINFO* pInfo, AddrTileMode* pMode = 0, AddrTileType* pType = 0) const; - - virtual VOID HwlComputeTileDataWidthAndHeightLinear( - UINT_32* pMacroWidth, UINT_32* pMacroHeight, - UINT_32 bpp, ADDR_TILEINFO* pTileInfo) const; - - virtual UINT_64 HwlComputeHtileBytes( - UINT_32 pitch, UINT_32 height, UINT_32 bpp, - BOOL_32 isLinear, UINT_32 numSlices, UINT_64* pSliceBytes, UINT_32 baseAlign) const; - - virtual ADDR_E_RETURNCODE ComputeBankEquation( - UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, - ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const; - - virtual ADDR_E_RETURNCODE ComputePipeEquation( - UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, - ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const; - - virtual UINT_32 ComputePipeFromCoord( - UINT_32 x, UINT_32 y, UINT_32 slice, - AddrTileMode tileMode, UINT_32 pipeSwizzle, BOOL_32 ignoreSE, - ADDR_TILEINFO* pTileInfo) const; - - virtual UINT_32 HwlGetPipes(const ADDR_TILEINFO* pTileInfo) const; - - /// Pre-handler of 3x pitch (96 bit) adjustment - virtual UINT_32 HwlPreHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; - /// Post-handler of 3x pitch adjustment - virtual UINT_32 HwlPostHandleBaseLvl3xPitch( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; - - /// Dummy function to finalize the inheritance - virtual UINT_32 HwlComputeXmaskCoordYFrom8Pipe( - UINT_32 pipe, UINT_32 x) const; - - // Sub-hwl interface - defined in EgBasedLib - virtual VOID HwlSetupTileInfo( - AddrTileMode tileMode, ADDR_SURFACE_FLAGS flags, - UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, - ADDR_TILEINFO* inputTileInfo, ADDR_TILEINFO* outputTileInfo, - AddrTileType inTileType, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual UINT_32 HwlGetPitchAlignmentMicroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples) const; - - virtual UINT_64 HwlGetSizeAdjustmentMicroTiled( - UINT_32 thickness, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, - UINT_32 baseAlign, UINT_32 pitchAlign, - UINT_32 *pPitch, UINT_32 *pHeight) const; - - virtual VOID HwlCheckLastMacroTiledLvl( - const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - virtual BOOL_32 HwlTileInfoEqual( - const ADDR_TILEINFO* pLeft, const ADDR_TILEINFO* pRight) const; - - virtual AddrTileMode HwlDegradeThickTileMode( - AddrTileMode baseTileMode, UINT_32 numSlices, UINT_32* pBytesPerTile) const; - - virtual VOID HwlOverrideTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - virtual VOID HwlOptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - virtual VOID HwlSelectTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - /// Overwrite tile setting to PRT - virtual VOID HwlSetPrtTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; - - virtual BOOL_32 HwlSanityCheckMacroTiled( - ADDR_TILEINFO* pTileInfo) const - { - return TRUE; - } - - virtual UINT_32 HwlGetPitchAlignmentLinear(UINT_32 bpp, ADDR_SURFACE_FLAGS flags) const; - - virtual UINT_64 HwlGetSizeAdjustmentLinear( - AddrTileMode tileMode, - UINT_32 bpp, UINT_32 numSamples, UINT_32 baseAlign, UINT_32 pitchAlign, - UINT_32 *pPitch, UINT_32 *pHeight, UINT_32 *pHeightAlign) const; - - virtual VOID HwlComputeSurfaceCoord2DFromBankPipe( - AddrTileMode tileMode, UINT_32* pX, UINT_32* pY, UINT_32 slice, - UINT_32 bank, UINT_32 pipe, - UINT_32 bankSwizzle, UINT_32 pipeSwizzle, UINT_32 tileSlices, - BOOL_32 ignoreSE, - ADDR_TILEINFO* pTileInfo) const; - - virtual UINT_32 HwlPreAdjustBank( - UINT_32 tileX, UINT_32 bank, ADDR_TILEINFO* pTileInfo) const; - - virtual INT_32 HwlPostCheckTileIndex( - const ADDR_TILEINFO* pInfo, AddrTileMode mode, AddrTileType type, - INT curIndex = TileIndexInvalid) const; - - virtual VOID HwlFmaskPreThunkSurfInfo( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, - const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, - ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, - ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut) const; - - virtual VOID HwlFmaskPostThunkSurfInfo( - const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, - ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut) const; - - virtual UINT_32 HwlComputeFmaskBits( - const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, - UINT_32* pNumSamples) const; - - virtual BOOL_32 HwlReduceBankWidthHeight( - UINT_32 tileSize, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, - UINT_32 bankHeightAlign, UINT_32 pipes, - ADDR_TILEINFO* pTileInfo) const - { - return TRUE; - } - - virtual UINT_32 HwlComputeMaxBaseAlignments() const; - - virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const; - - virtual VOID HwlComputeSurfaceAlignmentsMacroTiled( - AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, - UINT_32 mipLevel, UINT_32 numSamples, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; - - // Get equation table pointer and number of equations - virtual UINT_32 HwlGetEquationTableInfo(const ADDR_EQUATION** ppEquationTable) const - { - *ppEquationTable = m_equationTable; - - return m_numEquations; - } - - // Check if it is supported for given bpp and tile config to generate an equation - BOOL_32 IsEquationSupported( - UINT_32 bpp, TileConfig tileConfig, INT_32 tileIndex, UINT_32 elementBytesLog2) const; - - // Protected non-virtual functions - VOID ComputeTileCoordFromPipeAndElemIdx( - UINT_32 elemIdx, UINT_32 pipe, AddrPipeCfg pipeCfg, UINT_32 pitchInMacroTile, - UINT_32 x, UINT_32 y, UINT_32* pX, UINT_32* pY) const; - - UINT_32 TileCoordToMaskElementIndex( - UINT_32 tx, UINT_32 ty, AddrPipeCfg pipeConfig, - UINT_32 *macroShift, UINT_32 *elemIdxBits) const; - - BOOL_32 DecodeGbRegs( - const ADDR_REGISTER_VALUE* pRegValue); - - const TileConfig* GetTileSetting( - UINT_32 index) const; - - // Initialize equation table - VOID InitEquationTable(); - - UINT_32 GetPipePerSurf(AddrPipeCfg pipeConfig) const; - - static const UINT_32 TileTableSize = 32; - TileConfig m_tileTable[TileTableSize]; - UINT_32 m_noOfEntries; - - // Max number of bpp (8bpp/16bpp/32bpp/64bpp/128bpp) - static const UINT_32 MaxNumElementBytes = 5; - - static const BOOL_32 m_EquationSupport[TileTableSize][MaxNumElementBytes]; - - // Prt tile mode index mask - static const UINT_32 SiPrtTileIndexMask = ((1 << 3) | (1 << 5) | (1 << 6) | (1 << 7) | - (1 << 21) | (1 << 22) | (1 << 23) | (1 << 24) | - (1 << 25) | (1 << 30)); - - // More than half slots in tile mode table can't support equation - static const UINT_32 EquationTableSize = (MaxNumElementBytes * TileTableSize) / 2; - // Equation table - ADDR_EQUATION m_equationTable[EquationTableSize]; - UINT_32 m_numMacroBits[EquationTableSize]; - UINT_32 m_blockWidth[EquationTableSize]; - UINT_32 m_blockHeight[EquationTableSize]; - UINT_32 m_blockSlices[EquationTableSize]; - // Number of equation entries in the table - UINT_32 m_numEquations; - // Equation lookup table according to bpp and tile index - UINT_32 m_equationLookupTable[MaxNumElementBytes][TileTableSize]; - - UINT_32 m_uncompressDepthEqIndex; - - SiChipSettings m_settings; - -private: - - VOID ReadGbTileMode(UINT_32 regValue, TileConfig* pCfg) const; - BOOL_32 InitTileSettingTable(const UINT_32 *pSetting, UINT_32 noOfEntries); -}; - -} // V1 -} // Addr - -#endif - diff --git a/src/amd/addrlib/src/addrinterface.cpp b/src/amd/addrlib/src/addrinterface.cpp new file mode 100644 index 00000000000..b4eabd56062 --- /dev/null +++ b/src/amd/addrlib/src/addrinterface.cpp @@ -0,0 +1,1740 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrinterface.cpp +* @brief Contains the addrlib interface functions +**************************************************************************************************** +*/ +#include "addrinterface.h" +#include "addrlib1.h" +#include "addrlib2.h" + +#include "addrcommon.h" + +#include "util/macros.h" + +using namespace Addr; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Create/Destroy/Config functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrCreate +* +* @brief +* Create address lib object +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrCreate( + const ADDR_CREATE_INPUT* pAddrCreateIn, ///< [in] infomation for creating address lib object + ADDR_CREATE_OUTPUT* pAddrCreateOut) ///< [out] address lib handle +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + { + returnCode = Lib::Create(pAddrCreateIn, pAddrCreateOut); + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrDestroy +* +* @brief +* Destroy address lib object +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrDestroy( + ADDR_HANDLE hLib) ///< address lib handle +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (hLib) + { + Lib* pLib = Lib::GetLib(hLib); + pLib->Destroy(); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrComputeSurfaceInfo +* +* @brief +* Calculate surface width/height/depth/alignments and suitable tiling mode +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] surface information + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) ///< [out] surface parameters and alignments +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeSurfaceInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeSurfaceAddrFromCoord +* +* @brief +* Compute surface address according to coordinates +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] surface info and coordinates + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] surface address +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeSurfaceAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeSurfaceCoordFromAddr +* +* @brief +* Compute coordinates according to surface address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSurfaceCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] surface info and address + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) ///< [out] coordinates +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeSurfaceCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// HTile functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrComputeHtileInfo +* +* @brief +* Compute Htile pitch, height, base alignment and size in bytes +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeHtileInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] Htile information + ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut) ///< [out] Htile pitch, height and size in bytes +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeHtileInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeHtileAddrFromCoord +* +* @brief +* Compute Htile address according to coordinates (of depth buffer) +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeHtileAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] Htile info and coordinates + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Htile address +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeHtileAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeHtileCoordFromAddr +* +* @brief +* Compute coordinates within depth buffer (1st pixel of a micro tile) according to +* Htile address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeHtileCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] Htile info and address + ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] Htile coordinates +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeHtileCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// C-mask functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrComputeCmaskInfo +* +* @brief +* Compute Cmask pitch, height, base alignment and size in bytes from color buffer +* info +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] Cmask pitch and height + ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut) ///< [out] Cmask pitch, height and size in bytes +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeCmaskInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeCmaskAddrFromCoord +* +* @brief +* Compute Cmask address according to coordinates (of MSAA color buffer) +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Cmask info and coordinates + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Cmask address +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeCmaskAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeCmaskCoordFromAddr +* +* @brief +* Compute coordinates within color buffer (1st pixel of a micro tile) according to +* Cmask address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeCmaskCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Cmask info and address + ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Cmask coordinates +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeCmaskCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// F-mask functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrComputeFmaskInfo +* +* @brief +* Compute Fmask pitch/height/depth/alignments and size in bytes +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] Fmask information + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut) ///< [out] Fmask pitch and height +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeFmaskInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeFmaskAddrFromCoord +* +* @brief +* Compute Fmask address according to coordinates (x,y,slice,sample,plane) +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Fmask info and coordinates + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Fmask address +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeFmaskAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeFmaskCoordFromAddr +* +* @brief +* Compute coordinates (x,y,slice,sample,plane) according to Fmask address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeFmaskCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Fmask info and address + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Fmask coordinates +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeFmaskCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// DCC key functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrComputeDccInfo +* +* @brief +* Compute DCC key size, base alignment based on color surface size, tile info or tile index +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeDccInfo( + ADDR_HANDLE hLib, ///< handle of addrlib + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) ///< [out] output +{ + ADDR_E_RETURNCODE returnCode; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputeDccInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/////////////////////////////////////////////////////////////////////////////// +// Below functions are element related or helper functions +/////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrGetVersion +* +* @brief +* Get AddrLib version number. Client may check this return value against ADDRLIB_VERSION +* defined in addrinterface.h to see if there is a mismatch. +**************************************************************************************************** +*/ +UINT_32 ADDR_API AddrGetVersion(ADDR_HANDLE hLib) +{ + UINT_32 version = 0; + + Addr::Lib* pLib = Lib::GetLib(hLib); + + ADDR_ASSERT(pLib != NULL); + + if (pLib) + { + version = pLib->GetVersion(); + } + + return version; +} + +/** +**************************************************************************************************** +* AddrUseTileIndex +* +* @brief +* Return TRUE if tileIndex is enabled in this address library +**************************************************************************************************** +*/ +BOOL_32 ADDR_API AddrUseTileIndex(ADDR_HANDLE hLib) +{ + BOOL_32 useTileIndex = FALSE; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_ASSERT(pLib != NULL); + + if (pLib) + { + useTileIndex = pLib->UseTileIndex(0); + } + + return useTileIndex; +} + +/** +**************************************************************************************************** +* AddrUseCombinedSwizzle +* +* @brief +* Return TRUE if combined swizzle is enabled in this address library +**************************************************************************************************** +*/ +BOOL_32 ADDR_API AddrUseCombinedSwizzle(ADDR_HANDLE hLib) +{ + BOOL_32 useCombinedSwizzle = FALSE; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_ASSERT(pLib != NULL); + + if (pLib) + { + useCombinedSwizzle = pLib->UseCombinedSwizzle(); + } + + return useCombinedSwizzle; +} + +/** +**************************************************************************************************** +* AddrExtractBankPipeSwizzle +* +* @brief +* Extract Bank and Pipe swizzle from base256b +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrExtractBankPipeSwizzle( + ADDR_HANDLE hLib, ///< addrlib handle + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ExtractBankPipeSwizzle(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrCombineBankPipeSwizzle +* +* @brief +* Combine Bank and Pipe swizzle +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrCombineBankPipeSwizzle( + ADDR_HANDLE hLib, + const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->CombineBankPipeSwizzle(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeSliceSwizzle +* +* @brief +* Compute a swizzle for slice from a base swizzle +* @return +* ADDR_OK if no error +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeSliceSwizzle( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputeSliceTileSwizzle(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputeBaseSwizzle +* +* @brief +* Return a Combined Bank and Pipe swizzle base on surface based on surface type/index +* @return +* ADDR_OK if no error +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputeBaseSwizzle( + ADDR_HANDLE hLib, + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputeBaseSwizzle(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* ElemFlt32ToDepthPixel +* +* @brief +* Convert a FLT_32 value to a depth/stencil pixel value +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API ElemFlt32ToDepthPixel( + ADDR_HANDLE hLib, ///< addrlib handle + const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, ///< [in] per-component value + ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut) ///< [out] final pixel value +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + Lib* pLib = Lib::GetLib(hLib); + + if (pLib != NULL) + { + pLib->Flt32ToDepthPixel(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* ElemFlt32ToColorPixel +* +* @brief +* Convert a FLT_32 value to a red/green/blue/alpha pixel value +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API ElemFlt32ToColorPixel( + ADDR_HANDLE hLib, ///< addrlib handle + const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, ///< [in] format, surface number and swap value + ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut) ///< [out] final pixel value +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + Lib* pLib = Lib::GetLib(hLib); + + if (pLib != NULL) + { + pLib->Flt32ToColorPixel(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* ElemGetExportNorm +* +* @brief +* Helper function to check one format can be EXPORT_NUM, +* which is a register CB_COLOR_INFO.SURFACE_FORMAT. +* FP16 can be reported as EXPORT_NORM for rv770 in r600 +* family +* +**************************************************************************************************** +*/ +BOOL_32 ADDR_API ElemGetExportNorm( + ADDR_HANDLE hLib, ///< addrlib handle + const ELEM_GETEXPORTNORM_INPUT* pIn) ///< [in] input structure +{ + Addr::Lib* pLib = Lib::GetLib(hLib); + BOOL_32 enabled = FALSE; + + MAYBE_UNUSED ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + enabled = pLib->GetExportNorm(pIn); + } + else + { + returnCode = ADDR_ERROR; + } + + ADDR_ASSERT(returnCode == ADDR_OK); + + return enabled; +} + +/** +**************************************************************************************************** +* ElemSize +* +* @brief +* Get bits-per-element for specified format +* +* @return +* Bits-per-element of specified format +* +**************************************************************************************************** +*/ +UINT_32 ADDR_API ElemSize( + ADDR_HANDLE hLib, + AddrFormat format) +{ + UINT_32 bpe = 0; + + Addr::Lib* pLib = Lib::GetLib(hLib); + + if (pLib != NULL) + { + bpe = pLib->GetBpe(format); + } + + return bpe; +} + +/** +**************************************************************************************************** +* AddrConvertTileInfoToHW +* +* @brief +* Convert tile info from real value to hardware register value +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrConvertTileInfoToHW( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] tile info with real value + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) ///< [out] tile info with HW register value +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ConvertTileInfoToHW(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrConvertTileIndex +* +* @brief +* Convert tile index to tile mode/type/info +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_CONVERT_TILEINDEX_INPUT* pIn, ///< [in] input - tile index + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) ///< [out] tile mode/type/info +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ConvertTileIndex(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrGetMacroModeIndex +* +* @brief +* Get macro mode index based on input parameters +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetMacroModeIndex( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_GET_MACROMODEINDEX_INPUT* pIn, ///< [in] input + ADDR_GET_MACROMODEINDEX_OUTPUT* pOut) ///< [out] macro mode index +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode; + + if (pLib != NULL) + { + returnCode = pLib->GetMacroModeIndex(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrConvertTileIndex1 +* +* @brief +* Convert tile index to tile mode/type/info +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrConvertTileIndex1( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, ///< [in] input - tile index + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) ///< [out] tile mode/type/info +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ConvertTileIndex1(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrGetTileIndex +* +* @brief +* Get tile index from tile mode/type/info +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +* +* @note +* Only meaningful for SI (and above) +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetTileIndex( + ADDR_HANDLE hLib, + const ADDR_GET_TILEINDEX_INPUT* pIn, + ADDR_GET_TILEINDEX_OUTPUT* pOut) +{ + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->GetTileIndex(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrComputePrtInfo +* +* @brief +* Interface function for ComputePrtInfo +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrComputePrtInfo( + ADDR_HANDLE hLib, + const ADDR_PRT_INFO_INPUT* pIn, + ADDR_PRT_INFO_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + V1::Lib* pLib = V1::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputePrtInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrGetMaxAlignments +* +* @brief +* Convert maximum alignments +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetMaxAlignments( + ADDR_HANDLE hLib, ///< address lib handle + ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) ///< [out] output structure +{ + Addr::Lib* pLib = Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->GetMaxAlignments(pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* AddrGetMaxMetaAlignments +* +* @brief +* Convert maximum alignments for metadata +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API AddrGetMaxMetaAlignments( + ADDR_HANDLE hLib, ///< address lib handle + ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) ///< [out] output structure +{ + Addr::Lib* pLib = Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->GetMaxMetaAlignments(pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface functions for Addr2 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Addr2ComputeSurfaceInfo +* +* @brief +* Calculate surface width/height/depth/alignments and suitable tiling mode +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] surface information + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) ///< [out] surface parameters and alignments +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeSurfaceInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeSurfaceAddrFromCoord +* +* @brief +* Compute surface address according to coordinates +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] surface info and coordinates + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] surface address +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeSurfaceAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeSurfaceCoordFromAddr +* +* @brief +* Compute coordinates according to surface address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSurfaceCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] surface info and address + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) ///< [out] coordinates +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeSurfaceCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// HTile functions for Addr2 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Addr2ComputeHtileInfo +* +* @brief +* Compute Htile pitch, height, base alignment and size in bytes +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] Htile information + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) ///< [out] Htile pitch, height and size in bytes +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeHtileInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeHtileAddrFromCoord +* +* @brief +* Compute Htile address according to coordinates (of depth buffer) +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] Htile info and coordinates + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Htile address +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeHtileAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeHtileCoordFromAddr +* +* @brief +* Compute coordinates within depth buffer (1st pixel of a micro tile) according to +* Htile address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeHtileCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] Htile info and address + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] Htile coordinates +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeHtileCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// C-mask functions for Addr2 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Addr2ComputeCmaskInfo +* +* @brief +* Compute Cmask pitch, height, base alignment and size in bytes from color buffer +* info +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] Cmask pitch and height + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) ///< [out] Cmask pitch, height and size in bytes +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeCmaskInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeCmaskAddrFromCoord +* +* @brief +* Compute Cmask address according to coordinates (of MSAA color buffer) +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Cmask info and coordinates + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Cmask address +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeCmaskAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeCmaskCoordFromAddr +* +* @brief +* Compute coordinates within color buffer (1st pixel of a micro tile) according to +* Cmask address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeCmaskCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Cmask info and address + ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Cmask coordinates +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeCmaskCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// F-mask functions for Addr2 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Addr2ComputeFmaskInfo +* +* @brief +* Compute Fmask pitch/height/depth/alignments and size in bytes +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskInfo( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] Fmask information + ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut) ///< [out] Fmask pitch and height +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeFmaskInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeFmaskAddrFromCoord +* +* @brief +* Compute Fmask address according to coordinates (x,y,slice,sample,plane) +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] Fmask info and coordinates + ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Fmask address +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeFmaskAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeFmaskCoordFromAddr +* +* @brief +* Compute coordinates (x,y,slice,sample,plane) according to Fmask address +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeFmaskCoordFromAddr( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] Fmask info and address + ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) ///< [out] Fmask coordinates +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeFmaskCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// DCC key functions for Addr2 +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Addr2ComputeDccInfo +* +* @brief +* Compute DCC key size, base alignment based on color surface size, tile info or tile index +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccInfo( + ADDR_HANDLE hLib, ///< handle of addrlib + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) ///< [out] output +{ + ADDR_E_RETURNCODE returnCode; + + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputeDccInfo(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeDccAddrFromCoord +* +* @brief +* Compute DCC key address according to coordinates +* +* @return +* ADDR_OK if successful, otherwise an error code of ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeDccAddrFromCoord( + ADDR_HANDLE hLib, ///< address lib handle + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, ///< [in] Dcc info and coordinates + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] Dcc address +{ + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pLib != NULL) + { + returnCode = pLib->ComputeDccAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputePipeBankXor +* +* @brief +* Calculate a valid bank pipe xor value for client to use. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputePipeBankXor( + ADDR_HANDLE hLib, ///< handle of addrlib + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, ///< [in] input + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) ///< [out] output +{ + ADDR_E_RETURNCODE returnCode; + + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputePipeBankXor(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeSlicePipeBankXor +* +* @brief +* Calculate slice pipe bank xor value based on base pipe bank xor and slice id. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSlicePipeBankXor( + ADDR_HANDLE hLib, ///< handle of addrlib + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, ///< [in] input + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) ///< [out] output +{ + ADDR_E_RETURNCODE returnCode; + + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputeSlicePipeBankXor(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2ComputeSubResourceOffsetForSwizzlePattern +* +* @brief +* Calculate sub resource offset for swizzle pattern. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2ComputeSubResourceOffsetForSwizzlePattern( + ADDR_HANDLE hLib, ///< handle of addrlib + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, ///< [in] input + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) ///< [out] output +{ + ADDR_E_RETURNCODE returnCode; + + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->ComputeSubResourceOffsetForSwizzlePattern(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2GetPreferredSurfaceSetting +* +* @brief +* Suggest a preferred setting for client driver to program HW register +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2GetPreferredSurfaceSetting( + ADDR_HANDLE hLib, ///< handle of addrlib + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, ///< [in] input + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) ///< [out] output +{ + ADDR_E_RETURNCODE returnCode; + + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + if (pLib != NULL) + { + returnCode = pLib->Addr2GetPreferredSurfaceSetting(pIn, pOut); + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Addr2IsValidDisplaySwizzleMode +* +* @brief +* Return whether the swizzle mode is supported by DCE / DCN. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE ADDR_API Addr2IsValidDisplaySwizzleMode( + ADDR_HANDLE hLib, + AddrSwizzleMode swizzleMode, + UINT_32 bpp, + bool *result) +{ + ADDR_E_RETURNCODE returnCode; + + V2::Lib* pLib = V2::Lib::GetLib(hLib); + + if (pLib != NULL) + { + ADDR2_COMPUTE_SURFACE_INFO_INPUT in; + in.swizzleMode = swizzleMode; + in.bpp = bpp; + + *result = pLib->IsValidDisplaySwizzleMode(&in); + returnCode = ADDR_OK; + } + else + { + returnCode = ADDR_ERROR; + } + + return returnCode; +} diff --git a/src/amd/addrlib/src/amdgpu_asic_addr.h b/src/amd/addrlib/src/amdgpu_asic_addr.h new file mode 100644 index 00000000000..41efd70e8ff --- /dev/null +++ b/src/amd/addrlib/src/amdgpu_asic_addr.h @@ -0,0 +1,137 @@ +/* + * Copyright © 2017-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +#ifndef _AMDGPU_ASIC_ADDR_H +#define _AMDGPU_ASIC_ADDR_H + +#define ATI_VENDOR_ID 0x1002 +#define AMD_VENDOR_ID 0x1022 + +// AMDGPU_VENDOR_IS_AMD(vendorId) +#define AMDGPU_VENDOR_IS_AMD(v) ((v == ATI_VENDOR_ID) || (v == AMD_VENDOR_ID)) + +#define FAMILY_UNKNOWN 0x00 +#define FAMILY_TN 0x69 +#define FAMILY_SI 0x6E +#define FAMILY_CI 0x78 +#define FAMILY_KV 0x7D +#define FAMILY_VI 0x82 +#define FAMILY_POLARIS 0x82 +#define FAMILY_CZ 0x87 +#define FAMILY_AI 0x8D +#define FAMILY_RV 0x8E + +// AMDGPU_FAMILY_IS(familyId, familyName) +#define FAMILY_IS(f, fn) (f == FAMILY_##fn) +#define FAMILY_IS_TN(f) FAMILY_IS(f, TN) +#define FAMILY_IS_SI(f) FAMILY_IS(f, SI) +#define FAMILY_IS_CI(f) FAMILY_IS(f, CI) +#define FAMILY_IS_KV(f) FAMILY_IS(f, KV) +#define FAMILY_IS_VI(f) FAMILY_IS(f, VI) +#define FAMILY_IS_POLARIS(f) FAMILY_IS(f, POLARIS) +#define FAMILY_IS_CZ(f) FAMILY_IS(f, CZ) +#define FAMILY_IS_AI(f) FAMILY_IS(f, AI) +#define FAMILY_IS_RV(f) FAMILY_IS(f, RV) + +#define AMDGPU_UNKNOWN 0xFF + +#define AMDGPU_TAHITI_RANGE 0x05, 0x14 +#define AMDGPU_PITCAIRN_RANGE 0x15, 0x28 +#define AMDGPU_CAPEVERDE_RANGE 0x29, 0x3C +#define AMDGPU_OLAND_RANGE 0x3C, 0x46 +#define AMDGPU_HAINAN_RANGE 0x46, 0xFF + +#define AMDGPU_BONAIRE_RANGE 0x14, 0x28 +#define AMDGPU_HAWAII_RANGE 0x28, 0x3C + +#define AMDGPU_SPECTRE_RANGE 0x01, 0x41 +#define AMDGPU_SPOOKY_RANGE 0x41, 0x81 +#define AMDGPU_KALINDI_RANGE 0x81, 0xA1 +#define AMDGPU_GODAVARI_RANGE 0xA1, 0xFF + +#define AMDGPU_ICELAND_RANGE 0x01, 0x14 +#define AMDGPU_TONGA_RANGE 0x14, 0x28 +#define AMDGPU_FIJI_RANGE 0x3C, 0x50 + +#define AMDGPU_POLARIS10_RANGE 0x50, 0x5A +#define AMDGPU_POLARIS11_RANGE 0x5A, 0x64 +#define AMDGPU_POLARIS12_RANGE 0x64, 0x6E +#define AMDGPU_VEGAM_RANGE 0x6E, 0xFF + +#define AMDGPU_CARRIZO_RANGE 0x01, 0x21 +#define AMDGPU_BRISTOL_RANGE 0x10, 0x21 +#define AMDGPU_STONEY_RANGE 0x61, 0xFF + +#define AMDGPU_VEGA10_RANGE 0x01, 0x14 +#define AMDGPU_VEGA12_RANGE 0x14, 0x28 +#define AMDGPU_VEGA20_RANGE 0x28, 0xFF + +#define AMDGPU_RAVEN_RANGE 0x01, 0x81 +#define AMDGPU_RAVEN2_RANGE 0x81, 0xFF + +#define AMDGPU_EXPAND_FIX(x) x +#define AMDGPU_RANGE_HELPER(val, min, max) ((val >= min) && (val < max)) +#define AMDGPU_IN_RANGE(val, ...) AMDGPU_EXPAND_FIX(AMDGPU_RANGE_HELPER(val, __VA_ARGS__)) + +// ASICREV_IS(eRevisionId, revisionName) +#define ASICREV_IS(r, rn) AMDGPU_IN_RANGE(r, AMDGPU_##rn##_RANGE) +#define ASICREV_IS_TAHITI_P(r) ASICREV_IS(r, TAHITI) +#define ASICREV_IS_PITCAIRN_PM(r) ASICREV_IS(r, PITCAIRN) +#define ASICREV_IS_CAPEVERDE_M(r) ASICREV_IS(r, CAPEVERDE) +#define ASICREV_IS_OLAND_M(r) ASICREV_IS(r, OLAND) +#define ASICREV_IS_HAINAN_V(r) ASICREV_IS(r, HAINAN) + +#define ASICREV_IS_BONAIRE_M(r) ASICREV_IS(r, BONAIRE) +#define ASICREV_IS_HAWAII_P(r) ASICREV_IS(r, HAWAII) + +#define ASICREV_IS_SPECTRE(r) ASICREV_IS(r, SPECTRE) +#define ASICREV_IS_SPOOKY(r) ASICREV_IS(r, SPOOKY) +#define ASICREV_IS_KALINDI(r) ASICREV_IS(r, KALINDI) +#define ASICREV_IS_KALINDI_GODAVARI(r) ASICREV_IS(r, GODAVARI) + +#define ASICREV_IS_ICELAND_M(r) ASICREV_IS(r, ICELAND) +#define ASICREV_IS_TONGA_P(r) ASICREV_IS(r, TONGA) +#define ASICREV_IS_FIJI_P(r) ASICREV_IS(r, FIJI) + +#define ASICREV_IS_POLARIS10_P(r) ASICREV_IS(r, POLARIS10) +#define ASICREV_IS_POLARIS11_M(r) ASICREV_IS(r, POLARIS11) +#define ASICREV_IS_POLARIS12_V(r) ASICREV_IS(r, POLARIS12) +#define ASICREV_IS_VEGAM_P(r) ASICREV_IS(r, VEGAM) + +#define ASICREV_IS_CARRIZO(r) ASICREV_IS(r, CARRIZO) +#define ASICREV_IS_CARRIZO_BRISTOL(r) ASICREV_IS(r, BRISTOL) +#define ASICREV_IS_STONEY(r) ASICREV_IS(r, STONEY) + +#define ASICREV_IS_VEGA10_M(r) ASICREV_IS(r, VEGA10) +#define ASICREV_IS_VEGA10_P(r) ASICREV_IS(r, VEGA10) +#define ASICREV_IS_VEGA12_P(r) ASICREV_IS(r, VEGA12) +#define ASICREV_IS_VEGA12_p(r) ASICREV_IS(r, VEGA12) +#define ASICREV_IS_VEGA20_P(r) ASICREV_IS(r, VEGA20) + +#define ASICREV_IS_RAVEN(r) ASICREV_IS(r, RAVEN) +#define ASICREV_IS_RAVEN2(r) ASICREV_IS(r, RAVEN2) + +#endif // _AMDGPU_ASIC_ADDR_H diff --git a/src/amd/addrlib/src/chip/gfx9/gfx9_gb_reg.h b/src/amd/addrlib/src/chip/gfx9/gfx9_gb_reg.h new file mode 100644 index 00000000000..ade70b9f6be --- /dev/null +++ b/src/amd/addrlib/src/chip/gfx9/gfx9_gb_reg.h @@ -0,0 +1,89 @@ +#if !defined (__GFX9_GB_REG_H__) +#define __GFX9_GB_REG_H__ + +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +#include "util/u_endian.h" + +#if defined(PIPE_ARCH_LITTLE_ENDIAN) +#define LITTLEENDIAN_CPU +#elif defined(PIPE_ARCH_BIG_ENDIAN) +#define BIGENDIAN_CPU +#endif + +// +// Make sure the necessary endian defines are there. +// +#if defined(LITTLEENDIAN_CPU) +#elif defined(BIGENDIAN_CPU) +#else +#error "BIGENDIAN_CPU or LITTLEENDIAN_CPU must be defined" +#endif + +union GB_ADDR_CONFIG { + struct { +#if defined(LITTLEENDIAN_CPU) + unsigned int NUM_PIPES : 3; + unsigned int PIPE_INTERLEAVE_SIZE : 3; + unsigned int MAX_COMPRESSED_FRAGS : 2; + unsigned int BANK_INTERLEAVE_SIZE : 3; + unsigned int : 1; + unsigned int NUM_BANKS : 3; + unsigned int : 1; + unsigned int SHADER_ENGINE_TILE_SIZE : 3; + unsigned int NUM_SHADER_ENGINES : 2; + unsigned int NUM_GPUS : 3; + unsigned int MULTI_GPU_TILE_SIZE : 2; + unsigned int NUM_RB_PER_SE : 2; + unsigned int ROW_SIZE : 2; + unsigned int NUM_LOWER_PIPES : 1; + unsigned int SE_ENABLE : 1; +#elif defined(BIGENDIAN_CPU) + unsigned int SE_ENABLE : 1; + unsigned int NUM_LOWER_PIPES : 1; + unsigned int ROW_SIZE : 2; + unsigned int NUM_RB_PER_SE : 2; + unsigned int MULTI_GPU_TILE_SIZE : 2; + unsigned int NUM_GPUS : 3; + unsigned int NUM_SHADER_ENGINES : 2; + unsigned int SHADER_ENGINE_TILE_SIZE : 3; + unsigned int : 1; + unsigned int NUM_BANKS : 3; + unsigned int : 1; + unsigned int BANK_INTERLEAVE_SIZE : 3; + unsigned int MAX_COMPRESSED_FRAGS : 2; + unsigned int PIPE_INTERLEAVE_SIZE : 3; + unsigned int NUM_PIPES : 3; +#endif + } bitfields, bits; + unsigned int u32All; + signed int i32All; + float f32All; +}; + +#endif + diff --git a/src/amd/addrlib/src/chip/r800/si_gb_reg.h b/src/amd/addrlib/src/chip/r800/si_gb_reg.h new file mode 100644 index 00000000000..15711ee4b52 --- /dev/null +++ b/src/amd/addrlib/src/chip/r800/si_gb_reg.h @@ -0,0 +1,163 @@ +#if !defined (__SI_GB_REG_H__) +#define __SI_GB_REG_H__ + +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +#include "util/u_endian.h" + +#if defined(PIPE_ARCH_LITTLE_ENDIAN) +#define LITTLEENDIAN_CPU +#elif defined(PIPE_ARCH_BIG_ENDIAN) +#define BIGENDIAN_CPU +#endif + +// +// Make sure the necessary endian defines are there. +// +#if defined(LITTLEENDIAN_CPU) +#elif defined(BIGENDIAN_CPU) +#else +#error "BIGENDIAN_CPU or LITTLEENDIAN_CPU must be defined" +#endif + +/* + * GB_ADDR_CONFIG struct + */ + +#if defined(LITTLEENDIAN_CPU) + + typedef struct _GB_ADDR_CONFIG_T { + unsigned int num_pipes : 3; + unsigned int : 1; + unsigned int pipe_interleave_size : 3; + unsigned int : 1; + unsigned int bank_interleave_size : 3; + unsigned int : 1; + unsigned int num_shader_engines : 2; + unsigned int : 2; + unsigned int shader_engine_tile_size : 3; + unsigned int : 1; + unsigned int num_gpus : 3; + unsigned int : 1; + unsigned int multi_gpu_tile_size : 2; + unsigned int : 2; + unsigned int row_size : 2; + unsigned int num_lower_pipes : 1; + unsigned int : 1; + } GB_ADDR_CONFIG_T; + +#elif defined(BIGENDIAN_CPU) + + typedef struct _GB_ADDR_CONFIG_T { + unsigned int : 1; + unsigned int num_lower_pipes : 1; + unsigned int row_size : 2; + unsigned int : 2; + unsigned int multi_gpu_tile_size : 2; + unsigned int : 1; + unsigned int num_gpus : 3; + unsigned int : 1; + unsigned int shader_engine_tile_size : 3; + unsigned int : 2; + unsigned int num_shader_engines : 2; + unsigned int : 1; + unsigned int bank_interleave_size : 3; + unsigned int : 1; + unsigned int pipe_interleave_size : 3; + unsigned int : 1; + unsigned int num_pipes : 3; + } GB_ADDR_CONFIG_T; + +#endif + +typedef union { + unsigned int val : 32; + GB_ADDR_CONFIG_T f; +} GB_ADDR_CONFIG; + +#if defined(LITTLEENDIAN_CPU) + + typedef struct _GB_TILE_MODE_T { + unsigned int micro_tile_mode : 2; + unsigned int array_mode : 4; + unsigned int pipe_config : 5; + unsigned int tile_split : 3; + unsigned int bank_width : 2; + unsigned int bank_height : 2; + unsigned int macro_tile_aspect : 2; + unsigned int num_banks : 2; + unsigned int micro_tile_mode_new : 3; + unsigned int sample_split : 2; + unsigned int : 5; + } GB_TILE_MODE_T; + + typedef struct _GB_MACROTILE_MODE_T { + unsigned int bank_width : 2; + unsigned int bank_height : 2; + unsigned int macro_tile_aspect : 2; + unsigned int num_banks : 2; + unsigned int : 24; + } GB_MACROTILE_MODE_T; + +#elif defined(BIGENDIAN_CPU) + + typedef struct _GB_TILE_MODE_T { + unsigned int : 5; + unsigned int sample_split : 2; + unsigned int micro_tile_mode_new : 3; + unsigned int num_banks : 2; + unsigned int macro_tile_aspect : 2; + unsigned int bank_height : 2; + unsigned int bank_width : 2; + unsigned int tile_split : 3; + unsigned int pipe_config : 5; + unsigned int array_mode : 4; + unsigned int micro_tile_mode : 2; + } GB_TILE_MODE_T; + + typedef struct _GB_MACROTILE_MODE_T { + unsigned int : 24; + unsigned int num_banks : 2; + unsigned int macro_tile_aspect : 2; + unsigned int bank_height : 2; + unsigned int bank_width : 2; + } GB_MACROTILE_MODE_T; + +#endif + +typedef union { + unsigned int val : 32; + GB_TILE_MODE_T f; +} GB_TILE_MODE; + +typedef union { + unsigned int val : 32; + GB_MACROTILE_MODE_T f; +} GB_MACROTILE_MODE; + +#endif + diff --git a/src/amd/addrlib/src/core/addrcommon.h b/src/amd/addrlib/src/core/addrcommon.h new file mode 100644 index 00000000000..f54f1657127 --- /dev/null +++ b/src/amd/addrlib/src/core/addrcommon.h @@ -0,0 +1,922 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrcommon.h +* @brief Contains the helper function and constants. +**************************************************************************************************** +*/ + +#ifndef __ADDR_COMMON_H__ +#define __ADDR_COMMON_H__ + +#include "addrinterface.h" + +#include +#include +#include + +#if !defined(DEBUG) +#ifdef NDEBUG +#define DEBUG 0 +#else +#define DEBUG 1 +#endif +#endif + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Platform specific debug break defines +//////////////////////////////////////////////////////////////////////////////////////////////////// +#if DEBUG + #if defined(__GNUC__) + #define ADDR_DBG_BREAK() assert(false) + #elif defined(__APPLE__) + #define ADDR_DBG_BREAK() { IOPanic("");} + #else + #define ADDR_DBG_BREAK() { __debugbreak(); } + #endif +#else + #define ADDR_DBG_BREAK() +#endif +//////////////////////////////////////////////////////////////////////////////////////////////////// + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Debug assertions used in AddrLib +//////////////////////////////////////////////////////////////////////////////////////////////////// +#if defined(_WIN32) && (_MSC_VER >= 1400) + #define ADDR_ANALYSIS_ASSUME(expr) __analysis_assume(expr) +#else + #define ADDR_ANALYSIS_ASSUME(expr) do { (void)(expr); } while (0) +#endif + +#define ADDR_ASSERT(__e) assert(__e) +#define ADDR_ASSERT_ALWAYS() ADDR_DBG_BREAK() +#define ADDR_UNHANDLED_CASE() ADDR_ASSERT(!"Unhandled case") +#define ADDR_NOT_IMPLEMENTED() ADDR_ASSERT(!"Not implemented"); +//////////////////////////////////////////////////////////////////////////////////////////////////// + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Debug print macro from legacy address library +//////////////////////////////////////////////////////////////////////////////////////////////////// +#if DEBUG + +#define ADDR_PRNT(a) Object::DebugPrint a + +/// @brief Macro for reporting informational messages +/// @ingroup util +/// +/// This macro optionally prints an informational message to stdout. +/// The first parameter is a condition -- if it is true, nothing is done. +/// The second pararmeter MUST be a parenthesis-enclosed list of arguments, +/// starting with a string. This is passed to printf() or an equivalent +/// in order to format the informational message. For example, +/// ADDR_INFO(0, ("test %d",3) ); prints out "test 3". +/// +#define ADDR_INFO(cond, a) \ +{ if (!(cond)) { ADDR_PRNT(a); } } + +/// @brief Macro for reporting error warning messages +/// @ingroup util +/// +/// This macro optionally prints an error warning message to stdout, +/// followed by the file name and line number where the macro was called. +/// The first parameter is a condition -- if it is true, nothing is done. +/// The second pararmeter MUST be a parenthesis-enclosed list of arguments, +/// starting with a string. This is passed to printf() or an equivalent +/// in order to format the informational message. For example, +/// ADDR_WARN(0, ("test %d",3) ); prints out "test 3" followed by +/// a second line with the file name and line number. +/// +#define ADDR_WARN(cond, a) \ +{ if (!(cond)) \ + { ADDR_PRNT(a); \ + ADDR_PRNT((" WARNING in file %s, line %d\n", __FILE__, __LINE__)); \ +} } + +/// @brief Macro for reporting fatal error conditions +/// @ingroup util +/// +/// This macro optionally stops execution of the current routine +/// after printing an error warning message to stdout, +/// followed by the file name and line number where the macro was called. +/// The first parameter is a condition -- if it is true, nothing is done. +/// The second pararmeter MUST be a parenthesis-enclosed list of arguments, +/// starting with a string. This is passed to printf() or an equivalent +/// in order to format the informational message. For example, +/// ADDR_EXIT(0, ("test %d",3) ); prints out "test 3" followed by +/// a second line with the file name and line number, then stops execution. +/// +#define ADDR_EXIT(cond, a) \ +{ if (!(cond)) \ + { ADDR_PRNT(a); ADDR_DBG_BREAK();\ +} } + +#else // DEBUG + +#define ADDRDPF 1 ? (void)0 : (void) + +#define ADDR_PRNT(a) + +#define ADDR_DBG_BREAK() + +#define ADDR_INFO(cond, a) + +#define ADDR_WARN(cond, a) + +#define ADDR_EXIT(cond, a) + +#endif // DEBUG +//////////////////////////////////////////////////////////////////////////////////////////////////// + +#define ADDR_C_ASSERT(__e) typedef char __ADDR_C_ASSERT__[(__e) ? 1 : -1] + +namespace Addr +{ + +namespace V1 +{ +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Common constants +//////////////////////////////////////////////////////////////////////////////////////////////////// +static const UINT_32 MicroTileWidth = 8; ///< Micro tile width, for 1D and 2D tiling +static const UINT_32 MicroTileHeight = 8; ///< Micro tile height, for 1D and 2D tiling +static const UINT_32 ThickTileThickness = 4; ///< Micro tile thickness, for THICK modes +static const UINT_32 XThickTileThickness = 8; ///< Extra thick tiling thickness +static const UINT_32 PowerSaveTileBytes = 64; ///< Nuber of bytes per tile for power save 64 +static const UINT_32 CmaskCacheBits = 1024; ///< Number of bits for CMASK cache +static const UINT_32 CmaskElemBits = 4; ///< Number of bits for CMASK element +static const UINT_32 HtileCacheBits = 16384; ///< Number of bits for HTILE cache 512*32 + +static const UINT_32 MicroTilePixels = MicroTileWidth * MicroTileHeight; + +static const INT_32 TileIndexInvalid = TILEINDEX_INVALID; +static const INT_32 TileIndexLinearGeneral = TILEINDEX_LINEAR_GENERAL; +static const INT_32 TileIndexNoMacroIndex = -3; + +} // V1 + +namespace V2 +{ +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Common constants +//////////////////////////////////////////////////////////////////////////////////////////////////// +static const UINT_32 MaxSurfaceHeight = 16384; + +} // V2 + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Common macros +//////////////////////////////////////////////////////////////////////////////////////////////////// +#define BITS_PER_BYTE 8 +#define BITS_TO_BYTES(x) ( ((x) + (BITS_PER_BYTE-1)) / BITS_PER_BYTE ) +#define BYTES_TO_BITS(x) ( (x) * BITS_PER_BYTE ) + +/// Helper macros to select a single bit from an int (undefined later in section) +#define _BIT(v,b) (((v) >> (b) ) & 1) + +/** +**************************************************************************************************** +* @brief Enums to identify AddrLib type +**************************************************************************************************** +*/ +enum LibClass +{ + BASE_ADDRLIB = 0x0, + R600_ADDRLIB = 0x6, + R800_ADDRLIB = 0x8, + SI_ADDRLIB = 0xa, + CI_ADDRLIB = 0xb, + AI_ADDRLIB = 0xd, +}; + +/** +**************************************************************************************************** +* ChipFamily +* +* @brief +* Neutral enums that specifies chip family. +* +**************************************************************************************************** +*/ +enum ChipFamily +{ + ADDR_CHIP_FAMILY_IVLD, ///< Invalid family + ADDR_CHIP_FAMILY_R6XX, + ADDR_CHIP_FAMILY_R7XX, + ADDR_CHIP_FAMILY_R8XX, + ADDR_CHIP_FAMILY_NI, + ADDR_CHIP_FAMILY_SI, + ADDR_CHIP_FAMILY_CI, + ADDR_CHIP_FAMILY_VI, + ADDR_CHIP_FAMILY_AI, +}; + +/** +**************************************************************************************************** +* ConfigFlags +* +* @brief +* This structure is used to set configuration flags. +**************************************************************************************************** +*/ +union ConfigFlags +{ + struct + { + /// These flags are set up internally thru AddrLib::Create() based on ADDR_CREATE_FLAGS + UINT_32 optimalBankSwap : 1; ///< New bank tiling for RV770 only + UINT_32 noCubeMipSlicesPad : 1; ///< Disables faces padding for cubemap mipmaps + UINT_32 fillSizeFields : 1; ///< If clients fill size fields in all input and + /// output structure + UINT_32 ignoreTileInfo : 1; ///< Don't use tile info structure + UINT_32 useTileIndex : 1; ///< Make tileIndex field in input valid + UINT_32 useCombinedSwizzle : 1; ///< Use combined swizzle + UINT_32 checkLast2DLevel : 1; ///< Check the last 2D mip sub level + UINT_32 useHtileSliceAlign : 1; ///< Do htile single slice alignment + UINT_32 allowLargeThickTile : 1; ///< Allow 64*thickness*bytesPerPixel > rowSize + UINT_32 disableLinearOpt : 1; ///< Disallow tile modes to be optimized to linear + UINT_32 use32bppFor422Fmt : 1; ///< View 422 formats as 32 bits per pixel element + UINT_32 reserved : 21; ///< Reserved bits for future use + }; + + UINT_32 value; +}; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Misc helper functions +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* AddrXorReduce +* +* @brief +* Xor the right-side numberOfBits bits of x. +**************************************************************************************************** +*/ +static inline UINT_32 XorReduce( + UINT_32 x, + UINT_32 numberOfBits) +{ + UINT_32 i; + UINT_32 result = x & 1; + + for (i=1; i>i) & 1); + } + + return result; +} + +/** +**************************************************************************************************** +* IsPow2 +* +* @brief +* Check if the size (UINT_32) is pow 2 +**************************************************************************************************** +*/ +static inline UINT_32 IsPow2( + UINT_32 dim) ///< [in] dimension of miplevel +{ + ADDR_ASSERT(dim > 0); + return !(dim & (dim - 1)); +} + +/** +**************************************************************************************************** +* IsPow2 +* +* @brief +* Check if the size (UINT_64) is pow 2 +**************************************************************************************************** +*/ +static inline UINT_64 IsPow2( + UINT_64 dim) ///< [in] dimension of miplevel +{ + ADDR_ASSERT(dim > 0); + return !(dim & (dim - 1)); +} + +/** +**************************************************************************************************** +* ByteAlign +* +* @brief +* Align UINT_32 "x" to "align" alignment, "align" should be power of 2 +**************************************************************************************************** +*/ +static inline UINT_32 PowTwoAlign( + UINT_32 x, + UINT_32 align) +{ + // + // Assert that x is a power of two. + // + ADDR_ASSERT(IsPow2(align)); + return (x + (align - 1)) & (~(align - 1)); +} + +/** +**************************************************************************************************** +* ByteAlign +* +* @brief +* Align UINT_64 "x" to "align" alignment, "align" should be power of 2 +**************************************************************************************************** +*/ +static inline UINT_64 PowTwoAlign( + UINT_64 x, + UINT_64 align) +{ + // + // Assert that x is a power of two. + // + ADDR_ASSERT(IsPow2(align)); + return (x + (align - 1)) & (~(align - 1)); +} + +/** +**************************************************************************************************** +* Min +* +* @brief +* Get the min value between two unsigned values +**************************************************************************************************** +*/ +static inline UINT_32 Min( + UINT_32 value1, + UINT_32 value2) +{ + return ((value1 < (value2)) ? (value1) : value2); +} + +/** +**************************************************************************************************** +* Min +* +* @brief +* Get the min value between two signed values +**************************************************************************************************** +*/ +static inline INT_32 Min( + INT_32 value1, + INT_32 value2) +{ + return ((value1 < (value2)) ? (value1) : value2); +} + +/** +**************************************************************************************************** +* Max +* +* @brief +* Get the max value between two unsigned values +**************************************************************************************************** +*/ +static inline UINT_32 Max( + UINT_32 value1, + UINT_32 value2) +{ + return ((value1 > (value2)) ? (value1) : value2); +} + +/** +**************************************************************************************************** +* Max +* +* @brief +* Get the max value between two signed values +**************************************************************************************************** +*/ +static inline INT_32 Max( + INT_32 value1, + INT_32 value2) +{ + return ((value1 > (value2)) ? (value1) : value2); +} + +/** +**************************************************************************************************** +* NextPow2 +* +* @brief +* Compute the mipmap's next level dim size +**************************************************************************************************** +*/ +static inline UINT_32 NextPow2( + UINT_32 dim) ///< [in] dimension of miplevel +{ + UINT_32 newDim = 1; + + if (dim > 0x7fffffff) + { + ADDR_ASSERT_ALWAYS(); + newDim = 0x80000000; + } + else + { + while (newDim < dim) + { + newDim <<= 1; + } + } + + return newDim; +} + +/** +**************************************************************************************************** +* Log2NonPow2 +* +* @brief +* Compute log of base 2 no matter the target is power of 2 or not +**************************************************************************************************** +*/ +static inline UINT_32 Log2NonPow2( + UINT_32 x) ///< [in] the value should calculate log based 2 +{ + UINT_32 y; + + y = 0; + while (x > 1) + { + x >>= 1; + y++; + } + + return y; +} + +/** +**************************************************************************************************** +* Log2 +* +* @brief +* Compute log of base 2 +**************************************************************************************************** +*/ +static inline UINT_32 Log2( + UINT_32 x) ///< [in] the value should calculate log based 2 +{ + // Assert that x is a power of two. + ADDR_ASSERT(IsPow2(x)); + + return Log2NonPow2(x); +} + +/** +**************************************************************************************************** +* QLog2 +* +* @brief +* Compute log of base 2 quickly (<= 16) +**************************************************************************************************** +*/ +static inline UINT_32 QLog2( + UINT_32 x) ///< [in] the value should calculate log based 2 +{ + ADDR_ASSERT(x <= 16); + + UINT_32 y = 0; + + switch (x) + { + case 1: + y = 0; + break; + case 2: + y = 1; + break; + case 4: + y = 2; + break; + case 8: + y = 3; + break; + case 16: + y = 4; + break; + default: + ADDR_ASSERT_ALWAYS(); + } + + return y; +} + +/** +**************************************************************************************************** +* SafeAssign +* +* @brief +* NULL pointer safe assignment +**************************************************************************************************** +*/ +static inline VOID SafeAssign( + UINT_32* pLVal, ///< [in] Pointer to left val + UINT_32 rVal) ///< [in] Right value +{ + if (pLVal) + { + *pLVal = rVal; + } +} + +/** +**************************************************************************************************** +* SafeAssign +* +* @brief +* NULL pointer safe assignment for 64bit values +**************************************************************************************************** +*/ +static inline VOID SafeAssign( + UINT_64* pLVal, ///< [in] Pointer to left val + UINT_64 rVal) ///< [in] Right value +{ + if (pLVal) + { + *pLVal = rVal; + } +} + +/** +**************************************************************************************************** +* SafeAssign +* +* @brief +* NULL pointer safe assignment for AddrTileMode +**************************************************************************************************** +*/ +static inline VOID SafeAssign( + AddrTileMode* pLVal, ///< [in] Pointer to left val + AddrTileMode rVal) ///< [in] Right value +{ + if (pLVal) + { + *pLVal = rVal; + } +} + +/** +**************************************************************************************************** +* RoundHalf +* +* @brief +* return (x + 1) / 2 +**************************************************************************************************** +*/ +static inline UINT_32 RoundHalf( + UINT_32 x) ///< [in] input value +{ + ADDR_ASSERT(x != 0); + +#if 1 + return (x >> 1) + (x & 1); +#else + return (x + 1) >> 1; +#endif +} + +/** +**************************************************************************************************** +* SumGeo +* +* @brief +* Calculate sum of a geometric progression whose ratio is 1/2 +**************************************************************************************************** +*/ +static inline UINT_32 SumGeo( + UINT_32 base, ///< [in] First term in the geometric progression + UINT_32 num) ///< [in] Number of terms to be added into sum +{ + ADDR_ASSERT(base > 0); + + UINT_32 sum = 0; + UINT_32 i = 0; + for (; (i < num) && (base > 1); i++) + { + sum += base; + base = RoundHalf(base); + } + sum += num - i; + + return sum; +} + +/** +**************************************************************************************************** +* GetBit +* +* @brief +* Extract bit N value (0 or 1) of a UINT32 value. +**************************************************************************************************** +*/ +static inline UINT_32 GetBit( + UINT_32 u32, ///< [in] UINT32 value + UINT_32 pos) ///< [in] bit position from LSB, valid range is [0..31] +{ + ADDR_ASSERT(pos <= 31); + + return (u32 >> pos) & 0x1; +} + +/** +**************************************************************************************************** +* GetBits +* +* @brief +* Copy 'bitsNum' bits from src start from srcStartPos into destination from dstStartPos +* srcStartPos: 0~31 for UINT_32 +* bitsNum : 1~32 for UINT_32 +* srcStartPos: 0~31 for UINT_32 +* src start position +* | +* src : b[31] b[30] b[29] ... ... ... ... ... ... ... ... b[end]..b[beg] ... b[1] b[0] +* || Bits num || copy length || Bits num || +* dst : b[31] b[30] b[29] ... b[end]..b[beg] ... ... ... ... ... ... ... ... b[1] b[0] +* | +* dst start position +**************************************************************************************************** +*/ +static inline UINT_32 GetBits( + UINT_32 src, + UINT_32 srcStartPos, + UINT_32 bitsNum, + UINT_32 dstStartPos) +{ + ADDR_ASSERT((srcStartPos < 32) && (dstStartPos < 32) && (bitsNum > 0)); + ADDR_ASSERT((bitsNum + dstStartPos <= 32) && (bitsNum + srcStartPos <= 32)); + + return ((src >> srcStartPos) << (32 - bitsNum)) >> (32 - bitsNum - dstStartPos); +} + +/** +**************************************************************************************************** +* MortonGen2d +* +* @brief +* Generate 2D Morton interleave code with num lowest bits in each channel +**************************************************************************************************** +*/ +static inline UINT_32 MortonGen2d( + UINT_32 x, ///< [in] First channel + UINT_32 y, ///< [in] Second channel + UINT_32 num) ///< [in] Number of bits extracted from each channel +{ + UINT_32 mort = 0; + + for (UINT_32 i = 0; i < num; i++) + { + mort |= (GetBit(y, i) << (2 * i)); + mort |= (GetBit(x, i) << (2 * i + 1)); + } + + return mort; +} + +/** +**************************************************************************************************** +* MortonGen3d +* +* @brief +* Generate 3D Morton interleave code with num lowest bits in each channel +**************************************************************************************************** +*/ +static inline UINT_32 MortonGen3d( + UINT_32 x, ///< [in] First channel + UINT_32 y, ///< [in] Second channel + UINT_32 z, ///< [in] Third channel + UINT_32 num) ///< [in] Number of bits extracted from each channel +{ + UINT_32 mort = 0; + + for (UINT_32 i = 0; i < num; i++) + { + mort |= (GetBit(z, i) << (3 * i)); + mort |= (GetBit(y, i) << (3 * i + 1)); + mort |= (GetBit(x, i) << (3 * i + 2)); + } + + return mort; +} + +/** +**************************************************************************************************** +* ReverseBitVector +* +* @brief +* Return reversed lowest num bits of v: v[0]v[1]...v[num-2]v[num-1] +**************************************************************************************************** +*/ +static inline UINT_32 ReverseBitVector( + UINT_32 v, ///< [in] Reverse operation base value + UINT_32 num) ///< [in] Number of bits used in reverse operation +{ + UINT_32 reverse = 0; + + for (UINT_32 i = 0; i < num; i++) + { + reverse |= (GetBit(v, num - 1 - i) << i); + } + + return reverse; +} + +/** +**************************************************************************************************** +* FoldXor2d +* +* @brief +* Xor bit vector v[num-1]v[num-2]...v[1]v[0] with v[num]v[num+1]...v[2*num-2]v[2*num-1] +**************************************************************************************************** +*/ +static inline UINT_32 FoldXor2d( + UINT_32 v, ///< [in] Xor operation base value + UINT_32 num) ///< [in] Number of bits used in fold xor operation +{ + return (v & ((1 << num) - 1)) ^ ReverseBitVector(v >> num, num); +} + +/** +**************************************************************************************************** +* DeMort +* +* @brief +* Return v[0] | v[2] | v[4] | v[6]... | v[2*num - 2] +**************************************************************************************************** +*/ +static inline UINT_32 DeMort( + UINT_32 v, ///< [in] DeMort operation base value + UINT_32 num) ///< [in] Number of bits used in fold DeMort operation +{ + UINT_32 d = 0; + + for (UINT_32 i = 0; i < num; i++) + { + d |= ((v & (1 << (i << 1))) >> i); + } + + return d; +} + +/** +**************************************************************************************************** +* FoldXor3d +* +* @brief +* v[0]...v[num-1] ^ v[3*num-1]v[3*num-3]...v[num+2]v[num] ^ v[3*num-2]...v[num+1]v[num-1] +**************************************************************************************************** +*/ +static inline UINT_32 FoldXor3d( + UINT_32 v, ///< [in] Xor operation base value + UINT_32 num) ///< [in] Number of bits used in fold xor operation +{ + UINT_32 t = v & ((1 << num) - 1); + t ^= ReverseBitVector(DeMort(v >> num, num), num); + t ^= ReverseBitVector(DeMort(v >> (num + 1), num), num); + + return t; +} + +/** +**************************************************************************************************** +* InitChannel +* +* @brief +* Set channel initialization value via a return value +**************************************************************************************************** +*/ +static inline ADDR_CHANNEL_SETTING InitChannel( + UINT_32 valid, ///< [in] valid setting + UINT_32 channel, ///< [in] channel setting + UINT_32 index) ///< [in] index setting +{ + ADDR_CHANNEL_SETTING t; + t.valid = valid; + t.channel = channel; + t.index = index; + + return t; +} + +/** +**************************************************************************************************** +* InitChannel +* +* @brief +* Set channel initialization value via channel pointer +**************************************************************************************************** +*/ +static inline VOID InitChannel( + UINT_32 valid, ///< [in] valid setting + UINT_32 channel, ///< [in] channel setting + UINT_32 index, ///< [in] index setting + ADDR_CHANNEL_SETTING *pChanSet) ///< [out] channel setting to be initialized +{ + pChanSet->valid = valid; + pChanSet->channel = channel; + pChanSet->index = index; +} + +/** +**************************************************************************************************** +* InitChannel +* +* @brief +* Set channel initialization value via another channel +**************************************************************************************************** +*/ +static inline VOID InitChannel( + ADDR_CHANNEL_SETTING *pChanDst, ///< [in] channel setting to be copied from + ADDR_CHANNEL_SETTING *pChanSrc) ///< [out] channel setting to be initialized +{ + pChanDst->valid = pChanSrc->valid; + pChanDst->channel = pChanSrc->channel; + pChanDst->index = pChanSrc->index; +} + +/** +**************************************************************************************************** +* GetMaxValidChannelIndex +* +* @brief +* Get max valid index for a specific channel +**************************************************************************************************** +*/ +static inline UINT_32 GetMaxValidChannelIndex( + const ADDR_CHANNEL_SETTING *pChanSet, ///< [in] channel setting to be initialized + UINT_32 searchCount,///< [in] number of channel setting to be searched + UINT_32 channel) ///< [in] channel to be searched +{ + UINT_32 index = 0; + + for (UINT_32 i = 0; i < searchCount; i++) + { + if (pChanSet[i].valid && (pChanSet[i].channel == channel)) + { + index = Max(index, static_cast(pChanSet[i].index)); + } + } + + return index; +} + +/** +**************************************************************************************************** +* GetCoordActiveMask +* +* @brief +* Get bit mask which indicates which positions in the equation match the target coord +**************************************************************************************************** +*/ +static inline UINT_32 GetCoordActiveMask( + const ADDR_CHANNEL_SETTING *pChanSet, ///< [in] channel setting to be initialized + UINT_32 searchCount,///< [in] number of channel setting to be searched + UINT_32 channel, ///< [in] channel to be searched + UINT_32 index) ///< [in] index to be searched +{ + UINT_32 mask = 0; + + for (UINT_32 i = 0; i < searchCount; i++) + { + if ((pChanSet[i].valid == TRUE) && + (pChanSet[i].channel == channel) && + (pChanSet[i].index == index)) + { + mask |= (1 << i); + } + } + + return mask; +} + +} // Addr + +#endif // __ADDR_COMMON_H__ + diff --git a/src/amd/addrlib/src/core/addrelemlib.cpp b/src/amd/addrlib/src/core/addrelemlib.cpp new file mode 100644 index 00000000000..71c0ba74df9 --- /dev/null +++ b/src/amd/addrlib/src/core/addrelemlib.cpp @@ -0,0 +1,1830 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrelemlib.cpp +* @brief Contains the class implementation for element/pixel related functions. +**************************************************************************************************** +*/ + +#include "addrelemlib.h" +#include "addrlib.h" + +namespace Addr +{ + +/** +**************************************************************************************************** +* ElemLib::ElemLib +* +* @brief +* constructor +* +* @return +* N/A +**************************************************************************************************** +*/ +ElemLib::ElemLib( + Lib* pAddrLib) ///< [in] Parent addrlib instance pointer + : + Object(pAddrLib->GetClient()), + m_pAddrLib(pAddrLib) +{ + switch (m_pAddrLib->GetChipFamily()) + { + case ADDR_CHIP_FAMILY_R6XX: + m_depthPlanarType = ADDR_DEPTH_PLANAR_R600; + m_fp16ExportNorm = 0; + break; + case ADDR_CHIP_FAMILY_R7XX: + m_depthPlanarType = ADDR_DEPTH_PLANAR_R600; + m_fp16ExportNorm = 1; + break; + case ADDR_CHIP_FAMILY_R8XX: + case ADDR_CHIP_FAMILY_NI: // Same as 8xx + m_depthPlanarType = ADDR_DEPTH_PLANAR_R800; + m_fp16ExportNorm = 1; + break; + default: + m_fp16ExportNorm = 1; + m_depthPlanarType = ADDR_DEPTH_PLANAR_R800; + break; + } + + m_configFlags.value = 0; +} + +/** +**************************************************************************************************** +* ElemLib::~ElemLib +* +* @brief +* destructor +* +* @return +* N/A +**************************************************************************************************** +*/ +ElemLib::~ElemLib() +{ +} + +/** +**************************************************************************************************** +* ElemLib::Create +* +* @brief +* Creates and initializes AddrLib object. +* +* @return +* Returns point to ADDR_CREATEINFO if successful. +**************************************************************************************************** +*/ +ElemLib* ElemLib::Create( + const Lib* pAddrLib) ///< [in] Pointer of parent AddrLib instance +{ + ElemLib* pElemLib = NULL; + + if (pAddrLib) + { + VOID* pObj = Object::ClientAlloc(sizeof(ElemLib), pAddrLib->GetClient()); + if (pObj) + { + pElemLib = new(pObj) ElemLib(const_cast(pAddrLib)); + } + } + + return pElemLib; +} + +/************************************************************************************************** +* ElemLib::Flt32sToInt32s +* +* @brief +* Convert a ADDR_FLT_32 value to Int32 value +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::Flt32sToInt32s( + ADDR_FLT_32 value, ///< [in] ADDR_FLT_32 value + UINT_32 bits, ///< [in] nubmer of bits in value + NumberType numberType, ///< [in] the type of number + UINT_32* pResult) ///< [out] Int32 value +{ + UINT_8 round = 128; //ADDR_ROUND_BY_HALF + UINT_32 uscale; + UINT_32 sign; + + //convert each component to an INT_32 + switch ( numberType ) + { + case ADDR_NO_NUMBER: //fall through + case ADDR_ZERO: //fall through + case ADDR_ONE: //fall through + case ADDR_EPSILON: //fall through + return; // these are zero-bit components, so don't set result + + case ADDR_UINT_BITS: // unsigned integer bit field, clamped to range + uscale = (1< uscale)) + { + *pResult = uscale; + } + else + { + *pResult = value.i; + } + return; + } + + // The algorithm used in the DB and TX differs at one value for 24-bit unorms + case ADDR_UNORM_R6XXDB: // unsigned repeating fraction + if ((bits==24) && (value.i == 0x33000000)) + { + *pResult = 1; + return; + } // Else treat like ADDR_UNORM_R6XX + + case ADDR_UNORM_R6XX: // unsigned repeating fraction + if (value.f <= 0) + { + *pResult = 0; // first clamp to [0..1] + } + else + { + if (value.f >= 1) + { + *pResult = (1<(f + (round/256.0f)); + } + #endif + else + { + ADDR_FLT_32 scaled; + ADDR_FLT_32 shifted; + UINT_64 truncated, rounded; + UINT_32 altShift; + UINT_32 mask = (1 << bits) - 1; + UINT_32 half = 1 << (bits - 1); + UINT_32 mant24 = (value.i & 0x7FFFFF) + 0x800000; + UINT_64 temp = mant24 - (mant24>>bits) - + static_cast((mant24 & mask) > half); + UINT_32 exp8 = value.i >> 23; + UINT_32 shift = 126 - exp8 + 24 - bits; + UINT_64 final; + + if (shift >= 32) // This is zero, even with maximum dither add + { + final = 0; + } + else + { + final = ((temp<<8) + (static_cast(round)<> (shift+8); + } + //ADDR_EXIT( *pResult == final, + // ("Float %x converted to %d-bit Unorm %x != bitwise %x", + // value.u, bits, (UINT_32)*pResult, (UINT_32)final) ); + if (final > mask) + { + final = mask; + } + + scaled.f = value.f * ((1<>23)&0xFF); + truncated = (altShift > 60) ? 0 : truncated >> altShift; + rounded = static_cast((round + truncated) >> 8); + //if (rounded > ((1<(rounded); //(INT_32)final; + } + } + } + + return; + + case ADDR_S8FLOAT32: // 32-bit IEEE float, passes through NaN values + *pResult = value.i; + return; + + // @@ FIX ROUNDING in this code, fix the denorm case + case ADDR_U4FLOATC: // Unsigned float, 4-bit exponent. bias 15, clamped [0..1] + sign = (value.i >> 31) & 1; + if ((value.i&0x7F800000) == 0x7F800000) // If NaN or INF: + { + if ((value.i&0x007FFFFF) != 0) // then if NaN + { + *pResult = 0; // return 0 + } + else + { + *pResult = (sign)?0:0xF00000; // else +INF->+1, -INF->0 + } + return; + } + if (value.f <= 0) + { + *pResult = 0; + } + else + { + if (value.f>=1) + { + *pResult = 0xF << (bits-4); + } + else + { + if ((value.i>>23) > 112 ) + { + // 24-bit float: normalized + // value.i += 1 << (22-bits+4); + // round the IEEE mantissa to mantissa size + // @@ NOTE: add code to support rounding + value.u &= 0x7FFFFFF; // mask off high 4 exponent bits + *pResult = value.i >> (23-bits+4);// shift off unused mantissa bits + } + else + { + // 24-bit float: denormalized + value.f = value.f / (1<<28) / (1<<28); + value.f = value.f / (1<<28) / (1<<28); // convert to IEEE denorm + // value.i += 1 << (22-bits+4); + // round the IEEE mantissa to mantissa size + // @@ NOTE: add code to support rounding + *pResult = value.i >> (23-bits+4); // shift off unused mantissa bits + } + } + } + + return; + + default: // invalid number mode + //ADDR_EXIT(0, ("Invalid AddrNumber %d", numberType) ); + break; + + } +} + +/** +**************************************************************************************************** +* ElemLib::Int32sToPixel +* +* @brief +* Pack 32-bit integer values into an uncompressed pixel, +* in the proper order +* +* @return +* N/A +* +* @note +* This entry point packes four 32-bit integer values into +* an uncompressed pixel. The pixel values are specifies in +* standard order, e.g. depth/stencil. This routine asserts +* if called on compressed pixel. +**************************************************************************************************** +*/ +VOID ElemLib::Int32sToPixel( + UINT_32 numComps, ///< [in] number of components + UINT_32* pComps, ///< [in] compnents + UINT_32* pCompBits, ///< [in] total bits in each component + UINT_32* pCompStart, ///< [in] the first bit position of each component + ComponentFlags properties, ///< [in] properties about byteAligned, exportNorm + UINT_32 resultBits, ///< [in] result bits: total bpp after decompression + UINT_8* pPixel) ///< [out] a depth/stencil pixel value +{ + UINT_32 i; + UINT_32 j; + UINT_32 start; + UINT_32 size; + UINT_32 byte; + UINT_32 value = 0; + UINT_32 compMask; + UINT_32 elemMask=0; + UINT_32 elementXor = 0; // address xor when reading bytes from elements + + // @@ NOTE: assert if called on a compressed format! + + if (properties.byteAligned) // Components are all byte-sized + { + for (i = 0; i < numComps; i++) // Then for each component + { + // Copy the bytes of the component into the element + start = pCompStart[i] / 8; + size = pCompBits[i] / 8; + for (j = 0; j < size; j++) + { + pPixel[(j+start)^elementXor] = static_cast(pComps[i] >> (8*j)); + } + } + } + else // Element is 32-bits or less, components are bit fields + { + // First, extract each component in turn and combine it into a 32-bit value + for (i = 0; i < numComps; i++) + { + compMask = (1 << pCompBits[i]) - 1; + elemMask |= compMask << pCompStart[i]; + value |= (pComps[i] & compMask) << pCompStart[i]; + } + + // Mext, copy the masked value into the element + size = (resultBits + 7) / 8; + for (i = 0; i < size; i++) + { + byte = pPixel[i^elementXor] & ~(elemMask >> (8*i)); + pPixel[i^elementXor] = static_cast(byte | ((elemMask & value) >> (8*i))); + } + } +} + +/** +**************************************************************************************************** +* Flt32ToDepthPixel +* +* @brief +* Convert a FLT_32 value to a depth/stencil pixel value +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::Flt32ToDepthPixel( + AddrDepthFormat format, ///< [in] Depth format + const ADDR_FLT_32 comps[2], ///< [in] two components of depth + UINT_8* pPixel ///< [out] depth pixel value + ) const +{ + UINT_32 i; + UINT_32 values[2]; + ComponentFlags properties; // byteAligned, exportNorm + UINT_32 resultBits = 0; // result bits: total bits per pixel after decompression + + PixelFormatInfo fmt; + + // get type for each component + PixGetDepthCompInfo(format, &fmt); + + //initialize properties + properties.byteAligned = TRUE; + properties.exportNorm = TRUE; + properties.floatComp = FALSE; + + //set properties and result bits + for (i = 0; i < 2; i++) + { + if ((fmt.compBit[i] & 7) || (fmt.compStart[i] & 7)) + { + properties.byteAligned = FALSE; + } + + if (resultBits < fmt.compStart[i] + fmt.compBit[i]) + { + resultBits = fmt.compStart[i] + fmt.compBit[i]; + } + + // Clear ADDR_EXPORT_NORM if can't be represented as 11-bit or smaller [-1..+1] format + if (fmt.compBit[i] > 11 || fmt.numType[i] >= ADDR_USCALED) + { + properties.exportNorm = FALSE; + } + + // Mark if there are any floating point components + if ((fmt.numType[i] == ADDR_U4FLOATC) || (fmt.numType[i] >= ADDR_S8FLOAT) ) + { + properties.floatComp = TRUE; + } + } + + // Convert the two input floats to integer values + for (i = 0; i < 2; i++) + { + Flt32sToInt32s(comps[i], fmt.compBit[i], fmt.numType[i], &values[i]); + } + + // Then pack the two integer components, in the proper order + Int32sToPixel(2, values, fmt.compBit, fmt.compStart, properties, resultBits, pPixel ); + +} + +/** +**************************************************************************************************** +* Flt32ToColorPixel +* +* @brief +* Convert a FLT_32 value to a red/green/blue/alpha pixel value +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::Flt32ToColorPixel( + AddrColorFormat format, ///< [in] Color format + AddrSurfaceNumber surfNum, ///< [in] Surface number + AddrSurfaceSwap surfSwap, ///< [in] Surface swap + const ADDR_FLT_32 comps[4], ///< [in] four components of color + UINT_8* pPixel ///< [out] a red/green/blue/alpha pixel value + ) const +{ + PixelFormatInfo pixelInfo; + + UINT_32 i; + UINT_32 values[4]; + ComponentFlags properties; // byteAligned, exportNorm + UINT_32 resultBits = 0; // result bits: total bits per pixel after decompression + + memset(&pixelInfo, 0, sizeof(PixelFormatInfo)); + + PixGetColorCompInfo(format, surfNum, surfSwap, &pixelInfo); + + //initialize properties + properties.byteAligned = TRUE; + properties.exportNorm = TRUE; + properties.floatComp = FALSE; + + //set properties and result bits + for (i = 0; i < 4; i++) + { + if ( (pixelInfo.compBit[i] & 7) || (pixelInfo.compStart[i] & 7) ) + { + properties.byteAligned = FALSE; + } + + if (resultBits < pixelInfo.compStart[i] + pixelInfo.compBit[i]) + { + resultBits = pixelInfo.compStart[i] + pixelInfo.compBit[i]; + } + + if (m_fp16ExportNorm) + { + // Clear ADDR_EXPORT_NORM if can't be represented as 11-bit or smaller [-1..+1] format + // or if it's not FP and <=16 bits + if (((pixelInfo.compBit[i] > 11) || (pixelInfo.numType[i] >= ADDR_USCALED)) + && (pixelInfo.numType[i] !=ADDR_U4FLOATC)) + { + properties.exportNorm = FALSE; + } + } + else + { + // Clear ADDR_EXPORT_NORM if can't be represented as 11-bit or smaller [-1..+1] format + if (pixelInfo.compBit[i] > 11 || pixelInfo.numType[i] >= ADDR_USCALED) + { + properties.exportNorm = FALSE; + } + } + + // Mark if there are any floating point components + if ( (pixelInfo.numType[i] == ADDR_U4FLOATC) || + (pixelInfo.numType[i] >= ADDR_S8FLOAT) ) + { + properties.floatComp = TRUE; + } + } + + // Convert the four input floats to integer values + for (i = 0; i < 4; i++) + { + Flt32sToInt32s(comps[i], pixelInfo.compBit[i], pixelInfo.numType[i], &values[i]); + } + + // Then pack the four integer components, in the proper order + Int32sToPixel(4, values, &pixelInfo.compBit[0], &pixelInfo.compStart[0], + properties, resultBits, pPixel); +} + +/** +**************************************************************************************************** +* ElemLib::GetCompType +* +* @brief +* Fill per component info +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID ElemLib::GetCompType( + AddrColorFormat format, ///< [in] surface format + AddrSurfaceNumber numType, ///< [in] number type + PixelFormatInfo* pInfo) ///< [in][out] per component info out +{ + BOOL_32 handled = FALSE; + + // Floating point formats override the number format + switch (format) + { + case ADDR_COLOR_16_FLOAT: // fall through for all pure floating point format + case ADDR_COLOR_16_16_FLOAT: + case ADDR_COLOR_16_16_16_16_FLOAT: + case ADDR_COLOR_32_FLOAT: + case ADDR_COLOR_32_32_FLOAT: + case ADDR_COLOR_32_32_32_32_FLOAT: + case ADDR_COLOR_10_11_11_FLOAT: + case ADDR_COLOR_11_11_10_FLOAT: + numType = ADDR_NUMBER_FLOAT; + break; + // Special handling for the depth formats + case ADDR_COLOR_8_24: // fall through for these 2 similar format + case ADDR_COLOR_24_8: + for (UINT_32 c = 0; c < 4; c++) + { + if (pInfo->compBit[c] == 8) + { + pInfo->numType[c] = ADDR_UINT_BITS; + } + else if (pInfo->compBit[c] == 24) + { + pInfo->numType[c] = ADDR_UNORM_R6XX; + } + else + { + pInfo->numType[c] = ADDR_NO_NUMBER; + } + } + handled = TRUE; + break; + case ADDR_COLOR_8_24_FLOAT: // fall through for these 3 similar format + case ADDR_COLOR_24_8_FLOAT: + case ADDR_COLOR_X24_8_32_FLOAT: + for (UINT_32 c = 0; c < 4; c++) + { + if (pInfo->compBit[c] == 8) + { + pInfo->numType[c] = ADDR_UINT_BITS; + } + else if (pInfo->compBit[c] == 24) + { + pInfo->numType[c] = ADDR_U4FLOATC; + } + else if (pInfo->compBit[c] == 32) + { + pInfo->numType[c] = ADDR_S8FLOAT32; + } + else + { + pInfo->numType[c] = ADDR_NO_NUMBER; + } + } + handled = TRUE; + break; + default: + break; + } + + if (!handled) + { + for (UINT_32 c = 0; c < 4; c++) + { + // Assign a number type for each component + AddrSurfaceNumber cnum; + + // First handle default component values + if (pInfo->compBit[c] == 0) + { + if (c < 3) + { + pInfo->numType[c] = ADDR_ZERO; // Default is zero for RGB + } + else if (numType == ADDR_NUMBER_UINT || numType == ADDR_NUMBER_SINT) + { + pInfo->numType[c] = ADDR_EPSILON; // Alpha INT_32 bits default is 0x01 + } + else + { + pInfo->numType[c] = ADDR_ONE; // Alpha normal default is float 1.0 + } + continue; + } + // Now handle small components + else if (pInfo->compBit[c] == 1) + { + if (numType == ADDR_NUMBER_UINT || numType == ADDR_NUMBER_SINT) + { + cnum = ADDR_NUMBER_UINT; + } + else + { + cnum = ADDR_NUMBER_UNORM; + } + } + else + { + cnum = numType; + } + + // If no default, set the number type fom num, compbits, and architecture + switch (cnum) + { + case ADDR_NUMBER_SRGB: + pInfo->numType[c] = (c < 3) ? ADDR_GAMMA8_R6XX : ADDR_UNORM_R6XX; + break; + case ADDR_NUMBER_UNORM: + pInfo->numType[c] = ADDR_UNORM_R6XX; + break; + case ADDR_NUMBER_SNORM: + pInfo->numType[c] = ADDR_SNORM_R6XX; + break; + case ADDR_NUMBER_USCALED: + pInfo->numType[c] = ADDR_USCALED; // @@ Do we need separate Pele routine? + break; + case ADDR_NUMBER_SSCALED: + pInfo->numType[c] = ADDR_SSCALED; // @@ Do we need separate Pele routine? + break; + case ADDR_NUMBER_FLOAT: + if (pInfo->compBit[c] == 32) + { + pInfo->numType[c] = ADDR_S8FLOAT32; + } + else if (pInfo->compBit[c] == 16) + { + pInfo->numType[c] = ADDR_S5FLOAT; + } + else if (pInfo->compBit[c] >= 10) + { + pInfo->numType[c] = ADDR_U5FLOAT; + } + else + { + ADDR_ASSERT_ALWAYS(); + } + break; + case ADDR_NUMBER_SINT: + pInfo->numType[c] = ADDR_SINT_BITS; + break; + case ADDR_NUMBER_UINT: + pInfo->numType[c] = ADDR_UINT_BITS; + break; + + default: + ADDR_ASSERT(!"Invalid number type"); + pInfo->numType[c] = ADDR_NO_NUMBER; + break; + } + } + } +} + +/** +**************************************************************************************************** +* ElemLib::GetCompSwap +* +* @brief +* Get components swapped for color surface +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID ElemLib::GetCompSwap( + AddrSurfaceSwap swap, ///< [in] swap mode + PixelFormatInfo* pInfo) ///< [in,out] output per component info +{ + switch (pInfo->comps) + { + case 4: + switch (swap) + { + case ADDR_SWAP_ALT: + SwapComps( 0, 2, pInfo ); + break; // BGRA + case ADDR_SWAP_STD_REV: + SwapComps( 0, 3, pInfo ); + SwapComps( 1, 2, pInfo ); + break; // ABGR + case ADDR_SWAP_ALT_REV: + SwapComps( 0, 3, pInfo ); + SwapComps( 0, 2, pInfo ); + SwapComps( 0, 1, pInfo ); + break; // ARGB + default: + break; + } + break; + case 3: + switch (swap) + { + case ADDR_SWAP_ALT_REV: + SwapComps( 0, 3, pInfo ); + SwapComps( 0, 2, pInfo ); + break; // AGR + case ADDR_SWAP_STD_REV: + SwapComps( 0, 2, pInfo ); + break; // BGR + case ADDR_SWAP_ALT: + SwapComps( 2, 3, pInfo ); + break; // RGA + default: + break; // RGB + } + break; + case 2: + switch (swap) + { + case ADDR_SWAP_ALT_REV: + SwapComps( 0, 1, pInfo ); + SwapComps( 1, 3, pInfo ); + break; // AR + case ADDR_SWAP_STD_REV: + SwapComps( 0, 1, pInfo ); + break; // GR + case ADDR_SWAP_ALT: + SwapComps( 1, 3, pInfo ); + break; // RA + default: + break; // RG + } + break; + case 1: + switch (swap) + { + case ADDR_SWAP_ALT_REV: + SwapComps( 0, 3, pInfo ); + break; // A + case ADDR_SWAP_STD_REV: + SwapComps( 0, 2, pInfo ); + break; // B + case ADDR_SWAP_ALT: + SwapComps( 0, 1, pInfo ); + break; // G + default: + break; // R + } + break; + } +} + +/** +**************************************************************************************************** +* ElemLib::GetCompSwap +* +* @brief +* Get components swapped for color surface +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID ElemLib::SwapComps( + UINT_32 c0, ///< [in] component index 0 + UINT_32 c1, ///< [in] component index 1 + PixelFormatInfo* pInfo) ///< [in,out] output per component info +{ + UINT_32 start; + UINT_32 bits; + + start = pInfo->compStart[c0]; + pInfo->compStart[c0] = pInfo->compStart[c1]; + pInfo->compStart[c1] = start; + + bits = pInfo->compBit[c0]; + pInfo->compBit[c0] = pInfo->compBit[c1]; + pInfo->compBit[c1] = bits; +} + +/** +**************************************************************************************************** +* ElemLib::PixGetColorCompInfo +* +* @brief +* Get per component info for color surface +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID ElemLib::PixGetColorCompInfo( + AddrColorFormat format, ///< [in] surface format, read from register + AddrSurfaceNumber number, ///< [in] pixel number type + AddrSurfaceSwap swap, ///< [in] component swap mode + PixelFormatInfo* pInfo ///< [out] output per component info + ) const +{ + // 1. Get componet bits + switch (format) + { + case ADDR_COLOR_8: + GetCompBits(8, 0, 0, 0, pInfo); + break; + case ADDR_COLOR_1_5_5_5: + GetCompBits(5, 5, 5, 1, pInfo); + break; + case ADDR_COLOR_5_6_5: + GetCompBits(8, 6, 5, 0, pInfo); + break; + case ADDR_COLOR_6_5_5: + GetCompBits(5, 5, 6, 0, pInfo); + break; + case ADDR_COLOR_8_8: + GetCompBits(8, 8, 0, 0, pInfo); + break; + case ADDR_COLOR_4_4_4_4: + GetCompBits(4, 4, 4, 4, pInfo); + break; + case ADDR_COLOR_16: + GetCompBits(16, 0, 0, 0, pInfo); + break; + case ADDR_COLOR_8_8_8_8: + GetCompBits(8, 8, 8, 8, pInfo); + break; + case ADDR_COLOR_2_10_10_10: + GetCompBits(10, 10, 10, 2, pInfo); + break; + case ADDR_COLOR_10_11_11: + GetCompBits(11, 11, 10, 0, pInfo); + break; + case ADDR_COLOR_11_11_10: + GetCompBits(10, 11, 11, 0, pInfo); + break; + case ADDR_COLOR_16_16: + GetCompBits(16, 16, 0, 0, pInfo); + break; + case ADDR_COLOR_16_16_16_16: + GetCompBits(16, 16, 16, 16, pInfo); + break; + case ADDR_COLOR_16_FLOAT: + GetCompBits(16, 0, 0, 0, pInfo); + break; + case ADDR_COLOR_16_16_FLOAT: + GetCompBits(16, 16, 0, 0, pInfo); + break; + case ADDR_COLOR_32_FLOAT: + GetCompBits(32, 0, 0, 0, pInfo); + break; + case ADDR_COLOR_32_32_FLOAT: + GetCompBits(32, 32, 0, 0, pInfo); + break; + case ADDR_COLOR_16_16_16_16_FLOAT: + GetCompBits(16, 16, 16, 16, pInfo); + break; + case ADDR_COLOR_32_32_32_32_FLOAT: + GetCompBits(32, 32, 32, 32, pInfo); + break; + + case ADDR_COLOR_32: + GetCompBits(32, 0, 0, 0, pInfo); + break; + case ADDR_COLOR_32_32: + GetCompBits(32, 32, 0, 0, pInfo); + break; + case ADDR_COLOR_32_32_32_32: + GetCompBits(32, 32, 32, 32, pInfo); + break; + case ADDR_COLOR_10_10_10_2: + GetCompBits(2, 10, 10, 10, pInfo); + break; + case ADDR_COLOR_10_11_11_FLOAT: + GetCompBits(11, 11, 10, 0, pInfo); + break; + case ADDR_COLOR_11_11_10_FLOAT: + GetCompBits(10, 11, 11, 0, pInfo); + break; + case ADDR_COLOR_5_5_5_1: + GetCompBits(1, 5, 5, 5, pInfo); + break; + case ADDR_COLOR_3_3_2: + GetCompBits(2, 3, 3, 0, pInfo); + break; + case ADDR_COLOR_4_4: + GetCompBits(4, 4, 0, 0, pInfo); + break; + case ADDR_COLOR_8_24: + case ADDR_COLOR_8_24_FLOAT: // same bit count, fall through + GetCompBits(24, 8, 0, 0, pInfo); + break; + case ADDR_COLOR_24_8: + case ADDR_COLOR_24_8_FLOAT: // same bit count, fall through + GetCompBits(8, 24, 0, 0, pInfo); + break; + case ADDR_COLOR_X24_8_32_FLOAT: + GetCompBits(32, 8, 0, 0, pInfo); + break; + + case ADDR_COLOR_INVALID: + GetCompBits(0, 0, 0, 0, pInfo); + break; + default: + ADDR_ASSERT(0); + GetCompBits(0, 0, 0, 0, pInfo); + break; + } + + // 2. Get component number type + + GetCompType(format, number, pInfo); + + // 3. Swap components if needed + + GetCompSwap(swap, pInfo); +} + +/** +**************************************************************************************************** +* ElemLib::PixGetDepthCompInfo +* +* @brief +* Get per component info for depth surface +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID ElemLib::PixGetDepthCompInfo( + AddrDepthFormat format, ///< [in] surface format, read from register + PixelFormatInfo* pInfo ///< [out] output per component bits and type + ) const +{ + if (m_depthPlanarType == ADDR_DEPTH_PLANAR_R800) + { + if (format == ADDR_DEPTH_8_24_FLOAT) + { + format = ADDR_DEPTH_X24_8_32_FLOAT; // Use this format to represent R800's D24FS8 + } + + if (format == ADDR_DEPTH_X8_24_FLOAT) + { + format = ADDR_DEPTH_32_FLOAT; + } + } + + switch (format) + { + case ADDR_DEPTH_16: + GetCompBits(16, 0, 0, 0, pInfo); + break; + case ADDR_DEPTH_8_24: + case ADDR_DEPTH_8_24_FLOAT: // similar format, fall through + GetCompBits(24, 8, 0, 0, pInfo); + break; + case ADDR_DEPTH_X8_24: + case ADDR_DEPTH_X8_24_FLOAT: // similar format, fall through + GetCompBits(24, 0, 0, 0, pInfo); + break; + case ADDR_DEPTH_32_FLOAT: + GetCompBits(32, 0, 0, 0, pInfo); + break; + case ADDR_DEPTH_X24_8_32_FLOAT: + GetCompBits(32, 8, 0, 0, pInfo); + break; + case ADDR_DEPTH_INVALID: + GetCompBits(0, 0, 0, 0, pInfo); + break; + default: + ADDR_ASSERT(0); + GetCompBits(0, 0, 0, 0, pInfo); + break; + } + + switch (format) + { + case ADDR_DEPTH_16: + pInfo->numType [0] = ADDR_UNORM_R6XX; + pInfo->numType [1] = ADDR_ZERO; + break; + case ADDR_DEPTH_8_24: + pInfo->numType [0] = ADDR_UNORM_R6XXDB; + pInfo->numType [1] = ADDR_UINT_BITS; + break; + case ADDR_DEPTH_8_24_FLOAT: + pInfo->numType [0] = ADDR_U4FLOATC; + pInfo->numType [1] = ADDR_UINT_BITS; + break; + case ADDR_DEPTH_X8_24: + pInfo->numType [0] = ADDR_UNORM_R6XXDB; + pInfo->numType [1] = ADDR_ZERO; + break; + case ADDR_DEPTH_X8_24_FLOAT: + pInfo->numType [0] = ADDR_U4FLOATC; + pInfo->numType [1] = ADDR_ZERO; + break; + case ADDR_DEPTH_32_FLOAT: + pInfo->numType [0] = ADDR_S8FLOAT32; + pInfo->numType [1] = ADDR_ZERO; + break; + case ADDR_DEPTH_X24_8_32_FLOAT: + pInfo->numType [0] = ADDR_S8FLOAT32; + pInfo->numType [1] = ADDR_UINT_BITS; + break; + default: + pInfo->numType [0] = ADDR_NO_NUMBER; + pInfo->numType [1] = ADDR_NO_NUMBER; + break; + } + + pInfo->numType [2] = ADDR_NO_NUMBER; + pInfo->numType [3] = ADDR_NO_NUMBER; +} + +/** +**************************************************************************************************** +* ElemLib::PixGetExportNorm +* +* @brief +* Check if fp16 export norm can be enabled. +* +* @return +* TRUE if this can be enabled. +* +**************************************************************************************************** +*/ +BOOL_32 ElemLib::PixGetExportNorm( + AddrColorFormat colorFmt, ///< [in] surface format, read from register + AddrSurfaceNumber numberFmt, ///< [in] pixel number type + AddrSurfaceSwap swap ///< [in] components swap type + ) const +{ + BOOL_32 enabled = TRUE; + + PixelFormatInfo formatInfo; + + PixGetColorCompInfo(colorFmt, numberFmt, swap, &formatInfo); + + for (UINT_32 c = 0; c < 4; c++) + { + if (m_fp16ExportNorm) + { + if (((formatInfo.compBit[c] > 11) || (formatInfo.numType[c] > ADDR_USCALED)) && + (formatInfo.numType[c] != ADDR_U4FLOATC) && + (formatInfo.numType[c] != ADDR_S5FLOAT) && + (formatInfo.numType[c] != ADDR_S5FLOATM) && + (formatInfo.numType[c] != ADDR_U5FLOAT) && + (formatInfo.numType[c] != ADDR_U3FLOATM)) + { + enabled = FALSE; + break; + } + } + else + { + if ((formatInfo.compBit[c] > 11) || (formatInfo.numType[c] > ADDR_USCALED)) + { + enabled = FALSE; + break; + } + } + } + + return enabled; +} + +/** +**************************************************************************************************** +* ElemLib::AdjustSurfaceInfo +* +* @brief +* Adjust bpp/base pitch/width/height according to elemMode and expandX/Y +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::AdjustSurfaceInfo( + ElemMode elemMode, ///< [in] element mode + UINT_32 expandX, ///< [in] decompression expansion factor in X + UINT_32 expandY, ///< [in] decompression expansion factor in Y + UINT_32* pBpp, ///< [in,out] bpp + UINT_32* pBasePitch, ///< [in,out] base pitch + UINT_32* pWidth, ///< [in,out] width + UINT_32* pHeight) ///< [in,out] height +{ + UINT_32 packedBits; + UINT_32 basePitch; + UINT_32 width; + UINT_32 height; + UINT_32 bpp; + BOOL_32 bBCnFormat = FALSE; + + ADDR_ASSERT(pBpp != NULL); + ADDR_ASSERT(pWidth != NULL && pHeight != NULL && pBasePitch != NULL); + + if (pBpp) + { + bpp = *pBpp; + + switch (elemMode) + { + case ADDR_EXPANDED: + packedBits = bpp / expandX / expandY; + break; + case ADDR_PACKED_STD: // Different bit order + case ADDR_PACKED_REV: + packedBits = bpp * expandX * expandY; + break; + case ADDR_PACKED_GBGR: + case ADDR_PACKED_BGRG: + packedBits = bpp; // 32-bit packed ==> 2 32-bit result + break; + case ADDR_PACKED_BC1: // Fall through + case ADDR_PACKED_BC4: + packedBits = 64; + bBCnFormat = TRUE; + break; + case ADDR_PACKED_BC2: // Fall through + case ADDR_PACKED_BC3: // Fall through + case ADDR_PACKED_BC5: // Fall through + bBCnFormat = TRUE; + // fall through + case ADDR_PACKED_ASTC: + case ADDR_PACKED_ETC2_128BPP: + packedBits = 128; + break; + case ADDR_PACKED_ETC2_64BPP: + packedBits = 64; + break; + case ADDR_ROUND_BY_HALF: // Fall through + case ADDR_ROUND_TRUNCATE: // Fall through + case ADDR_ROUND_DITHER: // Fall through + case ADDR_UNCOMPRESSED: + packedBits = bpp; + break; + default: + packedBits = bpp; + ADDR_ASSERT_ALWAYS(); + break; + } + + *pBpp = packedBits; + } + + if (pWidth && pHeight && pBasePitch) + { + basePitch = *pBasePitch; + width = *pWidth; + height = *pHeight; + + if ((expandX > 1) || (expandY > 1)) + { + if (elemMode == ADDR_EXPANDED) + { + basePitch *= expandX; + width *= expandX; + height *= expandY; + } + else + { + // Evergreen family workaround + if (bBCnFormat && (m_pAddrLib->GetChipFamily() == ADDR_CHIP_FAMILY_R8XX)) + { + // For BCn we now pad it to POW2 at the beginning so it is safe to + // divide by 4 directly + basePitch = basePitch / expandX; + width = width / expandX; + height = height / expandY; +#if DEBUG + width = (width == 0) ? 1 : width; + height = (height == 0) ? 1 : height; + + if ((*pWidth > PowTwoAlign(width, 8) * expandX) || + (*pHeight > PowTwoAlign(height, 8) * expandY)) // 8 is 1D tiling alignment + { + // if this assertion is hit we may have issues if app samples + // rightmost/bottommost pixels + ADDR_ASSERT_ALWAYS(); + } +#endif + } + else // Not BCn format we still keep old way (FMT_1? No real test yet) + { + basePitch = (basePitch + expandX - 1) / expandX; + width = (width + expandX - 1) / expandX; + height = (height + expandY - 1) / expandY; + } + } + + *pBasePitch = basePitch; // 0 is legal value for base pitch. + *pWidth = (width == 0) ? 1 : width; + *pHeight = (height == 0) ? 1 : height; + } //if (pWidth && pHeight && pBasePitch) + } +} + +/** +**************************************************************************************************** +* ElemLib::RestoreSurfaceInfo +* +* @brief +* Reverse operation of AdjustSurfaceInfo +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::RestoreSurfaceInfo( + ElemMode elemMode, ///< [in] element mode + UINT_32 expandX, ///< [in] decompression expansion factor in X + UINT_32 expandY, ///< [out] decompression expansion factor in Y + UINT_32* pBpp, ///< [in,out] bpp + UINT_32* pWidth, ///< [in,out] width + UINT_32* pHeight) ///< [in,out] height +{ + UINT_32 originalBits; + UINT_32 width; + UINT_32 height; + UINT_32 bpp; + + BOOL_32 bBCnFormat = FALSE; + (void)bBCnFormat; + + ADDR_ASSERT(pBpp != NULL); + ADDR_ASSERT(pWidth != NULL && pHeight != NULL); + + if (pBpp) + { + bpp = *pBpp; + + switch (elemMode) + { + case ADDR_EXPANDED: + originalBits = bpp * expandX * expandY; + break; + case ADDR_PACKED_STD: // Different bit order + case ADDR_PACKED_REV: + originalBits = bpp / expandX / expandY; + break; + case ADDR_PACKED_GBGR: + case ADDR_PACKED_BGRG: + originalBits = bpp; // 32-bit packed ==> 2 32-bit result + break; + case ADDR_PACKED_BC1: // Fall through + case ADDR_PACKED_BC4: + originalBits = 64; + bBCnFormat = TRUE; + break; + case ADDR_PACKED_BC2: // Fall through + case ADDR_PACKED_BC3: // Fall through + case ADDR_PACKED_BC5: + bBCnFormat = TRUE; + // fall through + case ADDR_PACKED_ASTC: + case ADDR_PACKED_ETC2_128BPP: + originalBits = 128; + break; + case ADDR_PACKED_ETC2_64BPP: + originalBits = 64; + break; + case ADDR_ROUND_BY_HALF: // Fall through + case ADDR_ROUND_TRUNCATE: // Fall through + case ADDR_ROUND_DITHER: // Fall through + case ADDR_UNCOMPRESSED: + originalBits = bpp; + break; + default: + originalBits = bpp; + ADDR_ASSERT_ALWAYS(); + break; + } + + *pBpp = originalBits; + } + + if (pWidth && pHeight) + { + width = *pWidth; + height = *pHeight; + + if ((expandX > 1) || (expandY > 1)) + { + if (elemMode == ADDR_EXPANDED) + { + width /= expandX; + height /= expandY; + } + else + { + width *= expandX; + height *= expandY; + } + } + + *pWidth = (width == 0) ? 1 : width; + *pHeight = (height == 0) ? 1 : height; + } +} + +/** +**************************************************************************************************** +* ElemLib::GetBitsPerPixel +* +* @brief +* Compute the total bits per element according to a format +* code. For compressed formats, this is not the same as +* the number of bits per decompressed element. +* +* @return +* Bits per pixel +**************************************************************************************************** +*/ +UINT_32 ElemLib::GetBitsPerPixel( + AddrFormat format, ///< [in] surface format code + ElemMode* pElemMode, ///< [out] element mode + UINT_32* pExpandX, ///< [out] decompression expansion factor in X + UINT_32* pExpandY, ///< [out] decompression expansion factor in Y + UINT_32* pUnusedBits) ///< [out] bits unused +{ + UINT_32 bpp; + UINT_32 expandX = 1; + UINT_32 expandY = 1; + UINT_32 bitUnused = 0; + ElemMode elemMode = ADDR_UNCOMPRESSED; // default value + + switch (format) + { + case ADDR_FMT_8: + bpp = 8; + break; + case ADDR_FMT_1_5_5_5: + case ADDR_FMT_5_6_5: + case ADDR_FMT_6_5_5: + case ADDR_FMT_8_8: + case ADDR_FMT_4_4_4_4: + case ADDR_FMT_16: + bpp = 16; + break; + case ADDR_FMT_GB_GR: + elemMode = ADDR_PACKED_GBGR; + bpp = m_configFlags.use32bppFor422Fmt ? 32 : 16; + expandX = m_configFlags.use32bppFor422Fmt ? 2 : 1; + break; + case ADDR_FMT_BG_RG: + elemMode = ADDR_PACKED_BGRG; + bpp = m_configFlags.use32bppFor422Fmt ? 32 : 16; + expandX = m_configFlags.use32bppFor422Fmt ? 2 : 1; + break; + case ADDR_FMT_8_8_8_8: + case ADDR_FMT_2_10_10_10: + case ADDR_FMT_10_11_11: + case ADDR_FMT_11_11_10: + case ADDR_FMT_16_16: + case ADDR_FMT_32: + case ADDR_FMT_24_8: + bpp = 32; + break; + case ADDR_FMT_16_16_16_16: + case ADDR_FMT_32_32: + case ADDR_FMT_CTX1: + bpp = 64; + break; + case ADDR_FMT_32_32_32_32: + bpp = 128; + break; + case ADDR_FMT_INVALID: + bpp = 0; + break; + case ADDR_FMT_1_REVERSED: + elemMode = ADDR_PACKED_REV; + expandX = 8; + bpp = 1; + break; + case ADDR_FMT_1: + elemMode = ADDR_PACKED_STD; + expandX = 8; + bpp = 1; + break; + case ADDR_FMT_4_4: + case ADDR_FMT_3_3_2: + bpp = 8; + break; + case ADDR_FMT_5_5_5_1: + bpp = 16; + break; + case ADDR_FMT_32_AS_8: + case ADDR_FMT_32_AS_8_8: + case ADDR_FMT_8_24: + case ADDR_FMT_10_10_10_2: + case ADDR_FMT_5_9_9_9_SHAREDEXP: + bpp = 32; + break; + case ADDR_FMT_X24_8_32_FLOAT: + bpp = 64; + bitUnused = 24; + break; + case ADDR_FMT_8_8_8: + elemMode = ADDR_EXPANDED; + bpp = 24;//@@ 8; // read 3 elements per pixel + expandX = 3; + break; + case ADDR_FMT_16_16_16: + elemMode = ADDR_EXPANDED; + bpp = 48;//@@ 16; // read 3 elements per pixel + expandX = 3; + break; + case ADDR_FMT_32_32_32: + elemMode = ADDR_EXPANDED; + expandX = 3; + bpp = 96;//@@ 32; // read 3 elements per pixel + break; + case ADDR_FMT_BC1: + elemMode = ADDR_PACKED_BC1; + expandX = 4; + expandY = 4; + bpp = 64; + break; + case ADDR_FMT_BC4: + elemMode = ADDR_PACKED_BC4; + expandX = 4; + expandY = 4; + bpp = 64; + break; + case ADDR_FMT_BC2: + elemMode = ADDR_PACKED_BC2; + expandX = 4; + expandY = 4; + bpp = 128; + break; + case ADDR_FMT_BC3: + elemMode = ADDR_PACKED_BC3; + expandX = 4; + expandY = 4; + bpp = 128; + break; + case ADDR_FMT_BC5: + case ADDR_FMT_BC6: // reuse ADDR_PACKED_BC5 + case ADDR_FMT_BC7: // reuse ADDR_PACKED_BC5 + elemMode = ADDR_PACKED_BC5; + expandX = 4; + expandY = 4; + bpp = 128; + break; + + case ADDR_FMT_ETC2_64BPP: + elemMode = ADDR_PACKED_ETC2_64BPP; + expandX = 4; + expandY = 4; + bpp = 64; + break; + + case ADDR_FMT_ETC2_128BPP: + elemMode = ADDR_PACKED_ETC2_128BPP; + expandX = 4; + expandY = 4; + bpp = 128; + break; + + case ADDR_FMT_ASTC_4x4: + elemMode = ADDR_PACKED_ASTC; + expandX = 4; + expandY = 4; + bpp = 128; + break; + + case ADDR_FMT_ASTC_5x4: + elemMode = ADDR_PACKED_ASTC; + expandX = 5; + expandY = 4; + bpp = 128; + break; + + case ADDR_FMT_ASTC_5x5: + elemMode = ADDR_PACKED_ASTC; + expandX = 5; + expandY = 5; + bpp = 128; + break; + + case ADDR_FMT_ASTC_6x5: + elemMode = ADDR_PACKED_ASTC; + expandX = 6; + expandY = 5; + bpp = 128; + break; + + case ADDR_FMT_ASTC_6x6: + elemMode = ADDR_PACKED_ASTC; + expandX = 6; + expandY = 6; + bpp = 128; + break; + + case ADDR_FMT_ASTC_8x5: + elemMode = ADDR_PACKED_ASTC; + expandX = 8; + expandY = 5; + bpp = 128; + break; + + case ADDR_FMT_ASTC_8x6: + elemMode = ADDR_PACKED_ASTC; + expandX = 8; + expandY = 6; + bpp = 128; + break; + + case ADDR_FMT_ASTC_8x8: + elemMode = ADDR_PACKED_ASTC; + expandX = 8; + expandY = 8; + bpp = 128; + break; + + case ADDR_FMT_ASTC_10x5: + elemMode = ADDR_PACKED_ASTC; + expandX = 10; + expandY = 5; + bpp = 128; + break; + + case ADDR_FMT_ASTC_10x6: + elemMode = ADDR_PACKED_ASTC; + expandX = 10; + expandY = 6; + bpp = 128; + break; + + case ADDR_FMT_ASTC_10x8: + elemMode = ADDR_PACKED_ASTC; + expandX = 10; + expandY = 8; + bpp = 128; + break; + + case ADDR_FMT_ASTC_10x10: + elemMode = ADDR_PACKED_ASTC; + expandX = 10; + expandY = 10; + bpp = 128; + break; + + case ADDR_FMT_ASTC_12x10: + elemMode = ADDR_PACKED_ASTC; + expandX = 12; + expandY = 10; + bpp = 128; + break; + + case ADDR_FMT_ASTC_12x12: + elemMode = ADDR_PACKED_ASTC; + expandX = 12; + expandY = 12; + bpp = 128; + break; + + default: + bpp = 0; + ADDR_ASSERT_ALWAYS(); + break; + // @@ or should this be an error? + } + + SafeAssign(pExpandX, expandX); + SafeAssign(pExpandY, expandY); + SafeAssign(pUnusedBits, bitUnused); + SafeAssign(reinterpret_cast(pElemMode), elemMode); + + return bpp; +} + +/** +**************************************************************************************************** +* ElemLib::GetCompBits +* +* @brief +* Set each component's bit size and bit start. And set element mode and number type +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::GetCompBits( + UINT_32 c0, ///< [in] bits of component 0 + UINT_32 c1, ///< [in] bits of component 1 + UINT_32 c2, ///< [in] bits of component 2 + UINT_32 c3, ///< [in] bits of component 3 + PixelFormatInfo* pInfo, ///< [out] per component info out + ElemMode elemMode) ///< [in] element mode +{ + pInfo->comps = 0; + + pInfo->compBit[0] = c0; + pInfo->compBit[1] = c1; + pInfo->compBit[2] = c2; + pInfo->compBit[3] = c3; + + pInfo->compStart[0] = 0; + pInfo->compStart[1] = c0; + pInfo->compStart[2] = c0+c1; + pInfo->compStart[3] = c0+c1+c2; + + pInfo->elemMode = elemMode; + // still needed since component swap may depend on number of components + for (INT i=0; i<4; i++) + { + if (pInfo->compBit[i] == 0) + { + pInfo->compStart[i] = 0; // all null components start at bit 0 + pInfo->numType[i] = ADDR_NO_NUMBER; // and have no number type + } + else + { + pInfo->comps++; + } + } +} + +/** +**************************************************************************************************** +* ElemLib::GetCompBits +* +* @brief +* Set the clear color (or clear depth/stencil) for a surface +* +* @note +* If clearColor is zero, a default clear value is used in place of comps[4]. +* If float32 is set, full precision is used, else the mantissa is reduced to 12-bits +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID ElemLib::SetClearComps( + ADDR_FLT_32 comps[4], ///< [in,out] components + BOOL_32 clearColor, ///< [in] TRUE if clear color is set (CLEAR_COLOR) + BOOL_32 float32) ///< [in] TRUE if float32 component (BLEND_FLOAT32) +{ + INT_32 i; + + // Use default clearvalues if clearColor is disabled + if (clearColor == FALSE) + { + for (i=0; i<3; i++) + { + comps[i].f = 0.0; + } + comps[3].f = 1.0; + } + + // Otherwise use the (modified) clear value + else + { + for (i=0; i<4; i++) + { // If full precision, use clear value unchanged + if (float32) + { + // Do nothing + //comps[i] = comps[i]; + } + // Else if it is a NaN, use the standard NaN value + else if ((comps[i].u & 0x7FFFFFFF) > 0x7F800000) + { + comps[i].u = 0xFFC00000; + } + // Else reduce the mantissa precision + else + { + comps[i].u = comps[i].u & 0xFFFFF000; + } + } + } +} + +/** +**************************************************************************************************** +* ElemLib::IsBlockCompressed +* +* @brief +* TRUE if this is block compressed format +* +* @note +* +* @return +* BOOL_32 +**************************************************************************************************** +*/ +BOOL_32 ElemLib::IsBlockCompressed( + AddrFormat format) ///< [in] Format +{ + return (((format >= ADDR_FMT_BC1) && (format <= ADDR_FMT_BC7)) || + ((format >= ADDR_FMT_ASTC_4x4) && (format <= ADDR_FMT_ETC2_128BPP))); +} + +/** +**************************************************************************************************** +* ElemLib::IsCompressed +* +* @brief +* TRUE if this is block compressed format or 1 bit format +* +* @note +* +* @return +* BOOL_32 +**************************************************************************************************** +*/ +BOOL_32 ElemLib::IsCompressed( + AddrFormat format) ///< [in] Format +{ + return IsBlockCompressed(format) || format == ADDR_FMT_BC1 || format == ADDR_FMT_BC7; +} + +/** +**************************************************************************************************** +* ElemLib::IsExpand3x +* +* @brief +* TRUE if this is 3x expand format +* +* @note +* +* @return +* BOOL_32 +**************************************************************************************************** +*/ +BOOL_32 ElemLib::IsExpand3x( + AddrFormat format) ///< [in] Format +{ + BOOL_32 is3x = FALSE; + + switch (format) + { + case ADDR_FMT_8_8_8: + case ADDR_FMT_16_16_16: + case ADDR_FMT_32_32_32: + is3x = TRUE; + break; + default: + break; + } + + return is3x; +} + +/** +**************************************************************************************************** +* ElemLib::IsMacroPixelPacked +* +* @brief +* TRUE if this is a macro-pixel-packed format. +* +* @note +* +* @return +* BOOL_32 +**************************************************************************************************** +*/ +BOOL_32 ElemLib::IsMacroPixelPacked( + AddrFormat format) ///< [in] Format +{ + BOOL_32 isMacroPixelPacked = FALSE; + + switch (format) + { + case ADDR_FMT_BG_RG: + case ADDR_FMT_GB_GR: + isMacroPixelPacked = TRUE; + break; + default: + break; + } + + return isMacroPixelPacked; +} + +} diff --git a/src/amd/addrlib/src/core/addrelemlib.h b/src/amd/addrlib/src/core/addrelemlib.h new file mode 100644 index 00000000000..633f94cd207 --- /dev/null +++ b/src/amd/addrlib/src/core/addrelemlib.h @@ -0,0 +1,279 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrelemlib.h +* @brief Contains the class for element/pixel related functions. +**************************************************************************************************** +*/ + +#ifndef __ELEM_LIB_H__ +#define __ELEM_LIB_H__ + +#include "addrinterface.h" +#include "addrobject.h" +#include "addrcommon.h" + +namespace Addr +{ + +class Lib; + +// The masks for property bits within the Properties INT_32 +union ComponentFlags +{ + struct + { + UINT_32 byteAligned : 1; ///< all components are byte aligned + UINT_32 exportNorm : 1; ///< components support R6xx NORM compression + UINT_32 floatComp : 1; ///< there is at least one floating point component + }; + + UINT_32 value; +}; + +// Copy from legacy lib's NumberType +enum NumberType +{ + // The following number types have the range [-1..1] + ADDR_NO_NUMBER, // This component doesn't exist and has no default value + ADDR_EPSILON, // Force component value to integer 0x00000001 + ADDR_ZERO, // Force component value to integer 0x00000000 + ADDR_ONE, // Force component value to floating point 1.0 + // Above values don't have any bits per component (keep ADDR_ONE the last of these) + + ADDR_UNORM, // Unsigned normalized (repeating fraction) full precision + ADDR_SNORM, // Signed normalized (repeating fraction) full precision + ADDR_GAMMA, // Gamma-corrected, full precision + + ADDR_UNORM_R5XXRB, // Unsigned normalized (repeating fraction) for r5xx RB + ADDR_SNORM_R5XXRB, // Signed normalized (repeating fraction) for r5xx RB + ADDR_GAMMA_R5XXRB, // Gamma-corrected for r5xx RB (note: unnormalized value) + ADDR_UNORM_R5XXBC, // Unsigned normalized (repeating fraction) for r5xx BC + ADDR_SNORM_R5XXBC, // Signed normalized (repeating fraction) for r5xx BC + ADDR_GAMMA_R5XXBC, // Gamma-corrected for r5xx BC (note: unnormalized value) + + ADDR_UNORM_R6XX, // Unsigned normalized (repeating fraction) for R6xx + ADDR_UNORM_R6XXDB, // Unorms for 24-bit depth: one value differs from ADDR_UNORM_R6XX + ADDR_SNORM_R6XX, // Signed normalized (repeating fraction) for R6xx + ADDR_GAMMA8_R6XX, // Gamma-corrected for r6xx + ADDR_GAMMA8_R7XX_TP, // Gamma-corrected for r7xx TP 12bit unorm 8.4. + + ADDR_U4FLOATC, // Unsigned float: 4-bit exponent, bias=15, no NaN, clamp [0..1] + ADDR_GAMMA_4SEG, // Gamma-corrected, four segment approximation + ADDR_U0FIXED, // Unsigned 0.N-bit fixed point + + // The following number types have large ranges (LEAVE ADDR_USCALED first or fix Finish routine) + ADDR_USCALED, // Unsigned integer converted to/from floating point + ADDR_SSCALED, // Signed integer converted to/from floating point + ADDR_USCALED_R5XXRB, // Unsigned integer to/from floating point for r5xx RB + ADDR_SSCALED_R5XXRB, // Signed integer to/from floating point for r5xx RB + ADDR_UINT_BITS, // Keep in unsigned integer form, clamped to specified range + ADDR_SINT_BITS, // Keep in signed integer form, clamped to specified range + ADDR_UINTBITS, // @@ remove Keep in unsigned integer form, use modulus to reduce bits + ADDR_SINTBITS, // @@ remove Keep in signed integer form, use modulus to reduce bits + + // The following number types and ADDR_U4FLOATC have exponents + // (LEAVE ADDR_S8FLOAT first or fix Finish routine) + ADDR_S8FLOAT, // Signed floating point with 8-bit exponent, bias=127 + ADDR_S8FLOAT32, // 32-bit IEEE float, passes through NaN values + ADDR_S5FLOAT, // Signed floating point with 5-bit exponent, bias=15 + ADDR_S5FLOATM, // Signed floating point with 5-bit exponent, bias=15, no NaN/Inf + ADDR_U5FLOAT, // Signed floating point with 5-bit exponent, bias=15 + ADDR_U3FLOATM, // Unsigned floating point with 3-bit exponent, bias=3 + + ADDR_S5FIXED, // Signed 5.N-bit fixed point, with rounding + + ADDR_END_NUMBER // Used for range comparisons +}; + +// Copy from legacy lib's AddrElement +enum ElemMode +{ + // These formats allow both packing an unpacking + ADDR_ROUND_BY_HALF, // add 1/2 and truncate when packing this element + ADDR_ROUND_TRUNCATE, // truncate toward 0 for sign/mag, else toward neg + ADDR_ROUND_DITHER, // Pack by dithering -- requires (x,y) position + + // These formats only allow unpacking, no packing + ADDR_UNCOMPRESSED, // Elements are not compressed: one data element per pixel/texel + ADDR_EXPANDED, // Elements are split up and stored in multiple data elements + ADDR_PACKED_STD, // Elements are compressed into ExpandX by ExpandY data elements + ADDR_PACKED_REV, // Like ADDR_PACKED, but X order of pixels is reverved + ADDR_PACKED_GBGR, // Elements are compressed 4:2:2 in G1B_G0R order (high to low) + ADDR_PACKED_BGRG, // Elements are compressed 4:2:2 in BG1_RG0 order (high to low) + ADDR_PACKED_BC1, // Each data element is uncompressed to a 4x4 pixel/texel array + ADDR_PACKED_BC2, // Each data element is uncompressed to a 4x4 pixel/texel array + ADDR_PACKED_BC3, // Each data element is uncompressed to a 4x4 pixel/texel array + ADDR_PACKED_BC4, // Each data element is uncompressed to a 4x4 pixel/texel array + ADDR_PACKED_BC5, // Each data element is uncompressed to a 4x4 pixel/texel array + ADDR_PACKED_ETC2_64BPP, // ETC2 formats that use 64bpp to represent each 4x4 block + ADDR_PACKED_ETC2_128BPP, // ETC2 formats that use 128bpp to represent each 4x4 block + ADDR_PACKED_ASTC, // Various ASTC formats, all are 128bpp with varying block sizes + + // These formats provide various kinds of compression + ADDR_ZPLANE_R5XX, // Compressed Zplane using r5xx architecture format + ADDR_ZPLANE_R6XX, // Compressed Zplane using r6xx architecture format + //@@ Fill in the compression modes + + ADDR_END_ELEMENT // Used for range comparisons +}; + +enum DepthPlanarType +{ + ADDR_DEPTH_PLANAR_NONE = 0, // No plane z/stencl + ADDR_DEPTH_PLANAR_R600 = 1, // R600 z and stencil planes are store within a tile + ADDR_DEPTH_PLANAR_R800 = 2, // R800 has separate z and stencil planes +}; + +/** +**************************************************************************************************** +* PixelFormatInfo +* +* @brief +* Per component info +* +**************************************************************************************************** +*/ +struct PixelFormatInfo +{ + UINT_32 compBit[4]; + NumberType numType[4]; + UINT_32 compStart[4]; + ElemMode elemMode; + UINT_32 comps; ///< Number of components +}; + +/** +**************************************************************************************************** +* @brief This class contains asic indepentent element related attributes and operations +**************************************************************************************************** +*/ +class ElemLib : public Object +{ +protected: + ElemLib(Lib* pAddrLib); + +public: + + /// Makes this class virtual + virtual ~ElemLib(); + + static ElemLib* Create( + const Lib* pAddrLib); + + /// The implementation is only for R6xx/R7xx, so make it virtual in case we need for R8xx + BOOL_32 PixGetExportNorm( + AddrColorFormat colorFmt, + AddrSurfaceNumber numberFmt, AddrSurfaceSwap swap) const; + + /// Below method are asic independent, so make them just static. + /// Remove static if we need different operation in hwl. + + VOID Flt32ToDepthPixel( + AddrDepthFormat format, const ADDR_FLT_32 comps[2], UINT_8 *pPixel) const; + + VOID Flt32ToColorPixel( + AddrColorFormat format, AddrSurfaceNumber surfNum, AddrSurfaceSwap surfSwap, + const ADDR_FLT_32 comps[4], UINT_8 *pPixel) const; + + static VOID Flt32sToInt32s( + ADDR_FLT_32 value, UINT_32 bits, NumberType numberType, UINT_32* pResult); + + static VOID Int32sToPixel( + UINT_32 numComps, UINT_32* pComps, UINT_32* pCompBits, UINT_32* pCompStart, + ComponentFlags properties, UINT_32 resultBits, UINT_8* pPixel); + + VOID PixGetColorCompInfo( + AddrColorFormat format, AddrSurfaceNumber number, AddrSurfaceSwap swap, + PixelFormatInfo* pInfo) const; + + VOID PixGetDepthCompInfo( + AddrDepthFormat format, PixelFormatInfo* pInfo) const; + + UINT_32 GetBitsPerPixel( + AddrFormat format, ElemMode* pElemMode = NULL, + UINT_32* pExpandX = NULL, UINT_32* pExpandY = NULL, UINT_32* pBitsUnused = NULL); + + static VOID SetClearComps( + ADDR_FLT_32 comps[4], BOOL_32 clearColor, BOOL_32 float32); + + VOID AdjustSurfaceInfo( + ElemMode elemMode, UINT_32 expandX, UINT_32 expandY, + UINT_32* pBpp, UINT_32* pBasePitch, UINT_32* pWidth, UINT_32* pHeight); + + VOID RestoreSurfaceInfo( + ElemMode elemMode, UINT_32 expandX, UINT_32 expandY, + UINT_32* pBpp, UINT_32* pWidth, UINT_32* pHeight); + + /// Checks if depth and stencil are planar inside a tile + BOOL_32 IsDepthStencilTilePlanar() + { + return (m_depthPlanarType == ADDR_DEPTH_PLANAR_R600) ? TRUE : FALSE; + } + + /// Sets m_configFlags, copied from AddrLib + VOID SetConfigFlags(ConfigFlags flags) + { + m_configFlags = flags; + } + + static BOOL_32 IsCompressed(AddrFormat format); + static BOOL_32 IsBlockCompressed(AddrFormat format); + static BOOL_32 IsExpand3x(AddrFormat format); + static BOOL_32 IsMacroPixelPacked(AddrFormat format); + +protected: + + static VOID GetCompBits( + UINT_32 c0, UINT_32 c1, UINT_32 c2, UINT_32 c3, + PixelFormatInfo* pInfo, + ElemMode elemMode = ADDR_ROUND_BY_HALF); + + static VOID GetCompType( + AddrColorFormat format, AddrSurfaceNumber numType, + PixelFormatInfo* pInfo); + + static VOID GetCompSwap( + AddrSurfaceSwap swap, PixelFormatInfo* pInfo); + + static VOID SwapComps( + UINT_32 c0, UINT_32 c1, PixelFormatInfo* pInfo); + +private: + + UINT_32 m_fp16ExportNorm; ///< If allow FP16 to be reported as EXPORT_NORM + DepthPlanarType m_depthPlanarType; + + ConfigFlags m_configFlags; ///< Copy of AddrLib's configFlags + Addr::Lib* const m_pAddrLib; ///< Pointer to parent addrlib instance +}; + +} //Addr + +#endif + diff --git a/src/amd/addrlib/src/core/addrlib.cpp b/src/amd/addrlib/src/core/addrlib.cpp new file mode 100644 index 00000000000..bdc17ffedcb --- /dev/null +++ b/src/amd/addrlib/src/core/addrlib.cpp @@ -0,0 +1,655 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrlib.cpp +* @brief Contains the implementation for the Addr::Lib class. +**************************************************************************************************** +*/ + +#include "addrinterface.h" +#include "addrlib.h" +#include "addrcommon.h" + +#if defined(__APPLE__) + +UINT_32 div64_32(UINT_64 n, UINT_32 base) +{ + UINT_64 rem = n; + UINT_64 b = base; + UINT_64 res, d = 1; + UINT_32 high = rem >> 32; + + res = 0; + if (high >= base) + { + high /= base; + res = (UINT_64) high << 32; + rem -= (UINT_64) (high * base) << 32; + } + + while (((INT_64)b > 0) && (b < rem)) + { + b = b + b; + d = d + d; + } + + do + { + if (rem >= b) + { + rem -= b; + res += d; + } + b >>= 1; + d >>= 1; + } while (d); + + n = res; + return rem; +} + +extern "C" +UINT_32 __umoddi3(UINT_64 n, UINT_32 base) +{ + return div64_32(n, base); +} + +#endif // __APPLE__ + +namespace Addr +{ + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Constructor/Destructor +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::Lib +* +* @brief +* Constructor for the AddrLib class +* +**************************************************************************************************** +*/ +Lib::Lib() : + m_class(BASE_ADDRLIB), + m_chipFamily(ADDR_CHIP_FAMILY_IVLD), + m_chipRevision(0), + m_version(ADDRLIB_VERSION), + m_pipes(0), + m_banks(0), + m_pipeInterleaveBytes(0), + m_rowSize(0), + m_minPitchAlignPixels(1), + m_maxSamples(8), + m_pElemLib(NULL) +{ + m_configFlags.value = 0; +} + +/** +**************************************************************************************************** +* Lib::Lib +* +* @brief +* Constructor for the AddrLib class with hClient as parameter +* +**************************************************************************************************** +*/ +Lib::Lib(const Client* pClient) : + Object(pClient), + m_class(BASE_ADDRLIB), + m_chipFamily(ADDR_CHIP_FAMILY_IVLD), + m_chipRevision(0), + m_version(ADDRLIB_VERSION), + m_pipes(0), + m_banks(0), + m_pipeInterleaveBytes(0), + m_rowSize(0), + m_minPitchAlignPixels(1), + m_maxSamples(8), + m_pElemLib(NULL) +{ + m_configFlags.value = 0; +} + +/** +**************************************************************************************************** +* Lib::~AddrLib +* +* @brief +* Destructor for the AddrLib class +* +**************************************************************************************************** +*/ +Lib::~Lib() +{ + if (m_pElemLib) + { + delete m_pElemLib; + m_pElemLib = NULL; + } +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Initialization/Helper +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::Create +* +* @brief +* Creates and initializes AddrLib object. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::Create( + const ADDR_CREATE_INPUT* pCreateIn, ///< [in] pointer to ADDR_CREATE_INPUT + ADDR_CREATE_OUTPUT* pCreateOut) ///< [out] pointer to ADDR_CREATE_OUTPUT +{ + Lib* pLib = NULL; + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pCreateIn->createFlags.fillSizeFields == TRUE) + { + if ((pCreateIn->size != sizeof(ADDR_CREATE_INPUT)) || + (pCreateOut->size != sizeof(ADDR_CREATE_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if ((returnCode == ADDR_OK) && + (pCreateIn->callbacks.allocSysMem != NULL) && + (pCreateIn->callbacks.freeSysMem != NULL)) + { + Client client = { + pCreateIn->hClient, + pCreateIn->callbacks + }; + + switch (pCreateIn->chipEngine) + { + case CIASICIDGFXENGINE_SOUTHERNISLAND: + switch (pCreateIn->chipFamily) + { + case FAMILY_SI: + pLib = SiHwlInit(&client); + break; + case FAMILY_VI: + case FAMILY_CZ: + case FAMILY_CI: + case FAMILY_KV: // CI based fusion + pLib = CiHwlInit(&client); + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + break; + case CIASICIDGFXENGINE_ARCTICISLAND: + switch (pCreateIn->chipFamily) + { + case FAMILY_AI: + case FAMILY_RV: + pLib = Gfx9HwlInit(&client); + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + + if (pLib != NULL) + { + BOOL_32 initValid; + + // Pass createFlags to configFlags first since these flags may be overwritten + pLib->m_configFlags.noCubeMipSlicesPad = pCreateIn->createFlags.noCubeMipSlicesPad; + pLib->m_configFlags.fillSizeFields = pCreateIn->createFlags.fillSizeFields; + pLib->m_configFlags.useTileIndex = pCreateIn->createFlags.useTileIndex; + pLib->m_configFlags.useCombinedSwizzle = pCreateIn->createFlags.useCombinedSwizzle; + pLib->m_configFlags.checkLast2DLevel = pCreateIn->createFlags.checkLast2DLevel; + pLib->m_configFlags.useHtileSliceAlign = pCreateIn->createFlags.useHtileSliceAlign; + pLib->m_configFlags.allowLargeThickTile = pCreateIn->createFlags.allowLargeThickTile; + pLib->m_configFlags.disableLinearOpt = FALSE; + + pLib->SetChipFamily(pCreateIn->chipFamily, pCreateIn->chipRevision); + + pLib->SetMinPitchAlignPixels(pCreateIn->minPitchAlignPixels); + + // Global parameters initialized and remaining configFlags bits are set as well + initValid = pLib->HwlInitGlobalParams(pCreateIn); + + if (initValid) + { + pLib->m_pElemLib = ElemLib::Create(pLib); + } + else + { + pLib->m_pElemLib = NULL; // Don't go on allocating element lib + returnCode = ADDR_INVALIDGBREGVALUES; + } + + if (pLib->m_pElemLib == NULL) + { + delete pLib; + pLib = NULL; + ADDR_ASSERT_ALWAYS(); + } + else + { + pLib->m_pElemLib->SetConfigFlags(pLib->m_configFlags); + } + } + + pCreateOut->hLib = pLib; + + if ((pLib != NULL) && + (returnCode == ADDR_OK)) + { + pCreateOut->numEquations = + pLib->HwlGetEquationTableInfo(&pCreateOut->pEquationTable); + + pLib->SetMaxAlignments(); + + } + else if ((pLib == NULL) && + (returnCode == ADDR_OK)) + { + // Unknown failures, we return the general error code + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::SetChipFamily +* +* @brief +* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::SetChipFamily( + UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h + UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h +{ + ChipFamily family = HwlConvertChipFamily(uChipFamily, uChipRevision); + + ADDR_ASSERT(family != ADDR_CHIP_FAMILY_IVLD); + + m_chipFamily = family; + m_chipRevision = uChipRevision; +} + +/** +**************************************************************************************************** +* Lib::SetMinPitchAlignPixels +* +* @brief +* Set m_minPitchAlignPixels with input param +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::SetMinPitchAlignPixels( + UINT_32 minPitchAlignPixels) ///< [in] minmum pitch alignment in pixels +{ + m_minPitchAlignPixels = (minPitchAlignPixels == 0) ? 1 : minPitchAlignPixels; +} + +/** +**************************************************************************************************** +* Lib::SetMaxAlignments +* +* @brief +* Set max alignments +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::SetMaxAlignments() +{ + m_maxBaseAlign = HwlComputeMaxBaseAlignments(); + m_maxMetaBaseAlign = HwlComputeMaxMetaBaseAlignments(); +} + +/** +**************************************************************************************************** +* Lib::GetLib +* +* @brief +* Get AddrLib pointer +* +* @return +* An AddrLib class pointer +**************************************************************************************************** +*/ +Lib* Lib::GetLib( + ADDR_HANDLE hLib) ///< [in] handle of ADDR_HANDLE +{ + return static_cast(hLib); +} + +/** +**************************************************************************************************** +* Lib::GetMaxAlignments +* +* @brief +* Gets maximum alignments for data surface (include FMask) +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::GetMaxAlignments( + ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if (pOut->size != sizeof(ADDR_GET_MAX_ALINGMENTS_OUTPUT)) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + if (m_maxBaseAlign != 0) + { + pOut->baseAlign = m_maxBaseAlign; + } + else + { + returnCode = ADDR_NOTIMPLEMENTED; + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::GetMaxMetaAlignments +* +* @brief +* Gets maximum alignments for metadata (CMask, DCC and HTile) +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::GetMaxMetaAlignments( + ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if (pOut->size != sizeof(ADDR_GET_MAX_ALINGMENTS_OUTPUT)) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + if (m_maxMetaBaseAlign != 0) + { + pOut->baseAlign = m_maxMetaBaseAlign; + } + else + { + returnCode = ADDR_NOTIMPLEMENTED; + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::Bits2Number +* +* @brief +* Cat a array of binary bit to a number +* +* @return +* The number combined with the array of bits +**************************************************************************************************** +*/ +UINT_32 Lib::Bits2Number( + UINT_32 bitNum, ///< [in] how many bits + ...) ///< [in] varaible bits value starting from MSB +{ + UINT_32 number = 0; + UINT_32 i; + va_list bits_ptr; + + va_start(bits_ptr, bitNum); + + for(i = 0; i < bitNum; i++) + { + number |= va_arg(bits_ptr, UINT_32); + number <<= 1; + } + + number >>= 1; + + va_end(bits_ptr); + + return number; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Element lib +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::Flt32ToColorPixel +* +* @brief +* Convert a FLT_32 value to a depth/stencil pixel value +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::Flt32ToDepthPixel( + const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, + ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ELEM_FLT32TODEPTHPIXEL_INPUT)) || + (pOut->size != sizeof(ELEM_FLT32TODEPTHPIXEL_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + GetElemLib()->Flt32ToDepthPixel(pIn->format, pIn->comps, pOut->pPixel); + + UINT_32 depthBase = 0; + UINT_32 stencilBase = 0; + UINT_32 depthBits = 0; + UINT_32 stencilBits = 0; + + switch (pIn->format) + { + case ADDR_DEPTH_16: + depthBits = 16; + break; + case ADDR_DEPTH_X8_24: + case ADDR_DEPTH_8_24: + case ADDR_DEPTH_X8_24_FLOAT: + case ADDR_DEPTH_8_24_FLOAT: + depthBase = 8; + depthBits = 24; + stencilBits = 8; + break; + case ADDR_DEPTH_32_FLOAT: + depthBits = 32; + break; + case ADDR_DEPTH_X24_8_32_FLOAT: + depthBase = 8; + depthBits = 32; + stencilBits = 8; + break; + default: + break; + } + + // Overwrite base since R800 has no "tileBase" + if (GetElemLib()->IsDepthStencilTilePlanar() == FALSE) + { + depthBase = 0; + stencilBase = 0; + } + + depthBase *= 64; + stencilBase *= 64; + + pOut->stencilBase = stencilBase; + pOut->depthBase = depthBase; + pOut->depthBits = depthBits; + pOut->stencilBits = stencilBits; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::Flt32ToColorPixel +* +* @brief +* Convert a FLT_32 value to a red/green/blue/alpha pixel value +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::Flt32ToColorPixel( + const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, + ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ELEM_FLT32TOCOLORPIXEL_INPUT)) || + (pOut->size != sizeof(ELEM_FLT32TOCOLORPIXEL_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + GetElemLib()->Flt32ToColorPixel(pIn->format, + pIn->surfNum, + pIn->surfSwap, + pIn->comps, + pOut->pPixel); + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::GetExportNorm +* +* @brief +* Check one format can be EXPORT_NUM +* @return +* TRUE if EXPORT_NORM can be used +**************************************************************************************************** +*/ +BOOL_32 Lib::GetExportNorm( + const ELEM_GETEXPORTNORM_INPUT* pIn) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + BOOL_32 enabled = FALSE; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if (pIn->size != sizeof(ELEM_GETEXPORTNORM_INPUT)) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + enabled = GetElemLib()->PixGetExportNorm(pIn->format, pIn->num, pIn->swap); + } + + return enabled; +} + +/** +**************************************************************************************************** +* Lib::GetBpe +* +* @brief +* Get bits-per-element for specified format +* @return +* bits-per-element of specified format +**************************************************************************************************** +*/ +UINT_32 Lib::GetBpe(AddrFormat format) const +{ + return GetElemLib()->GetBitsPerPixel(format); +} + +} // Addr diff --git a/src/amd/addrlib/src/core/addrlib.h b/src/amd/addrlib/src/core/addrlib.h new file mode 100644 index 00000000000..70c74f917d9 --- /dev/null +++ b/src/amd/addrlib/src/core/addrlib.h @@ -0,0 +1,415 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrlib.h +* @brief Contains the Addr::Lib base class definition. +**************************************************************************************************** +*/ + +#ifndef __ADDR_LIB_H__ +#define __ADDR_LIB_H__ + +#include "addrinterface.h" +#include "addrobject.h" +#include "addrelemlib.h" + +#include "amdgpu_asic_addr.h" + +#ifndef CIASICIDGFXENGINE_R600 +#define CIASICIDGFXENGINE_R600 0x00000006 +#endif + +#ifndef CIASICIDGFXENGINE_R800 +#define CIASICIDGFXENGINE_R800 0x00000008 +#endif + +#ifndef CIASICIDGFXENGINE_SOUTHERNISLAND +#define CIASICIDGFXENGINE_SOUTHERNISLAND 0x0000000A +#endif + +#ifndef CIASICIDGFXENGINE_ARCTICISLAND +#define CIASICIDGFXENGINE_ARCTICISLAND 0x0000000D +#endif + +namespace Addr +{ + +/** +**************************************************************************************************** +* @brief Neutral enums that define pipeinterleave +**************************************************************************************************** +*/ +enum PipeInterleave +{ + ADDR_PIPEINTERLEAVE_256B = 256, + ADDR_PIPEINTERLEAVE_512B = 512, + ADDR_PIPEINTERLEAVE_1KB = 1024, + ADDR_PIPEINTERLEAVE_2KB = 2048, +}; + +/** +**************************************************************************************************** +* @brief Neutral enums that define DRAM row size +**************************************************************************************************** +*/ +enum RowSize +{ + ADDR_ROWSIZE_1KB = 1024, + ADDR_ROWSIZE_2KB = 2048, + ADDR_ROWSIZE_4KB = 4096, + ADDR_ROWSIZE_8KB = 8192, +}; + +/** +**************************************************************************************************** +* @brief Neutral enums that define bank interleave +**************************************************************************************************** +*/ +enum BankInterleave +{ + ADDR_BANKINTERLEAVE_1 = 1, + ADDR_BANKINTERLEAVE_2 = 2, + ADDR_BANKINTERLEAVE_4 = 4, + ADDR_BANKINTERLEAVE_8 = 8, +}; + +/** +**************************************************************************************************** +* @brief Neutral enums that define shader engine tile size +**************************************************************************************************** +*/ +enum ShaderEngineTileSize +{ + ADDR_SE_TILESIZE_16 = 16, + ADDR_SE_TILESIZE_32 = 32, +}; + +/** +**************************************************************************************************** +* @brief Neutral enums that define bank swap size +**************************************************************************************************** +*/ +enum BankSwapSize +{ + ADDR_BANKSWAP_128B = 128, + ADDR_BANKSWAP_256B = 256, + ADDR_BANKSWAP_512B = 512, + ADDR_BANKSWAP_1KB = 1024, +}; + +/** +**************************************************************************************************** +* @brief Enums that define max compressed fragments config +**************************************************************************************************** +*/ +enum NumMaxCompressedFragmentsConfig +{ + ADDR_CONFIG_1_MAX_COMPRESSED_FRAGMENTS = 0x00000000, + ADDR_CONFIG_2_MAX_COMPRESSED_FRAGMENTS = 0x00000001, + ADDR_CONFIG_4_MAX_COMPRESSED_FRAGMENTS = 0x00000002, + ADDR_CONFIG_8_MAX_COMPRESSED_FRAGMENTS = 0x00000003, +}; + +/** +**************************************************************************************************** +* @brief Enums that define num pipes config +**************************************************************************************************** +*/ +enum NumPipesConfig +{ + ADDR_CONFIG_1_PIPE = 0x00000000, + ADDR_CONFIG_2_PIPE = 0x00000001, + ADDR_CONFIG_4_PIPE = 0x00000002, + ADDR_CONFIG_8_PIPE = 0x00000003, + ADDR_CONFIG_16_PIPE = 0x00000004, + ADDR_CONFIG_32_PIPE = 0x00000005, + ADDR_CONFIG_64_PIPE = 0x00000006, +}; + +/** +**************************************************************************************************** +* @brief Enums that define num banks config +**************************************************************************************************** +*/ +enum NumBanksConfig +{ + ADDR_CONFIG_1_BANK = 0x00000000, + ADDR_CONFIG_2_BANK = 0x00000001, + ADDR_CONFIG_4_BANK = 0x00000002, + ADDR_CONFIG_8_BANK = 0x00000003, + ADDR_CONFIG_16_BANK = 0x00000004, +}; + +/** +**************************************************************************************************** +* @brief Enums that define num rb per shader engine config +**************************************************************************************************** +*/ +enum NumRbPerShaderEngineConfig +{ + ADDR_CONFIG_1_RB_PER_SHADER_ENGINE = 0x00000000, + ADDR_CONFIG_2_RB_PER_SHADER_ENGINE = 0x00000001, + ADDR_CONFIG_4_RB_PER_SHADER_ENGINE = 0x00000002, +}; + +/** +**************************************************************************************************** +* @brief Enums that define num shader engines config +**************************************************************************************************** +*/ +enum NumShaderEnginesConfig +{ + ADDR_CONFIG_1_SHADER_ENGINE = 0x00000000, + ADDR_CONFIG_2_SHADER_ENGINE = 0x00000001, + ADDR_CONFIG_4_SHADER_ENGINE = 0x00000002, + ADDR_CONFIG_8_SHADER_ENGINE = 0x00000003, +}; + +/** +**************************************************************************************************** +* @brief Enums that define pipe interleave size config +**************************************************************************************************** +*/ +enum PipeInterleaveSizeConfig +{ + ADDR_CONFIG_PIPE_INTERLEAVE_256B = 0x00000000, + ADDR_CONFIG_PIPE_INTERLEAVE_512B = 0x00000001, + ADDR_CONFIG_PIPE_INTERLEAVE_1KB = 0x00000002, + ADDR_CONFIG_PIPE_INTERLEAVE_2KB = 0x00000003, +}; + +/** +**************************************************************************************************** +* @brief Enums that define row size config +**************************************************************************************************** +*/ +enum RowSizeConfig +{ + ADDR_CONFIG_1KB_ROW = 0x00000000, + ADDR_CONFIG_2KB_ROW = 0x00000001, + ADDR_CONFIG_4KB_ROW = 0x00000002, +}; + +/** +**************************************************************************************************** +* @brief Enums that define bank interleave size config +**************************************************************************************************** +*/ +enum BankInterleaveSizeConfig +{ + ADDR_CONFIG_BANK_INTERLEAVE_1 = 0x00000000, + ADDR_CONFIG_BANK_INTERLEAVE_2 = 0x00000001, + ADDR_CONFIG_BANK_INTERLEAVE_4 = 0x00000002, + ADDR_CONFIG_BANK_INTERLEAVE_8 = 0x00000003, +}; + +/** +**************************************************************************************************** +* @brief Enums that define engine tile size config +**************************************************************************************************** +*/ +enum ShaderEngineTileSizeConfig +{ + ADDR_CONFIG_SE_TILE_16 = 0x00000000, + ADDR_CONFIG_SE_TILE_32 = 0x00000001, +}; + +/** +**************************************************************************************************** +* @brief This class contains asic independent address lib functionalities +**************************************************************************************************** +*/ +class Lib : public Object +{ +public: + virtual ~Lib(); + + static ADDR_E_RETURNCODE Create( + const ADDR_CREATE_INPUT* pCreateInfo, ADDR_CREATE_OUTPUT* pCreateOut); + + /// Pair of Create + VOID Destroy() + { + delete this; + } + + static Lib* GetLib(ADDR_HANDLE hLib); + + /// Returns AddrLib version (from compiled binary instead include file) + UINT_32 GetVersion() + { + return m_version; + } + + /// Returns asic chip family name defined by AddrLib + ChipFamily GetChipFamily() + { + return m_chipFamily; + } + + ADDR_E_RETURNCODE Flt32ToDepthPixel( + const ELEM_FLT32TODEPTHPIXEL_INPUT* pIn, + ELEM_FLT32TODEPTHPIXEL_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE Flt32ToColorPixel( + const ELEM_FLT32TOCOLORPIXEL_INPUT* pIn, + ELEM_FLT32TOCOLORPIXEL_OUTPUT* pOut) const; + + BOOL_32 GetExportNorm(const ELEM_GETEXPORTNORM_INPUT* pIn) const; + + ADDR_E_RETURNCODE GetMaxAlignments(ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE GetMaxMetaAlignments(ADDR_GET_MAX_ALINGMENTS_OUTPUT* pOut) const; + + UINT_32 GetBpe(AddrFormat format) const; + +protected: + Lib(); // Constructor is protected + Lib(const Client* pClient); + + /// Pure virtual function to get max base alignments + virtual UINT_32 HwlComputeMaxBaseAlignments() const = 0; + + /// Gets maximum alignements for metadata + virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const + { + ADDR_NOT_IMPLEMENTED(); + + return 0; + } + + VOID ValidBaseAlignments(UINT_32 alignment) const + { +#if DEBUG + ADDR_ASSERT(alignment <= m_maxBaseAlign); +#endif + } + + VOID ValidMetaBaseAlignments(UINT_32 metaAlignment) const + { +#if DEBUG + ADDR_ASSERT(metaAlignment <= m_maxMetaBaseAlign); +#endif + } + + // + // Initialization + // + /// Pure Virtual function for Hwl computing internal global parameters from h/w registers + virtual BOOL_32 HwlInitGlobalParams(const ADDR_CREATE_INPUT* pCreateIn) = 0; + + /// Pure Virtual function for Hwl converting chip family + virtual ChipFamily HwlConvertChipFamily(UINT_32 uChipFamily, UINT_32 uChipRevision) = 0; + + /// Get equation table pointer and number of equations + virtual UINT_32 HwlGetEquationTableInfo(const ADDR_EQUATION** ppEquationTable) const + { + *ppEquationTable = NULL; + + return 0; + } + + // + // Misc helper + // + static UINT_32 Bits2Number(UINT_32 bitNum, ...); + + static UINT_32 GetNumFragments(UINT_32 numSamples, UINT_32 numFrags) + { + return (numFrags != 0) ? numFrags : Max(1u, numSamples); + } + + /// Returns pointer of ElemLib + ElemLib* GetElemLib() const + { + return m_pElemLib; + } + + /// Returns fillSizeFields flag + UINT_32 GetFillSizeFieldsFlags() const + { + return m_configFlags.fillSizeFields; + } + +private: + // Disallow the copy constructor + Lib(const Lib& a); + + // Disallow the assignment operator + Lib& operator=(const Lib& a); + + VOID SetChipFamily(UINT_32 uChipFamily, UINT_32 uChipRevision); + + VOID SetMinPitchAlignPixels(UINT_32 minPitchAlignPixels); + + VOID SetMaxAlignments(); + +protected: + LibClass m_class; ///< Store class type (HWL type) + + ChipFamily m_chipFamily; ///< Chip family translated from the one in atiid.h + + UINT_32 m_chipRevision; ///< Revision id from xxx_id.h + + UINT_32 m_version; ///< Current version + + // + // Global parameters + // + ConfigFlags m_configFlags; ///< Global configuration flags. Note this is setup by + /// AddrLib instead of Client except forceLinearAligned + + UINT_32 m_pipes; ///< Number of pipes + UINT_32 m_banks; ///< Number of banks + /// For r800 this is MC_ARB_RAMCFG.NOOFBANK + /// Keep it here to do default parameter calculation + + UINT_32 m_pipeInterleaveBytes; + ///< Specifies the size of contiguous address space + /// within each tiling pipe when making linear + /// accesses. (Formerly Group Size) + + UINT_32 m_rowSize; ///< DRAM row size, in bytes + + UINT_32 m_minPitchAlignPixels; ///< Minimum pitch alignment in pixels + UINT_32 m_maxSamples; ///< Max numSamples + + UINT_32 m_maxBaseAlign; ///< Max base alignment for data surface + UINT_32 m_maxMetaBaseAlign; ///< Max base alignment for metadata + +private: + ElemLib* m_pElemLib; ///< Element Lib pointer +}; + +Lib* SiHwlInit (const Client* pClient); +Lib* CiHwlInit (const Client* pClient); +Lib* Gfx9HwlInit (const Client* pClient); + +} // Addr + +#endif diff --git a/src/amd/addrlib/src/core/addrlib1.cpp b/src/amd/addrlib/src/core/addrlib1.cpp new file mode 100644 index 00000000000..65f8fe01492 --- /dev/null +++ b/src/amd/addrlib/src/core/addrlib1.cpp @@ -0,0 +1,4061 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addr1lib.cpp +* @brief Contains the implementation for the Addr::V1::Lib base class. +**************************************************************************************************** +*/ + +#include "addrinterface.h" +#include "addrlib1.h" +#include "addrcommon.h" + +namespace Addr +{ +namespace V1 +{ + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Static Const Member +//////////////////////////////////////////////////////////////////////////////////////////////////// + +const TileModeFlags Lib::ModeFlags[ADDR_TM_COUNT] = +{// T L 1 2 3 P Pr B + {1, 1, 0, 0, 0, 0, 0, 0}, // ADDR_TM_LINEAR_GENERAL + {1, 1, 0, 0, 0, 0, 0, 0}, // ADDR_TM_LINEAR_ALIGNED + {1, 0, 1, 0, 0, 0, 0, 0}, // ADDR_TM_1D_TILED_THIN1 + {4, 0, 1, 0, 0, 0, 0, 0}, // ADDR_TM_1D_TILED_THICK + {1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THIN1 + {1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THIN2 + {1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THIN4 + {4, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_THICK + {1, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THIN1 + {1, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THIN2 + {1, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THIN4 + {4, 0, 0, 1, 0, 0, 0, 1}, // ADDR_TM_2B_TILED_THICK + {1, 0, 0, 1, 1, 0, 0, 0}, // ADDR_TM_3D_TILED_THIN1 + {4, 0, 0, 1, 1, 0, 0, 0}, // ADDR_TM_3D_TILED_THICK + {1, 0, 0, 1, 1, 0, 0, 1}, // ADDR_TM_3B_TILED_THIN1 + {4, 0, 0, 1, 1, 0, 0, 1}, // ADDR_TM_3B_TILED_THICK + {8, 0, 0, 1, 0, 0, 0, 0}, // ADDR_TM_2D_TILED_XTHICK + {8, 0, 0, 1, 1, 0, 0, 0}, // ADDR_TM_3D_TILED_XTHICK + {1, 0, 0, 0, 0, 0, 0, 0}, // ADDR_TM_POWER_SAVE + {1, 0, 0, 1, 0, 1, 1, 0}, // ADDR_TM_PRT_TILED_THIN1 + {1, 0, 0, 1, 0, 1, 0, 0}, // ADDR_TM_PRT_2D_TILED_THIN1 + {1, 0, 0, 1, 1, 1, 0, 0}, // ADDR_TM_PRT_3D_TILED_THIN1 + {4, 0, 0, 1, 0, 1, 1, 0}, // ADDR_TM_PRT_TILED_THICK + {4, 0, 0, 1, 0, 1, 0, 0}, // ADDR_TM_PRT_2D_TILED_THICK + {4, 0, 0, 1, 1, 1, 0, 0}, // ADDR_TM_PRT_3D_TILED_THICK + {0, 0, 0, 0, 0, 0, 0, 0}, // ADDR_TM_UNKNOWN +}; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Constructor/Destructor +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::AddrLib1 +* +* @brief +* Constructor for the AddrLib1 class +* +**************************************************************************************************** +*/ +Lib::Lib() + : + Addr::Lib() +{ +} + +/** +**************************************************************************************************** +* Lib::Lib +* +* @brief +* Constructor for the Addr::V1::Lib class with hClient as parameter +* +**************************************************************************************************** +*/ +Lib::Lib(const Client* pClient) + : + Addr::Lib(pClient) +{ +} + +/** +**************************************************************************************************** +* Lib::~AddrLib1 +* +* @brief +* Destructor for the AddrLib1 class +* +**************************************************************************************************** +*/ +Lib::~Lib() +{ +} + +/** +**************************************************************************************************** +* Lib::GetLib +* +* @brief +* Get AddrLib1 pointer +* +* @return +* An Addr::V1::Lib class pointer +**************************************************************************************************** +*/ +Lib* Lib::GetLib( + ADDR_HANDLE hLib) ///< [in] handle of ADDR_HANDLE +{ + Addr::Lib* pAddrLib = Addr::Lib::GetLib(hLib); + if ((pAddrLib != NULL) && + ((pAddrLib->GetChipFamily() == ADDR_CHIP_FAMILY_IVLD) || + (pAddrLib->GetChipFamily() > ADDR_CHIP_FAMILY_VI))) + { + // only valid and pre-VI ASIC can use AddrLib1 function. + ADDR_ASSERT_ALWAYS(); + hLib = NULL; + } + return static_cast(hLib); +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface Methods +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::ComputeSurfaceInfo +* +* @brief +* Interface function stub of AddrComputeSurfaceInfo. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_SURFACE_INFO_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_SURFACE_INFO_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + // We suggest client do sanity check but a check here is also good + if (pIn->bpp > 128) + { + returnCode = ADDR_INVALIDPARAMS; + } + + if ((pIn->tileMode == ADDR_TM_UNKNOWN) && (pIn->mipLevel > 0)) + { + returnCode = ADDR_INVALIDPARAMS; + } + + // Thick modes don't support multisample + if ((Thickness(pIn->tileMode) > 1) && (pIn->numSamples > 1)) + { + returnCode = ADDR_INVALIDPARAMS; + } + + if (returnCode == ADDR_OK) + { + // Get a local copy of input structure and only reference pIn for unadjusted values + ADDR_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; + ADDR_TILEINFO tileInfoNull = {0}; + + if (UseTileInfo()) + { + // If the original input has a valid ADDR_TILEINFO pointer then copy its contents. + // Otherwise the default 0's in tileInfoNull are used. + if (pIn->pTileInfo) + { + tileInfoNull = *pIn->pTileInfo; + } + localIn.pTileInfo = &tileInfoNull; + } + + localIn.numSamples = (pIn->numSamples == 0) ? 1 : pIn->numSamples; + + // Do mipmap check first + // If format is BCn, pre-pad dimension to power-of-two according to HWL + ComputeMipLevel(&localIn); + + if (m_configFlags.checkLast2DLevel) + { + // Save this level's original height in pixels + pOut->height = pIn->height; + } + + UINT_32 expandX = 1; + UINT_32 expandY = 1; + ElemMode elemMode; + + // Save outputs that may not go through HWL + pOut->pixelBits = localIn.bpp; + pOut->numSamples = localIn.numSamples; + pOut->last2DLevel = FALSE; + pOut->tcCompatible = FALSE; + +#if !ALT_TEST + if (localIn.numSamples > 1) + { + ADDR_ASSERT(localIn.mipLevel == 0); + } +#endif + + if (localIn.format != ADDR_FMT_INVALID) // Set format to INVALID will skip this conversion + { + // Get compression/expansion factors and element mode + // (which indicates compression/expansion + localIn.bpp = GetElemLib()->GetBitsPerPixel(localIn.format, + &elemMode, + &expandX, + &expandY); + + // Special flag for 96 bit surface. 96 (or 48 if we support) bit surface's width is + // pre-multiplied by 3 and bpp is divided by 3. So pitch alignment for linear- + // aligned does not meet 64-pixel in real. We keep special handling in hwl since hw + // restrictions are different. + // Also Mip 1+ needs an element pitch of 32 bits so we do not need this workaround + // but we use this flag to skip RestoreSurfaceInfo below + + if ((elemMode == ADDR_EXPANDED) && (expandX > 1)) + { + ADDR_ASSERT(IsLinear(localIn.tileMode)); + } + + GetElemLib()->AdjustSurfaceInfo(elemMode, + expandX, + expandY, + &localIn.bpp, + &localIn.basePitch, + &localIn.width, + &localIn.height); + + // Overwrite these parameters if we have a valid format + } + else if (localIn.bpp != 0) + { + localIn.width = (localIn.width != 0) ? localIn.width : 1; + localIn.height = (localIn.height != 0) ? localIn.height : 1; + } + else // Rule out some invalid parameters + { + ADDR_ASSERT_ALWAYS(); + + returnCode = ADDR_INVALIDPARAMS; + } + + // Check mipmap after surface expansion + if (returnCode == ADDR_OK) + { + returnCode = PostComputeMipLevel(&localIn, pOut); + } + + if (returnCode == ADDR_OK) + { + if (UseTileIndex(localIn.tileIndex)) + { + // Make sure pTileInfo is not NULL + ADDR_ASSERT(localIn.pTileInfo); + + UINT_32 numSamples = GetNumFragments(localIn.numSamples, localIn.numFrags); + + INT_32 macroModeIndex = TileIndexNoMacroIndex; + + if (localIn.tileIndex != TileIndexLinearGeneral) + { + // Try finding a macroModeIndex + macroModeIndex = HwlComputeMacroModeIndex(localIn.tileIndex, + localIn.flags, + localIn.bpp, + numSamples, + localIn.pTileInfo, + &localIn.tileMode, + &localIn.tileType); + } + + // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info + if (macroModeIndex == TileIndexNoMacroIndex) + { + returnCode = HwlSetupTileCfg(localIn.bpp, + localIn.tileIndex, macroModeIndex, + localIn.pTileInfo, + &localIn.tileMode, &localIn.tileType); + } + // If macroModeIndex is invalid, then assert this is not macro tiled + else if (macroModeIndex == TileIndexInvalid) + { + ADDR_ASSERT(!IsMacroTiled(localIn.tileMode)); + } + + pOut->macroModeIndex = macroModeIndex; + } + } + + if (returnCode == ADDR_OK) + { + localIn.flags.dccPipeWorkaround = localIn.flags.dccCompatible; + + if (localIn.tileMode == ADDR_TM_UNKNOWN) + { + // HWL layer may override tile mode if necessary + HwlSelectTileMode(&localIn); + } + else + { + // HWL layer may override tile mode if necessary + HwlOverrideTileMode(&localIn); + + // Optimize tile mode if possible + OptimizeTileMode(&localIn); + } + } + + // Call main function to compute surface info + if (returnCode == ADDR_OK) + { + returnCode = HwlComputeSurfaceInfo(&localIn, pOut); + } + + if (returnCode == ADDR_OK) + { + // Since bpp might be changed we just pass it through + pOut->bpp = localIn.bpp; + + // Also original width/height/bpp + pOut->pixelPitch = pOut->pitch; + pOut->pixelHeight = pOut->height; + +#if DEBUG + if (localIn.flags.display) + { + ADDR_ASSERT((pOut->pitchAlign % 32) == 0); + } +#endif //DEBUG + + if (localIn.format != ADDR_FMT_INVALID) + { + // + // Note: For 96 bit surface, the pixelPitch returned might be an odd number, but it + // is okay to program texture pitch as HW's mip calculator would multiply 3 first, + // then do the appropriate paddings (linear alignment requirement and possible the + // nearest power-of-two for mipmaps), which results in the original pitch. + // + GetElemLib()->RestoreSurfaceInfo(elemMode, + expandX, + expandY, + &localIn.bpp, + &pOut->pixelPitch, + &pOut->pixelHeight); + } + + if (localIn.flags.qbStereo) + { + if (pOut->pStereoInfo) + { + ComputeQbStereoInfo(pOut); + } + } + + if (localIn.flags.volume) // For volume sliceSize equals to all z-slices + { + pOut->sliceSize = pOut->surfSize; + } + else // For array: sliceSize is likely to have slice-padding (the last one) + { + pOut->sliceSize = pOut->surfSize / pOut->depth; + + // array or cubemap + if (pIn->numSlices > 1) + { + // If this is the last slice then add the padding size to this slice + if (pIn->slice == (pIn->numSlices - 1)) + { + pOut->sliceSize += pOut->sliceSize * (pOut->depth - pIn->numSlices); + } + else if (m_configFlags.checkLast2DLevel) + { + // Reset last2DLevel flag if this is not the last array slice + pOut->last2DLevel = FALSE; + } + } + } + + pOut->pitchTileMax = pOut->pitch / 8 - 1; + pOut->heightTileMax = pOut->height / 8 - 1; + pOut->sliceTileMax = pOut->pitch * pOut->height / 64 - 1; + } + } + + ValidBaseAlignments(pOut->baseAlign); + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeSurfaceInfo +* +* @brief +* Interface function stub of AddrComputeSurfaceInfo. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + const ADDR_SURFACE_FLAGS flags = {{0}}; + UINT_32 numSamples = GetNumFragments(pIn->numSamples, pIn->numFrags); + + // Try finding a macroModeIndex + INT_32 macroModeIndex = HwlComputeMacroModeIndex(input.tileIndex, + flags, + input.bpp, + numSamples, + input.pTileInfo, + &input.tileMode, + &input.tileType); + + // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info + if (macroModeIndex == TileIndexNoMacroIndex) + { + returnCode = HwlSetupTileCfg(input.bpp, input.tileIndex, macroModeIndex, + input.pTileInfo, &input.tileMode, &input.tileType); + } + // If macroModeIndex is invalid, then assert this is not macro tiled + else if (macroModeIndex == TileIndexInvalid) + { + ADDR_ASSERT(!IsMacroTiled(input.tileMode)); + } + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlComputeSurfaceAddrFromCoord(pIn, pOut); + + if (returnCode == ADDR_OK) + { + pOut->prtBlockIndex = static_cast(pOut->addr / (64 * 1024)); + } + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeSurfaceCoordFromAddr +* +* @brief +* Interface function stub of ComputeSurfaceCoordFromAddr. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + const ADDR_SURFACE_FLAGS flags = {{0}}; + UINT_32 numSamples = GetNumFragments(pIn->numSamples, pIn->numFrags); + + // Try finding a macroModeIndex + INT_32 macroModeIndex = HwlComputeMacroModeIndex(input.tileIndex, + flags, + input.bpp, + numSamples, + input.pTileInfo, + &input.tileMode, + &input.tileType); + + // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info + if (macroModeIndex == TileIndexNoMacroIndex) + { + returnCode = HwlSetupTileCfg(input.bpp, input.tileIndex, macroModeIndex, + input.pTileInfo, &input.tileMode, &input.tileType); + } + // If macroModeIndex is invalid, then assert this is not macro tiled + else if (macroModeIndex == TileIndexInvalid) + { + ADDR_ASSERT(!IsMacroTiled(input.tileMode)); + } + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlComputeSurfaceCoordFromAddr(pIn, pOut); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeSliceTileSwizzle +* +* @brief +* Interface function stub of ComputeSliceTileSwizzle. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeSliceTileSwizzle( + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_SLICESWIZZLE_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_SLICESWIZZLE_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_SLICESWIZZLE_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, + input.pTileInfo, &input.tileMode); + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlComputeSliceTileSwizzle(pIn, pOut); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ExtractBankPipeSwizzle +* +* @brief +* Interface function stub of AddrExtractBankPipeSwizzle. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ExtractBankPipeSwizzle( + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT)) || + (pOut->size != sizeof(ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlExtractBankPipeSwizzle(pIn, pOut); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::CombineBankPipeSwizzle +* +* @brief +* Interface function stub of AddrCombineBankPipeSwizzle. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::CombineBankPipeSwizzle( + const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure + ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_INFO_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_FMASK_INFO_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlCombineBankPipeSwizzle(pIn->bankSwizzle, + pIn->pipeSwizzle, + pIn->pTileInfo, + pIn->baseAddr, + &pOut->tileSwizzle); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeBaseSwizzle +* +* @brief +* Interface function stub of AddrCompueBaseSwizzle. +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeBaseSwizzle( + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_BASE_SWIZZLE_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_BASE_SWIZZLE_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + if (IsMacroTiled(pIn->tileMode)) + { + returnCode = HwlComputeBaseSwizzle(pIn, pOut); + } + else + { + pOut->tileSwizzle = 0; + } + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeFmaskInfo +* +* @brief +* Interface function stub of ComputeFmaskInfo. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_INFO_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_FMASK_INFO_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + // No thick MSAA + if (Thickness(pIn->tileMode) > 1) + { + returnCode = ADDR_INVALIDPARAMS; + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_FMASK_INFO_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + + if (pOut->pTileInfo) + { + // Use temp tile info for calcalation + input.pTileInfo = pOut->pTileInfo; + } + else + { + input.pTileInfo = &tileInfoNull; + } + + ADDR_SURFACE_FLAGS flags = {{0}}; + flags.fmask = 1; + + // Try finding a macroModeIndex + INT_32 macroModeIndex = HwlComputeMacroModeIndex(pIn->tileIndex, + flags, + HwlComputeFmaskBits(pIn, NULL), + pIn->numSamples, + input.pTileInfo, + &input.tileMode); + + // If macroModeIndex is not needed, then call HwlSetupTileCfg to get tile info + if (macroModeIndex == TileIndexNoMacroIndex) + { + returnCode = HwlSetupTileCfg(0, input.tileIndex, macroModeIndex, + input.pTileInfo, &input.tileMode); + } + + ADDR_ASSERT(macroModeIndex != TileIndexInvalid); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + if (pIn->numSamples > 1) + { + returnCode = HwlComputeFmaskInfo(pIn, pOut); + } + else + { + memset(pOut, 0, sizeof(ADDR_COMPUTE_FMASK_INFO_OUTPUT)); + + returnCode = ADDR_INVALIDPARAMS; + } + } + } + + ValidBaseAlignments(pOut->baseAlign); + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeFmaskAddrFromCoord +* +* @brief +* Interface function stub of ComputeFmaskAddrFromCoord. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeFmaskAddrFromCoord( + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_ASSERT(pIn->numSamples > 1); + + if (pIn->numSamples > 1) + { + returnCode = HwlComputeFmaskAddrFromCoord(pIn, pOut); + } + else + { + returnCode = ADDR_INVALIDPARAMS; + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeFmaskCoordFromAddr +* +* @brief +* Interface function stub of ComputeFmaskAddrFromCoord. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeFmaskCoordFromAddr( + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_ASSERT(pIn->numSamples > 1); + + if (pIn->numSamples > 1) + { + returnCode = HwlComputeFmaskCoordFromAddr(pIn, pOut); + } + else + { + returnCode = ADDR_INVALIDPARAMS; + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ConvertTileInfoToHW +* +* @brief +* Convert tile info from real value to HW register value in HW layer +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] input structure + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_CONVERT_TILEINFOTOHW_INPUT)) || + (pOut->size != sizeof(ADDR_CONVERT_TILEINFOTOHW_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_CONVERT_TILEINFOTOHW_INPUT input; + // if pIn->reverse is TRUE, indices are ignored + if (pIn->reverse == FALSE && UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(input.bpp, input.tileIndex, + input.macroModeIndex, input.pTileInfo); + + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlConvertTileInfoToHW(pIn, pOut); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ConvertTileIndex +* +* @brief +* Convert tile index to tile mode/type/info +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ConvertTileIndex( + const ADDR_CONVERT_TILEINDEX_INPUT* pIn, ///< [in] input structure + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_CONVERT_TILEINDEX_INPUT)) || + (pOut->size != sizeof(ADDR_CONVERT_TILEINDEX_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + + returnCode = HwlSetupTileCfg(pIn->bpp, pIn->tileIndex, pIn->macroModeIndex, + pOut->pTileInfo, &pOut->tileMode, &pOut->tileType); + + if (returnCode == ADDR_OK && pIn->tileInfoHw) + { + ADDR_CONVERT_TILEINFOTOHW_INPUT hwInput = {0}; + ADDR_CONVERT_TILEINFOTOHW_OUTPUT hwOutput = {0}; + + hwInput.pTileInfo = pOut->pTileInfo; + hwInput.tileIndex = -1; + hwOutput.pTileInfo = pOut->pTileInfo; + + returnCode = HwlConvertTileInfoToHW(&hwInput, &hwOutput); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::GetMacroModeIndex +* +* @brief +* Get macro mode index based on input info +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::GetMacroModeIndex( + const ADDR_GET_MACROMODEINDEX_INPUT* pIn, ///< [in] input structure + ADDR_GET_MACROMODEINDEX_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags()) + { + if ((pIn->size != sizeof(ADDR_GET_MACROMODEINDEX_INPUT)) || + (pOut->size != sizeof(ADDR_GET_MACROMODEINDEX_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfo = {0}; + pOut->macroModeIndex = HwlComputeMacroModeIndex(pIn->tileIndex, pIn->flags, pIn->bpp, + pIn->numFrags, &tileInfo); + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ConvertTileIndex1 +* +* @brief +* Convert tile index to tile mode/type/info +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ConvertTileIndex1( + const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, ///< [in] input structure + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_CONVERT_TILEINDEX1_INPUT)) || + (pOut->size != sizeof(ADDR_CONVERT_TILEINDEX_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_SURFACE_FLAGS flags = {{0}}; + + HwlComputeMacroModeIndex(pIn->tileIndex, flags, pIn->bpp, pIn->numSamples, + pOut->pTileInfo, &pOut->tileMode, &pOut->tileType); + + if (pIn->tileInfoHw) + { + ADDR_CONVERT_TILEINFOTOHW_INPUT hwInput = {0}; + ADDR_CONVERT_TILEINFOTOHW_OUTPUT hwOutput = {0}; + + hwInput.pTileInfo = pOut->pTileInfo; + hwInput.tileIndex = -1; + hwOutput.pTileInfo = pOut->pTileInfo; + + returnCode = HwlConvertTileInfoToHW(&hwInput, &hwOutput); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::GetTileIndex +* +* @brief +* Get tile index from tile mode/type/info +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::GetTileIndex( + const ADDR_GET_TILEINDEX_INPUT* pIn, ///< [in] input structure + ADDR_GET_TILEINDEX_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_GET_TILEINDEX_INPUT)) || + (pOut->size != sizeof(ADDR_GET_TILEINDEX_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + returnCode = HwlGetTileIndex(pIn, pOut); + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::Thickness +* +* @brief +* Get tile mode thickness +* +* @return +* Tile mode thickness +**************************************************************************************************** +*/ +UINT_32 Lib::Thickness( + AddrTileMode tileMode) ///< [in] tile mode +{ + return ModeFlags[tileMode].thickness; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// CMASK/HTILE +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::ComputeHtileInfo +* +* @brief +* Interface function stub of AddrComputeHtilenfo +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeHtileInfo( + const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + BOOL_32 isWidth8 = (pIn->blockWidth == 8) ? TRUE : FALSE; + BOOL_32 isHeight8 = (pIn->blockHeight == 8) ? TRUE : FALSE; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_HTILE_INFO_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_HTILE_INFO_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_HTILE_INFO_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + if (pIn->flags.tcCompatible) + { + const UINT_32 sliceSize = pIn->pitch * pIn->height * 4 / (8 * 8); + const UINT_32 align = HwlGetPipes(pIn->pTileInfo) * pIn->pTileInfo->banks * m_pipeInterleaveBytes; + + if (pIn->numSlices > 1) + { + const UINT_32 surfBytes = (sliceSize * pIn->numSlices); + + pOut->sliceSize = sliceSize; + pOut->htileBytes = pIn->flags.skipTcCompatSizeAlign ? + surfBytes : PowTwoAlign(surfBytes, align); + pOut->sliceInterleaved = ((sliceSize % align) != 0) ? TRUE : FALSE; + } + else + { + pOut->sliceSize = pIn->flags.skipTcCompatSizeAlign ? + sliceSize : PowTwoAlign(sliceSize, align); + pOut->htileBytes = pOut->sliceSize; + pOut->sliceInterleaved = FALSE; + } + + pOut->nextMipLevelCompressible = ((sliceSize % align) == 0) ? TRUE : FALSE; + + pOut->pitch = pIn->pitch; + pOut->height = pIn->height; + pOut->baseAlign = align; + pOut->macroWidth = 0; + pOut->macroHeight = 0; + pOut->bpp = 32; + } + else + { + pOut->bpp = ComputeHtileInfo(pIn->flags, + pIn->pitch, + pIn->height, + pIn->numSlices, + pIn->isLinear, + isWidth8, + isHeight8, + pIn->pTileInfo, + &pOut->pitch, + &pOut->height, + &pOut->htileBytes, + &pOut->macroWidth, + &pOut->macroHeight, + &pOut->sliceSize, + &pOut->baseAlign); + } + } + } + + ValidMetaBaseAlignments(pOut->baseAlign); + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeCmaskInfo +* +* @brief +* Interface function stub of AddrComputeCmaskInfo +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskInfo( + const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_CMASK_INFO_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_CMASK_INFO_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_CMASK_INFO_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + returnCode = ComputeCmaskInfo(pIn->flags, + pIn->pitch, + pIn->height, + pIn->numSlices, + pIn->isLinear, + pIn->pTileInfo, + &pOut->pitch, + &pOut->height, + &pOut->cmaskBytes, + &pOut->macroWidth, + &pOut->macroHeight, + &pOut->sliceSize, + &pOut->baseAlign, + &pOut->blockMax); + } + } + + ValidMetaBaseAlignments(pOut->baseAlign); + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeDccInfo +* +* @brief +* Interface function to compute DCC key info +* +* @return +* return code of HwlComputeDccInfo +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeDccInfo( + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE ret = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_DCCINFO_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_DCCINFO_OUTPUT))) + { + ret = ADDR_PARAMSIZEMISMATCH; + } + } + + if (ret == ADDR_OK) + { + ADDR_COMPUTE_DCCINFO_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + + ret = HwlSetupTileCfg(input.bpp, input.tileIndex, input.macroModeIndex, + &input.tileInfo, &input.tileMode); + + pIn = &input; + } + + if (ret == ADDR_OK) + { + ret = HwlComputeDccInfo(pIn, pOut); + + ValidMetaBaseAlignments(pOut->dccRamBaseAlign); + } + } + + return ret; +} + +/** +**************************************************************************************************** +* Lib::ComputeHtileAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeHtileAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeHtileAddrFromCoord( + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + BOOL_32 isWidth8 = (pIn->blockWidth == 8) ? TRUE : FALSE; + BOOL_32 isHeight8 = (pIn->blockHeight == 8) ? TRUE : FALSE; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + if (pIn->flags.tcCompatible) + { + HwlComputeHtileAddrFromCoord(pIn, pOut); + } + else + { + pOut->addr = HwlComputeXmaskAddrFromCoord(pIn->pitch, + pIn->height, + pIn->x, + pIn->y, + pIn->slice, + pIn->numSlices, + 1, + pIn->isLinear, + isWidth8, + isHeight8, + pIn->pTileInfo, + &pOut->bitPosition); + } + } + } + + return returnCode; + +} + +/** +**************************************************************************************************** +* Lib::ComputeHtileCoordFromAddr +* +* @brief +* Interface function stub of AddrComputeHtileCoordFromAddr +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeHtileCoordFromAddr( + const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + BOOL_32 isWidth8 = (pIn->blockWidth == 8) ? TRUE : FALSE; + BOOL_32 isHeight8 = (pIn->blockHeight == 8) ? TRUE : FALSE; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + HwlComputeXmaskCoordFromAddr(pIn->addr, + pIn->bitPosition, + pIn->pitch, + pIn->height, + pIn->numSlices, + 1, + pIn->isLinear, + isWidth8, + isHeight8, + pIn->pTileInfo, + &pOut->x, + &pOut->y, + &pOut->slice); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeCmaskAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeCmaskAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskAddrFromCoord( + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + if (pIn->flags.tcCompatible == TRUE) + { + returnCode = HwlComputeCmaskAddrFromCoord(pIn, pOut); + } + else + { + pOut->addr = HwlComputeXmaskAddrFromCoord(pIn->pitch, + pIn->height, + pIn->x, + pIn->y, + pIn->slice, + pIn->numSlices, + 2, + pIn->isLinear, + FALSE, //this is cmask, isWidth8 is not needed + FALSE, //this is cmask, isHeight8 is not needed + pIn->pTileInfo, + &pOut->bitPosition); + } + + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeCmaskCoordFromAddr +* +* @brief +* Interface function stub of AddrComputeCmaskCoordFromAddr +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskCoordFromAddr( + const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT)) || + (pOut->size != sizeof(ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if (returnCode == ADDR_OK) + { + ADDR_TILEINFO tileInfoNull; + ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT input; + + if (UseTileIndex(pIn->tileIndex)) + { + input = *pIn; + // Use temp tile info for calcalation + input.pTileInfo = &tileInfoNull; + + returnCode = HwlSetupTileCfg(0, input.tileIndex, input.macroModeIndex, input.pTileInfo); + + // Change the input structure + pIn = &input; + } + + if (returnCode == ADDR_OK) + { + HwlComputeXmaskCoordFromAddr(pIn->addr, + pIn->bitPosition, + pIn->pitch, + pIn->height, + pIn->numSlices, + 2, + pIn->isLinear, + FALSE, + FALSE, + pIn->pTileInfo, + &pOut->x, + &pOut->y, + &pOut->slice); + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeTileDataWidthAndHeight +* +* @brief +* Compute the squared cache shape for per-tile data (CMASK and HTILE) +* +* @return +* N/A +* +* @note +* MacroWidth and macroHeight are measured in pixels +**************************************************************************************************** +*/ +VOID Lib::ComputeTileDataWidthAndHeight( + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 cacheBits, ///< [in] bits of cache + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pMacroWidth, ///< [out] macro tile width + UINT_32* pMacroHeight ///< [out] macro tile height + ) const +{ + UINT_32 height = 1; + UINT_32 width = cacheBits / bpp; + UINT_32 pipes = HwlGetPipes(pTileInfo); + + // Double height until the macro-tile is close to square + // Height can only be doubled if width is even + + while ((width > height * 2 * pipes) && !(width & 1)) + { + width /= 2; + height *= 2; + } + + *pMacroWidth = 8 * width; + *pMacroHeight = 8 * height * pipes; + + // Note: The above iterative comptuation is equivalent to the following + // + //int log2_height = ((log2(cacheBits)-log2(bpp)-log2(pipes))/2); + //int macroHeight = pow2( 3+log2(pipes)+log2_height ); +} + +/** +**************************************************************************************************** +* Lib::HwlComputeTileDataWidthAndHeightLinear +* +* @brief +* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout +* +* @return +* N/A +* +* @note +* MacroWidth and macroHeight are measured in pixels +**************************************************************************************************** +*/ +VOID Lib::HwlComputeTileDataWidthAndHeightLinear( + UINT_32* pMacroWidth, ///< [out] macro tile width + UINT_32* pMacroHeight, ///< [out] macro tile height + UINT_32 bpp, ///< [in] bits per pixel + ADDR_TILEINFO* pTileInfo ///< [in] tile info + ) const +{ + ADDR_ASSERT(bpp != 4); // Cmask does not support linear layout prior to SI + *pMacroWidth = 8 * 512 / bpp; // Align width to 512-bit memory accesses + *pMacroHeight = 8 * m_pipes; // Align height to number of pipes +} + +/** +**************************************************************************************************** +* Lib::ComputeHtileInfo +* +* @brief +* Compute htile pitch,width, bytes per 2D slice +* +* @return +* Htile bpp i.e. How many bits for an 8x8 tile +* Also returns by output parameters: +* *Htile pitch, height, total size in bytes, macro-tile dimensions and slice size* +**************************************************************************************************** +*/ +UINT_32 Lib::ComputeHtileInfo( + ADDR_HTILE_FLAGS flags, ///< [in] htile flags + UINT_32 pitchIn, ///< [in] pitch input + UINT_32 heightIn, ///< [in] height input + UINT_32 numSlices, ///< [in] number of slices + BOOL_32 isLinear, ///< [in] if it is linear mode + BOOL_32 isWidth8, ///< [in] if htile block width is 8 + BOOL_32 isHeight8, ///< [in] if htile block height is 8 + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pPitchOut, ///< [out] pitch output + UINT_32* pHeightOut, ///< [out] height output + UINT_64* pHtileBytes, ///< [out] bytes per 2D slice + UINT_32* pMacroWidth, ///< [out] macro-tile width in pixels + UINT_32* pMacroHeight, ///< [out] macro-tile width in pixels + UINT_64* pSliceSize, ///< [out] slice size in bytes + UINT_32* pBaseAlign ///< [out] base alignment + ) const +{ + + UINT_32 macroWidth; + UINT_32 macroHeight; + UINT_32 baseAlign; + UINT_64 surfBytes; + UINT_64 sliceBytes; + + numSlices = Max(1u, numSlices); + + const UINT_32 bpp = HwlComputeHtileBpp(isWidth8, isHeight8); + const UINT_32 cacheBits = HtileCacheBits; + + if (isLinear) + { + HwlComputeTileDataWidthAndHeightLinear(¯oWidth, + ¯oHeight, + bpp, + pTileInfo); + } + else + { + ComputeTileDataWidthAndHeight(bpp, + cacheBits, + pTileInfo, + ¯oWidth, + ¯oHeight); + } + + *pPitchOut = PowTwoAlign(pitchIn, macroWidth); + *pHeightOut = PowTwoAlign(heightIn, macroHeight); + + baseAlign = HwlComputeHtileBaseAlign(flags.tcCompatible, isLinear, pTileInfo); + + surfBytes = HwlComputeHtileBytes(*pPitchOut, + *pHeightOut, + bpp, + isLinear, + numSlices, + &sliceBytes, + baseAlign); + + *pHtileBytes = surfBytes; + + // + // Use SafeAssign since they are optional + // + SafeAssign(pMacroWidth, macroWidth); + + SafeAssign(pMacroHeight, macroHeight); + + SafeAssign(pSliceSize, sliceBytes); + + SafeAssign(pBaseAlign, baseAlign); + + return bpp; +} + +/** +**************************************************************************************************** +* Lib::ComputeCmaskBaseAlign +* +* @brief +* Compute cmask base alignment +* +* @return +* Cmask base alignment +**************************************************************************************************** +*/ +UINT_32 Lib::ComputeCmaskBaseAlign( + ADDR_CMASK_FLAGS flags, ///< [in] Cmask flags + ADDR_TILEINFO* pTileInfo ///< [in] Tile info + ) const +{ + UINT_32 baseAlign = m_pipeInterleaveBytes * HwlGetPipes(pTileInfo); + + if (flags.tcCompatible) + { + ADDR_ASSERT(pTileInfo != NULL); + if (pTileInfo) + { + baseAlign *= pTileInfo->banks; + } + } + + return baseAlign; +} + +/** +**************************************************************************************************** +* Lib::ComputeCmaskBytes +* +* @brief +* Compute cmask size in bytes +* +* @return +* Cmask size in bytes +**************************************************************************************************** +*/ +UINT_64 Lib::ComputeCmaskBytes( + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 numSlices ///< [in] number of slices + ) const +{ + return BITS_TO_BYTES(static_cast(pitch) * height * numSlices * CmaskElemBits) / + MicroTilePixels; +} + +/** +**************************************************************************************************** +* Lib::ComputeCmaskInfo +* +* @brief +* Compute cmask pitch,width, bytes per 2D slice +* +* @return +* BlockMax. Also by output parameters: Cmask pitch,height, total size in bytes, +* macro-tile dimensions +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskInfo( + ADDR_CMASK_FLAGS flags, ///< [in] cmask flags + UINT_32 pitchIn, ///< [in] pitch input + UINT_32 heightIn, ///< [in] height input + UINT_32 numSlices, ///< [in] number of slices + BOOL_32 isLinear, ///< [in] is linear mode + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pPitchOut, ///< [out] pitch output + UINT_32* pHeightOut, ///< [out] height output + UINT_64* pCmaskBytes, ///< [out] bytes per 2D slice + UINT_32* pMacroWidth, ///< [out] macro-tile width in pixels + UINT_32* pMacroHeight, ///< [out] macro-tile width in pixels + UINT_64* pSliceSize, ///< [out] slice size in bytes + UINT_32* pBaseAlign, ///< [out] base alignment + UINT_32* pBlockMax ///< [out] block max == slice / 128 / 128 - 1 + ) const +{ + UINT_32 macroWidth; + UINT_32 macroHeight; + UINT_32 baseAlign; + UINT_64 surfBytes; + UINT_64 sliceBytes; + + numSlices = Max(1u, numSlices); + + const UINT_32 bpp = CmaskElemBits; + const UINT_32 cacheBits = CmaskCacheBits; + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (isLinear) + { + HwlComputeTileDataWidthAndHeightLinear(¯oWidth, + ¯oHeight, + bpp, + pTileInfo); + } + else + { + ComputeTileDataWidthAndHeight(bpp, + cacheBits, + pTileInfo, + ¯oWidth, + ¯oHeight); + } + + *pPitchOut = (pitchIn + macroWidth - 1) & ~(macroWidth - 1); + *pHeightOut = (heightIn + macroHeight - 1) & ~(macroHeight - 1); + + sliceBytes = ComputeCmaskBytes(*pPitchOut, + *pHeightOut, + 1); + + baseAlign = ComputeCmaskBaseAlign(flags, pTileInfo); + + while (sliceBytes % baseAlign) + { + *pHeightOut += macroHeight; + + sliceBytes = ComputeCmaskBytes(*pPitchOut, + *pHeightOut, + 1); + } + + surfBytes = sliceBytes * numSlices; + + *pCmaskBytes = surfBytes; + + // + // Use SafeAssign since they are optional + // + SafeAssign(pMacroWidth, macroWidth); + + SafeAssign(pMacroHeight, macroHeight); + + SafeAssign(pBaseAlign, baseAlign); + + SafeAssign(pSliceSize, sliceBytes); + + UINT_32 slice = (*pPitchOut) * (*pHeightOut); + UINT_32 blockMax = slice / 128 / 128 - 1; + +#if DEBUG + if (slice % (64*256) != 0) + { + ADDR_ASSERT_ALWAYS(); + } +#endif //DEBUG + + UINT_32 maxBlockMax = HwlGetMaxCmaskBlockMax(); + + if (blockMax > maxBlockMax) + { + blockMax = maxBlockMax; + returnCode = ADDR_INVALIDPARAMS; + } + + SafeAssign(pBlockMax, blockMax); + + return returnCode; +} + +/** +**************************************************************************************************** +* Lib::ComputeXmaskCoordYFromPipe +* +* @brief +* Compute the Y coord from pipe number for cmask/htile +* +* @return +* Y coordinate +* +**************************************************************************************************** +*/ +UINT_32 Lib::ComputeXmaskCoordYFromPipe( + UINT_32 pipe, ///< [in] pipe number + UINT_32 x ///< [in] x coordinate + ) const +{ + UINT_32 pipeBit0; + UINT_32 pipeBit1; + UINT_32 xBit0; + UINT_32 xBit1; + UINT_32 yBit0; + UINT_32 yBit1; + + UINT_32 y = 0; + + UINT_32 numPipes = m_pipes; // SI has its implementation + // + // Convert pipe + x to y coordinate. + // + switch (numPipes) + { + case 1: + // + // 1 pipe + // + // p0 = 0 + // + y = 0; + break; + case 2: + // + // 2 pipes + // + // p0 = x0 ^ y0 + // + // y0 = p0 ^ x0 + // + pipeBit0 = pipe & 0x1; + + xBit0 = x & 0x1; + + yBit0 = pipeBit0 ^ xBit0; + + y = yBit0; + break; + case 4: + // + // 4 pipes + // + // p0 = x1 ^ y0 + // p1 = x0 ^ y1 + // + // y0 = p0 ^ x1 + // y1 = p1 ^ x0 + // + pipeBit0 = pipe & 0x1; + pipeBit1 = (pipe & 0x2) >> 1; + + xBit0 = x & 0x1; + xBit1 = (x & 0x2) >> 1; + + yBit0 = pipeBit0 ^ xBit1; + yBit1 = pipeBit1 ^ xBit0; + + y = (yBit0 | + (yBit1 << 1)); + break; + case 8: + // + // 8 pipes + // + // r600 and r800 have different method + // + y = HwlComputeXmaskCoordYFrom8Pipe(pipe, x); + break; + default: + break; + } + return y; +} + +/** +**************************************************************************************************** +* Lib::HwlComputeXmaskCoordFromAddr +* +* @brief +* Compute the coord from an address of a cmask/htile +* +* @return +* N/A +* +* @note +* This method is reused by htile, so rename to Xmask +**************************************************************************************************** +*/ +VOID Lib::HwlComputeXmaskCoordFromAddr( + UINT_64 addr, ///< [in] address + UINT_32 bitPosition, ///< [in] bitPosition in a byte + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 numSlices, ///< [in] number of slices + UINT_32 factor, ///< [in] factor that indicates cmask or htile + BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout + BOOL_32 isWidth8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value + BOOL_32 isHeight8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pX, ///< [out] x coord + UINT_32* pY, ///< [out] y coord + UINT_32* pSlice ///< [out] slice index + ) const +{ + UINT_32 pipe; + UINT_32 numPipes; + UINT_32 numGroupBits; + (void)numGroupBits; + UINT_32 numPipeBits; + UINT_32 macroTilePitch; + UINT_32 macroTileHeight; + + UINT_64 bitAddr; + + UINT_32 microTileCoordY; + + UINT_32 elemBits; + + UINT_32 pitchAligned = pitch; + UINT_32 heightAligned = height; + UINT_64 totalBytes; + + UINT_64 elemOffset; + + UINT_64 macroIndex; + UINT_32 microIndex; + + UINT_64 macroNumber; + UINT_32 microNumber; + + UINT_32 macroX; + UINT_32 macroY; + UINT_32 macroZ; + + UINT_32 microX; + UINT_32 microY; + + UINT_32 tilesPerMacro; + UINT_32 macrosPerPitch; + UINT_32 macrosPerSlice; + + // + // Extract pipe. + // + numPipes = HwlGetPipes(pTileInfo); + pipe = ComputePipeFromAddr(addr, numPipes); + + // + // Compute the number of group and pipe bits. + // + numGroupBits = Log2(m_pipeInterleaveBytes); + numPipeBits = Log2(numPipes); + + UINT_32 groupBits = 8 * m_pipeInterleaveBytes; + UINT_32 pipes = numPipes; + + // + // Compute the micro tile size, in bits. And macro tile pitch and height. + // + if (factor == 2) //CMASK + { + ADDR_CMASK_FLAGS flags = {{0}}; + + elemBits = CmaskElemBits; + + ComputeCmaskInfo(flags, + pitch, + height, + numSlices, + isLinear, + pTileInfo, + &pitchAligned, + &heightAligned, + &totalBytes, + ¯oTilePitch, + ¯oTileHeight); + } + else //HTILE + { + ADDR_HTILE_FLAGS flags = {{0}}; + + if (factor != 1) + { + factor = 1; + } + + elemBits = HwlComputeHtileBpp(isWidth8, isHeight8); + + ComputeHtileInfo(flags, + pitch, + height, + numSlices, + isLinear, + isWidth8, + isHeight8, + pTileInfo, + &pitchAligned, + &heightAligned, + &totalBytes, + ¯oTilePitch, + ¯oTileHeight); + } + + // Should use aligned dims + // + pitch = pitchAligned; + height = heightAligned; + + // + // Convert byte address to bit address. + // + bitAddr = BYTES_TO_BITS(addr) + bitPosition; + + // + // Remove pipe bits from address. + // + + bitAddr = (bitAddr % groupBits) + ((bitAddr/groupBits/pipes)*groupBits); + + elemOffset = bitAddr / elemBits; + + tilesPerMacro = (macroTilePitch/factor) * macroTileHeight / MicroTilePixels >> numPipeBits; + + macrosPerPitch = pitch / (macroTilePitch/factor); + macrosPerSlice = macrosPerPitch * height / macroTileHeight; + + macroIndex = elemOffset / factor / tilesPerMacro; + microIndex = static_cast(elemOffset % (tilesPerMacro * factor)); + + macroNumber = macroIndex * factor + microIndex % factor; + microNumber = microIndex / factor; + + macroX = static_cast((macroNumber % macrosPerPitch)); + macroY = static_cast((macroNumber % macrosPerSlice) / macrosPerPitch); + macroZ = static_cast((macroNumber / macrosPerSlice)); + + microX = microNumber % (macroTilePitch / factor / MicroTileWidth); + microY = (microNumber / (macroTilePitch / factor / MicroTileHeight)); + + *pX = macroX * (macroTilePitch/factor) + microX * MicroTileWidth; + *pY = macroY * macroTileHeight + (microY * MicroTileHeight << numPipeBits); + *pSlice = macroZ; + + microTileCoordY = ComputeXmaskCoordYFromPipe(pipe, + *pX/MicroTileWidth); + + // + // Assemble final coordinates. + // + *pY += microTileCoordY * MicroTileHeight; + +} + +/** +**************************************************************************************************** +* Lib::HwlComputeXmaskAddrFromCoord +* +* @brief +* Compute the address from an address of cmask (prior to si) +* +* @return +* Address in bytes +* +**************************************************************************************************** +*/ +UINT_64 Lib::HwlComputeXmaskAddrFromCoord( + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 x, ///< [in] x coord + UINT_32 y, ///< [in] y coord + UINT_32 slice, ///< [in] slice/depth index + UINT_32 numSlices, ///< [in] number of slices + UINT_32 factor, ///< [in] factor that indicates cmask(2) or htile(1) + BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout + BOOL_32 isWidth8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value + BOOL_32 isHeight8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pBitPosition ///< [out] bit position inside a byte + ) const +{ + UINT_64 addr; + UINT_32 numGroupBits; + UINT_32 numPipeBits; + UINT_32 newPitch = 0; + UINT_32 newHeight = 0; + UINT_64 sliceBytes = 0; + UINT_64 totalBytes = 0; + UINT_64 sliceOffset; + UINT_32 pipe; + UINT_32 macroTileWidth; + UINT_32 macroTileHeight; + UINT_32 macroTilesPerRow; + UINT_32 macroTileBytes; + UINT_32 macroTileIndexX; + UINT_32 macroTileIndexY; + UINT_64 macroTileOffset; + UINT_32 pixelBytesPerRow; + UINT_32 pixelOffsetX; + UINT_32 pixelOffsetY; + UINT_32 pixelOffset; + UINT_64 totalOffset; + UINT_64 offsetLo; + UINT_64 offsetHi; + UINT_64 groupMask; + + UINT_32 elemBits = 0; + + UINT_32 numPipes = m_pipes; // This function is accessed prior to si only + + if (factor == 2) //CMASK + { + elemBits = CmaskElemBits; + + // For asics before SI, cmask is always tiled + isLinear = FALSE; + } + else //HTILE + { + if (factor != 1) // Fix compile warning + { + factor = 1; + } + + elemBits = HwlComputeHtileBpp(isWidth8, isHeight8); + } + + // + // Compute the number of group bits and pipe bits. + // + numGroupBits = Log2(m_pipeInterleaveBytes); + numPipeBits = Log2(numPipes); + + // + // Compute macro tile dimensions. + // + if (factor == 2) // CMASK + { + ADDR_CMASK_FLAGS flags = {{0}}; + + ComputeCmaskInfo(flags, + pitch, + height, + numSlices, + isLinear, + pTileInfo, + &newPitch, + &newHeight, + &totalBytes, + ¯oTileWidth, + ¯oTileHeight); + + sliceBytes = totalBytes / numSlices; + } + else // HTILE + { + ADDR_HTILE_FLAGS flags = {{0}}; + + ComputeHtileInfo(flags, + pitch, + height, + numSlices, + isLinear, + isWidth8, + isHeight8, + pTileInfo, + &newPitch, + &newHeight, + &totalBytes, + ¯oTileWidth, + ¯oTileHeight, + &sliceBytes); + } + + sliceOffset = slice * sliceBytes; + + // + // Get the pipe. Note that neither slice rotation nor pipe swizzling apply for CMASK. + // + pipe = ComputePipeFromCoord(x, + y, + 0, + ADDR_TM_2D_TILED_THIN1, + 0, + FALSE, + pTileInfo); + + // + // Compute the number of macro tiles per row. + // + macroTilesPerRow = newPitch / macroTileWidth; + + // + // Compute the number of bytes per macro tile. + // + macroTileBytes = BITS_TO_BYTES((macroTileWidth * macroTileHeight * elemBits) / MicroTilePixels); + + // + // Compute the offset to the macro tile containing the specified coordinate. + // + macroTileIndexX = x / macroTileWidth; + macroTileIndexY = y / macroTileHeight; + macroTileOffset = ((macroTileIndexY * macroTilesPerRow) + macroTileIndexX) * macroTileBytes; + + // + // Compute the pixel offset within the macro tile. + // + pixelBytesPerRow = BITS_TO_BYTES(macroTileWidth * elemBits) / MicroTileWidth; + + // + // The nibbles are interleaved (see below), so the part of the offset relative to the x + // coordinate repeats halfway across the row. (Not for HTILE) + // + if (factor == 2) + { + pixelOffsetX = (x % (macroTileWidth / 2)) / MicroTileWidth; + } + else + { + pixelOffsetX = (x % (macroTileWidth)) / MicroTileWidth * BITS_TO_BYTES(elemBits); + } + + // + // Compute the y offset within the macro tile. + // + pixelOffsetY = (((y % macroTileHeight) / MicroTileHeight) / numPipes) * pixelBytesPerRow; + + pixelOffset = pixelOffsetX + pixelOffsetY; + + // + // Combine the slice offset and macro tile offset with the pixel offset, accounting for the + // pipe bits in the middle of the address. + // + totalOffset = ((sliceOffset + macroTileOffset) >> numPipeBits) + pixelOffset; + + // + // Split the offset to put some bits below the pipe bits and some above. + // + groupMask = (1 << numGroupBits) - 1; + offsetLo = totalOffset & groupMask; + offsetHi = (totalOffset & ~groupMask) << numPipeBits; + + // + // Assemble the address from its components. + // + addr = offsetLo; + addr |= offsetHi; + // This is to remove warning with /analyze option + UINT_32 pipeBits = pipe << numGroupBits; + addr |= pipeBits; + + // + // Compute the bit position. The lower nibble is used when the x coordinate within the macro + // tile is less than half of the macro tile width, and the upper nibble is used when the x + // coordinate within the macro tile is greater than or equal to half the macro tile width. + // + *pBitPosition = ((x % macroTileWidth) < (macroTileWidth / factor)) ? 0 : 4; + + return addr; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface Addressing Shared +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +**************************************************************************************************** +* Lib::ComputeSurfaceAddrFromCoordLinear +* +* @brief +* Compute address from coord for linear surface +* +* @return +* Address in bytes +* +**************************************************************************************************** +*/ +UINT_64 Lib::ComputeSurfaceAddrFromCoordLinear( + UINT_32 x, ///< [in] x coord + UINT_32 y, ///< [in] y coord + UINT_32 slice, ///< [in] slice/depth index + UINT_32 sample, ///< [in] sample index + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 numSlices, ///< [in] number of slices + UINT_32* pBitPosition ///< [out] bit position inside a byte + ) const +{ + const UINT_64 sliceSize = static_cast(pitch) * height; + + UINT_64 sliceOffset = (slice + sample * numSlices)* sliceSize; + UINT_64 rowOffset = static_cast(y) * pitch; + UINT_64 pixOffset = x; + + UINT_64 addr = (sliceOffset + rowOffset + pixOffset) * bpp; + + *pBitPosition = static_cast(addr % 8); + addr /= 8; + + return addr; +} + +/** +**************************************************************************************************** +* Lib::ComputeSurfaceCoordFromAddrLinear +* +* @brief +* Compute the coord from an address of a linear surface +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::ComputeSurfaceCoordFromAddrLinear( + UINT_64 addr, ///< [in] address + UINT_32 bitPosition, ///< [in] bitPosition in a byte + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 numSlices, ///< [in] number of slices + UINT_32* pX, ///< [out] x coord + UINT_32* pY, ///< [out] y coord + UINT_32* pSlice, ///< [out] slice/depth index + UINT_32* pSample ///< [out] sample index + ) const +{ + const UINT_64 sliceSize = static_cast(pitch) * height; + const UINT_64 linearOffset = (BYTES_TO_BITS(addr) + bitPosition) / bpp; + + *pX = static_cast((linearOffset % sliceSize) % pitch); + *pY = static_cast((linearOffset % sliceSize) / pitch % height); + *pSlice = static_cast((linearOffset / sliceSize) % numSlices); + *pSample = static_cast((linearOffset / sliceSize) / numSlices); +} + +/** +**************************************************************************************************** +* Lib::ComputeSurfaceCoordFromAddrMicroTiled +* +* @brief +* Compute the coord from an address of a micro tiled surface +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::ComputeSurfaceCoordFromAddrMicroTiled( + UINT_64 addr, ///< [in] address + UINT_32 bitPosition, ///< [in] bitPosition in a byte + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 numSamples, ///< [in] number of samples + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 tileBase, ///< [in] base offset within a tile + UINT_32 compBits, ///< [in] component bits actually needed(for planar surface) + UINT_32* pX, ///< [out] x coord + UINT_32* pY, ///< [out] y coord + UINT_32* pSlice, ///< [out] slice/depth index + UINT_32* pSample, ///< [out] sample index, + AddrTileType microTileType, ///< [in] micro tiling order + BOOL_32 isDepthSampleOrder ///< [in] TRUE if in depth sample order + ) const +{ + UINT_64 bitAddr; + UINT_32 microTileThickness; + UINT_32 microTileBits; + UINT_64 sliceBits; + UINT_64 rowBits; + UINT_32 sliceIndex; + UINT_32 microTileCoordX; + UINT_32 microTileCoordY; + UINT_32 pixelOffset; + UINT_32 pixelCoordX = 0; + UINT_32 pixelCoordY = 0; + UINT_32 pixelCoordZ = 0; + UINT_32 pixelCoordS = 0; + + // + // Convert byte address to bit address. + // + bitAddr = BYTES_TO_BITS(addr) + bitPosition; + + // + // Compute the micro tile size, in bits. + // + switch (tileMode) + { + case ADDR_TM_1D_TILED_THICK: + microTileThickness = ThickTileThickness; + break; + default: + microTileThickness = 1; + break; + } + + microTileBits = MicroTilePixels * microTileThickness * bpp * numSamples; + + // + // Compute number of bits per slice and number of bits per row of micro tiles. + // + sliceBits = static_cast(pitch) * height * microTileThickness * bpp * numSamples; + + rowBits = (pitch / MicroTileWidth) * microTileBits; + + // + // Extract the slice index. + // + sliceIndex = static_cast(bitAddr / sliceBits); + bitAddr -= sliceIndex * sliceBits; + + // + // Extract the y coordinate of the micro tile. + // + microTileCoordY = static_cast(bitAddr / rowBits) * MicroTileHeight; + bitAddr -= (microTileCoordY / MicroTileHeight) * rowBits; + + // + // Extract the x coordinate of the micro tile. + // + microTileCoordX = static_cast(bitAddr / microTileBits) * MicroTileWidth; + + // + // Compute the pixel offset within the micro tile. + // + pixelOffset = static_cast(bitAddr % microTileBits); + + // + // Extract pixel coordinates from the offset. + // + HwlComputePixelCoordFromOffset(pixelOffset, + bpp, + numSamples, + tileMode, + tileBase, + compBits, + &pixelCoordX, + &pixelCoordY, + &pixelCoordZ, + &pixelCoordS, + microTileType, + isDepthSampleOrder); + + // + // Assemble final coordinates. + // + *pX = microTileCoordX + pixelCoordX; + *pY = microTileCoordY + pixelCoordY; + *pSlice = (sliceIndex * microTileThickness) + pixelCoordZ; + *pSample = pixelCoordS; + + if (microTileThickness > 1) + { + *pSample = 0; + } +} + +/** +**************************************************************************************************** +* Lib::ComputePipeFromAddr +* +* @brief +* Compute the pipe number from an address +* +* @return +* Pipe number +* +**************************************************************************************************** +*/ +UINT_32 Lib::ComputePipeFromAddr( + UINT_64 addr, ///< [in] address + UINT_32 numPipes ///< [in] number of banks + ) const +{ + UINT_32 pipe; + + UINT_32 groupBytes = m_pipeInterleaveBytes; //just different terms + + // R600 + // The LSBs of the address are arranged as follows: + // bank | pipe | group + // + // To get the pipe number, shift off the group bits and mask the pipe bits. + // + + // R800 + // The LSBs of the address are arranged as follows: + // bank | bankInterleave | pipe | pipeInterleave + // + // To get the pipe number, shift off the pipe interleave bits and mask the pipe bits. + // + + pipe = static_cast(addr >> Log2(groupBytes)) & (numPipes - 1); + + return pipe; +} + +/** +**************************************************************************************************** +* Lib::ComputeMicroTileEquation +* +* @brief +* Compute micro tile equation +* +* @return +* If equation can be computed +* +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputeMicroTileEquation( + UINT_32 log2BytesPP, ///< [in] log2 of bytes per pixel + AddrTileMode tileMode, ///< [in] tile mode + AddrTileType microTileType, ///< [in] pixel order in display/non-display mode + ADDR_EQUATION* pEquation ///< [out] equation + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + for (UINT_32 i = 0; i < log2BytesPP; i++) + { + pEquation->addr[i].valid = 1; + pEquation->addr[i].channel = 0; + pEquation->addr[i].index = i; + } + + ADDR_CHANNEL_SETTING* pixelBit = &pEquation->addr[log2BytesPP]; + + ADDR_CHANNEL_SETTING x0 = InitChannel(1, 0, log2BytesPP + 0); + ADDR_CHANNEL_SETTING x1 = InitChannel(1, 0, log2BytesPP + 1); + ADDR_CHANNEL_SETTING x2 = InitChannel(1, 0, log2BytesPP + 2); + ADDR_CHANNEL_SETTING y0 = InitChannel(1, 1, 0); + ADDR_CHANNEL_SETTING y1 = InitChannel(1, 1, 1); + ADDR_CHANNEL_SETTING y2 = InitChannel(1, 1, 2); + ADDR_CHANNEL_SETTING z0 = InitChannel(1, 2, 0); + ADDR_CHANNEL_SETTING z1 = InitChannel(1, 2, 1); + ADDR_CHANNEL_SETTING z2 = InitChannel(1, 2, 2); + + UINT_32 thickness = Thickness(tileMode); + UINT_32 bpp = 1 << (log2BytesPP + 3); + + if (microTileType != ADDR_THICK) + { + if (microTileType == ADDR_DISPLAYABLE) + { + switch (bpp) + { + case 8: + pixelBit[0] = x0; + pixelBit[1] = x1; + pixelBit[2] = x2; + pixelBit[3] = y1; + pixelBit[4] = y0; + pixelBit[5] = y2; + break; + case 16: + pixelBit[0] = x0; + pixelBit[1] = x1; + pixelBit[2] = x2; + pixelBit[3] = y0; + pixelBit[4] = y1; + pixelBit[5] = y2; + break; + case 32: + pixelBit[0] = x0; + pixelBit[1] = x1; + pixelBit[2] = y0; + pixelBit[3] = x2; + pixelBit[4] = y1; + pixelBit[5] = y2; + break; + case 64: + pixelBit[0] = x0; + pixelBit[1] = y0; + pixelBit[2] = x1; + pixelBit[3] = x2; + pixelBit[4] = y1; + pixelBit[5] = y2; + break; + case 128: + pixelBit[0] = y0; + pixelBit[1] = x0; + pixelBit[2] = x1; + pixelBit[3] = x2; + pixelBit[4] = y1; + pixelBit[5] = y2; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + else if (microTileType == ADDR_NON_DISPLAYABLE || microTileType == ADDR_DEPTH_SAMPLE_ORDER) + { + pixelBit[0] = x0; + pixelBit[1] = y0; + pixelBit[2] = x1; + pixelBit[3] = y1; + pixelBit[4] = x2; + pixelBit[5] = y2; + } + else if (microTileType == ADDR_ROTATED) + { + ADDR_ASSERT(thickness == 1); + + switch (bpp) + { + case 8: + pixelBit[0] = y0; + pixelBit[1] = y1; + pixelBit[2] = y2; + pixelBit[3] = x1; + pixelBit[4] = x0; + pixelBit[5] = x2; + break; + case 16: + pixelBit[0] = y0; + pixelBit[1] = y1; + pixelBit[2] = y2; + pixelBit[3] = x0; + pixelBit[4] = x1; + pixelBit[5] = x2; + break; + case 32: + pixelBit[0] = y0; + pixelBit[1] = y1; + pixelBit[2] = x0; + pixelBit[3] = y2; + pixelBit[4] = x1; + pixelBit[5] = x2; + break; + case 64: + pixelBit[0] = y0; + pixelBit[1] = x0; + pixelBit[2] = y1; + pixelBit[3] = x1; + pixelBit[4] = x2; + pixelBit[5] = y2; + break; + default: + retCode = ADDR_NOTSUPPORTED; + break; + } + } + + if (thickness > 1) + { + pixelBit[6] = z0; + pixelBit[7] = z1; + pEquation->numBits = 8 + log2BytesPP; + } + else + { + pEquation->numBits = 6 + log2BytesPP; + } + } + else // ADDR_THICK + { + ADDR_ASSERT(thickness > 1); + + switch (bpp) + { + case 8: + case 16: + pixelBit[0] = x0; + pixelBit[1] = y0; + pixelBit[2] = x1; + pixelBit[3] = y1; + pixelBit[4] = z0; + pixelBit[5] = z1; + break; + case 32: + pixelBit[0] = x0; + pixelBit[1] = y0; + pixelBit[2] = x1; + pixelBit[3] = z0; + pixelBit[4] = y1; + pixelBit[5] = z1; + break; + case 64: + case 128: + pixelBit[0] = x0; + pixelBit[1] = y0; + pixelBit[2] = z0; + pixelBit[3] = x1; + pixelBit[4] = y1; + pixelBit[5] = z1; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + pixelBit[6] = x2; + pixelBit[7] = y2; + pEquation->numBits = 8 + log2BytesPP; + } + + if (thickness == 8) + { + pixelBit[8] = z2; + pEquation->numBits = 9 + log2BytesPP; + } + + // stackedDepthSlices is used for addressing mode that a tile block contains multiple slices, + // which is not supported by our address lib + pEquation->stackedDepthSlices = FALSE; + + return retCode; +} + +/** +**************************************************************************************************** +* Lib::ComputePixelIndexWithinMicroTile +* +* @brief +* Compute the pixel index inside a micro tile of surface +* +* @return +* Pixel index +* +**************************************************************************************************** +*/ +UINT_32 Lib::ComputePixelIndexWithinMicroTile( + UINT_32 x, ///< [in] x coord + UINT_32 y, ///< [in] y coord + UINT_32 z, ///< [in] slice/depth index + UINT_32 bpp, ///< [in] bits per pixel + AddrTileMode tileMode, ///< [in] tile mode + AddrTileType microTileType ///< [in] pixel order in display/non-display mode + ) const +{ + UINT_32 pixelBit0 = 0; + UINT_32 pixelBit1 = 0; + UINT_32 pixelBit2 = 0; + UINT_32 pixelBit3 = 0; + UINT_32 pixelBit4 = 0; + UINT_32 pixelBit5 = 0; + UINT_32 pixelBit6 = 0; + UINT_32 pixelBit7 = 0; + UINT_32 pixelBit8 = 0; + UINT_32 pixelNumber; + + UINT_32 x0 = _BIT(x, 0); + UINT_32 x1 = _BIT(x, 1); + UINT_32 x2 = _BIT(x, 2); + UINT_32 y0 = _BIT(y, 0); + UINT_32 y1 = _BIT(y, 1); + UINT_32 y2 = _BIT(y, 2); + UINT_32 z0 = _BIT(z, 0); + UINT_32 z1 = _BIT(z, 1); + UINT_32 z2 = _BIT(z, 2); + + UINT_32 thickness = Thickness(tileMode); + + // Compute the pixel number within the micro tile. + + if (microTileType != ADDR_THICK) + { + if (microTileType == ADDR_DISPLAYABLE) + { + switch (bpp) + { + case 8: + pixelBit0 = x0; + pixelBit1 = x1; + pixelBit2 = x2; + pixelBit3 = y1; + pixelBit4 = y0; + pixelBit5 = y2; + break; + case 16: + pixelBit0 = x0; + pixelBit1 = x1; + pixelBit2 = x2; + pixelBit3 = y0; + pixelBit4 = y1; + pixelBit5 = y2; + break; + case 32: + pixelBit0 = x0; + pixelBit1 = x1; + pixelBit2 = y0; + pixelBit3 = x2; + pixelBit4 = y1; + pixelBit5 = y2; + break; + case 64: + pixelBit0 = x0; + pixelBit1 = y0; + pixelBit2 = x1; + pixelBit3 = x2; + pixelBit4 = y1; + pixelBit5 = y2; + break; + case 128: + pixelBit0 = y0; + pixelBit1 = x0; + pixelBit2 = x1; + pixelBit3 = x2; + pixelBit4 = y1; + pixelBit5 = y2; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + else if (microTileType == ADDR_NON_DISPLAYABLE || microTileType == ADDR_DEPTH_SAMPLE_ORDER) + { + pixelBit0 = x0; + pixelBit1 = y0; + pixelBit2 = x1; + pixelBit3 = y1; + pixelBit4 = x2; + pixelBit5 = y2; + } + else if (microTileType == ADDR_ROTATED) + { + ADDR_ASSERT(thickness == 1); + + switch (bpp) + { + case 8: + pixelBit0 = y0; + pixelBit1 = y1; + pixelBit2 = y2; + pixelBit3 = x1; + pixelBit4 = x0; + pixelBit5 = x2; + break; + case 16: + pixelBit0 = y0; + pixelBit1 = y1; + pixelBit2 = y2; + pixelBit3 = x0; + pixelBit4 = x1; + pixelBit5 = x2; + break; + case 32: + pixelBit0 = y0; + pixelBit1 = y1; + pixelBit2 = x0; + pixelBit3 = y2; + pixelBit4 = x1; + pixelBit5 = x2; + break; + case 64: + pixelBit0 = y0; + pixelBit1 = x0; + pixelBit2 = y1; + pixelBit3 = x1; + pixelBit4 = x2; + pixelBit5 = y2; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + + if (thickness > 1) + { + pixelBit6 = z0; + pixelBit7 = z1; + } + } + else // ADDR_THICK + { + ADDR_ASSERT(thickness > 1); + + switch (bpp) + { + case 8: + case 16: + pixelBit0 = x0; + pixelBit1 = y0; + pixelBit2 = x1; + pixelBit3 = y1; + pixelBit4 = z0; + pixelBit5 = z1; + break; + case 32: + pixelBit0 = x0; + pixelBit1 = y0; + pixelBit2 = x1; + pixelBit3 = z0; + pixelBit4 = y1; + pixelBit5 = z1; + break; + case 64: + case 128: + pixelBit0 = x0; + pixelBit1 = y0; + pixelBit2 = z0; + pixelBit3 = x1; + pixelBit4 = y1; + pixelBit5 = z1; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + pixelBit6 = x2; + pixelBit7 = y2; + } + + if (thickness == 8) + { + pixelBit8 = z2; + } + + pixelNumber = ((pixelBit0 ) | + (pixelBit1 << 1) | + (pixelBit2 << 2) | + (pixelBit3 << 3) | + (pixelBit4 << 4) | + (pixelBit5 << 5) | + (pixelBit6 << 6) | + (pixelBit7 << 7) | + (pixelBit8 << 8)); + + return pixelNumber; +} + +/** +**************************************************************************************************** +* Lib::AdjustPitchAlignment +* +* @brief +* Adjusts pitch alignment for flipping surface +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID Lib::AdjustPitchAlignment( + ADDR_SURFACE_FLAGS flags, ///< [in] Surface flags + UINT_32* pPitchAlign ///< [out] Pointer to pitch alignment + ) const +{ + // Display engine hardwires lower 5 bit of GRPH_PITCH to ZERO which means 32 pixel alignment + // Maybe it will be fixed in future but let's make it general for now. + if (flags.display || flags.overlay) + { + *pPitchAlign = PowTwoAlign(*pPitchAlign, 32); + + if(flags.display) + { + *pPitchAlign = Max(m_minPitchAlignPixels, *pPitchAlign); + } + } +} + +/** +**************************************************************************************************** +* Lib::PadDimensions +* +* @brief +* Helper function to pad dimensions +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID Lib::PadDimensions( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples, ///< [in] number of samples + ADDR_TILEINFO* pTileInfo, ///< [in,out] bank structure. + UINT_32 padDims, ///< [in] Dimensions to pad valid value 1,2,3 + UINT_32 mipLevel, ///< [in] MipLevel + UINT_32* pPitch, ///< [in,out] pitch in pixels + UINT_32* pPitchAlign, ///< [in,out] pitch align could be changed in HwlPadDimensions + UINT_32* pHeight, ///< [in,out] height in pixels + UINT_32 heightAlign, ///< [in] height alignment + UINT_32* pSlices, ///< [in,out] number of slices + UINT_32 sliceAlign ///< [in] number of slice alignment + ) const +{ + UINT_32 pitchAlign = *pPitchAlign; + UINT_32 thickness = Thickness(tileMode); + + ADDR_ASSERT(padDims <= 3); + + // + // Override padding for mip levels + // + if (mipLevel > 0) + { + if (flags.cube) + { + // for cubemap, we only pad when client call with 6 faces as an identity + if (*pSlices > 1) + { + padDims = 3; // we should pad cubemap sub levels when we treat it as 3d texture + } + else + { + padDims = 2; + } + } + } + + // Any possibilities that padDims is 0? + if (padDims == 0) + { + padDims = 3; + } + + if (IsPow2(pitchAlign)) + { + *pPitch = PowTwoAlign((*pPitch), pitchAlign); + } + else // add this code to pass unit test, r600 linear mode is not align bpp to pow2 for linear + { + *pPitch += pitchAlign - 1; + *pPitch /= pitchAlign; + *pPitch *= pitchAlign; + } + + if (padDims > 1) + { + if (IsPow2(heightAlign)) + { + *pHeight = PowTwoAlign((*pHeight), heightAlign); + } + else + { + *pHeight += heightAlign - 1; + *pHeight /= heightAlign; + *pHeight *= heightAlign; + } + } + + if (padDims > 2 || thickness > 1) + { + // for cubemap single face, we do not pad slices. + // if we pad it, the slice number should be set to 6 and current mip level > 1 + if (flags.cube && (!m_configFlags.noCubeMipSlicesPad || flags.cubeAsArray)) + { + *pSlices = NextPow2(*pSlices); + } + + // normal 3D texture or arrays or cubemap has a thick mode? (Just pass unit test) + if (thickness > 1) + { + *pSlices = PowTwoAlign((*pSlices), sliceAlign); + } + + } + + HwlPadDimensions(tileMode, + bpp, + flags, + numSamples, + pTileInfo, + mipLevel, + pPitch, + pPitchAlign, + *pHeight, + heightAlign); +} + +/** +**************************************************************************************************** +* Lib::HwlPreHandleBaseLvl3xPitch +* +* @brief +* Pre-handler of 3x pitch (96 bit) adjustment +* +* @return +* Expected pitch +**************************************************************************************************** +*/ +UINT_32 Lib::HwlPreHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input + UINT_32 expPitch ///< [in] pitch + ) const +{ + ADDR_ASSERT(pIn->width == expPitch); + // + // If pitch is pre-multiplied by 3, we retrieve original one here to get correct miplevel size + // + if (ElemLib::IsExpand3x(pIn->format) && + pIn->mipLevel == 0 && + pIn->tileMode == ADDR_TM_LINEAR_ALIGNED) + { + expPitch /= 3; + expPitch = NextPow2(expPitch); + } + + return expPitch; +} + +/** +**************************************************************************************************** +* Lib::HwlPostHandleBaseLvl3xPitch +* +* @brief +* Post-handler of 3x pitch adjustment +* +* @return +* Expected pitch +**************************************************************************************************** +*/ +UINT_32 Lib::HwlPostHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input + UINT_32 expPitch ///< [in] pitch + ) const +{ + // + // 96 bits surface of sub levels require element pitch of 32 bits instead + // So we just return pitch in 32 bit pixels without timing 3 + // + if (ElemLib::IsExpand3x(pIn->format) && + pIn->mipLevel == 0 && + pIn->tileMode == ADDR_TM_LINEAR_ALIGNED) + { + expPitch *= 3; + } + + return expPitch; +} + +/** +**************************************************************************************************** +* Lib::IsMacroTiled +* +* @brief +* Check if the tile mode is macro tiled +* +* @return +* TRUE if it is macro tiled (2D/2B/3D/3B) +**************************************************************************************************** +*/ +BOOL_32 Lib::IsMacroTiled( + AddrTileMode tileMode) ///< [in] tile mode +{ + return ModeFlags[tileMode].isMacro; +} + +/** +**************************************************************************************************** +* Lib::IsMacro3dTiled +* +* @brief +* Check if the tile mode is 3D macro tiled +* +* @return +* TRUE if it is 3D macro tiled +**************************************************************************************************** +*/ +BOOL_32 Lib::IsMacro3dTiled( + AddrTileMode tileMode) ///< [in] tile mode +{ + return ModeFlags[tileMode].isMacro3d; +} + +/** +**************************************************************************************************** +* Lib::IsMicroTiled +* +* @brief +* Check if the tile mode is micro tiled +* +* @return +* TRUE if micro tiled +**************************************************************************************************** +*/ +BOOL_32 Lib::IsMicroTiled( + AddrTileMode tileMode) ///< [in] tile mode +{ + return ModeFlags[tileMode].isMicro; +} + +/** +**************************************************************************************************** +* Lib::IsLinear +* +* @brief +* Check if the tile mode is linear +* +* @return +* TRUE if linear +**************************************************************************************************** +*/ +BOOL_32 Lib::IsLinear( + AddrTileMode tileMode) ///< [in] tile mode +{ + return ModeFlags[tileMode].isLinear; +} + +/** +**************************************************************************************************** +* Lib::IsPrtNoRotationTileMode +* +* @brief +* Return TRUE if it is prt tile without rotation +* @note +* This function just used by CI +**************************************************************************************************** +*/ +BOOL_32 Lib::IsPrtNoRotationTileMode( + AddrTileMode tileMode) +{ + return ModeFlags[tileMode].isPrtNoRotation; +} + +/** +**************************************************************************************************** +* Lib::IsPrtTileMode +* +* @brief +* Return TRUE if it is prt tile +* @note +* This function just used by CI +**************************************************************************************************** +*/ +BOOL_32 Lib::IsPrtTileMode( + AddrTileMode tileMode) +{ + return ModeFlags[tileMode].isPrt; +} + +/** +**************************************************************************************************** +* Lib::ComputeMipLevel +* +* @brief +* Compute mipmap level width/height/slices +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::ComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn ///< [in,out] Input structure + ) const +{ + // Check if HWL has handled + BOOL_32 hwlHandled = FALSE; + (void)hwlHandled; + + if (ElemLib::IsBlockCompressed(pIn->format)) + { + if (pIn->mipLevel == 0) + { + // DXTn's level 0 must be multiple of 4 + // But there are exceptions: + // 1. Internal surface creation in hostblt/vsblt/etc... + // 2. Runtime doesn't reject ATI1/ATI2 whose width/height are not multiple of 4 + pIn->width = PowTwoAlign(pIn->width, 4); + pIn->height = PowTwoAlign(pIn->height, 4); + } + } + + hwlHandled = HwlComputeMipLevel(pIn); +} + +/** +**************************************************************************************************** +* Lib::DegradeTo1D +* +* @brief +* Check if surface can be degraded to 1D +* @return +* TRUE if degraded +**************************************************************************************************** +*/ +BOOL_32 Lib::DegradeTo1D( + UINT_32 width, ///< surface width + UINT_32 height, ///< surface height + UINT_32 macroTilePitchAlign, ///< macro tile pitch align + UINT_32 macroTileHeightAlign ///< macro tile height align + ) +{ + BOOL_32 degrade = ((width < macroTilePitchAlign) || (height < macroTileHeightAlign)); + + // Check whether 2D tiling still has too much footprint + if (degrade == FALSE) + { + // Only check width and height as slices are aligned to thickness + UINT_64 unalignedSize = width * height; + + UINT_32 alignedPitch = PowTwoAlign(width, macroTilePitchAlign); + UINT_32 alignedHeight = PowTwoAlign(height, macroTileHeightAlign); + UINT_64 alignedSize = alignedPitch * alignedHeight; + + // alignedSize > 1.5 * unalignedSize + if (2 * alignedSize > 3 * unalignedSize) + { + degrade = TRUE; + } + } + + return degrade; +} + +/** +**************************************************************************************************** +* Lib::OptimizeTileMode +* +* @brief +* Check if base level's tile mode can be optimized (degraded) +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::OptimizeTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in, out] structure for surface info + ) const +{ + AddrTileMode tileMode = pInOut->tileMode; + + BOOL_32 doOpt = (pInOut->flags.opt4Space == TRUE) || + (pInOut->flags.minimizeAlignment == TRUE) || + (pInOut->maxBaseAlign != 0); + + BOOL_32 convertToPrt = FALSE; + + // Optimization can only be done on level 0 and samples <= 1 + if ((doOpt == TRUE) && + (pInOut->mipLevel == 0) && + (IsPrtTileMode(tileMode) == FALSE) && + (pInOut->flags.prt == FALSE)) + { + UINT_32 width = pInOut->width; + UINT_32 height = pInOut->height; + UINT_32 thickness = Thickness(tileMode); + BOOL_32 macroTiledOK = TRUE; + UINT_32 macroWidthAlign = 0; + UINT_32 macroHeightAlign = 0; + UINT_32 macroSizeAlign = 0; + + if (IsMacroTiled(tileMode)) + { + macroTiledOK = HwlGetAlignmentInfoMacroTiled(pInOut, + ¯oWidthAlign, + ¯oHeightAlign, + ¯oSizeAlign); + } + + if (macroTiledOK) + { + if ((pInOut->flags.display == FALSE) && + (pInOut->flags.opt4Space == TRUE) && + (pInOut->numSamples <= 1)) + { + // Check if linear mode is optimal + if ((pInOut->height == 1) && + (IsLinear(tileMode) == FALSE) && + (ElemLib::IsBlockCompressed(pInOut->format) == FALSE) && + (pInOut->flags.depth == FALSE) && + (pInOut->flags.stencil == FALSE) && + (m_configFlags.disableLinearOpt == FALSE) && + (pInOut->flags.disableLinearOpt == FALSE)) + { + tileMode = ADDR_TM_LINEAR_ALIGNED; + } + else if (IsMacroTiled(tileMode) && (pInOut->flags.tcCompatible == FALSE)) + { + if (DegradeTo1D(width, height, macroWidthAlign, macroHeightAlign)) + { + tileMode = (thickness == 1) ? + ADDR_TM_1D_TILED_THIN1 : ADDR_TM_1D_TILED_THICK; + } + else if ((thickness > 1) && (pInOut->flags.disallowLargeThickDegrade == 0)) + { + // As in the following HwlComputeSurfaceInfo, thick modes may be degraded to + // thinner modes, we should re-evaluate whether the corresponding + // thinner modes should be degraded. If so, we choose 1D thick mode instead. + tileMode = DegradeLargeThickTile(pInOut->tileMode, pInOut->bpp); + + if (tileMode != pInOut->tileMode) + { + // Get thickness again after large thick degrade + thickness = Thickness(tileMode); + + ADDR_COMPUTE_SURFACE_INFO_INPUT input = *pInOut; + input.tileMode = tileMode; + + macroTiledOK = HwlGetAlignmentInfoMacroTiled(&input, + ¯oWidthAlign, + ¯oHeightAlign, + ¯oSizeAlign); + + if (macroTiledOK && + DegradeTo1D(width, height, macroWidthAlign, macroHeightAlign)) + { + tileMode = ADDR_TM_1D_TILED_THICK; + } + } + } + } + } + + if (macroTiledOK) + { + if ((pInOut->flags.minimizeAlignment == TRUE) && + (pInOut->numSamples <= 1) && + (IsMacroTiled(tileMode) == TRUE)) + { + UINT_32 macroSize = PowTwoAlign(width, macroWidthAlign) * + PowTwoAlign(height, macroHeightAlign); + UINT_32 microSize = PowTwoAlign(width, MicroTileWidth) * + PowTwoAlign(height, MicroTileHeight); + + if (macroSize > microSize) + { + tileMode = (thickness == 1) ? + ADDR_TM_1D_TILED_THIN1 : ADDR_TM_1D_TILED_THICK; + } + } + + if ((pInOut->maxBaseAlign != 0) && + (IsMacroTiled(tileMode) == TRUE)) + { + if (macroSizeAlign > pInOut->maxBaseAlign) + { + if (pInOut->numSamples > 1) + { + ADDR_ASSERT(pInOut->maxBaseAlign >= Block64K); + + convertToPrt = TRUE; + } + else if (pInOut->maxBaseAlign < Block64K) + { + tileMode = (thickness == 1) ? + ADDR_TM_1D_TILED_THIN1 : ADDR_TM_1D_TILED_THICK; + } + else + { + convertToPrt = TRUE; + } + } + } + } + } + } + + if (convertToPrt) + { + if ((pInOut->flags.matchStencilTileCfg == TRUE) && (pInOut->numSamples <= 1)) + { + pInOut->tileMode = ADDR_TM_1D_TILED_THIN1; + } + else + { + HwlSetPrtTileMode(pInOut); + } + } + else if (tileMode != pInOut->tileMode) + { + pInOut->tileMode = tileMode; + } + + HwlOptimizeTileMode(pInOut); +} + +/** +**************************************************************************************************** +* Lib::DegradeLargeThickTile +* +* @brief +* Check if the thickness needs to be reduced if a tile is too large +* @return +* The degraded tile mode (unchanged if not degraded) +**************************************************************************************************** +*/ +AddrTileMode Lib::DegradeLargeThickTile( + AddrTileMode tileMode, + UINT_32 bpp) const +{ + // Override tilemode + // When tile_width (8) * tile_height (8) * thickness * element_bytes is > row_size, + // it is better to just use THIN mode in this case + UINT_32 thickness = Thickness(tileMode); + + if (thickness > 1 && m_configFlags.allowLargeThickTile == 0) + { + UINT_32 tileSize = MicroTilePixels * thickness * (bpp >> 3); + + if (tileSize > m_rowSize) + { + switch (tileMode) + { + case ADDR_TM_2D_TILED_XTHICK: + if ((tileSize >> 1) <= m_rowSize) + { + tileMode = ADDR_TM_2D_TILED_THICK; + break; + } + // else fall through + case ADDR_TM_2D_TILED_THICK: + tileMode = ADDR_TM_2D_TILED_THIN1; + break; + + case ADDR_TM_3D_TILED_XTHICK: + if ((tileSize >> 1) <= m_rowSize) + { + tileMode = ADDR_TM_3D_TILED_THICK; + break; + } + // else fall through + case ADDR_TM_3D_TILED_THICK: + tileMode = ADDR_TM_3D_TILED_THIN1; + break; + + case ADDR_TM_PRT_TILED_THICK: + tileMode = ADDR_TM_PRT_TILED_THIN1; + break; + + case ADDR_TM_PRT_2D_TILED_THICK: + tileMode = ADDR_TM_PRT_2D_TILED_THIN1; + break; + + case ADDR_TM_PRT_3D_TILED_THICK: + tileMode = ADDR_TM_PRT_3D_TILED_THIN1; + break; + + default: + break; + } + } + } + + return tileMode; +} + +/** +**************************************************************************************************** +* Lib::PostComputeMipLevel +* @brief +* Compute MipLevel info (including level 0) after surface adjustment +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::PostComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in,out] Input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output structure + ) const +{ + // Mipmap including level 0 must be pow2 padded since either SI hw expects so or it is + // required by CFX for Hw Compatibility between NI and SI. Otherwise it is only needed for + // mipLevel > 0. Any h/w has different requirement should implement its own virtual function + + if (pIn->flags.pow2Pad) + { + pIn->width = NextPow2(pIn->width); + pIn->height = NextPow2(pIn->height); + pIn->numSlices = NextPow2(pIn->numSlices); + } + else if (pIn->mipLevel > 0) + { + pIn->width = NextPow2(pIn->width); + pIn->height = NextPow2(pIn->height); + + if (!pIn->flags.cube) + { + pIn->numSlices = NextPow2(pIn->numSlices); + } + + // for cubemap, we keep its value at first + } + + return ADDR_OK; +} + +/** +**************************************************************************************************** +* Lib::HwlSetupTileCfg +* +* @brief +* Map tile index to tile setting. +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::HwlSetupTileCfg( + UINT_32 bpp, ///< Bits per pixel + INT_32 index, ///< [in] Tile index + INT_32 macroModeIndex, ///< [in] Index in macro tile mode table(CI) + ADDR_TILEINFO* pInfo, ///< [out] Tile Info + AddrTileMode* pMode, ///< [out] Tile mode + AddrTileType* pType ///< [out] Tile type + ) const +{ + return ADDR_NOTSUPPORTED; +} + +/** +**************************************************************************************************** +* Lib::HwlGetPipes +* +* @brief +* Get number pipes +* @return +* num pipes +**************************************************************************************************** +*/ +UINT_32 Lib::HwlGetPipes( + const ADDR_TILEINFO* pTileInfo ///< [in] Tile info + ) const +{ + //pTileInfo can be NULL when asic is 6xx and 8xx. + return m_pipes; +} + +/** +**************************************************************************************************** +* Lib::ComputeQbStereoInfo +* +* @brief +* Get quad buffer stereo information +* @return +* N/A +**************************************************************************************************** +*/ +VOID Lib::ComputeQbStereoInfo( + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] updated pOut+pStereoInfo + ) const +{ + ADDR_ASSERT(pOut->bpp >= 8); + ADDR_ASSERT((pOut->surfSize % pOut->baseAlign) == 0); + + // Save original height + pOut->pStereoInfo->eyeHeight = pOut->height; + + // Right offset + pOut->pStereoInfo->rightOffset = static_cast(pOut->surfSize); + + pOut->pStereoInfo->rightSwizzle = HwlComputeQbStereoRightSwizzle(pOut); + // Double height + pOut->height <<= 1; + pOut->pixelHeight <<= 1; + + // Double size + pOut->surfSize <<= 1; + + // Right start address meets the base align since it is guaranteed by AddrLib1 + + // 1D surface on SI may break this rule, but we can force it to meet by checking .qbStereo. +} + +/** +**************************************************************************************************** +* Lib::ComputePrtInfo +* +* @brief +* Compute prt surface related info +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE Lib::ComputePrtInfo( + const ADDR_PRT_INFO_INPUT* pIn, + ADDR_PRT_INFO_OUTPUT* pOut) const +{ + ADDR_ASSERT(pOut != NULL); + + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + UINT_32 expandX = 1; + UINT_32 expandY = 1; + ElemMode elemMode; + + UINT_32 bpp = GetElemLib()->GetBitsPerPixel(pIn->format, + &elemMode, + &expandX, + &expandY); + + if (bpp <8 || bpp == 24 || bpp == 48 || bpp == 96) + { + returnCode = ADDR_INVALIDPARAMS; + } + + UINT_32 numFrags = pIn->numFrags; + ADDR_ASSERT(numFrags <= 8); + + UINT_32 tileWidth = 0; + UINT_32 tileHeight = 0; + if (returnCode == ADDR_OK) + { + // 3D texture without depth or 2d texture + if (pIn->baseMipDepth > 1 || pIn->baseMipHeight > 1) + { + if (bpp == 8) + { + tileWidth = 256; + tileHeight = 256; + } + else if (bpp == 16) + { + tileWidth = 256; + tileHeight = 128; + } + else if (bpp == 32) + { + tileWidth = 128; + tileHeight = 128; + } + else if (bpp == 64) + { + // assume it is BC1/4 + tileWidth = 512; + tileHeight = 256; + + if (elemMode == ADDR_UNCOMPRESSED) + { + tileWidth = 128; + tileHeight = 64; + } + } + else if (bpp == 128) + { + // assume it is BC2/3/5/6H/7 + tileWidth = 256; + tileHeight = 256; + + if (elemMode == ADDR_UNCOMPRESSED) + { + tileWidth = 64; + tileHeight = 64; + } + } + + if (numFrags == 2) + { + tileWidth = tileWidth / 2; + } + else if (numFrags == 4) + { + tileWidth = tileWidth / 2; + tileHeight = tileHeight / 2; + } + else if (numFrags == 8) + { + tileWidth = tileWidth / 4; + tileHeight = tileHeight / 2; + } + } + else // 1d + { + tileHeight = 1; + if (bpp == 8) + { + tileWidth = 65536; + } + else if (bpp == 16) + { + tileWidth = 32768; + } + else if (bpp == 32) + { + tileWidth = 16384; + } + else if (bpp == 64) + { + tileWidth = 8192; + } + else if (bpp == 128) + { + tileWidth = 4096; + } + } + } + + pOut->prtTileWidth = tileWidth; + pOut->prtTileHeight = tileHeight; + + return returnCode; +} + +} // V1 +} // Addr diff --git a/src/amd/addrlib/src/core/addrlib1.h b/src/amd/addrlib/src/core/addrlib1.h new file mode 100644 index 00000000000..4933a53f128 --- /dev/null +++ b/src/amd/addrlib/src/core/addrlib1.h @@ -0,0 +1,544 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrlib1.h +* @brief Contains the Addr::V1::Lib class definition. +**************************************************************************************************** +*/ + +#ifndef __ADDR_LIB1_H__ +#define __ADDR_LIB1_H__ + +#include "addrlib.h" + +namespace Addr +{ +namespace V1 +{ + +/** +**************************************************************************************************** +* @brief Neutral enums that define bank swap size +**************************************************************************************************** +*/ +enum SampleSplitSize +{ + ADDR_SAMPLESPLIT_1KB = 1024, + ADDR_SAMPLESPLIT_2KB = 2048, + ADDR_SAMPLESPLIT_4KB = 4096, + ADDR_SAMPLESPLIT_8KB = 8192, +}; + +/** +**************************************************************************************************** +* @brief Flags for AddrTileMode +**************************************************************************************************** +*/ +struct TileModeFlags +{ + UINT_32 thickness : 4; + UINT_32 isLinear : 1; + UINT_32 isMicro : 1; + UINT_32 isMacro : 1; + UINT_32 isMacro3d : 1; + UINT_32 isPrt : 1; + UINT_32 isPrtNoRotation : 1; + UINT_32 isBankSwapped : 1; +}; + +static const UINT_32 Block64K = 0x10000; +static const UINT_32 PrtTileSize = Block64K; + +/** +**************************************************************************************************** +* @brief This class contains asic independent address lib functionalities +**************************************************************************************************** +*/ +class Lib : public Addr::Lib +{ +public: + virtual ~Lib(); + + static Lib* GetLib( + ADDR_HANDLE hLib); + + /// Returns tileIndex support + BOOL_32 UseTileIndex(INT_32 index) const + { + return m_configFlags.useTileIndex && (index != TileIndexInvalid); + } + + /// Returns combined swizzle support + BOOL_32 UseCombinedSwizzle() const + { + return m_configFlags.useCombinedSwizzle; + } + + // + // Interface stubs + // + ADDR_E_RETURNCODE ComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSliceTileSwizzle( + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ExtractBankPipeSwizzle( + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE CombineBankPipeSwizzle( + const ADDR_COMBINE_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_COMBINE_BANKPIPE_SWIZZLE_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeBaseSwizzle( + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); + + ADDR_E_RETURNCODE ComputeFmaskAddrFromCoord( + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeFmaskCoordFromAddr( + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ConvertTileIndex( + const ADDR_CONVERT_TILEINDEX_INPUT* pIn, + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE GetMacroModeIndex( + const ADDR_GET_MACROMODEINDEX_INPUT* pIn, + ADDR_GET_MACROMODEINDEX_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ConvertTileIndex1( + const ADDR_CONVERT_TILEINDEX1_INPUT* pIn, + ADDR_CONVERT_TILEINDEX_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE GetTileIndex( + const ADDR_GET_TILEINDEX_INPUT* pIn, + ADDR_GET_TILEINDEX_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeHtileInfo( + const ADDR_COMPUTE_HTILE_INFO_INPUT* pIn, + ADDR_COMPUTE_HTILE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeCmaskInfo( + const ADDR_COMPUTE_CMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_CMASK_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeDccInfo( + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeHtileAddrFromCoord( + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeCmaskAddrFromCoord( + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeHtileCoordFromAddr( + const ADDR_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeCmaskCoordFromAddr( + const ADDR_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputePrtInfo( + const ADDR_PRT_INFO_INPUT* pIn, + ADDR_PRT_INFO_OUTPUT* pOut) const; +protected: + Lib(); // Constructor is protected + Lib(const Client* pClient); + + /// Pure Virtual function for Hwl computing surface info + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl computing surface address from coord + virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl computing surface coord from address + virtual ADDR_E_RETURNCODE HwlComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl computing surface tile swizzle + virtual ADDR_E_RETURNCODE HwlComputeSliceTileSwizzle( + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl extracting bank/pipe swizzle from base256b + virtual ADDR_E_RETURNCODE HwlExtractBankPipeSwizzle( + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl combining bank/pipe swizzle + virtual ADDR_E_RETURNCODE HwlCombineBankPipeSwizzle( + UINT_32 bankSwizzle, UINT_32 pipeSwizzle, ADDR_TILEINFO* pTileInfo, + UINT_64 baseAddr, UINT_32* pTileSwizzle) const = 0; + + /// Pure Virtual function for Hwl computing base swizzle + virtual ADDR_E_RETURNCODE HwlComputeBaseSwizzle( + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl computing HTILE base align + virtual UINT_32 HwlComputeHtileBaseAlign( + BOOL_32 isTcCompatible, BOOL_32 isLinear, ADDR_TILEINFO* pTileInfo) const = 0; + + /// Pure Virtual function for Hwl computing HTILE bpp + virtual UINT_32 HwlComputeHtileBpp( + BOOL_32 isWidth8, BOOL_32 isHeight8) const = 0; + + /// Pure Virtual function for Hwl computing HTILE bytes + virtual UINT_64 HwlComputeHtileBytes( + UINT_32 pitch, UINT_32 height, UINT_32 bpp, + BOOL_32 isLinear, UINT_32 numSlices, UINT_64* pSliceBytes, UINT_32 baseAlign) const = 0; + + /// Pure Virtual function for Hwl computing FMASK info + virtual ADDR_E_RETURNCODE HwlComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut) = 0; + + /// Pure Virtual function for Hwl FMASK address from coord + virtual ADDR_E_RETURNCODE HwlComputeFmaskAddrFromCoord( + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl FMASK coord from address + virtual ADDR_E_RETURNCODE HwlComputeFmaskCoordFromAddr( + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl convert tile info from real value to HW value + virtual ADDR_E_RETURNCODE HwlConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const = 0; + + /// Pure Virtual function for Hwl compute mipmap info + virtual BOOL_32 HwlComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn) const = 0; + + /// Pure Virtual function for Hwl compute max cmask blockMax value + virtual BOOL_32 HwlGetMaxCmaskBlockMax() const = 0; + + /// Pure Virtual function for Hwl compute fmask bits + virtual UINT_32 HwlComputeFmaskBits( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + UINT_32* pNumSamples) const = 0; + + /// Virtual function to get index (not pure then no need to implement this in all hwls + virtual ADDR_E_RETURNCODE HwlGetTileIndex( + const ADDR_GET_TILEINDEX_INPUT* pIn, + ADDR_GET_TILEINDEX_OUTPUT* pOut) const + { + return ADDR_NOTSUPPORTED; + } + + /// Virtual function for Hwl to compute Dcc info + virtual ADDR_E_RETURNCODE HwlComputeDccInfo( + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const + { + return ADDR_NOTSUPPORTED; + } + + /// Virtual function to get cmask address for tc compatible cmask + virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) const + { + return ADDR_NOTSUPPORTED; + } + + /// Virtual function to get htile address for tc compatible htile + virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) const + { + return ADDR_NOTSUPPORTED; + } + + // Compute attributes + + // HTILE + UINT_32 ComputeHtileInfo( + ADDR_HTILE_FLAGS flags, + UINT_32 pitchIn, UINT_32 heightIn, UINT_32 numSlices, + BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, + ADDR_TILEINFO* pTileInfo, + UINT_32* pPitchOut, UINT_32* pHeightOut, UINT_64* pHtileBytes, + UINT_32* pMacroWidth = NULL, UINT_32* pMacroHeight = NULL, + UINT_64* pSliceSize = NULL, UINT_32* pBaseAlign = NULL) const; + + // CMASK + ADDR_E_RETURNCODE ComputeCmaskInfo( + ADDR_CMASK_FLAGS flags, + UINT_32 pitchIn, UINT_32 heightIn, UINT_32 numSlices, BOOL_32 isLinear, + ADDR_TILEINFO* pTileInfo, UINT_32* pPitchOut, UINT_32* pHeightOut, UINT_64* pCmaskBytes, + UINT_32* pMacroWidth, UINT_32* pMacroHeight, UINT_64* pSliceSize = NULL, + UINT_32* pBaseAlign = NULL, UINT_32* pBlockMax = NULL) const; + + virtual VOID HwlComputeTileDataWidthAndHeightLinear( + UINT_32* pMacroWidth, UINT_32* pMacroHeight, + UINT_32 bpp, ADDR_TILEINFO* pTileInfo) const; + + // CMASK & HTILE addressing + virtual UINT_64 HwlComputeXmaskAddrFromCoord( + UINT_32 pitch, UINT_32 height, UINT_32 x, UINT_32 y, UINT_32 slice, + UINT_32 numSlices, UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, + BOOL_32 isHeight8, ADDR_TILEINFO* pTileInfo, + UINT_32* bitPosition) const; + + virtual VOID HwlComputeXmaskCoordFromAddr( + UINT_64 addr, UINT_32 bitPosition, UINT_32 pitch, UINT_32 height, UINT_32 numSlices, + UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, + ADDR_TILEINFO* pTileInfo, UINT_32* pX, UINT_32* pY, UINT_32* pSlice) const; + + // Surface mipmap + VOID ComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn) const; + + /// Pure Virtual function for Hwl to get macro tiled alignment info + virtual BOOL_32 HwlGetAlignmentInfoMacroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + UINT_32* pPitchAlign, UINT_32* pHeightAlign, UINT_32* pSizeAlign) const = 0; + + virtual VOID HwlOverrideTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const + { + // not supported in hwl layer + } + + virtual VOID HwlOptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const + { + // not supported in hwl layer + } + + virtual VOID HwlSelectTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const + { + // not supported in hwl layer + } + + AddrTileMode DegradeLargeThickTile(AddrTileMode tileMode, UINT_32 bpp) const; + + VOID PadDimensions( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 numSamples, ADDR_TILEINFO* pTileInfo, UINT_32 padDims, UINT_32 mipLevel, + UINT_32* pPitch, UINT_32* pPitchAlign, UINT_32* pHeight, UINT_32 heightAlign, + UINT_32* pSlices, UINT_32 sliceAlign) const; + + virtual VOID HwlPadDimensions( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 numSamples, ADDR_TILEINFO* pTileInfo, UINT_32 mipLevel, + UINT_32* pPitch, UINT_32* pPitchAlign, UINT_32 height, UINT_32 heightAlign) const + { + } + + // + // Addressing shared for linear/1D tiling + // + UINT_64 ComputeSurfaceAddrFromCoordLinear( + UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSlices, + UINT_32* pBitPosition) const; + + VOID ComputeSurfaceCoordFromAddrLinear( + UINT_64 addr, UINT_32 bitPosition, UINT_32 bpp, + UINT_32 pitch, UINT_32 height, UINT_32 numSlices, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample) const; + + VOID ComputeSurfaceCoordFromAddrMicroTiled( + UINT_64 addr, UINT_32 bitPosition, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, + AddrTileType microTileType, BOOL_32 isDepthSampleOrder) const; + + ADDR_E_RETURNCODE ComputeMicroTileEquation( + UINT_32 bpp, AddrTileMode tileMode, + AddrTileType microTileType, ADDR_EQUATION* pEquation) const; + + UINT_32 ComputePixelIndexWithinMicroTile( + UINT_32 x, UINT_32 y, UINT_32 z, + UINT_32 bpp, AddrTileMode tileMode, AddrTileType microTileType) const; + + /// Pure Virtual function for Hwl computing coord from offset inside micro tile + virtual VOID HwlComputePixelCoordFromOffset( + UINT_32 offset, UINT_32 bpp, UINT_32 numSamples, + AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, + AddrTileType microTileType, BOOL_32 isDepthSampleOrder) const = 0; + + // + // Addressing shared by all + // + virtual UINT_32 HwlGetPipes( + const ADDR_TILEINFO* pTileInfo) const; + + UINT_32 ComputePipeFromAddr( + UINT_64 addr, UINT_32 numPipes) const; + + virtual ADDR_E_RETURNCODE ComputePipeEquation( + UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const + { + return ADDR_NOTSUPPORTED; + } + + /// Pure Virtual function for Hwl computing pipe from coord + virtual UINT_32 ComputePipeFromCoord( + UINT_32 x, UINT_32 y, UINT_32 slice, AddrTileMode tileMode, + UINT_32 pipeSwizzle, BOOL_32 flags, ADDR_TILEINFO* pTileInfo) const = 0; + + /// Pure Virtual function for Hwl computing coord Y for 8 pipe cmask/htile + virtual UINT_32 HwlComputeXmaskCoordYFrom8Pipe( + UINT_32 pipe, UINT_32 x) const = 0; + + // + // Misc helper + // + static const TileModeFlags ModeFlags[ADDR_TM_COUNT]; + + static UINT_32 Thickness( + AddrTileMode tileMode); + + // Checking tile mode + static BOOL_32 IsMacroTiled(AddrTileMode tileMode); + static BOOL_32 IsMacro3dTiled(AddrTileMode tileMode); + static BOOL_32 IsLinear(AddrTileMode tileMode); + static BOOL_32 IsMicroTiled(AddrTileMode tileMode); + static BOOL_32 IsPrtTileMode(AddrTileMode tileMode); + static BOOL_32 IsPrtNoRotationTileMode(AddrTileMode tileMode); + + /// Return TRUE if tile info is needed + BOOL_32 UseTileInfo() const + { + return !m_configFlags.ignoreTileInfo; + } + + /// Adjusts pitch alignment for flipping surface + VOID AdjustPitchAlignment( + ADDR_SURFACE_FLAGS flags, UINT_32* pPitchAlign) const; + + /// Overwrite tile config according to tile index + virtual ADDR_E_RETURNCODE HwlSetupTileCfg( + UINT_32 bpp, INT_32 index, INT_32 macroModeIndex, + ADDR_TILEINFO* pInfo, AddrTileMode* mode = NULL, AddrTileType* type = NULL) const; + + /// Overwrite macro tile config according to tile index + virtual INT_32 HwlComputeMacroModeIndex( + INT_32 index, ADDR_SURFACE_FLAGS flags, UINT_32 bpp, UINT_32 numSamples, + ADDR_TILEINFO* pTileInfo, AddrTileMode *pTileMode = NULL, AddrTileType *pTileType = NULL + ) const + { + return TileIndexNoMacroIndex; + } + + /// Pre-handler of 3x pitch (96 bit) adjustment + virtual UINT_32 HwlPreHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; + /// Post-handler of 3x pitch adjustment + virtual UINT_32 HwlPostHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; + /// Check miplevel after surface adjustment + ADDR_E_RETURNCODE PostComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + /// Quad buffer stereo support, has its implementation in ind. layer + VOID ComputeQbStereoInfo( + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + /// Pure virutual function to compute stereo bank swizzle for right eye + virtual UINT_32 HwlComputeQbStereoRightSwizzle( + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; + + VOID OptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + /// Overwrite tile setting to PRT + virtual VOID HwlSetPrtTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const + { + } + + static BOOL_32 DegradeTo1D( + UINT_32 width, UINT_32 height, + UINT_32 macroTilePitchAlign, UINT_32 macroTileHeightAlign); + +private: + // Disallow the copy constructor + Lib(const Lib& a); + + // Disallow the assignment operator + Lib& operator=(const Lib& a); + + UINT_32 ComputeCmaskBaseAlign( + ADDR_CMASK_FLAGS flags, ADDR_TILEINFO* pTileInfo) const; + + UINT_64 ComputeCmaskBytes( + UINT_32 pitch, UINT_32 height, UINT_32 numSlices) const; + + // + // CMASK/HTILE shared methods + // + VOID ComputeTileDataWidthAndHeight( + UINT_32 bpp, UINT_32 cacheBits, ADDR_TILEINFO* pTileInfo, + UINT_32* pMacroWidth, UINT_32* pMacroHeight) const; + + UINT_32 ComputeXmaskCoordYFromPipe( + UINT_32 pipe, UINT_32 x) const; +}; + +} // V1 +} // Addr + +#endif + diff --git a/src/amd/addrlib/src/core/addrlib2.cpp b/src/amd/addrlib/src/core/addrlib2.cpp new file mode 100644 index 00000000000..3b4b8debf43 --- /dev/null +++ b/src/amd/addrlib/src/core/addrlib2.cpp @@ -0,0 +1,1883 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +************************************************************************************************************************ +* @file addrlib2.cpp +* @brief Contains the implementation for the AddrLib2 base class. +************************************************************************************************************************ +*/ + +#include "addrinterface.h" +#include "addrlib2.h" +#include "addrcommon.h" + +namespace Addr +{ +namespace V2 +{ + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Static Const Member +//////////////////////////////////////////////////////////////////////////////////////////////////// + +const Dim2d Lib::Block256_2d[] = {{16, 16}, {16, 8}, {8, 8}, {8, 4}, {4, 4}}; + +const Dim3d Lib::Block1K_3d[] = {{16, 8, 8}, {8, 8, 8}, {8, 8, 4}, {8, 4, 4}, {4, 4, 4}}; + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Constructor/Destructor +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +************************************************************************************************************************ +* Lib::Lib +* +* @brief +* Constructor for the Addr::V2::Lib class +* +************************************************************************************************************************ +*/ +Lib::Lib() + : + Addr::Lib() +{ +} + +/** +************************************************************************************************************************ +* Lib::Lib +* +* @brief +* Constructor for the AddrLib2 class with hClient as parameter +* +************************************************************************************************************************ +*/ +Lib::Lib(const Client* pClient) + : + Addr::Lib(pClient) +{ +} + +/** +************************************************************************************************************************ +* Lib::~Lib +* +* @brief +* Destructor for the AddrLib2 class +* +************************************************************************************************************************ +*/ +Lib::~Lib() +{ +} + +/** +************************************************************************************************************************ +* Lib::GetLib +* +* @brief +* Get Addr::V2::Lib pointer +* +* @return +* An Addr::V2::Lib class pointer +************************************************************************************************************************ +*/ +Lib* Lib::GetLib( + ADDR_HANDLE hLib) ///< [in] handle of ADDR_HANDLE +{ + Addr::Lib* pAddrLib = Addr::Lib::GetLib(hLib); + if ((pAddrLib != NULL) && + (pAddrLib->GetChipFamily() <= ADDR_CHIP_FAMILY_VI)) + { + // only valid and GFX9+ ASIC can use AddrLib2 function. + ADDR_ASSERT_ALWAYS(); + hLib = NULL; + } + return static_cast(hLib); +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Surface Methods +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceInfo +* +* @brief +* Interface function stub of AddrComputeSurfaceInfo. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceInfo( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + // Adjust coming parameters. + ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; + localIn.width = Max(pIn->width, 1u); + localIn.height = Max(pIn->height, 1u); + localIn.numMipLevels = Max(pIn->numMipLevels, 1u); + localIn.numSlices = Max(pIn->numSlices, 1u); + localIn.numSamples = Max(pIn->numSamples, 1u); + localIn.numFrags = (localIn.numFrags == 0) ? localIn.numSamples : pIn->numFrags; + + UINT_32 expandX = 1; + UINT_32 expandY = 1; + ElemMode elemMode = ADDR_UNCOMPRESSED; + + if (returnCode == ADDR_OK) + { + // Set format to INVALID will skip this conversion + if (localIn.format != ADDR_FMT_INVALID) + { + // Get compression/expansion factors and element mode which indicates compression/expansion + localIn.bpp = GetElemLib()->GetBitsPerPixel(localIn.format, + &elemMode, + &expandX, + &expandY); + + // Special flag for 96 bit surface. 96 (or 48 if we support) bit surface's width is + // pre-multiplied by 3 and bpp is divided by 3. So pitch alignment for linear- + // aligned does not meet 64-pixel in real. We keep special handling in hwl since hw + // restrictions are different. + // Also Mip 1+ needs an element pitch of 32 bits so we do not need this workaround + // but we use this flag to skip RestoreSurfaceInfo below + + if ((elemMode == ADDR_EXPANDED) && (expandX > 1)) + { + ADDR_ASSERT(IsLinear(localIn.swizzleMode)); + } + + UINT_32 basePitch = 0; + GetElemLib()->AdjustSurfaceInfo(elemMode, + expandX, + expandY, + &localIn.bpp, + &basePitch, + &localIn.width, + &localIn.height); + + // Overwrite these parameters if we have a valid format + } + + if (localIn.bpp != 0) + { + localIn.width = Max(localIn.width, 1u); + localIn.height = Max(localIn.height, 1u); + } + else // Rule out some invalid parameters + { + ADDR_ASSERT_ALWAYS(); + + returnCode = ADDR_INVALIDPARAMS; + } + } + + if (returnCode == ADDR_OK) + { + returnCode = ComputeSurfaceInfoSanityCheck(&localIn); + } + + if (returnCode == ADDR_OK) + { + VerifyMipLevelInfo(pIn); + + if (IsLinear(pIn->swizzleMode)) + { + // linear mode + returnCode = ComputeSurfaceInfoLinear(&localIn, pOut); + } + else + { + // tiled mode + returnCode = ComputeSurfaceInfoTiled(&localIn, pOut); + } + + if (returnCode == ADDR_OK) + { + pOut->bpp = localIn.bpp; + pOut->pixelPitch = pOut->pitch; + pOut->pixelHeight = pOut->height; + pOut->pixelMipChainPitch = pOut->mipChainPitch; + pOut->pixelMipChainHeight = pOut->mipChainHeight; + pOut->pixelBits = localIn.bpp; + + if (localIn.format != ADDR_FMT_INVALID) + { + UINT_32 pixelBits = pOut->pixelBits; + + GetElemLib()->RestoreSurfaceInfo(elemMode, + expandX, + expandY, + &pOut->pixelBits, + &pOut->pixelPitch, + &pOut->pixelHeight); + + GetElemLib()->RestoreSurfaceInfo(elemMode, + expandX, + expandY, + &pixelBits, + &pOut->pixelMipChainPitch, + &pOut->pixelMipChainHeight); + + if ((localIn.numMipLevels > 1) && (pOut->pMipInfo != NULL)) + { + for (UINT_32 i = 0; i < localIn.numMipLevels; i++) + { + pOut->pMipInfo[i].pixelPitch = pOut->pMipInfo[i].pitch; + pOut->pMipInfo[i].pixelHeight = pOut->pMipInfo[i].height; + + GetElemLib()->RestoreSurfaceInfo(elemMode, + expandX, + expandY, + &pixelBits, + &pOut->pMipInfo[i].pixelPitch, + &pOut->pMipInfo[i].pixelHeight); + } + } + } + + if (localIn.flags.needEquation && (Log2(localIn.numFrags) == 0)) + { + pOut->equationIndex = GetEquationIndex(&localIn, pOut); + } + + if (localIn.flags.qbStereo) + { + if (pOut->pStereoInfo != NULL) + { + ComputeQbStereoInfo(pOut); + } + } + } + } + + ADDR_ASSERT(pOut->surfSize != 0); + + ValidBaseAlignments(pOut->baseAlign); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceInfo +* +* @brief +* Interface function stub of AddrComputeSurfaceInfo. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoord( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT localIn = *pIn; + localIn.unalignedWidth = Max(pIn->unalignedWidth, 1u); + localIn.unalignedHeight = Max(pIn->unalignedHeight, 1u); + localIn.numMipLevels = Max(pIn->numMipLevels, 1u); + localIn.numSlices = Max(pIn->numSlices, 1u); + localIn.numSamples = Max(pIn->numSamples, 1u); + localIn.numFrags = Max(pIn->numFrags, 1u); + + if ((localIn.bpp < 8) || + (localIn.bpp > 128) || + ((localIn.bpp % 8) != 0) || + (localIn.sample >= localIn.numSamples) || + (localIn.slice >= localIn.numSlices) || + (localIn.mipId >= localIn.numMipLevels) || + (IsTex3d(localIn.resourceType) && + (Valid3DMipSliceIdConstraint(localIn.numSlices, localIn.mipId, localIn.slice) == FALSE))) + { + returnCode = ADDR_INVALIDPARAMS; + } + + if (returnCode == ADDR_OK) + { + if (IsLinear(localIn.swizzleMode)) + { + returnCode = ComputeSurfaceAddrFromCoordLinear(&localIn, pOut); + } + else + { + returnCode = ComputeSurfaceAddrFromCoordTiled(&localIn, pOut); + } + + if (returnCode == ADDR_OK) + { + pOut->prtBlockIndex = static_cast(pOut->addr / (64 * 1024)); + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceCoordFromAddr +* +* @brief +* Interface function stub of ComputeSurfaceCoordFromAddr. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddr( + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (GetFillSizeFieldsFlags() == TRUE) + { + if ((pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT))) + { + returnCode = ADDR_PARAMSIZEMISMATCH; + } + } + + if ((pIn->bpp < 8) || + (pIn->bpp > 128) || + ((pIn->bpp % 8) != 0) || + (pIn->bitPosition >= 8)) + { + returnCode = ADDR_INVALIDPARAMS; + } + + if (returnCode == ADDR_OK) + { + if (IsLinear(pIn->swizzleMode)) + { + returnCode = ComputeSurfaceCoordFromAddrLinear(pIn, pOut); + } + else + { + returnCode = ComputeSurfaceCoordFromAddrTiled(pIn, pOut); + } + } + + return returnCode; +} + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// CMASK/HTILE +//////////////////////////////////////////////////////////////////////////////////////////////////// + +/** +************************************************************************************************************************ +* Lib::ComputeHtileInfo +* +* @brief +* Interface function stub of AddrComputeHtilenfo +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeHtileInfo( + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_HTILE_INFO_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_HTILE_INFO_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeHtileInfo(pIn, pOut); + + ValidMetaBaseAlignments(pOut->baseAlign); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeHtileAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeHtileAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeHtileAddrFromCoord( + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeHtileAddrFromCoord(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeHtileCoordFromAddr +* +* @brief +* Interface function stub of AddrComputeHtileCoordFromAddr +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeHtileCoordFromAddr( + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeHtileCoordFromAddr(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeCmaskInfo +* +* @brief +* Interface function stub of AddrComputeCmaskInfo +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskInfo( + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_CMASK_INFO_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_CMASK_INFO_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else if (pIn->cMaskFlags.linear) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeCmaskInfo(pIn, pOut); + + ValidMetaBaseAlignments(pOut->baseAlign); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeCmaskAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeCmaskAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskAddrFromCoord( + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeCmaskAddrFromCoord(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeCmaskCoordFromAddr +* +* @brief +* Interface function stub of AddrComputeCmaskCoordFromAddr +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeCmaskCoordFromAddr( + const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; + + ADDR_NOT_IMPLEMENTED(); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeFmaskInfo +* +* @brief +* Interface function stub of ComputeFmaskInfo. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeFmaskInfo( + const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) +{ + ADDR_E_RETURNCODE returnCode; + + BOOL_32 valid = (IsZOrderSwizzle(pIn->swizzleMode) == TRUE) && + ((pIn->numSamples > 0) || (pIn->numFrags > 0)); + + if (GetFillSizeFieldsFlags()) + { + if ((pIn->size != sizeof(ADDR2_COMPUTE_FMASK_INFO_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_FMASK_INFO_OUTPUT))) + { + valid = FALSE; + } + } + + if (valid == FALSE) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; + + localIn.size = sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT); + localOut.size = sizeof(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT); + + localIn.swizzleMode = pIn->swizzleMode; + localIn.numSlices = Max(pIn->numSlices, 1u); + localIn.width = Max(pIn->unalignedWidth, 1u); + localIn.height = Max(pIn->unalignedHeight, 1u); + localIn.bpp = GetFmaskBpp(pIn->numSamples, pIn->numFrags); + localIn.flags.fmask = 1; + localIn.numFrags = 1; + localIn.numSamples = 1; + localIn.resourceType = ADDR_RSRC_TEX_2D; + + if (localIn.bpp == 8) + { + localIn.format = ADDR_FMT_8; + } + else if (localIn.bpp == 16) + { + localIn.format = ADDR_FMT_16; + } + else if (localIn.bpp == 32) + { + localIn.format = ADDR_FMT_32; + } + else + { + localIn.format = ADDR_FMT_32_32; + } + + returnCode = ComputeSurfaceInfo(&localIn, &localOut); + + if (returnCode == ADDR_OK) + { + pOut->pitch = localOut.pitch; + pOut->height = localOut.height; + pOut->baseAlign = localOut.baseAlign; + pOut->numSlices = localOut.numSlices; + pOut->fmaskBytes = static_cast(localOut.surfSize); + pOut->sliceSize = static_cast(localOut.sliceSize); + pOut->bpp = localIn.bpp; + pOut->numSamples = 1; + } + } + + ValidBaseAlignments(pOut->baseAlign); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeFmaskAddrFromCoord +* +* @brief +* Interface function stub of ComputeFmaskAddrFromCoord. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeFmaskAddrFromCoord( + const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; + + ADDR_NOT_IMPLEMENTED(); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeFmaskCoordFromAddr +* +* @brief +* Interface function stub of ComputeFmaskAddrFromCoord. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeFmaskCoordFromAddr( + const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; + + ADDR_NOT_IMPLEMENTED(); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeDccInfo +* +* @brief +* Interface function to compute DCC key info +* +* @return +* return code of HwlComputeDccInfo +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeDccInfo( + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_DCCINFO_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_DCCINFO_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeDccInfo(pIn, pOut); + + ValidMetaBaseAlignments(pOut->dccRamBaseAlign); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeDccAddrFromCoord +* +* @brief +* Interface function stub of ComputeDccAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeDccAddrFromCoord( + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeDccAddrFromCoord(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputePipeBankXor +* +* @brief +* Interface function stub of Addr2ComputePipeBankXor. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputePipeBankXor( + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_PIPEBANKXOR_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputePipeBankXor(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSlicePipeBankXor +* +* @brief +* Interface function stub of Addr2ComputeSlicePipeBankXor. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSlicePipeBankXor( + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else if ((IsThin(pIn->resourceType, pIn->swizzleMode) == FALSE) || + (IsNonPrtXor(pIn->swizzleMode) == FALSE) || + (pIn->numSamples > 1)) + { + returnCode = ADDR_NOTSUPPORTED; + } + else + { + returnCode = HwlComputeSlicePipeBankXor(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSubResourceOffsetForSwizzlePattern +* +* @brief +* Interface function stub of Addr2ComputeSubResourceOffsetForSwizzlePattern. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSubResourceOffsetForSwizzlePattern( + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT)) || + (pOut->size != sizeof(ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeSubResourceOffsetForSwizzlePattern(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ExtractPipeBankXor +* +* @brief +* Internal function to extract bank and pipe xor bits from combined xor bits. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ExtractPipeBankXor( + UINT_32 pipeBankXor, + UINT_32 bankBits, + UINT_32 pipeBits, + UINT_32* pBankX, + UINT_32* pPipeX) +{ + ADDR_E_RETURNCODE returnCode; + + if (pipeBankXor < (1u << (pipeBits + bankBits))) + { + *pPipeX = pipeBankXor % (1 << pipeBits); + *pBankX = pipeBankXor >> pipeBits; + returnCode = ADDR_OK; + } + else + { + ADDR_ASSERT_ALWAYS(); + returnCode = ADDR_INVALIDPARAMS; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceInfoSanityCheck +* +* @brief +* Internal function to do basic sanity check before compute surface info +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceInfoSanityCheck( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn ///< [in] input structure + ) const +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + (pIn->size != sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlComputeSurfaceInfoSanityCheck(pIn); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ApplyCustomizedPitchHeight +* +* @brief +* Helper function to override hw required row pitch/slice pitch by customrized one +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ApplyCustomizedPitchHeight( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + UINT_32 elementBytes, ///< [in] element bytes per element + UINT_32 pitchAlignInElement, ///< [in] pitch alignment in element + UINT_32* pPitch, ///< [in/out] pitch + UINT_32* pHeight ///< [in/out] height + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pIn->numMipLevels <= 1) + { + if (pIn->pitchInElement > 0) + { + if ((pIn->pitchInElement % pitchAlignInElement) != 0) + { + returnCode = ADDR_INVALIDPARAMS; + } + else if (pIn->pitchInElement < (*pPitch)) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + *pPitch = pIn->pitchInElement; + } + } + + if (returnCode == ADDR_OK) + { + if (pIn->sliceAlign > 0) + { + UINT_32 customizedHeight = pIn->sliceAlign / elementBytes / (*pPitch); + + if (customizedHeight * elementBytes * (*pPitch) != pIn->sliceAlign) + { + returnCode = ADDR_INVALIDPARAMS; + } + else if ((pIn->numSlices > 1) && ((*pHeight) != customizedHeight)) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + *pHeight = customizedHeight; + } + } + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceInfoLinear +* +* @brief +* Internal function to calculate alignment for linear swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceInfoLinear( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + return HwlComputeSurfaceInfoLinear(pIn, pOut); +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceInfoTiled +* +* @brief +* Internal function to calculate alignment for tiled swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceInfoTiled( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + return HwlComputeSurfaceInfoTiled(pIn, pOut); +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceAddrFromCoordLinear +* +* @brief +* Internal function to calculate address from coord for linear swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoordLinear( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + BOOL_32 valid = (pIn->numSamples <= 1) && (pIn->numFrags <= 1) && (pIn->pipeBankXor == 0); + + if (valid) + { + if (IsTex1d(pIn->resourceType)) + { + valid = (pIn->y == 0); + } + } + + if (valid) + { + ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; + ADDR2_MIP_INFO mipInfo[MaxMipLevels]; + + localIn.bpp = pIn->bpp; + localIn.flags = pIn->flags; + localIn.width = Max(pIn->unalignedWidth, 1u); + localIn.height = Max(pIn->unalignedHeight, 1u); + localIn.numSlices = Max(pIn->numSlices, 1u); + localIn.numMipLevels = Max(pIn->numMipLevels, 1u); + localIn.resourceType = pIn->resourceType; + + if (localIn.numMipLevels <= 1) + { + localIn.pitchInElement = pIn->pitchInElement; + } + + localOut.pMipInfo = mipInfo; + + returnCode = ComputeSurfaceInfoLinear(&localIn, &localOut); + + if (returnCode == ADDR_OK) + { + pOut->addr = (localOut.sliceSize * pIn->slice) + + mipInfo[pIn->mipId].offset + + (pIn->y * mipInfo[pIn->mipId].pitch + pIn->x) * (pIn->bpp >> 3); + pOut->bitPosition = 0; + } + else + { + valid = FALSE; + } + } + + if (valid == FALSE) + { + returnCode = ADDR_INVALIDPARAMS; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceAddrFromCoordTiled +* +* @brief +* Internal function to calculate address from coord for tiled swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceAddrFromCoordTiled( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + return HwlComputeSurfaceAddrFromCoordTiled(pIn, pOut); +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceCoordFromAddrLinear +* +* @brief +* Internal function to calculate coord from address for linear swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddrLinear( + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + BOOL_32 valid = (pIn->numSamples <= 1) && (pIn->numFrags <= 1); + + if (valid) + { + if (IsTex1d(pIn->resourceType)) + { + valid = (pIn->unalignedHeight == 1); + } + } + + if (valid) + { + ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; + localIn.bpp = pIn->bpp; + localIn.flags = pIn->flags; + localIn.width = Max(pIn->unalignedWidth, 1u); + localIn.height = Max(pIn->unalignedHeight, 1u); + localIn.numSlices = Max(pIn->numSlices, 1u); + localIn.numMipLevels = Max(pIn->numMipLevels, 1u); + localIn.resourceType = pIn->resourceType; + if (localIn.numMipLevels <= 1) + { + localIn.pitchInElement = pIn->pitchInElement; + } + returnCode = ComputeSurfaceInfoLinear(&localIn, &localOut); + + if (returnCode == ADDR_OK) + { + pOut->slice = static_cast(pIn->addr / localOut.sliceSize); + pOut->sample = 0; + + UINT_32 offsetInSlice = static_cast(pIn->addr % localOut.sliceSize); + UINT_32 elementBytes = pIn->bpp >> 3; + UINT_32 mipOffsetInSlice = 0; + UINT_32 mipSize = 0; + UINT_32 mipId = 0; + for (; mipId < pIn->numMipLevels ; mipId++) + { + if (IsTex1d(pIn->resourceType)) + { + mipSize = localOut.pitch * elementBytes; + } + else + { + UINT_32 currentMipHeight = (PowTwoAlign(localIn.height, (1 << mipId))) >> mipId; + mipSize = currentMipHeight * localOut.pitch * elementBytes; + } + + if (mipSize == 0) + { + valid = FALSE; + break; + } + else if ((mipSize + mipOffsetInSlice) > offsetInSlice) + { + break; + } + else + { + mipOffsetInSlice += mipSize; + if ((mipId == (pIn->numMipLevels - 1)) || + (mipOffsetInSlice >= localOut.sliceSize)) + { + valid = FALSE; + } + } + } + + if (valid) + { + pOut->mipId = mipId; + + UINT_32 elemOffsetInMip = (offsetInSlice - mipOffsetInSlice) / elementBytes; + if (IsTex1d(pIn->resourceType)) + { + if (elemOffsetInMip < localOut.pitch) + { + pOut->x = elemOffsetInMip; + pOut->y = 0; + } + else + { + valid = FALSE; + } + } + else + { + pOut->y = elemOffsetInMip / localOut.pitch; + pOut->x = elemOffsetInMip % localOut.pitch; + } + + if ((pOut->slice >= pIn->numSlices) || + (pOut->mipId >= pIn->numMipLevels) || + (pOut->x >= Max((pIn->unalignedWidth >> pOut->mipId), 1u)) || + (pOut->y >= Max((pIn->unalignedHeight >> pOut->mipId), 1u)) || + (IsTex3d(pIn->resourceType) && + (FALSE == Valid3DMipSliceIdConstraint(pIn->numSlices, + pOut->mipId, + pOut->slice)))) + { + valid = FALSE; + } + } + } + else + { + valid = FALSE; + } + } + + if (valid == FALSE) + { + returnCode = ADDR_INVALIDPARAMS; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurfaceCoordFromAddrTiled +* +* @brief +* Internal function to calculate coord from address for tiled swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeSurfaceCoordFromAddrTiled( + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_NOTIMPLEMENTED; + + ADDR_NOT_IMPLEMENTED(); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeBlockDimensionForSurf +* +* @brief +* Internal function to get block width/height/depth in element from surface input params. +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeBlockDimensionForSurf( + UINT_32* pWidth, + UINT_32* pHeight, + UINT_32* pDepth, + UINT_32 bpp, + UINT_32 numSamples, + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const +{ + ADDR_E_RETURNCODE returnCode = ComputeBlockDimension(pWidth, + pHeight, + pDepth, + bpp, + resourceType, + swizzleMode); + + if ((returnCode == ADDR_OK) && (numSamples > 1) && IsThin(resourceType, swizzleMode)) + { + const UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); + const UINT_32 log2sample = Log2(numSamples); + const UINT_32 q = log2sample >> 1; + const UINT_32 r = log2sample & 1; + + if (log2blkSize & 1) + { + *pWidth >>= q; + *pHeight >>= (q + r); + } + else + { + *pWidth >>= (q + r); + *pHeight >>= q; + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeBlockDimension +* +* @brief +* Internal function to get block width/height/depth in element without considering MSAA case +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeBlockDimension( + UINT_32* pWidth, + UINT_32* pHeight, + UINT_32* pDepth, + UINT_32 bpp, + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + UINT_32 eleBytes = bpp >> 3; + UINT_32 microBlockSizeTableIndex = Log2(eleBytes); + UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); + + if (IsThin(resourceType, swizzleMode)) + { + UINT_32 log2blkSizeIn256B = log2blkSize - 8; + UINT_32 widthAmp = log2blkSizeIn256B / 2; + UINT_32 heightAmp = log2blkSizeIn256B - widthAmp; + + ADDR_ASSERT(microBlockSizeTableIndex < sizeof(Block256_2d) / sizeof(Block256_2d[0])); + + *pWidth = (Block256_2d[microBlockSizeTableIndex].w << widthAmp); + *pHeight = (Block256_2d[microBlockSizeTableIndex].h << heightAmp); + *pDepth = 1; + } + else if (IsThick(resourceType, swizzleMode)) + { + UINT_32 log2blkSizeIn1KB = log2blkSize - 10; + UINT_32 averageAmp = log2blkSizeIn1KB / 3; + UINT_32 restAmp = log2blkSizeIn1KB % 3; + + ADDR_ASSERT(microBlockSizeTableIndex < sizeof(Block1K_3d) / sizeof(Block1K_3d[0])); + + *pWidth = Block1K_3d[microBlockSizeTableIndex].w << averageAmp; + *pHeight = Block1K_3d[microBlockSizeTableIndex].h << (averageAmp + (restAmp / 2)); + *pDepth = Block1K_3d[microBlockSizeTableIndex].d << (averageAmp + ((restAmp != 0) ? 1 : 0)); + } + else + { + ADDR_ASSERT_ALWAYS(); + returnCode = ADDR_INVALIDPARAMS; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::GetMipTailDim +* +* @brief +* Internal function to get out max dimension of first level in mip tail +* +* @return +* Max Width/Height/Depth value of the first mip fitted in mip tail +************************************************************************************************************************ +*/ +Dim3d Lib::GetMipTailDim( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 blockWidth, + UINT_32 blockHeight, + UINT_32 blockDepth) const +{ + Dim3d out = {blockWidth, blockHeight, blockDepth}; + UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); + + if (IsThick(resourceType, swizzleMode)) + { + UINT_32 dim = log2blkSize % 3; + + if (dim == 0) + { + out.h >>= 1; + } + else if (dim == 1) + { + out.w >>= 1; + } + else + { + out.d >>= 1; + } + } + else + { + if (log2blkSize & 1) + { + out.h >>= 1; + } + else + { + out.w >>= 1; + } + } + + return out; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurface2DMicroBlockOffset +* +* @brief +* Internal function to calculate micro block (256B) offset from coord for 2D resource +* +* @return +* micro block (256B) offset for 2D resource +************************************************************************************************************************ +*/ +UINT_32 Lib::ComputeSurface2DMicroBlockOffset( + const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const +{ + ADDR_ASSERT(IsThin(pIn->resourceType, pIn->swizzleMode)); + + UINT_32 log2ElementBytes = Log2(pIn->bpp >> 3); + UINT_32 microBlockOffset = 0; + if (IsStandardSwizzle(pIn->resourceType, pIn->swizzleMode)) + { + UINT_32 xBits = pIn->x << log2ElementBytes; + microBlockOffset = (xBits & 0xf) | ((pIn->y & 0x3) << 4); + if (log2ElementBytes < 3) + { + microBlockOffset |= (pIn->y & 0x4) << 4; + if (log2ElementBytes == 0) + { + microBlockOffset |= (pIn->y & 0x8) << 4; + } + else + { + microBlockOffset |= (xBits & 0x10) << 3; + } + } + else + { + microBlockOffset |= (xBits & 0x30) << 2; + } + } + else if (IsDisplaySwizzle(pIn->resourceType, pIn->swizzleMode)) + { + if (log2ElementBytes == 4) + { + microBlockOffset = (GetBit(pIn->x, 0) << 4) | + (GetBit(pIn->y, 0) << 5) | + (GetBit(pIn->x, 1) << 6) | + (GetBit(pIn->y, 1) << 7); + } + else + { + microBlockOffset = GetBits(pIn->x, 0, 3, log2ElementBytes) | + GetBits(pIn->y, 1, 2, 3 + log2ElementBytes) | + GetBits(pIn->x, 3, 1, 5 + log2ElementBytes) | + GetBits(pIn->y, 3, 1, 6 + log2ElementBytes); + microBlockOffset = GetBits(microBlockOffset, 0, 4, 0) | + (GetBit(pIn->y, 0) << 4) | + GetBits(microBlockOffset, 4, 3, 5); + } + } + else if (IsRotateSwizzle(pIn->swizzleMode)) + { + microBlockOffset = GetBits(pIn->y, 0, 3, log2ElementBytes) | + GetBits(pIn->x, 1, 2, 3 + log2ElementBytes) | + GetBits(pIn->x, 3, 1, 5 + log2ElementBytes) | + GetBits(pIn->y, 3, 1, 6 + log2ElementBytes); + microBlockOffset = GetBits(microBlockOffset, 0, 4, 0) | + (GetBit(pIn->x, 0) << 4) | + GetBits(microBlockOffset, 4, 3, 5); + if (log2ElementBytes == 3) + { + microBlockOffset = GetBits(microBlockOffset, 0, 6, 0) | + GetBits(pIn->x, 1, 2, 6); + } + } + + return microBlockOffset; +} + +/** +************************************************************************************************************************ +* Lib::ComputeSurface3DMicroBlockOffset +* +* @brief +* Internal function to calculate micro block (1KB) offset from coord for 3D resource +* +* @return +* micro block (1KB) offset for 3D resource +************************************************************************************************************************ +*/ +UINT_32 Lib::ComputeSurface3DMicroBlockOffset( + const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const +{ + ADDR_ASSERT(IsThick(pIn->resourceType, pIn->swizzleMode)); + + UINT_32 log2ElementBytes = Log2(pIn->bpp >> 3); + UINT_32 microBlockOffset = 0; + if (IsStandardSwizzle(pIn->resourceType, pIn->swizzleMode)) + { + if (log2ElementBytes == 0) + { + microBlockOffset = ((pIn->slice & 4) >> 2) | ((pIn->y & 4) >> 1); + } + else if (log2ElementBytes == 1) + { + microBlockOffset = ((pIn->slice & 4) >> 2) | ((pIn->y & 4) >> 1); + } + else if (log2ElementBytes == 2) + { + microBlockOffset = ((pIn->y & 4) >> 2) | ((pIn->x & 4) >> 1); + } + else if (log2ElementBytes == 3) + { + microBlockOffset = (pIn->x & 6) >> 1; + } + else + { + microBlockOffset = pIn->x & 3; + } + + microBlockOffset <<= 8; + + UINT_32 xBits = pIn->x << log2ElementBytes; + microBlockOffset |= (xBits & 0xf) | ((pIn->y & 0x3) << 4) | ((pIn->slice & 0x3) << 6); + } + else if (IsZOrderSwizzle(pIn->swizzleMode)) + { + UINT_32 xh, yh, zh; + + if (log2ElementBytes == 0) + { + microBlockOffset = + (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->x & 2) << 1) | ((pIn->y & 2) << 2); + microBlockOffset = microBlockOffset | ((pIn->slice & 3) << 4) | ((pIn->x & 4) << 4); + + xh = pIn->x >> 3; + yh = pIn->y >> 2; + zh = pIn->slice >> 2; + } + else if (log2ElementBytes == 1) + { + microBlockOffset = + (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->x & 2) << 1) | ((pIn->y & 2) << 2); + microBlockOffset = (microBlockOffset << 1) | ((pIn->slice & 3) << 5); + + xh = pIn->x >> 2; + yh = pIn->y >> 2; + zh = pIn->slice >> 2; + } + else if (log2ElementBytes == 2) + { + microBlockOffset = + (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->x & 2) << 1) | ((pIn->slice & 1) << 3); + microBlockOffset = (microBlockOffset << 2) | ((pIn->y & 2) << 5); + + xh = pIn->x >> 2; + yh = pIn->y >> 2; + zh = pIn->slice >> 1; + } + else if (log2ElementBytes == 3) + { + microBlockOffset = + (pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->slice & 1) << 2) | ((pIn->x & 2) << 2); + microBlockOffset <<= 3; + + xh = pIn->x >> 2; + yh = pIn->y >> 1; + zh = pIn->slice >> 1; + } + else + { + microBlockOffset = + (((pIn->x & 1) | ((pIn->y & 1) << 1) | ((pIn->slice & 1) << 2)) << 4); + + xh = pIn->x >> 1; + yh = pIn->y >> 1; + zh = pIn->slice >> 1; + } + + microBlockOffset |= ((MortonGen3d(xh, yh, zh, 1) << 7) & 0x380); + } + + return microBlockOffset; +} + +/** +************************************************************************************************************************ +* Lib::GetPipeXorBits +* +* @brief +* Internal function to get bits number for pipe/se xor operation +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +UINT_32 Lib::GetPipeXorBits( + UINT_32 macroBlockBits) const +{ + ADDR_ASSERT(macroBlockBits >= m_pipeInterleaveLog2); + + // Total available xor bits + UINT_32 xorBits = macroBlockBits - m_pipeInterleaveLog2; + + // Pipe/Se xor bits + UINT_32 pipeBits = Min(xorBits, m_pipesLog2 + m_seLog2); + + return pipeBits; +} + +/** +************************************************************************************************************************ +* Lib::GetBankXorBits +* +* @brief +* Internal function to get bits number for pipe/se xor operation +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +UINT_32 Lib::GetBankXorBits( + UINT_32 macroBlockBits) const +{ + UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); + + // Bank xor bits + UINT_32 bankBits = Min(macroBlockBits - pipeBits - m_pipeInterleaveLog2, m_banksLog2); + + return bankBits; +} + +/** +************************************************************************************************************************ +* Lib::Addr2GetPreferredSurfaceSetting +* +* @brief +* Internal function to get suggested surface information for cliet to use +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::Addr2GetPreferredSurfaceSetting( + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode; + + if ((GetFillSizeFieldsFlags() == TRUE) && + ((pIn->size != sizeof(ADDR2_GET_PREFERRED_SURF_SETTING_INPUT)) || + (pOut->size != sizeof(ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT)))) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + returnCode = HwlGetPreferredSurfaceSetting(pIn, pOut); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Lib::ComputeBlock256Equation +* +* @brief +* Compute equation for block 256B +* +* @return +* If equation computed successfully +* +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeBlock256Equation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const +{ + ADDR_E_RETURNCODE ret; + + if (IsBlock256b(swMode)) + { + ret = HwlComputeBlock256Equation(rsrcType, swMode, elementBytesLog2, pEquation); + } + else + { + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + } + + return ret; +} + +/** +************************************************************************************************************************ +* Lib::ComputeThinEquation +* +* @brief +* Compute equation for 2D/3D resource which use THIN mode +* +* @return +* If equation computed successfully +* +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeThinEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const +{ + ADDR_E_RETURNCODE ret; + + if (IsThin(rsrcType, swMode)) + { + ret = HwlComputeThinEquation(rsrcType, swMode, elementBytesLog2, pEquation); + } + else + { + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + } + + return ret; +} + +/** +************************************************************************************************************************ +* Lib::ComputeThickEquation +* +* @brief +* Compute equation for 3D resource which use THICK mode +* +* @return +* If equation computed successfully +* +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Lib::ComputeThickEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const +{ + ADDR_E_RETURNCODE ret; + + if (IsThick(rsrcType, swMode)) + { + ret = HwlComputeThickEquation(rsrcType, swMode, elementBytesLog2, pEquation); + } + else + { + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + } + + return ret; +} + +/** +************************************************************************************************************************ +* Lib::ComputeQbStereoInfo +* +* @brief +* Get quad buffer stereo information +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Lib::ComputeQbStereoInfo( + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] updated pOut+pStereoInfo + ) const +{ + ADDR_ASSERT(pOut->bpp >= 8); + ADDR_ASSERT((pOut->surfSize % pOut->baseAlign) == 0); + + // Save original height + pOut->pStereoInfo->eyeHeight = pOut->height; + + // Right offset + pOut->pStereoInfo->rightOffset = static_cast(pOut->surfSize); + + // Double height + pOut->height <<= 1; + + ADDR_ASSERT(pOut->height <= MaxSurfaceHeight); + + pOut->pixelHeight <<= 1; + + // Double size + pOut->surfSize <<= 1; +} + +} // V2 +} // Addr + diff --git a/src/amd/addrlib/src/core/addrlib2.h b/src/amd/addrlib/src/core/addrlib2.h new file mode 100644 index 00000000000..e72dd43678d --- /dev/null +++ b/src/amd/addrlib/src/core/addrlib2.h @@ -0,0 +1,836 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +************************************************************************************************************************ +* @file addrlib2.h +* @brief Contains the Addr::V2::Lib class definition. +************************************************************************************************************************ +*/ + +#ifndef __ADDR2_LIB2_H__ +#define __ADDR2_LIB2_H__ + +#include "addrlib.h" + +namespace Addr +{ +namespace V2 +{ + +/** +************************************************************************************************************************ +* @brief Flags for SwizzleModeTable +************************************************************************************************************************ +*/ +struct SwizzleModeFlags +{ + // Swizzle mode + UINT_32 isLinear : 1; // Linear + + // Block size + UINT_32 is256b : 1; // Block size is 256B + UINT_32 is4kb : 1; // Block size is 4KB + UINT_32 is64kb : 1; // Block size is 64KB + UINT_32 isVar : 1; // Block size is variable + + UINT_32 isZ : 1; // Z order swizzle mode + UINT_32 isStd : 1; // Standard swizzle mode + UINT_32 isDisp : 1; // Display swizzle mode + UINT_32 isRot : 1; // Rotate swizzle mode + + // XOR mode + UINT_32 isXor : 1; // XOR after swizzle if set + + UINT_32 isT : 1; // T mode + + UINT_32 isRtOpt : 1; // mode opt for render target +}; + +struct Dim2d +{ + UINT_32 w; + UINT_32 h; +}; + +struct Dim3d +{ + UINT_32 w; + UINT_32 h; + UINT_32 d; +}; + +// Macro define resource block type +enum AddrBlockType +{ + AddrBlockMicro = 0, // Resource uses 256B block + AddrBlock4KB = 1, // Resource uses 4KB block + AddrBlock64KB = 2, // Resource uses 64KB block + AddrBlockVar = 3, // Resource uses var block, only valid for GFX9 + AddrBlockLinear = 4, // Resource uses linear swizzle mode + + AddrBlockMaxTiledType = AddrBlock64KB + 1, +}; + +enum AddrBlockSet +{ + AddrBlockSetMicro = 1 << AddrBlockMicro, + AddrBlockSetMacro4KB = 1 << AddrBlock4KB, + AddrBlockSetMacro64KB = 1 << AddrBlock64KB, + AddrBlockSetVar = 1 << AddrBlockVar, + AddrBlockSetLinear = 1 << AddrBlockLinear, + + AddrBlockSetMacro = AddrBlockSetMacro4KB | AddrBlockSetMacro64KB, +}; + +enum AddrSwSet +{ + AddrSwSetZ = 1 << ADDR_SW_Z, + AddrSwSetS = 1 << ADDR_SW_S, + AddrSwSetD = 1 << ADDR_SW_D, + AddrSwSetR = 1 << ADDR_SW_R, + + AddrSwSetAll = AddrSwSetZ | AddrSwSetS | AddrSwSetD | AddrSwSetR, +}; + +/** +************************************************************************************************************************ +* @brief This class contains asic independent address lib functionalities +************************************************************************************************************************ +*/ +class Lib : public Addr::Lib +{ +public: + virtual ~Lib(); + + static Lib* GetLib( + ADDR_HANDLE hLib); + + // + // Interface stubs + // + + // For data surface + ADDR_E_RETURNCODE ComputeSurfaceInfo( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoord( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddr( + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; + + // For HTile + ADDR_E_RETURNCODE ComputeHtileInfo( + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeHtileAddrFromCoord( + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); + + ADDR_E_RETURNCODE ComputeHtileCoordFromAddr( + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); + + // For CMask + ADDR_E_RETURNCODE ComputeCmaskInfo( + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeCmaskAddrFromCoord( + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); + + ADDR_E_RETURNCODE ComputeCmaskCoordFromAddr( + const ADDR2_COMPUTE_CMASK_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_CMASK_COORDFROMADDR_OUTPUT* pOut) const; + + // For FMask + ADDR_E_RETURNCODE ComputeFmaskInfo( + const ADDR2_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR2_COMPUTE_FMASK_INFO_OUTPUT* pOut); + + ADDR_E_RETURNCODE ComputeFmaskAddrFromCoord( + const ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeFmaskCoordFromAddr( + const ADDR2_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; + + // For DCC key + ADDR_E_RETURNCODE ComputeDccInfo( + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeDccAddrFromCoord( + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut); + + // Misc + ADDR_E_RETURNCODE ComputePipeBankXor( + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut); + + ADDR_E_RETURNCODE ComputeSlicePipeBankXor( + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut); + + ADDR_E_RETURNCODE ComputeSubResourceOffsetForSwizzlePattern( + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut); + + ADDR_E_RETURNCODE Addr2GetPreferredSurfaceSetting( + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const; + + virtual BOOL_32 IsValidDisplaySwizzleMode( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTIMPLEMENTED; + } + +protected: + Lib(); // Constructor is protected + Lib(const Client* pClient); + + static const UINT_32 MaxNumOfBpp = 5; + static const UINT_32 MaxNumOfAA = 4; + + static const Dim2d Block256_2d[MaxNumOfBpp]; + static const Dim3d Block1K_3d[MaxNumOfBpp]; + + static const UINT_32 PrtAlignment = 64 * 1024; + static const UINT_32 MaxMacroBits = 20; + + static const UINT_32 MaxMipLevels = 16; + + // Checking block size + BOOL_32 IsBlock256b(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].is256b; + } + + BOOL_32 IsBlock4kb(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].is4kb; + } + + BOOL_32 IsBlock64kb(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].is64kb; + } + + BOOL_32 IsBlockVariable(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isVar; + } + + // Checking swizzle mode + BOOL_32 IsLinear(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isLinear; + } + + BOOL_32 IsRtOptSwizzle(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isRtOpt; + } + + BOOL_32 IsZOrderSwizzle(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isZ; + } + + BOOL_32 IsStandardSwizzle(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isStd; + } + + BOOL_32 IsDisplaySwizzle(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isDisp; + } + + BOOL_32 IsRotateSwizzle(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isRot; + } + + BOOL_32 IsStandardSwizzle(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const + { + return HwlIsStandardSwizzle(resourceType, swizzleMode); + } + + BOOL_32 IsDisplaySwizzle(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const + { + return HwlIsDisplaySwizzle(resourceType, swizzleMode); + } + + BOOL_32 IsXor(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isXor; + } + + BOOL_32 IsPrt(AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isT; + } + + BOOL_32 IsNonPrtXor(AddrSwizzleMode swizzleMode) const + { + return (IsXor(swizzleMode) && (IsPrt(swizzleMode) == FALSE)); + } + + // Checking resource type + static BOOL_32 IsTex1d(AddrResourceType resourceType) + { + return (resourceType == ADDR_RSRC_TEX_1D); + } + + static BOOL_32 IsTex2d(AddrResourceType resourceType) + { + return (resourceType == ADDR_RSRC_TEX_2D); + } + + static BOOL_32 IsTex3d(AddrResourceType resourceType) + { + return (resourceType == ADDR_RSRC_TEX_3D); + } + + BOOL_32 IsThick(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const + { + return HwlIsThick(resourceType, swizzleMode); + } + + BOOL_32 IsThin(AddrResourceType resourceType, AddrSwizzleMode swizzleMode) const + { + return HwlIsThin(resourceType, swizzleMode); + } + + UINT_32 GetBlockSizeLog2(AddrSwizzleMode swizzleMode) const + { + UINT_32 blockSizeLog2 = 0; + + if (IsBlock256b(swizzleMode) || IsLinear(swizzleMode)) + { + blockSizeLog2 = 8; + } + else if (IsBlock4kb(swizzleMode)) + { + blockSizeLog2 = 12; + } + else if (IsBlock64kb(swizzleMode)) + { + blockSizeLog2 = 16; + } + else if (IsBlockVariable(swizzleMode)) + { + blockSizeLog2 = m_blockVarSizeLog2; + } + else + { + ADDR_ASSERT_ALWAYS(); + } + + return blockSizeLog2; + } + + UINT_32 GetBlockSize(AddrSwizzleMode swizzleMode) const + { + return (1 << GetBlockSizeLog2(swizzleMode)); + } + + static UINT_32 GetFmaskBpp(UINT_32 sample, UINT_32 frag) + { + sample = (sample == 0) ? 1 : sample; + frag = (frag == 0) ? sample : frag; + + UINT_32 fmaskBpp = QLog2(frag); + + if (sample > frag) + { + fmaskBpp++; + } + + if (fmaskBpp == 3) + { + fmaskBpp = 4; + } + + fmaskBpp = Max(8u, fmaskBpp * sample); + + return fmaskBpp; + } + + virtual BOOL_32 HwlIsStandardSwizzle( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + ADDR_NOT_IMPLEMENTED(); + return FALSE; + } + + virtual BOOL_32 HwlIsDisplaySwizzle( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + ADDR_NOT_IMPLEMENTED(); + return FALSE; + } + + virtual BOOL_32 HwlIsThin( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + ADDR_NOT_IMPLEMENTED(); + return FALSE; + } + + virtual BOOL_32 HwlIsThick( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + ADDR_NOT_IMPLEMENTED(); + return FALSE; + } + + virtual ADDR_E_RETURNCODE HwlComputeHtileInfo( + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeCmaskInfo( + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeDccInfo( + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeDccAddrFromCoord( + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeHtileCoordFromAddr( + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeBlock256Equation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeThinEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeThickEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual UINT_32 HwlGetEquationIndex( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_INVALID_EQUATION_INDEX; + } + + UINT_32 GetEquationIndex( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const + { + return HwlGetEquationIndex(pIn, pOut); + } + + virtual ADDR_E_RETURNCODE HwlComputePipeBankXor( + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeSlicePipeBankXor( + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeSubResourceOffsetForSwizzlePattern( + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlGetPreferredSurfaceSetting( + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoSanityCheck( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTSUPPORTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoTiled( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTIMPLEMENTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoLinear( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTIMPLEMENTED; + } + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoordTiled( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const + { + ADDR_NOT_IMPLEMENTED(); + return ADDR_NOTIMPLEMENTED; + } + + ADDR_E_RETURNCODE ComputeBlock256Equation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const; + + ADDR_E_RETURNCODE ComputeThinEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const; + + ADDR_E_RETURNCODE ComputeThickEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const; + + ADDR_E_RETURNCODE ComputeSurfaceInfoSanityCheck( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const; + + ADDR_E_RETURNCODE ComputeSurfaceInfoLinear( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceInfoTiled( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoordLinear( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceAddrFromCoordTiled( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddrLinear( + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE ComputeSurfaceCoordFromAddrTiled( + const ADDR2_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; + + UINT_32 ComputeSurface2DMicroBlockOffset( + const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const; + + UINT_32 ComputeSurface3DMicroBlockOffset( + const _ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn) const; + + // Misc + ADDR_E_RETURNCODE ComputeBlockDimensionForSurf( + UINT_32* pWidth, + UINT_32* pHeight, + UINT_32* pDepth, + UINT_32 bpp, + UINT_32 numSamples, + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const; + + ADDR_E_RETURNCODE ComputeBlockDimension( + UINT_32* pWidth, + UINT_32* pHeight, + UINT_32* pDepth, + UINT_32 bpp, + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const; + + static UINT_64 ComputePadSize( + const Dim3d* pBlkDim, + UINT_32 width, + UINT_32 height, + UINT_32 numSlices, + Dim3d* pPadDim) + { + pPadDim->w = PowTwoAlign(width ,pBlkDim->w); + pPadDim->h = PowTwoAlign(height ,pBlkDim->h); + pPadDim->d = PowTwoAlign(numSlices, pBlkDim->d); + return static_cast(pPadDim->w) * pPadDim->h * pPadDim->d; + } + + static ADDR_E_RETURNCODE ExtractPipeBankXor( + UINT_32 pipeBankXor, + UINT_32 bankBits, + UINT_32 pipeBits, + UINT_32* pBankX, + UINT_32* pPipeX); + + static BOOL_32 Valid3DMipSliceIdConstraint( + UINT_32 numSlices, + UINT_32 mipId, + UINT_32 slice) + { + return (Max((numSlices >> mipId), 1u) > slice); + } + + Dim3d GetMipTailDim( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 blockWidth, + UINT_32 blockHeight, + UINT_32 blockDepth) const; + + BOOL_32 IsInMipTail( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + Dim3d mipTailDim, + UINT_32 width, + UINT_32 height, + UINT_32 depth) const + { + BOOL_32 inTail = ((width <= mipTailDim.w) && + (height <= mipTailDim.h) && + (IsThin(resourceType, swizzleMode) || (depth <= mipTailDim.d))); + + return inTail; + } + + static BOOL_32 IsLocalHeap(AddrResrouceLocation resourceType) + { + return ((resourceType == ADDR_RSRC_LOC_LOCAL) || + (resourceType == ADDR_RSRC_LOC_INVIS)); + } + + static BOOL_32 IsInvisibleHeap(AddrResrouceLocation resourceType) + { + return (resourceType == ADDR_RSRC_LOC_INVIS); + } + + static BOOL_32 IsNonlocalHeap(AddrResrouceLocation resourceType) + { + return ((resourceType == ADDR_RSRC_LOC_USWC) || + (resourceType == ADDR_RSRC_LOC_CACHED)); + } + + UINT_32 GetPipeLog2ForMetaAddressing(BOOL_32 pipeAligned, AddrSwizzleMode swizzleMode) const + { + UINT_32 numPipeLog2 = pipeAligned ? Min(m_pipesLog2 + m_seLog2, 5u) : 0; + + if (IsXor(swizzleMode)) + { + UINT_32 maxPipeLog2 = GetBlockSizeLog2(swizzleMode) - m_pipeInterleaveLog2; + + numPipeLog2 = Min(numPipeLog2, maxPipeLog2); + } + + return numPipeLog2; + } + + UINT_32 GetPipeNumForMetaAddressing(BOOL_32 pipeAligned, AddrSwizzleMode swizzleMode) const + { + return (1 << GetPipeLog2ForMetaAddressing(pipeAligned, swizzleMode)); + } + + VOID VerifyMipLevelInfo(const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const + { +#if DEBUG + if (pIn->numMipLevels > 1) + { + UINT_32 actualMipLevels = 1; + switch (pIn->resourceType) + { + case ADDR_RSRC_TEX_3D: + // Fall through to share 2D case + actualMipLevels = Max(actualMipLevels, Log2NonPow2(pIn->numSlices) + 1); + case ADDR_RSRC_TEX_2D: + // Fall through to share 1D case + actualMipLevels = Max(actualMipLevels, Log2NonPow2(pIn->height) + 1); + case ADDR_RSRC_TEX_1D: + // Base 1D case + actualMipLevels = Max(actualMipLevels, Log2NonPow2(pIn->width) + 1); + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + // Client pass wrong number of MipLevels to addrlib and result will be bad. + // Not sure if we should fail this calling instead of putting an assertion here. + ADDR_ASSERT(actualMipLevels >= pIn->numMipLevels); + } +#endif + } + + ADDR_E_RETURNCODE ApplyCustomerPipeBankXor( + AddrSwizzleMode swizzleMode, + UINT_32 pipeBankXor, + UINT_32 bankBits, + UINT_32 pipeBits, + UINT_32* pBlockOffset) const + { + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (IsXor(swizzleMode)) + { + // Apply driver set bankPipeXor + UINT_32 bankX = 0; + UINT_32 pipeX = 0; + returnCode = ExtractPipeBankXor(pipeBankXor, bankBits, pipeBits, &bankX, &pipeX); + *pBlockOffset ^= (pipeX << m_pipeInterleaveLog2); + *pBlockOffset ^= (bankX << (m_pipeInterleaveLog2 + pipeBits)); + } + + return returnCode; + } + + UINT_32 GetPipeXorBits(UINT_32 macroBlockBits) const; + UINT_32 GetBankXorBits(UINT_32 macroBlockBits) const; + + ADDR_E_RETURNCODE ApplyCustomizedPitchHeight( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + UINT_32 elementBytes, + UINT_32 pitchAlignInElement, + UINT_32* pPitch, + UINT_32* pHeight) const; + + VOID ComputeQbStereoInfo(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + UINT_32 m_se; ///< Number of shader engine + UINT_32 m_rbPerSe; ///< Number of render backend per shader engine + UINT_32 m_maxCompFrag; ///< Number of max compressed fragment + + UINT_32 m_banksLog2; ///< Number of bank Log2 + UINT_32 m_pipesLog2; ///< Number of pipe per shader engine Log2 + UINT_32 m_seLog2; ///< Number of shader engine Log2 + UINT_32 m_rbPerSeLog2; ///< Number of render backend per shader engine Log2 + UINT_32 m_maxCompFragLog2; ///< Number of max compressed fragment Log2 + + UINT_32 m_pipeInterleaveLog2; ///< Log2 of pipe interleave bytes + + UINT_32 m_blockVarSizeLog2; ///< Log2 of block var size + + SwizzleModeFlags m_swizzleModeTable[ADDR_SW_MAX_TYPE]; ///< Swizzle mode table + +private: + // Disallow the copy constructor + Lib(const Lib& a); + + // Disallow the assignment operator + Lib& operator=(const Lib& a); +}; + +} // V2 +} // Addr + +#endif + diff --git a/src/amd/addrlib/src/core/addrobject.cpp b/src/amd/addrlib/src/core/addrobject.cpp new file mode 100644 index 00000000000..5f262c3e9e2 --- /dev/null +++ b/src/amd/addrlib/src/core/addrobject.cpp @@ -0,0 +1,233 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrobject.cpp +* @brief Contains the Object base class implementation. +**************************************************************************************************** +*/ + +#include "addrinterface.h" +#include "addrobject.h" + +namespace Addr +{ + +/** +**************************************************************************************************** +* Object::Object +* +* @brief +* Constructor for the Object class. +**************************************************************************************************** +*/ +Object::Object() +{ + m_client.handle = NULL; + m_client.callbacks.allocSysMem = NULL; + m_client.callbacks.freeSysMem = NULL; + m_client.callbacks.debugPrint = NULL; +} + +/** +**************************************************************************************************** +* Object::Object +* +* @brief +* Constructor for the Object class. +**************************************************************************************************** +*/ +Object::Object(const Client* pClient) +{ + m_client = *pClient; +} + +/** +**************************************************************************************************** +* Object::~Object +* +* @brief +* Destructor for the Object class. +**************************************************************************************************** +*/ +Object::~Object() +{ +} + +/** +**************************************************************************************************** +* Object::ClientAlloc +* +* @brief +* Calls instanced allocSysMem inside Client +**************************************************************************************************** +*/ +VOID* Object::ClientAlloc( + size_t objSize, ///< [in] Size to allocate + const Client* pClient) ///< [in] Client pointer +{ + VOID* pObjMem = NULL; + + if (pClient->callbacks.allocSysMem != NULL) + { + ADDR_ALLOCSYSMEM_INPUT allocInput = {0}; + + allocInput.size = sizeof(ADDR_ALLOCSYSMEM_INPUT); + allocInput.flags.value = 0; + allocInput.sizeInBytes = static_cast(objSize); + allocInput.hClient = pClient->handle; + + pObjMem = pClient->callbacks.allocSysMem(&allocInput); + } + + return pObjMem; +} + +/** +**************************************************************************************************** +* Object::Alloc +* +* @brief +* A wrapper of ClientAlloc +**************************************************************************************************** +*/ +VOID* Object::Alloc( + size_t objSize ///< [in] Size to allocate + ) const +{ + return ClientAlloc(objSize, &m_client); +} + +/** +**************************************************************************************************** +* Object::ClientFree +* +* @brief +* Calls freeSysMem inside Client +**************************************************************************************************** +*/ +VOID Object::ClientFree( + VOID* pObjMem, ///< [in] User virtual address to free. + const Client* pClient) ///< [in] Client pointer +{ + if (pClient->callbacks.freeSysMem != NULL) + { + if (pObjMem != NULL) + { + ADDR_FREESYSMEM_INPUT freeInput = {0}; + + freeInput.size = sizeof(ADDR_FREESYSMEM_INPUT); + freeInput.hClient = pClient->handle; + freeInput.pVirtAddr = pObjMem; + + pClient->callbacks.freeSysMem(&freeInput); + } + } +} + +/** +**************************************************************************************************** +* Object::Free +* +* @brief +* A wrapper of ClientFree +**************************************************************************************************** +*/ +VOID Object::Free( + VOID* pObjMem ///< [in] User virtual address to free. + ) const +{ + ClientFree(pObjMem, &m_client); +} + +/** +**************************************************************************************************** +* Object::operator new +* +* @brief +* Placement new operator. (with pre-allocated memory pointer) +* +* @return +* Returns pre-allocated memory pointer. +**************************************************************************************************** +*/ +VOID* Object::operator new( + size_t objSize, ///< [in] Size to allocate + VOID* pMem) ///< [in] Pre-allocated pointer +{ + return pMem; +} + +/** +**************************************************************************************************** +* Object::operator delete +* +* @brief +* Frees Object object memory. +**************************************************************************************************** +*/ +VOID Object::operator delete( + VOID* pObjMem) ///< [in] User virtual address to free. +{ + Object* pObj = static_cast(pObjMem); + ClientFree(pObjMem, &pObj->m_client); +} + +/** +**************************************************************************************************** +* Object::DebugPrint +* +* @brief +* Print debug message +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID Object::DebugPrint( + const CHAR* pDebugString, ///< [in] Debug string + ... + ) const +{ +#if DEBUG + if (m_client.callbacks.debugPrint != NULL) + { + ADDR_DEBUGPRINT_INPUT debugPrintInput = {0}; + + debugPrintInput.size = sizeof(ADDR_DEBUGPRINT_INPUT); + debugPrintInput.pDebugString = const_cast(pDebugString); + debugPrintInput.hClient = m_client.handle; + va_start(debugPrintInput.ap, pDebugString); + + m_client.callbacks.debugPrint(&debugPrintInput); + + va_end(debugPrintInput.ap); + } +#endif +} + +} // Addr diff --git a/src/amd/addrlib/src/core/addrobject.h b/src/amd/addrlib/src/core/addrobject.h new file mode 100644 index 00000000000..069bb78dee0 --- /dev/null +++ b/src/amd/addrlib/src/core/addrobject.h @@ -0,0 +1,95 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file addrobject.h +* @brief Contains the Object base class definition. +**************************************************************************************************** +*/ + +#ifndef __ADDR_OBJECT_H__ +#define __ADDR_OBJECT_H__ + +#include "addrtypes.h" +#include "addrcommon.h" + +namespace Addr +{ + +/** +**************************************************************************************************** +* @brief This structure contains client specific data +**************************************************************************************************** +*/ +struct Client +{ + ADDR_CLIENT_HANDLE handle; + ADDR_CALLBACKS callbacks; +}; +/** +**************************************************************************************************** +* @brief This class is the base class for all ADDR class objects. +**************************************************************************************************** +*/ +class Object +{ +public: + Object(); + Object(const Client* pClient); + virtual ~Object(); + + VOID* operator new(size_t size, VOID* pMem); + VOID operator delete(VOID* pObj); + /// Microsoft compiler requires a matching delete implementation, which seems to be called when + /// bad_alloc is thrown. But currently C++ exception isn't allowed so a dummy implementation is + /// added to eliminate the warning. + VOID operator delete(VOID* pObj, VOID* pMem) { ADDR_ASSERT_ALWAYS(); } + + VOID* Alloc(size_t size) const; + VOID Free(VOID* pObj) const; + + VOID DebugPrint(const CHAR* pDebugString, ...) const; + + const Client* GetClient() const {return &m_client;} + +protected: + Client m_client; + + static VOID* ClientAlloc(size_t size, const Client* pClient); + static VOID ClientFree(VOID* pObj, const Client* pClient); + +private: + // disallow the copy constructor + Object(const Object& a); + + // disallow the assignment operator + Object& operator=(const Object& a); +}; + +} // Addr +#endif + diff --git a/src/amd/addrlib/src/core/coord.cpp b/src/amd/addrlib/src/core/coord.cpp new file mode 100644 index 00000000000..7fd6bc9173b --- /dev/null +++ b/src/amd/addrlib/src/core/coord.cpp @@ -0,0 +1,714 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +// Coordinate class implementation +#include "addrcommon.h" +#include "coord.h" + +namespace Addr +{ +namespace V2 +{ + +Coordinate::Coordinate() +{ + dim = 'x'; + ord = 0; +} + +Coordinate::Coordinate(INT_8 c, INT_32 n) +{ + set(c, n); +} + +VOID Coordinate::set(INT_8 c, INT_32 n) +{ + dim = c; + ord = static_cast(n); +} + +UINT_32 Coordinate::ison(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const +{ + UINT_32 bit = static_cast(1ull << static_cast(ord)); + UINT_32 out = 0; + + switch (dim) + { + case 'm': out = m & bit; break; + case 's': out = s & bit; break; + case 'x': out = x & bit; break; + case 'y': out = y & bit; break; + case 'z': out = z & bit; break; + } + return (out != 0) ? 1 : 0; +} + +INT_8 Coordinate::getdim() +{ + return dim; +} + +INT_8 Coordinate::getord() +{ + return ord; +} + +BOOL_32 Coordinate::operator==(const Coordinate& b) +{ + return (dim == b.dim) && (ord == b.ord); +} + +BOOL_32 Coordinate::operator<(const Coordinate& b) +{ + BOOL_32 ret; + + if (dim == b.dim) + { + ret = ord < b.ord; + } + else + { + if (dim == 's' || b.dim == 'm') + { + ret = TRUE; + } + else if (b.dim == 's' || dim == 'm') + { + ret = FALSE; + } + else if (ord == b.ord) + { + ret = dim < b.dim; + } + else + { + ret = ord < b.ord; + } + } + + return ret; +} + +BOOL_32 Coordinate::operator>(const Coordinate& b) +{ + BOOL_32 lt = *this < b; + BOOL_32 eq = *this == b; + return !lt && !eq; +} + +BOOL_32 Coordinate::operator<=(const Coordinate& b) +{ + return (*this < b) || (*this == b); +} + +BOOL_32 Coordinate::operator>=(const Coordinate& b) +{ + return !(*this < b); +} + +BOOL_32 Coordinate::operator!=(const Coordinate& b) +{ + return !(*this == b); +} + +Coordinate& Coordinate::operator++(INT_32) +{ + ord++; + return *this; +} + +// CoordTerm + +CoordTerm::CoordTerm() +{ + num_coords = 0; +} + +VOID CoordTerm::Clear() +{ + num_coords = 0; +} + +VOID CoordTerm::add(Coordinate& co) +{ + // This function adds a coordinate INT_32o the list + // It will prevent the same coordinate from appearing, + // and will keep the list ordered from smallest to largest + UINT_32 i; + + for (i = 0; i < num_coords; i++) + { + if (m_coord[i] == co) + { + break; + } + if (m_coord[i] > co) + { + for (UINT_32 j = num_coords; j > i; j--) + { + m_coord[j] = m_coord[j - 1]; + } + m_coord[i] = co; + num_coords++; + break; + } + } + + if (i == num_coords) + { + m_coord[num_coords] = co; + num_coords++; + } +} + +VOID CoordTerm::add(CoordTerm& cl) +{ + for (UINT_32 i = 0; i < cl.num_coords; i++) + { + add(cl.m_coord[i]); + } +} + +BOOL_32 CoordTerm::remove(Coordinate& co) +{ + BOOL_32 remove = FALSE; + for (UINT_32 i = 0; i < num_coords; i++) + { + if (m_coord[i] == co) + { + remove = TRUE; + num_coords--; + } + + if (remove) + { + m_coord[i] = m_coord[i + 1]; + } + } + return remove; +} + +BOOL_32 CoordTerm::Exists(Coordinate& co) +{ + BOOL_32 exists = FALSE; + for (UINT_32 i = 0; i < num_coords; i++) + { + if (m_coord[i] == co) + { + exists = TRUE; + break; + } + } + return exists; +} + +VOID CoordTerm::copyto(CoordTerm& cl) +{ + cl.num_coords = num_coords; + for (UINT_32 i = 0; i < num_coords; i++) + { + cl.m_coord[i] = m_coord[i]; + } +} + +UINT_32 CoordTerm::getsize() +{ + return num_coords; +} + +UINT_32 CoordTerm::getxor(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const +{ + UINT_32 out = 0; + for (UINT_32 i = 0; i < num_coords; i++) + { + out = out ^ m_coord[i].ison(x, y, z, s, m); + } + return out; +} + +VOID CoordTerm::getsmallest(Coordinate& co) +{ + co = m_coord[0]; +} + +UINT_32 CoordTerm::Filter(INT_8 f, Coordinate& co, UINT_32 start, INT_8 axis) +{ + for (UINT_32 i = start; i < num_coords;) + { + if (((f == '<' && m_coord[i] < co) || + (f == '>' && m_coord[i] > co) || + (f == '=' && m_coord[i] == co)) && + (axis == '\0' || axis == m_coord[i].getdim())) + { + for (UINT_32 j = i; j < num_coords - 1; j++) + { + m_coord[j] = m_coord[j + 1]; + } + num_coords--; + } + else + { + i++; + } + } + return num_coords; +} + +Coordinate& CoordTerm::operator[](UINT_32 i) +{ + return m_coord[i]; +} + +BOOL_32 CoordTerm::operator==(const CoordTerm& b) +{ + BOOL_32 ret = TRUE; + + if (num_coords != b.num_coords) + { + ret = FALSE; + } + else + { + for (UINT_32 i = 0; i < num_coords; i++) + { + // Note: the lists will always be in order, so we can compare the two lists at time + if (m_coord[i] != b.m_coord[i]) + { + ret = FALSE; + break; + } + } + } + return ret; +} + +BOOL_32 CoordTerm::operator!=(const CoordTerm& b) +{ + return !(*this == b); +} + +BOOL_32 CoordTerm::exceedRange(UINT_32 xRange, UINT_32 yRange, UINT_32 zRange, UINT_32 sRange) +{ + BOOL_32 exceed = FALSE; + for (UINT_32 i = 0; (i < num_coords) && (exceed == FALSE); i++) + { + UINT_32 subject; + switch (m_coord[i].getdim()) + { + case 'x': + subject = xRange; + break; + case 'y': + subject = yRange; + break; + case 'z': + subject = zRange; + break; + case 's': + subject = sRange; + break; + case 'm': + subject = 0; + break; + default: + // Invalid input! + ADDR_ASSERT_ALWAYS(); + subject = 0; + break; + } + + exceed = ((1u << m_coord[i].getord()) <= subject); + } + + return exceed; +} + +// coordeq +CoordEq::CoordEq() +{ + m_numBits = 0; +} + +VOID CoordEq::remove(Coordinate& co) +{ + for (UINT_32 i = 0; i < m_numBits; i++) + { + m_eq[i].remove(co); + } +} + +BOOL_32 CoordEq::Exists(Coordinate& co) +{ + BOOL_32 exists = FALSE; + + for (UINT_32 i = 0; i < m_numBits; i++) + { + if (m_eq[i].Exists(co)) + { + exists = TRUE; + } + } + return exists; +} + +VOID CoordEq::resize(UINT_32 n) +{ + if (n > m_numBits) + { + for (UINT_32 i = m_numBits; i < n; i++) + { + m_eq[i].Clear(); + } + } + m_numBits = n; +} + +UINT_32 CoordEq::getsize() +{ + return m_numBits; +} + +UINT_64 CoordEq::solve(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const +{ + UINT_64 out = 0; + for (UINT_32 i = 0; i < m_numBits; i++) + { + if (m_eq[i].getxor(x, y, z, s, m) != 0) + { + out |= (1ULL << i); + } + } + return out; +} + +VOID CoordEq::solveAddr( + UINT_64 addr, UINT_32 sliceInM, + UINT_32& x, UINT_32& y, UINT_32& z, UINT_32& s, UINT_32& m) const +{ + UINT_32 xBitsValid = 0; + UINT_32 yBitsValid = 0; + UINT_32 zBitsValid = 0; + UINT_32 sBitsValid = 0; + UINT_32 mBitsValid = 0; + + CoordEq temp = *this; + + x = y = z = s = m = 0; + + UINT_32 bitsLeft = 0; + + for (UINT_32 i = 0; i < temp.m_numBits; i++) + { + UINT_32 termSize = temp.m_eq[i].getsize(); + + if (termSize == 1) + { + INT_8 bit = (addr >> i) & 1; + INT_8 dim = temp.m_eq[i][0].getdim(); + INT_8 ord = temp.m_eq[i][0].getord(); + + ADDR_ASSERT((ord < 32) || (bit == 0)); + + switch (dim) + { + case 'x': + xBitsValid |= (1 << ord); + x |= (bit << ord); + break; + case 'y': + yBitsValid |= (1 << ord); + y |= (bit << ord); + break; + case 'z': + zBitsValid |= (1 << ord); + z |= (bit << ord); + break; + case 's': + sBitsValid |= (1 << ord); + s |= (bit << ord); + break; + case 'm': + mBitsValid |= (1 << ord); + m |= (bit << ord); + break; + default: + break; + } + + temp.m_eq[i].Clear(); + } + else if (termSize > 1) + { + bitsLeft++; + } + } + + if (bitsLeft > 0) + { + if (sliceInM != 0) + { + z = m / sliceInM; + zBitsValid = 0xffffffff; + } + + do + { + bitsLeft = 0; + + for (UINT_32 i = 0; i < temp.m_numBits; i++) + { + UINT_32 termSize = temp.m_eq[i].getsize(); + + if (termSize == 1) + { + INT_8 bit = (addr >> i) & 1; + INT_8 dim = temp.m_eq[i][0].getdim(); + INT_8 ord = temp.m_eq[i][0].getord(); + + ADDR_ASSERT((ord < 32) || (bit == 0)); + + switch (dim) + { + case 'x': + xBitsValid |= (1 << ord); + x |= (bit << ord); + break; + case 'y': + yBitsValid |= (1 << ord); + y |= (bit << ord); + break; + case 'z': + zBitsValid |= (1 << ord); + z |= (bit << ord); + break; + case 's': + ADDR_ASSERT_ALWAYS(); + break; + case 'm': + ADDR_ASSERT_ALWAYS(); + break; + default: + break; + } + + temp.m_eq[i].Clear(); + } + else if (termSize > 1) + { + CoordTerm tmpTerm = temp.m_eq[i]; + + for (UINT_32 j = 0; j < termSize; j++) + { + INT_8 dim = temp.m_eq[i][j].getdim(); + INT_8 ord = temp.m_eq[i][j].getord(); + + switch (dim) + { + case 'x': + if (xBitsValid & (1 << ord)) + { + UINT_32 v = (((x >> ord) & 1) << i); + addr ^= static_cast(v); + tmpTerm.remove(temp.m_eq[i][j]); + } + break; + case 'y': + if (yBitsValid & (1 << ord)) + { + UINT_32 v = (((y >> ord) & 1) << i); + addr ^= static_cast(v); + tmpTerm.remove(temp.m_eq[i][j]); + } + break; + case 'z': + if (zBitsValid & (1 << ord)) + { + UINT_32 v = (((z >> ord) & 1) << i); + addr ^= static_cast(v); + tmpTerm.remove(temp.m_eq[i][j]); + } + break; + case 's': + ADDR_ASSERT_ALWAYS(); + break; + case 'm': + ADDR_ASSERT_ALWAYS(); + break; + default: + break; + } + } + + temp.m_eq[i] = tmpTerm; + + bitsLeft++; + } + } + } while (bitsLeft > 0); + } +} + +VOID CoordEq::copy(CoordEq& o, UINT_32 start, UINT_32 num) +{ + o.m_numBits = (num == 0xFFFFFFFF) ? m_numBits : num; + for (UINT_32 i = 0; i < o.m_numBits; i++) + { + m_eq[start + i].copyto(o.m_eq[i]); + } +} + +VOID CoordEq::reverse(UINT_32 start, UINT_32 num) +{ + UINT_32 n = (num == 0xFFFFFFFF) ? m_numBits : num; + + for (UINT_32 i = 0; i < n / 2; i++) + { + CoordTerm temp; + m_eq[start + i].copyto(temp); + m_eq[start + n - 1 - i].copyto(m_eq[start + i]); + temp.copyto(m_eq[start + n - 1 - i]); + } +} + +VOID CoordEq::xorin(CoordEq& x, UINT_32 start) +{ + UINT_32 n = ((m_numBits - start) < x.m_numBits) ? (m_numBits - start) : x.m_numBits; + for (UINT_32 i = 0; i < n; i++) + { + m_eq[start + i].add(x.m_eq[i]); + } +} + +UINT_32 CoordEq::Filter(INT_8 f, Coordinate& co, UINT_32 start, INT_8 axis) +{ + for (UINT_32 i = start; i < m_numBits;) + { + UINT_32 m = m_eq[i].Filter(f, co, 0, axis); + if (m == 0) + { + for (UINT_32 j = i; j < m_numBits - 1; j++) + { + m_eq[j] = m_eq[j + 1]; + } + m_numBits--; + } + else + { + i++; + } + } + return m_numBits; +} + +VOID CoordEq::shift(INT_32 amount, INT_32 start) +{ + if (amount != 0) + { + INT_32 numBits = static_cast(m_numBits); + amount = -amount; + INT_32 inc = (amount < 0) ? -1 : 1; + INT_32 i = (amount < 0) ? numBits - 1 : start; + INT_32 end = (amount < 0) ? start - 1 : numBits; + for (; (inc > 0) ? i < end : i > end; i += inc) + { + if ((i + amount < start) || (i + amount >= numBits)) + { + m_eq[i].Clear(); + } + else + { + m_eq[i + amount].copyto(m_eq[i]); + } + } + } +} + +CoordTerm& CoordEq::operator[](UINT_32 i) +{ + return m_eq[i]; +} + +VOID CoordEq::mort2d(Coordinate& c0, Coordinate& c1, UINT_32 start, UINT_32 end) +{ + if (end == 0) + { + ADDR_ASSERT(m_numBits > 0); + end = m_numBits - 1; + } + for (UINT_32 i = start; i <= end; i++) + { + UINT_32 select = (i - start) % 2; + Coordinate& c = (select == 0) ? c0 : c1; + m_eq[i].add(c); + c++; + } +} + +VOID CoordEq::mort3d(Coordinate& c0, Coordinate& c1, Coordinate& c2, UINT_32 start, UINT_32 end) +{ + if (end == 0) + { + ADDR_ASSERT(m_numBits > 0); + end = m_numBits - 1; + } + for (UINT_32 i = start; i <= end; i++) + { + UINT_32 select = (i - start) % 3; + Coordinate& c = (select == 0) ? c0 : ((select == 1) ? c1 : c2); + m_eq[i].add(c); + c++; + } +} + +BOOL_32 CoordEq::operator==(const CoordEq& b) +{ + BOOL_32 ret = TRUE; + + if (m_numBits != b.m_numBits) + { + ret = FALSE; + } + else + { + for (UINT_32 i = 0; i < m_numBits; i++) + { + if (m_eq[i] != b.m_eq[i]) + { + ret = FALSE; + break; + } + } + } + return ret; +} + +BOOL_32 CoordEq::operator!=(const CoordEq& b) +{ + return !(*this == b); +} + +} // V2 +} // Addr diff --git a/src/amd/addrlib/src/core/coord.h b/src/amd/addrlib/src/core/coord.h new file mode 100644 index 00000000000..ce40a3ee1f5 --- /dev/null +++ b/src/amd/addrlib/src/core/coord.h @@ -0,0 +1,122 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +// Class used to define a coordinate bit + +#ifndef __COORD_H +#define __COORD_H + +namespace Addr +{ +namespace V2 +{ + +class Coordinate +{ +public: + Coordinate(); + Coordinate(INT_8 c, INT_32 n); + + VOID set(INT_8 c, INT_32 n); + UINT_32 ison(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; + INT_8 getdim(); + INT_8 getord(); + + BOOL_32 operator==(const Coordinate& b); + BOOL_32 operator<(const Coordinate& b); + BOOL_32 operator>(const Coordinate& b); + BOOL_32 operator<=(const Coordinate& b); + BOOL_32 operator>=(const Coordinate& b); + BOOL_32 operator!=(const Coordinate& b); + Coordinate& operator++(INT_32); + +private: + INT_8 dim; + INT_8 ord; +}; + +class CoordTerm +{ +public: + CoordTerm(); + VOID Clear(); + VOID add(Coordinate& co); + VOID add(CoordTerm& cl); + BOOL_32 remove(Coordinate& co); + BOOL_32 Exists(Coordinate& co); + VOID copyto(CoordTerm& cl); + UINT_32 getsize(); + UINT_32 getxor(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; + + VOID getsmallest(Coordinate& co); + UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, INT_8 axis = '\0'); + Coordinate& operator[](UINT_32 i); + BOOL_32 operator==(const CoordTerm& b); + BOOL_32 operator!=(const CoordTerm& b); + BOOL_32 exceedRange(UINT_32 xRange, UINT_32 yRange = 0, UINT_32 zRange = 0, UINT_32 sRange = 0); + +private: + static const UINT_32 MaxCoords = 8; + UINT_32 num_coords; + Coordinate m_coord[MaxCoords]; +}; + +class CoordEq +{ +public: + CoordEq(); + VOID remove(Coordinate& co); + BOOL_32 Exists(Coordinate& co); + VOID resize(UINT_32 n); + UINT_32 getsize(); + virtual UINT_64 solve(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; + virtual VOID solveAddr(UINT_64 addr, UINT_32 sliceInM, + UINT_32& x, UINT_32& y, UINT_32& z, UINT_32& s, UINT_32& m) const; + + VOID copy(CoordEq& o, UINT_32 start = 0, UINT_32 num = 0xFFFFFFFF); + VOID reverse(UINT_32 start = 0, UINT_32 num = 0xFFFFFFFF); + VOID xorin(CoordEq& x, UINT_32 start = 0); + UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, INT_8 axis = '\0'); + VOID shift(INT_32 amount, INT_32 start = 0); + virtual CoordTerm& operator[](UINT_32 i); + VOID mort2d(Coordinate& c0, Coordinate& c1, UINT_32 start = 0, UINT_32 end = 0); + VOID mort3d(Coordinate& c0, Coordinate& c1, Coordinate& c2, UINT_32 start = 0, UINT_32 end = 0); + + BOOL_32 operator==(const CoordEq& b); + BOOL_32 operator!=(const CoordEq& b); + +private: + static const UINT_32 MaxEqBits = 64; + UINT_32 m_numBits; + + CoordTerm m_eq[MaxEqBits]; +}; + +} // V2 +} // Addr + +#endif + diff --git a/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp b/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp new file mode 100644 index 00000000000..b3cbccf6a12 --- /dev/null +++ b/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp @@ -0,0 +1,4871 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +************************************************************************************************************************ +* @file gfx9addrlib.cpp +* @brief Contgfx9ns the implementation for the Gfx9Lib class. +************************************************************************************************************************ +*/ + +#include "gfx9addrlib.h" + +#include "gfx9_gb_reg.h" + +#include "amdgpu_asic_addr.h" + +#include "util/macros.h" + +//////////////////////////////////////////////////////////////////////////////////////////////////// +//////////////////////////////////////////////////////////////////////////////////////////////////// + +namespace Addr +{ + +/** +************************************************************************************************************************ +* Gfx9HwlInit +* +* @brief +* Creates an Gfx9Lib object. +* +* @return +* Returns an Gfx9Lib object pointer. +************************************************************************************************************************ +*/ +Addr::Lib* Gfx9HwlInit(const Client* pClient) +{ + return V2::Gfx9Lib::CreateObj(pClient); +} + +namespace V2 +{ + +//////////////////////////////////////////////////////////////////////////////////////////////////// +// Static Const Member +//////////////////////////////////////////////////////////////////////////////////////////////////// + +const SwizzleModeFlags Gfx9Lib::SwizzleModeTable[ADDR_SW_MAX_TYPE] = +{//Linear 256B 4KB 64KB Var Z Std Disp Rot XOR T RtOpt + {1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, // ADDR_SW_LINEAR + {0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_256B_S + {0, 1, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_256B_D + {0, 1, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_256B_R + + {0, 0, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0}, // ADDR_SW_4KB_Z + {0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_4KB_S + {0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_4KB_D + {0, 0, 1, 0, 0, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_4KB_R + + {0, 0, 0, 1, 0, 1, 0, 0, 0, 0, 0, 0}, // ADDR_SW_64KB_Z + {0, 0, 0, 1, 0, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_64KB_S + {0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_64KB_D + {0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_64KB_R + + {0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0}, // ADDR_SW_VAR_Z + {0, 0, 0, 0, 1, 0, 1, 0, 0, 0, 0, 0}, // ADDR_SW_VAR_S + {0, 0, 0, 0, 1, 0, 0, 1, 0, 0, 0, 0}, // ADDR_SW_VAR_D + {0, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0}, // ADDR_SW_VAR_R + + {0, 0, 0, 1, 0, 1, 0, 0, 0, 1, 1, 0}, // ADDR_SW_64KB_Z_T + {0, 0, 0, 1, 0, 0, 1, 0, 0, 1, 1, 0}, // ADDR_SW_64KB_S_T + {0, 0, 0, 1, 0, 0, 0, 1, 0, 1, 1, 0}, // ADDR_SW_64KB_D_T + {0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 1, 0}, // ADDR_SW_64KB_R_T + + {0, 0, 1, 0, 0, 1, 0, 0, 0, 1, 0, 0}, // ADDR_SW_4KB_Z_x + {0, 0, 1, 0, 0, 0, 1, 0, 0, 1, 0, 0}, // ADDR_SW_4KB_S_x + {0, 0, 1, 0, 0, 0, 0, 1, 0, 1, 0, 0}, // ADDR_SW_4KB_D_x + {0, 0, 1, 0, 0, 0, 0, 0, 1, 1, 0, 0}, // ADDR_SW_4KB_R_x + + {0, 0, 0, 1, 0, 1, 0, 0, 0, 1, 0, 0}, // ADDR_SW_64KB_Z_X + {0, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0}, // ADDR_SW_64KB_S_X + {0, 0, 0, 1, 0, 0, 0, 1, 0, 1, 0, 0}, // ADDR_SW_64KB_D_X + {0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 0, 0}, // ADDR_SW_64KB_R_X + + {0, 0, 0, 0, 1, 1, 0, 0, 0, 1, 0, 0}, // ADDR_SW_VAR_Z_X + {0, 0, 0, 0, 1, 0, 1, 0, 0, 1, 0, 0}, // ADDR_SW_VAR_S_X + {0, 0, 0, 0, 1, 0, 0, 1, 0, 1, 0, 0}, // ADDR_SW_VAR_D_X + {0, 0, 0, 0, 1, 0, 0, 0, 1, 1, 0, 0}, // ADDR_SW_VAR_R_X + {1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, // ADDR_SW_LINEAR_GENERAL +}; + +const UINT_32 Gfx9Lib::MipTailOffset256B[] = {2048, 1024, 512, 256, 128, 64, 32, 16, + 8, 6, 5, 4, 3, 2, 1, 0}; + +const Dim3d Gfx9Lib::Block256_3dS[] = {{16, 4, 4}, {8, 4, 4}, {4, 4, 4}, {2, 4, 4}, {1, 4, 4}}; + +const Dim3d Gfx9Lib::Block256_3dZ[] = {{8, 4, 8}, {4, 4, 8}, {4, 4, 4}, {4, 2, 4}, {2, 2, 4}}; + +/** +************************************************************************************************************************ +* Gfx9Lib::Gfx9Lib +* +* @brief +* Constructor +* +************************************************************************************************************************ +*/ +Gfx9Lib::Gfx9Lib(const Client* pClient) + : + Lib(pClient), + m_numEquations(0) +{ + m_class = AI_ADDRLIB; + memset(&m_settings, 0, sizeof(m_settings)); + memcpy(m_swizzleModeTable, SwizzleModeTable, sizeof(SwizzleModeTable)); +} + +/** +************************************************************************************************************************ +* Gfx9Lib::~Gfx9Lib +* +* @brief +* Destructor +************************************************************************************************************************ +*/ +Gfx9Lib::~Gfx9Lib() +{ +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeHtileInfo +* +* @brief +* Interface function stub of AddrComputeHtilenfo +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileInfo( + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + UINT_32 numPipeTotal = GetPipeNumForMetaAddressing(pIn->hTileFlags.pipeAligned, + pIn->swizzleMode); + + UINT_32 numRbTotal = pIn->hTileFlags.rbAligned ? m_se * m_rbPerSe : 1; + + UINT_32 numCompressBlkPerMetaBlk, numCompressBlkPerMetaBlkLog2; + + if ((numPipeTotal == 1) && (numRbTotal == 1)) + { + numCompressBlkPerMetaBlkLog2 = 10; + } + else + { + if (m_settings.applyAliasFix) + { + numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + Max(10u, m_pipeInterleaveLog2); + } + else + { + numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + 10; + } + } + + numCompressBlkPerMetaBlk = 1 << numCompressBlkPerMetaBlkLog2; + + Dim3d metaBlkDim = {8, 8, 1}; + UINT_32 totalAmpBits = numCompressBlkPerMetaBlkLog2; + UINT_32 widthAmp = (pIn->numMipLevels > 1) ? (totalAmpBits >> 1) : RoundHalf(totalAmpBits); + UINT_32 heightAmp = totalAmpBits - widthAmp; + metaBlkDim.w <<= widthAmp; + metaBlkDim.h <<= heightAmp; + +#if DEBUG + Dim3d metaBlkDimDbg = {8, 8, 1}; + for (UINT_32 index = 0; index < numCompressBlkPerMetaBlkLog2; index++) + { + if ((metaBlkDimDbg.h < metaBlkDimDbg.w) || + ((pIn->numMipLevels > 1) && (metaBlkDimDbg.h == metaBlkDimDbg.w))) + { + metaBlkDimDbg.h <<= 1; + } + else + { + metaBlkDimDbg.w <<= 1; + } + } + ADDR_ASSERT((metaBlkDimDbg.w == metaBlkDim.w) && (metaBlkDimDbg.h == metaBlkDim.h)); +#endif + + UINT_32 numMetaBlkX; + UINT_32 numMetaBlkY; + UINT_32 numMetaBlkZ; + + GetMetaMipInfo(pIn->numMipLevels, &metaBlkDim, FALSE, pOut->pMipInfo, + pIn->unalignedWidth, pIn->unalignedHeight, pIn->numSlices, + &numMetaBlkX, &numMetaBlkY, &numMetaBlkZ); + + const UINT_32 metaBlkSize = numCompressBlkPerMetaBlk << 2; + UINT_32 align = numPipeTotal * numRbTotal * m_pipeInterleaveBytes; + + if ((IsXor(pIn->swizzleMode) == FALSE) && (numPipeTotal > 2)) + { + align *= (numPipeTotal >> 1); + } + + align = Max(align, metaBlkSize); + + if (m_settings.metaBaseAlignFix) + { + align = Max(align, GetBlockSize(pIn->swizzleMode)); + } + + if (m_settings.htileAlignFix) + { + const INT_32 metaBlkSizeLog2 = numCompressBlkPerMetaBlkLog2 + 2; + const INT_32 htileCachelineSizeLog2 = 11; + const INT_32 maxNumOfRbMaskBits = 1 + Log2(numPipeTotal) + Log2(numRbTotal); + + INT_32 rbMaskPadding = Max(0, htileCachelineSizeLog2 - (metaBlkSizeLog2 - maxNumOfRbMaskBits)); + + align <<= rbMaskPadding; + } + + pOut->pitch = numMetaBlkX * metaBlkDim.w; + pOut->height = numMetaBlkY * metaBlkDim.h; + pOut->sliceSize = numMetaBlkX * numMetaBlkY * metaBlkSize; + + pOut->metaBlkWidth = metaBlkDim.w; + pOut->metaBlkHeight = metaBlkDim.h; + pOut->metaBlkNumPerSlice = numMetaBlkX * numMetaBlkY; + + pOut->baseAlign = align; + pOut->htileBytes = PowTwoAlign(pOut->sliceSize * numMetaBlkZ, align); + + return ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeCmaskInfo +* +* @brief +* Interface function stub of AddrComputeCmaskInfo +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeCmaskInfo( + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ +// TODO: Clarify with AddrLib team +// ADDR_ASSERT(pIn->resourceType == ADDR_RSRC_TEX_2D); + + UINT_32 numPipeTotal = GetPipeNumForMetaAddressing(pIn->cMaskFlags.pipeAligned, + pIn->swizzleMode); + + UINT_32 numRbTotal = pIn->cMaskFlags.rbAligned ? m_se * m_rbPerSe : 1; + + UINT_32 numCompressBlkPerMetaBlkLog2, numCompressBlkPerMetaBlk; + + if ((numPipeTotal == 1) && (numRbTotal == 1)) + { + numCompressBlkPerMetaBlkLog2 = 13; + } + else + { + if (m_settings.applyAliasFix) + { + numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + Max(10u, m_pipeInterleaveLog2); + } + else + { + numCompressBlkPerMetaBlkLog2 = m_seLog2 + m_rbPerSeLog2 + 10; + } + + numCompressBlkPerMetaBlkLog2 = Max(numCompressBlkPerMetaBlkLog2, 13u); + } + + numCompressBlkPerMetaBlk = 1 << numCompressBlkPerMetaBlkLog2; + + Dim2d metaBlkDim = {8, 8}; + UINT_32 totalAmpBits = numCompressBlkPerMetaBlkLog2; + UINT_32 heightAmp = totalAmpBits >> 1; + UINT_32 widthAmp = totalAmpBits - heightAmp; + metaBlkDim.w <<= widthAmp; + metaBlkDim.h <<= heightAmp; + +#if DEBUG + Dim2d metaBlkDimDbg = {8, 8}; + for (UINT_32 index = 0; index < numCompressBlkPerMetaBlkLog2; index++) + { + if (metaBlkDimDbg.h < metaBlkDimDbg.w) + { + metaBlkDimDbg.h <<= 1; + } + else + { + metaBlkDimDbg.w <<= 1; + } + } + ADDR_ASSERT((metaBlkDimDbg.w == metaBlkDim.w) && (metaBlkDimDbg.h == metaBlkDim.h)); +#endif + + UINT_32 numMetaBlkX = (pIn->unalignedWidth + metaBlkDim.w - 1) / metaBlkDim.w; + UINT_32 numMetaBlkY = (pIn->unalignedHeight + metaBlkDim.h - 1) / metaBlkDim.h; + UINT_32 numMetaBlkZ = Max(pIn->numSlices, 1u); + + UINT_32 sizeAlign = numPipeTotal * numRbTotal * m_pipeInterleaveBytes; + + if (m_settings.metaBaseAlignFix) + { + sizeAlign = Max(sizeAlign, GetBlockSize(pIn->swizzleMode)); + } + + pOut->pitch = numMetaBlkX * metaBlkDim.w; + pOut->height = numMetaBlkY * metaBlkDim.h; + pOut->sliceSize = (numMetaBlkX * numMetaBlkY * numCompressBlkPerMetaBlk) >> 1; + pOut->cmaskBytes = PowTwoAlign(pOut->sliceSize * numMetaBlkZ, sizeAlign); + pOut->baseAlign = Max(numCompressBlkPerMetaBlk >> 1, sizeAlign); + + pOut->metaBlkWidth = metaBlkDim.w; + pOut->metaBlkHeight = metaBlkDim.h; + + pOut->metaBlkNumPerSlice = numMetaBlkX * numMetaBlkY; + + return ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GetMetaMipInfo +* +* @brief +* Get meta mip info +* +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::GetMetaMipInfo( + UINT_32 numMipLevels, ///< [in] number of mip levels + Dim3d* pMetaBlkDim, ///< [in] meta block dimension + BOOL_32 dataThick, ///< [in] data surface is thick + ADDR2_META_MIP_INFO* pInfo, ///< [out] meta mip info + UINT_32 mip0Width, ///< [in] mip0 width + UINT_32 mip0Height, ///< [in] mip0 height + UINT_32 mip0Depth, ///< [in] mip0 depth + UINT_32* pNumMetaBlkX, ///< [out] number of metablock X in mipchain + UINT_32* pNumMetaBlkY, ///< [out] number of metablock Y in mipchain + UINT_32* pNumMetaBlkZ) ///< [out] number of metablock Z in mipchain + const +{ + UINT_32 numMetaBlkX = (mip0Width + pMetaBlkDim->w - 1) / pMetaBlkDim->w; + UINT_32 numMetaBlkY = (mip0Height + pMetaBlkDim->h - 1) / pMetaBlkDim->h; + UINT_32 numMetaBlkZ = (mip0Depth + pMetaBlkDim->d - 1) / pMetaBlkDim->d; + UINT_32 tailWidth = pMetaBlkDim->w; + UINT_32 tailHeight = pMetaBlkDim->h >> 1; + UINT_32 tailDepth = pMetaBlkDim->d; + BOOL_32 inTail = FALSE; + AddrMajorMode major = ADDR_MAJOR_MAX_TYPE; + + if (numMipLevels > 1) + { + if (dataThick && (numMetaBlkZ > numMetaBlkX) && (numMetaBlkZ > numMetaBlkY)) + { + // Z major + major = ADDR_MAJOR_Z; + } + else if (numMetaBlkX >= numMetaBlkY) + { + // X major + major = ADDR_MAJOR_X; + } + else + { + // Y major + major = ADDR_MAJOR_Y; + } + + inTail = ((mip0Width <= tailWidth) && + (mip0Height <= tailHeight) && + ((dataThick == FALSE) || (mip0Depth <= tailDepth))); + + if (inTail == FALSE) + { + UINT_32 orderLimit; + UINT_32 *pMipDim; + UINT_32 *pOrderDim; + + if (major == ADDR_MAJOR_Z) + { + // Z major + pMipDim = &numMetaBlkY; + pOrderDim = &numMetaBlkZ; + orderLimit = 4; + } + else if (major == ADDR_MAJOR_X) + { + // X major + pMipDim = &numMetaBlkY; + pOrderDim = &numMetaBlkX; + orderLimit = 4; + } + else + { + // Y major + pMipDim = &numMetaBlkX; + pOrderDim = &numMetaBlkY; + orderLimit = 2; + } + + if ((*pMipDim < 3) && (*pOrderDim > orderLimit) && (numMipLevels > 3)) + { + *pMipDim += 2; + } + else + { + *pMipDim += ((*pMipDim / 2) + (*pMipDim & 1)); + } + } + } + + if (pInfo != NULL) + { + UINT_32 mipWidth = mip0Width; + UINT_32 mipHeight = mip0Height; + UINT_32 mipDepth = mip0Depth; + Dim3d mipCoord = {0}; + + for (UINT_32 mip = 0; mip < numMipLevels; mip++) + { + if (inTail) + { + GetMetaMiptailInfo(&pInfo[mip], mipCoord, numMipLevels - mip, + pMetaBlkDim); + break; + } + else + { + mipWidth = PowTwoAlign(mipWidth, pMetaBlkDim->w); + mipHeight = PowTwoAlign(mipHeight, pMetaBlkDim->h); + mipDepth = PowTwoAlign(mipDepth, pMetaBlkDim->d); + + pInfo[mip].inMiptail = FALSE; + pInfo[mip].startX = mipCoord.w; + pInfo[mip].startY = mipCoord.h; + pInfo[mip].startZ = mipCoord.d; + pInfo[mip].width = mipWidth; + pInfo[mip].height = mipHeight; + pInfo[mip].depth = dataThick ? mipDepth : 1; + + if ((mip >= 3) || (mip & 1)) + { + switch (major) + { + case ADDR_MAJOR_X: + mipCoord.w += mipWidth; + break; + case ADDR_MAJOR_Y: + mipCoord.h += mipHeight; + break; + case ADDR_MAJOR_Z: + mipCoord.d += mipDepth; + break; + default: + break; + } + } + else + { + switch (major) + { + case ADDR_MAJOR_X: + mipCoord.h += mipHeight; + break; + case ADDR_MAJOR_Y: + mipCoord.w += mipWidth; + break; + case ADDR_MAJOR_Z: + mipCoord.h += mipHeight; + break; + default: + break; + } + } + + mipWidth = Max(mipWidth >> 1, 1u); + mipHeight = Max(mipHeight >> 1, 1u); + mipDepth = Max(mipDepth >> 1, 1u); + + inTail = ((mipWidth <= tailWidth) && + (mipHeight <= tailHeight) && + ((dataThick == FALSE) || (mipDepth <= tailDepth))); + } + } + } + + *pNumMetaBlkX = numMetaBlkX; + *pNumMetaBlkY = numMetaBlkY; + *pNumMetaBlkZ = numMetaBlkZ; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeDccInfo +* +* @brief +* Interface function to compute DCC key info +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeDccInfo( + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + BOOL_32 dataLinear = IsLinear(pIn->swizzleMode); + BOOL_32 metaLinear = pIn->dccKeyFlags.linear; + BOOL_32 pipeAligned = pIn->dccKeyFlags.pipeAligned; + + if (dataLinear) + { + metaLinear = TRUE; + } + else if (metaLinear == TRUE) + { + pipeAligned = FALSE; + } + + UINT_32 numPipeTotal = GetPipeNumForMetaAddressing(pipeAligned, pIn->swizzleMode); + + if (metaLinear) + { + // Linear metadata supporting was removed for GFX9! No one can use this feature on GFX9. + ADDR_ASSERT_ALWAYS(); + + pOut->dccRamBaseAlign = numPipeTotal * m_pipeInterleaveBytes; + pOut->dccRamSize = PowTwoAlign((pIn->dataSurfaceSize / 256), pOut->dccRamBaseAlign); + } + else + { + BOOL_32 dataThick = IsThick(pIn->resourceType, pIn->swizzleMode); + + UINT_32 minMetaBlkSize = dataThick ? 65536 : 4096; + + UINT_32 numFrags = Max(pIn->numFrags, 1u); + UINT_32 numSlices = Max(pIn->numSlices, 1u); + + minMetaBlkSize /= numFrags; + + UINT_32 numCompressBlkPerMetaBlk = minMetaBlkSize; + + UINT_32 numRbTotal = pIn->dccKeyFlags.rbAligned ? m_se * m_rbPerSe : 1; + + if ((numPipeTotal > 1) || (numRbTotal > 1)) + { + const UINT_32 thinBlkSize = 1 << (m_settings.applyAliasFix ? Max(10u, m_pipeInterleaveLog2) : 10); + + numCompressBlkPerMetaBlk = + Max(numCompressBlkPerMetaBlk, m_se * m_rbPerSe * (dataThick ? 262144 : thinBlkSize)); + + if (numCompressBlkPerMetaBlk > 65536 * pIn->bpp) + { + numCompressBlkPerMetaBlk = 65536 * pIn->bpp; + } + } + + Dim3d compressBlkDim = GetDccCompressBlk(pIn->resourceType, pIn->swizzleMode, pIn->bpp); + Dim3d metaBlkDim = compressBlkDim; + + for (UINT_32 index = 1; index < numCompressBlkPerMetaBlk; index <<= 1) + { + if ((metaBlkDim.h < metaBlkDim.w) || + ((pIn->numMipLevels > 1) && (metaBlkDim.h == metaBlkDim.w))) + { + if ((dataThick == FALSE) || (metaBlkDim.h <= metaBlkDim.d)) + { + metaBlkDim.h <<= 1; + } + else + { + metaBlkDim.d <<= 1; + } + } + else + { + if ((dataThick == FALSE) || (metaBlkDim.w <= metaBlkDim.d)) + { + metaBlkDim.w <<= 1; + } + else + { + metaBlkDim.d <<= 1; + } + } + } + + UINT_32 numMetaBlkX; + UINT_32 numMetaBlkY; + UINT_32 numMetaBlkZ; + + GetMetaMipInfo(pIn->numMipLevels, &metaBlkDim, dataThick, pOut->pMipInfo, + pIn->unalignedWidth, pIn->unalignedHeight, numSlices, + &numMetaBlkX, &numMetaBlkY, &numMetaBlkZ); + + UINT_32 sizeAlign = numPipeTotal * numRbTotal * m_pipeInterleaveBytes; + + if (numFrags > m_maxCompFrag) + { + sizeAlign *= (numFrags / m_maxCompFrag); + } + + if (m_settings.metaBaseAlignFix) + { + sizeAlign = Max(sizeAlign, GetBlockSize(pIn->swizzleMode)); + } + + pOut->dccRamSize = numMetaBlkX * numMetaBlkY * numMetaBlkZ * + numCompressBlkPerMetaBlk * numFrags; + pOut->dccRamSize = PowTwoAlign(pOut->dccRamSize, sizeAlign); + pOut->dccRamBaseAlign = Max(numCompressBlkPerMetaBlk, sizeAlign); + + pOut->pitch = numMetaBlkX * metaBlkDim.w; + pOut->height = numMetaBlkY * metaBlkDim.h; + pOut->depth = numMetaBlkZ * metaBlkDim.d; + + pOut->compressBlkWidth = compressBlkDim.w; + pOut->compressBlkHeight = compressBlkDim.h; + pOut->compressBlkDepth = compressBlkDim.d; + + pOut->metaBlkWidth = metaBlkDim.w; + pOut->metaBlkHeight = metaBlkDim.h; + pOut->metaBlkDepth = metaBlkDim.d; + + pOut->metaBlkNumPerSlice = numMetaBlkX * numMetaBlkY; + pOut->fastClearSizePerSlice = + pOut->metaBlkNumPerSlice * numCompressBlkPerMetaBlk * Min(numFrags, m_maxCompFrag); + } + + return ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeMaxBaseAlignments +* +* @brief +* Gets maximum alignments +* @return +* maximum alignments +************************************************************************************************************************ +*/ +UINT_32 Gfx9Lib::HwlComputeMaxBaseAlignments() const +{ + return ComputeSurfaceBaseAlignTiled(ADDR_SW_64KB); +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeMaxMetaBaseAlignments +* +* @brief +* Gets maximum alignments for metadata +* @return +* maximum alignments for metadata +************************************************************************************************************************ +*/ +UINT_32 Gfx9Lib::HwlComputeMaxMetaBaseAlignments() const +{ + // Max base alignment for Htile + const UINT_32 maxNumPipeTotal = GetPipeNumForMetaAddressing(TRUE, ADDR_SW_64KB_Z); + const UINT_32 maxNumRbTotal = m_se * m_rbPerSe; + + // If applyAliasFix was set, the extra bits should be MAX(10u, m_pipeInterleaveLog2), + // but we never saw any ASIC whose m_pipeInterleaveLog2 != 8, so just put an assertion and simply the logic. + ADDR_ASSERT((m_settings.applyAliasFix == FALSE) || (m_pipeInterleaveLog2 <= 10u)); + const UINT_32 maxNumCompressBlkPerMetaBlk = 1u << (m_seLog2 + m_rbPerSeLog2 + 10u); + + UINT_32 maxBaseAlignHtile = maxNumPipeTotal * maxNumRbTotal * m_pipeInterleaveBytes; + + if (maxNumPipeTotal > 2) + { + maxBaseAlignHtile *= (maxNumPipeTotal >> 1); + } + + maxBaseAlignHtile = Max(maxNumCompressBlkPerMetaBlk << 2, maxBaseAlignHtile); + + if (m_settings.metaBaseAlignFix) + { + maxBaseAlignHtile = Max(maxBaseAlignHtile, GetBlockSize(ADDR_SW_64KB)); + } + + if (m_settings.htileAlignFix) + { + maxBaseAlignHtile *= maxNumPipeTotal; + } + + // Max base alignment for Cmask will not be larger than that for Htile, no need to calculate + + // Max base alignment for 2D Dcc will not be larger than that for 3D, no need to calculate + UINT_32 maxBaseAlignDcc3D = 65536; + + if ((maxNumPipeTotal > 1) || (maxNumRbTotal > 1)) + { + maxBaseAlignDcc3D = Min(m_se * m_rbPerSe * 262144, 65536 * 128u); + } + + // Max base alignment for Msaa Dcc + UINT_32 maxBaseAlignDccMsaa = maxNumPipeTotal * maxNumRbTotal * m_pipeInterleaveBytes * (8 / m_maxCompFrag); + + if (m_settings.metaBaseAlignFix) + { + maxBaseAlignDccMsaa = Max(maxBaseAlignDccMsaa, GetBlockSize(ADDR_SW_64KB)); + } + + return Max(maxBaseAlignHtile, Max(maxBaseAlignDccMsaa, maxBaseAlignDcc3D)); +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeCmaskAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeCmaskAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeCmaskAddrFromCoord( + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure +{ + ADDR2_COMPUTE_CMASK_INFO_INPUT input = {0}; + input.size = sizeof(input); + input.cMaskFlags = pIn->cMaskFlags; + input.colorFlags = pIn->colorFlags; + input.unalignedWidth = Max(pIn->unalignedWidth, 1u); + input.unalignedHeight = Max(pIn->unalignedHeight, 1u); + input.numSlices = Max(pIn->numSlices, 1u); + input.swizzleMode = pIn->swizzleMode; + input.resourceType = pIn->resourceType; + + ADDR2_COMPUTE_CMASK_INFO_OUTPUT output = {0}; + output.size = sizeof(output); + + ADDR_E_RETURNCODE returnCode = ComputeCmaskInfo(&input, &output); + + if (returnCode == ADDR_OK) + { + UINT_32 fmaskBpp = GetFmaskBpp(pIn->numSamples, pIn->numFrags); + UINT_32 fmaskElementBytesLog2 = Log2(fmaskBpp >> 3); + UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); + UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); + + MetaEqParams metaEqParams = {0, fmaskElementBytesLog2, 0, pIn->cMaskFlags, + Gfx9DataFmask, pIn->swizzleMode, pIn->resourceType, + metaBlkWidthLog2, metaBlkHeightLog2, 0, 3, 3, 0}; + + const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); + + UINT_32 xb = pIn->x / output.metaBlkWidth; + UINT_32 yb = pIn->y / output.metaBlkHeight; + UINT_32 zb = pIn->slice; + + UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; + UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; + UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; + + UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, 0, blockIndex); + + pOut->addr = address >> 1; + pOut->bitPosition = static_cast((address & 1) << 2); + + UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->cMaskFlags.pipeAligned, + pIn->swizzleMode); + + UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); + + pOut->addr ^= (pipeXor << m_pipeInterleaveLog2); + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeHtileAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeHtileAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileAddrFromCoord( + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pIn->numMipLevels > 1) + { + returnCode = ADDR_NOTIMPLEMENTED; + } + else + { + ADDR2_COMPUTE_HTILE_INFO_INPUT input = {0}; + input.size = sizeof(input); + input.hTileFlags = pIn->hTileFlags; + input.depthFlags = pIn->depthflags; + input.swizzleMode = pIn->swizzleMode; + input.unalignedWidth = Max(pIn->unalignedWidth, 1u); + input.unalignedHeight = Max(pIn->unalignedHeight, 1u); + input.numSlices = Max(pIn->numSlices, 1u); + input.numMipLevels = Max(pIn->numMipLevels, 1u); + + ADDR2_COMPUTE_HTILE_INFO_OUTPUT output = {0}; + output.size = sizeof(output); + + returnCode = ComputeHtileInfo(&input, &output); + + if (returnCode == ADDR_OK) + { + UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); + UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); + UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); + UINT_32 numSamplesLog2 = Log2(pIn->numSamples); + + MetaEqParams metaEqParams = {0, elementBytesLog2, numSamplesLog2, pIn->hTileFlags, + Gfx9DataDepthStencil, pIn->swizzleMode, ADDR_RSRC_TEX_2D, + metaBlkWidthLog2, metaBlkHeightLog2, 0, 3, 3, 0}; + + const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); + + UINT_32 xb = pIn->x / output.metaBlkWidth; + UINT_32 yb = pIn->y / output.metaBlkHeight; + UINT_32 zb = pIn->slice; + + UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; + UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; + UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; + + UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, 0, blockIndex); + + pOut->addr = address >> 1; + + UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->hTileFlags.pipeAligned, + pIn->swizzleMode); + + UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); + + pOut->addr ^= (pipeXor << m_pipeInterleaveLog2); + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeHtileCoordFromAddr +* +* @brief +* Interface function stub of AddrComputeHtileCoordFromAddr +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileCoordFromAddr( + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (pIn->numMipLevels > 1) + { + returnCode = ADDR_NOTIMPLEMENTED; + } + else + { + ADDR2_COMPUTE_HTILE_INFO_INPUT input = {0}; + input.size = sizeof(input); + input.hTileFlags = pIn->hTileFlags; + input.swizzleMode = pIn->swizzleMode; + input.unalignedWidth = Max(pIn->unalignedWidth, 1u); + input.unalignedHeight = Max(pIn->unalignedHeight, 1u); + input.numSlices = Max(pIn->numSlices, 1u); + input.numMipLevels = Max(pIn->numMipLevels, 1u); + + ADDR2_COMPUTE_HTILE_INFO_OUTPUT output = {0}; + output.size = sizeof(output); + + returnCode = ComputeHtileInfo(&input, &output); + + if (returnCode == ADDR_OK) + { + UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); + UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); + UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); + UINT_32 numSamplesLog2 = Log2(pIn->numSamples); + + MetaEqParams metaEqParams = {0, elementBytesLog2, numSamplesLog2, pIn->hTileFlags, + Gfx9DataDepthStencil, pIn->swizzleMode, ADDR_RSRC_TEX_2D, + metaBlkWidthLog2, metaBlkHeightLog2, 0, 3, 3, 0}; + + const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); + + UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->hTileFlags.pipeAligned, + pIn->swizzleMode); + + UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); + + UINT_64 nibbleAddress = (pIn->addr ^ (pipeXor << m_pipeInterleaveLog2)) << 1; + + UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; + UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; + + UINT_32 x, y, z, s, m; + pMetaEq->solveAddr(nibbleAddress, sliceSizeInBlock, x, y, z, s, m); + + pOut->slice = m / sliceSizeInBlock; + pOut->y = ((m % sliceSizeInBlock) / pitchInBlock) * output.metaBlkHeight + y; + pOut->x = (m % pitchInBlock) * output.metaBlkWidth + x; + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeDccAddrFromCoord +* +* @brief +* Interface function stub of AddrComputeDccAddrFromCoord +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeDccAddrFromCoord( + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut) +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if ((pIn->numMipLevels > 1) || (pIn->mipId > 1) || pIn->dccKeyFlags.linear) + { + returnCode = ADDR_NOTIMPLEMENTED; + } + else + { + ADDR2_COMPUTE_DCCINFO_INPUT input = {0}; + input.size = sizeof(input); + input.dccKeyFlags = pIn->dccKeyFlags; + input.colorFlags = pIn->colorFlags; + input.swizzleMode = pIn->swizzleMode; + input.resourceType = pIn->resourceType; + input.bpp = pIn->bpp; + input.unalignedWidth = Max(pIn->unalignedWidth, 1u); + input.unalignedHeight = Max(pIn->unalignedHeight, 1u); + input.numSlices = Max(pIn->numSlices, 1u); + input.numFrags = Max(pIn->numFrags, 1u); + input.numMipLevels = Max(pIn->numMipLevels, 1u); + + ADDR2_COMPUTE_DCCINFO_OUTPUT output = {0}; + output.size = sizeof(output); + + returnCode = ComputeDccInfo(&input, &output); + + if (returnCode == ADDR_OK) + { + UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); + UINT_32 numSamplesLog2 = Log2(pIn->numFrags); + UINT_32 metaBlkWidthLog2 = Log2(output.metaBlkWidth); + UINT_32 metaBlkHeightLog2 = Log2(output.metaBlkHeight); + UINT_32 metaBlkDepthLog2 = Log2(output.metaBlkDepth); + UINT_32 compBlkWidthLog2 = Log2(output.compressBlkWidth); + UINT_32 compBlkHeightLog2 = Log2(output.compressBlkHeight); + UINT_32 compBlkDepthLog2 = Log2(output.compressBlkDepth); + + MetaEqParams metaEqParams = {pIn->mipId, elementBytesLog2, numSamplesLog2, pIn->dccKeyFlags, + Gfx9DataColor, pIn->swizzleMode, pIn->resourceType, + metaBlkWidthLog2, metaBlkHeightLog2, metaBlkDepthLog2, + compBlkWidthLog2, compBlkHeightLog2, compBlkDepthLog2}; + + const CoordEq* pMetaEq = GetMetaEquation(metaEqParams); + + UINT_32 xb = pIn->x / output.metaBlkWidth; + UINT_32 yb = pIn->y / output.metaBlkHeight; + UINT_32 zb = pIn->slice / output.metaBlkDepth; + + UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; + UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; + UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; + + UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, pIn->sample, blockIndex); + + pOut->addr = address >> 1; + + UINT_32 numPipeBits = GetPipeLog2ForMetaAddressing(pIn->dccKeyFlags.pipeAligned, + pIn->swizzleMode); + + UINT_64 pipeXor = static_cast(pIn->pipeXor & ((1 << numPipeBits) - 1)); + + pOut->addr ^= (pipeXor << m_pipeInterleaveLog2); + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlInitGlobalParams +* +* @brief +* Initializes global parameters +* +* @return +* TRUE if all settings are valid +* +************************************************************************************************************************ +*/ +BOOL_32 Gfx9Lib::HwlInitGlobalParams( + const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input +{ + BOOL_32 valid = TRUE; + + if (m_settings.isArcticIsland) + { + GB_ADDR_CONFIG gbAddrConfig; + + gbAddrConfig.u32All = pCreateIn->regValue.gbAddrConfig; + + // These values are copied from CModel code + switch (gbAddrConfig.bits.NUM_PIPES) + { + case ADDR_CONFIG_1_PIPE: + m_pipes = 1; + m_pipesLog2 = 0; + break; + case ADDR_CONFIG_2_PIPE: + m_pipes = 2; + m_pipesLog2 = 1; + break; + case ADDR_CONFIG_4_PIPE: + m_pipes = 4; + m_pipesLog2 = 2; + break; + case ADDR_CONFIG_8_PIPE: + m_pipes = 8; + m_pipesLog2 = 3; + break; + case ADDR_CONFIG_16_PIPE: + m_pipes = 16; + m_pipesLog2 = 4; + break; + case ADDR_CONFIG_32_PIPE: + m_pipes = 32; + m_pipesLog2 = 5; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + switch (gbAddrConfig.bits.PIPE_INTERLEAVE_SIZE) + { + case ADDR_CONFIG_PIPE_INTERLEAVE_256B: + m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_256B; + m_pipeInterleaveLog2 = 8; + break; + case ADDR_CONFIG_PIPE_INTERLEAVE_512B: + m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_512B; + m_pipeInterleaveLog2 = 9; + break; + case ADDR_CONFIG_PIPE_INTERLEAVE_1KB: + m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_1KB; + m_pipeInterleaveLog2 = 10; + break; + case ADDR_CONFIG_PIPE_INTERLEAVE_2KB: + m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_2KB; + m_pipeInterleaveLog2 = 11; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + // Addr::V2::Lib::ComputePipeBankXor()/ComputeSlicePipeBankXor() requires pipe interleave to be exactly 8 bits, + // and any larger value requires a post-process (left shift) on the output pipeBankXor bits. + ADDR_ASSERT(m_pipeInterleaveBytes == ADDR_PIPEINTERLEAVE_256B); + + switch (gbAddrConfig.bits.NUM_BANKS) + { + case ADDR_CONFIG_1_BANK: + m_banks = 1; + m_banksLog2 = 0; + break; + case ADDR_CONFIG_2_BANK: + m_banks = 2; + m_banksLog2 = 1; + break; + case ADDR_CONFIG_4_BANK: + m_banks = 4; + m_banksLog2 = 2; + break; + case ADDR_CONFIG_8_BANK: + m_banks = 8; + m_banksLog2 = 3; + break; + case ADDR_CONFIG_16_BANK: + m_banks = 16; + m_banksLog2 = 4; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + switch (gbAddrConfig.bits.NUM_SHADER_ENGINES) + { + case ADDR_CONFIG_1_SHADER_ENGINE: + m_se = 1; + m_seLog2 = 0; + break; + case ADDR_CONFIG_2_SHADER_ENGINE: + m_se = 2; + m_seLog2 = 1; + break; + case ADDR_CONFIG_4_SHADER_ENGINE: + m_se = 4; + m_seLog2 = 2; + break; + case ADDR_CONFIG_8_SHADER_ENGINE: + m_se = 8; + m_seLog2 = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + switch (gbAddrConfig.bits.NUM_RB_PER_SE) + { + case ADDR_CONFIG_1_RB_PER_SHADER_ENGINE: + m_rbPerSe = 1; + m_rbPerSeLog2 = 0; + break; + case ADDR_CONFIG_2_RB_PER_SHADER_ENGINE: + m_rbPerSe = 2; + m_rbPerSeLog2 = 1; + break; + case ADDR_CONFIG_4_RB_PER_SHADER_ENGINE: + m_rbPerSe = 4; + m_rbPerSeLog2 = 2; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + switch (gbAddrConfig.bits.MAX_COMPRESSED_FRAGS) + { + case ADDR_CONFIG_1_MAX_COMPRESSED_FRAGMENTS: + m_maxCompFrag = 1; + m_maxCompFragLog2 = 0; + break; + case ADDR_CONFIG_2_MAX_COMPRESSED_FRAGMENTS: + m_maxCompFrag = 2; + m_maxCompFragLog2 = 1; + break; + case ADDR_CONFIG_4_MAX_COMPRESSED_FRAGMENTS: + m_maxCompFrag = 4; + m_maxCompFragLog2 = 2; + break; + case ADDR_CONFIG_8_MAX_COMPRESSED_FRAGMENTS: + m_maxCompFrag = 8; + m_maxCompFragLog2 = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + m_blockVarSizeLog2 = pCreateIn->regValue.blockVarSizeLog2; + ADDR_ASSERT((m_blockVarSizeLog2 == 0) || + ((m_blockVarSizeLog2 >= 17u) && (m_blockVarSizeLog2 <= 20u))); + m_blockVarSizeLog2 = Min(Max(17u, m_blockVarSizeLog2), 20u); + + if ((m_rbPerSeLog2 == 1) && + (((m_pipesLog2 == 1) && ((m_seLog2 == 2) || (m_seLog2 == 3))) || + ((m_pipesLog2 == 2) && ((m_seLog2 == 1) || (m_seLog2 == 2))))) + { + ADDR_ASSERT(m_settings.isVega10 == FALSE); + ADDR_ASSERT(m_settings.isRaven == FALSE); + ADDR_ASSERT(m_settings.isVega20 == FALSE); + + if (m_settings.isVega12) + { + m_settings.htileCacheRbConflict = 1; + } + } + } + else + { + valid = FALSE; + ADDR_NOT_IMPLEMENTED(); + } + + if (valid) + { + InitEquationTable(); + } + + return valid; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlConvertChipFamily +* +* @brief +* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision +* @return +* ChipFamily +************************************************************************************************************************ +*/ +ChipFamily Gfx9Lib::HwlConvertChipFamily( + UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h + UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h +{ + ChipFamily family = ADDR_CHIP_FAMILY_AI; + + switch (uChipFamily) + { + case FAMILY_AI: + m_settings.isArcticIsland = 1; + m_settings.isVega10 = ASICREV_IS_VEGA10_P(uChipRevision); + m_settings.isVega12 = ASICREV_IS_VEGA12_P(uChipRevision); + m_settings.isVega20 = ASICREV_IS_VEGA20_P(uChipRevision); + m_settings.isDce12 = 1; + + if (m_settings.isVega10 == 0) + { + m_settings.htileAlignFix = 1; + m_settings.applyAliasFix = 1; + } + + m_settings.metaBaseAlignFix = 1; + + m_settings.depthPipeXorDisable = 1; + break; + case FAMILY_RV: + m_settings.isArcticIsland = 1; + + if (ASICREV_IS_RAVEN(uChipRevision)) + { + m_settings.isRaven = 1; + + m_settings.depthPipeXorDisable = 1; + } + + if (ASICREV_IS_RAVEN2(uChipRevision)) + { + m_settings.isRaven = 1; + } + + if (m_settings.isRaven == 0) + { + m_settings.htileAlignFix = 1; + m_settings.applyAliasFix = 1; + } + + m_settings.isDcn1 = m_settings.isRaven; + + m_settings.metaBaseAlignFix = 1; + break; + + default: + ADDR_ASSERT(!"This should be a Fusion"); + break; + } + + return family; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::InitRbEquation +* +* @brief +* Init RB equation +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::GetRbEquation( + CoordEq* pRbEq, ///< [out] rb equation + UINT_32 numRbPerSeLog2, ///< [in] number of rb per shader engine + UINT_32 numSeLog2) ///< [in] number of shader engine + const +{ + // RB's are distributed on 16x16, except when we have 1 rb per se, in which case its 32x32 + UINT_32 rbRegion = (numRbPerSeLog2 == 0) ? 5 : 4; + Coordinate cx('x', rbRegion); + Coordinate cy('y', rbRegion); + + UINT_32 start = 0; + UINT_32 numRbTotalLog2 = numRbPerSeLog2 + numSeLog2; + + // Clear the rb equation + pRbEq->resize(0); + pRbEq->resize(numRbTotalLog2); + + if ((numSeLog2 > 0) && (numRbPerSeLog2 == 1)) + { + // Special case when more than 1 SE, and 2 RB per SE + (*pRbEq)[0].add(cx); + (*pRbEq)[0].add(cy); + cx++; + cy++; + + if (m_settings.applyAliasFix == false) + { + (*pRbEq)[0].add(cy); + } + + (*pRbEq)[0].add(cy); + start++; + } + + UINT_32 numBits = 2 * (numRbTotalLog2 - start); + + for (UINT_32 i = 0; i < numBits; i++) + { + UINT_32 idx = + start + (((start + i) >= numRbTotalLog2) ? (2 * (numRbTotalLog2 - start) - i - 1) : i); + + if ((i % 2) == 1) + { + (*pRbEq)[idx].add(cx); + cx++; + } + else + { + (*pRbEq)[idx].add(cy); + cy++; + } + } +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GetDataEquation +* +* @brief +* Get data equation for fmask and Z +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::GetDataEquation( + CoordEq* pDataEq, ///< [out] data surface equation + Gfx9DataType dataSurfaceType, ///< [in] data surface type + AddrSwizzleMode swizzleMode, ///< [in] data surface swizzle mode + AddrResourceType resourceType, ///< [in] data surface resource type + UINT_32 elementBytesLog2, ///< [in] data surface element bytes + UINT_32 numSamplesLog2) ///< [in] data surface sample count + const +{ + Coordinate cx('x', 0); + Coordinate cy('y', 0); + Coordinate cz('z', 0); + Coordinate cs('s', 0); + + // Clear the equation + pDataEq->resize(0); + pDataEq->resize(27); + + if (dataSurfaceType == Gfx9DataColor) + { + if (IsLinear(swizzleMode)) + { + Coordinate cm('m', 0); + + pDataEq->resize(49); + + for (UINT_32 i = 0; i < 49; i++) + { + (*pDataEq)[i].add(cm); + cm++; + } + } + else if (IsThick(resourceType, swizzleMode)) + { + // Color 3d_S and 3d_Z modes, 3d_D is same as color 2d + UINT_32 i; + if (IsStandardSwizzle(resourceType, swizzleMode)) + { + // Standard 3d swizzle + // Fill in bottom x bits + for (i = elementBytesLog2; i < 4; i++) + { + (*pDataEq)[i].add(cx); + cx++; + } + // Fill in 2 bits of y and then z + for (i = 4; i < 6; i++) + { + (*pDataEq)[i].add(cy); + cy++; + } + for (i = 6; i < 8; i++) + { + (*pDataEq)[i].add(cz); + cz++; + } + if (elementBytesLog2 < 2) + { + // fill in z & y bit + (*pDataEq)[8].add(cz); + (*pDataEq)[9].add(cy); + cz++; + cy++; + } + else if (elementBytesLog2 == 2) + { + // fill in y and x bit + (*pDataEq)[8].add(cy); + (*pDataEq)[9].add(cx); + cy++; + cx++; + } + else + { + // fill in 2 x bits + (*pDataEq)[8].add(cx); + cx++; + (*pDataEq)[9].add(cx); + cx++; + } + } + else + { + // Z 3d swizzle + UINT_32 m2dEnd = (elementBytesLog2 ==0) ? 3 : ((elementBytesLog2 < 4) ? 4 : 5); + UINT_32 numZs = (elementBytesLog2 == 0 || elementBytesLog2 == 4) ? + 2 : ((elementBytesLog2 == 1) ? 3 : 1); + pDataEq->mort2d(cx, cy, elementBytesLog2, m2dEnd); + for (i = m2dEnd + 1; i <= m2dEnd + numZs; i++) + { + (*pDataEq)[i].add(cz); + cz++; + } + if ((elementBytesLog2 == 0) || (elementBytesLog2 == 3)) + { + // add an x and z + (*pDataEq)[6].add(cx); + (*pDataEq)[7].add(cz); + cx++; + cz++; + } + else if (elementBytesLog2 == 2) + { + // add a y and z + (*pDataEq)[6].add(cy); + (*pDataEq)[7].add(cz); + cy++; + cz++; + } + // add y and x + (*pDataEq)[8].add(cy); + (*pDataEq)[9].add(cx); + cy++; + cx++; + } + // Fill in bit 10 and up + pDataEq->mort3d( cz, cy, cx, 10 ); + } + else if (IsThin(resourceType, swizzleMode)) + { + UINT_32 blockSizeLog2 = GetBlockSizeLog2(swizzleMode); + // Color 2D + UINT_32 microYBits = (8 - elementBytesLog2) / 2; + UINT_32 tileSplitStart = blockSizeLog2 - numSamplesLog2; + UINT_32 i; + // Fill in bottom x bits + for (i = elementBytesLog2; i < 4; i++) + { + (*pDataEq)[i].add(cx); + cx++; + } + // Fill in bottom y bits + for (i = 4; i < 4 + microYBits; i++) + { + (*pDataEq)[i].add(cy); + cy++; + } + // Fill in last of the micro_x bits + for (i = 4 + microYBits; i < 8; i++) + { + (*pDataEq)[i].add(cx); + cx++; + } + // Fill in x/y bits below sample split + pDataEq->mort2d(cy, cx, 8, tileSplitStart - 1); + // Fill in sample bits + for (i = 0; i < numSamplesLog2; i++) + { + cs.set('s', i); + (*pDataEq)[tileSplitStart + i].add(cs); + } + // Fill in x/y bits above sample split + if ((numSamplesLog2 & 1) ^ (blockSizeLog2 & 1)) + { + pDataEq->mort2d(cx, cy, blockSizeLog2); + } + else + { + pDataEq->mort2d(cy, cx, blockSizeLog2); + } + } + else + { + ADDR_ASSERT_ALWAYS(); + } + } + else + { + // Fmask or depth + UINT_32 sampleStart = elementBytesLog2; + UINT_32 pixelStart = elementBytesLog2 + numSamplesLog2; + UINT_32 ymajStart = 6 + numSamplesLog2; + + for (UINT_32 s = 0; s < numSamplesLog2; s++) + { + cs.set('s', s); + (*pDataEq)[sampleStart + s].add(cs); + } + + // Put in the x-major order pixel bits + pDataEq->mort2d(cx, cy, pixelStart, ymajStart - 1); + // Put in the y-major order pixel bits + pDataEq->mort2d(cy, cx, ymajStart); + } +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GetPipeEquation +* +* @brief +* Get pipe equation +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::GetPipeEquation( + CoordEq* pPipeEq, ///< [out] pipe equation + CoordEq* pDataEq, ///< [in] data equation + UINT_32 pipeInterleaveLog2, ///< [in] pipe interleave + UINT_32 numPipeLog2, ///< [in] number of pipes + UINT_32 numSamplesLog2, ///< [in] data surface sample count + Gfx9DataType dataSurfaceType, ///< [in] data surface type + AddrSwizzleMode swizzleMode, ///< [in] data surface swizzle mode + AddrResourceType resourceType ///< [in] data surface resource type + ) const +{ + UINT_32 blockSizeLog2 = GetBlockSizeLog2(swizzleMode); + CoordEq dataEq; + + pDataEq->copy(dataEq); + + if (dataSurfaceType == Gfx9DataColor) + { + INT_32 shift = static_cast(numSamplesLog2); + dataEq.shift(-shift, blockSizeLog2 - numSamplesLog2); + } + + dataEq.copy(*pPipeEq, pipeInterleaveLog2, numPipeLog2); + + // This section should only apply to z/stencil, maybe fmask + // If the pipe bit is below the comp block size, + // then keep moving up the address until we find a bit that is above + UINT_32 pipeStart = 0; + + if (dataSurfaceType != Gfx9DataColor) + { + Coordinate tileMin('x', 3); + + while (dataEq[pipeInterleaveLog2 + pipeStart][0] < tileMin) + { + pipeStart++; + } + + // if pipe is 0, then the first pipe bit is above the comp block size, + // so we don't need to do anything + // Note, this if condition is not necessary, since if we execute the loop when pipe==0, + // we will get the same pipe equation + if (pipeStart != 0) + { + for (UINT_32 i = 0; i < numPipeLog2; i++) + { + // Copy the jth bit above pipe interleave to the current pipe equation bit + dataEq[pipeInterleaveLog2 + pipeStart + i].copyto((*pPipeEq)[i]); + } + } + } + + if (IsPrt(swizzleMode)) + { + // Clear out bits above the block size if prt's are enabled + dataEq.resize(blockSizeLog2); + dataEq.resize(48); + } + + if (IsXor(swizzleMode)) + { + CoordEq xorMask; + + if (IsThick(resourceType, swizzleMode)) + { + CoordEq xorMask2; + + dataEq.copy(xorMask2, pipeInterleaveLog2 + numPipeLog2, 2 * numPipeLog2); + + xorMask.resize(numPipeLog2); + + for (UINT_32 pipeIdx = 0; pipeIdx < numPipeLog2; pipeIdx++) + { + xorMask[pipeIdx].add(xorMask2[2 * pipeIdx]); + xorMask[pipeIdx].add(xorMask2[2 * pipeIdx + 1]); + } + } + else + { + // Xor in the bits above the pipe+gpu bits + dataEq.copy(xorMask, pipeInterleaveLog2 + pipeStart + numPipeLog2, numPipeLog2); + + if ((numSamplesLog2 == 0) && (IsPrt(swizzleMode) == FALSE)) + { + Coordinate co; + CoordEq xorMask2; + // if 1xaa and not prt, then xor in the z bits + xorMask2.resize(0); + xorMask2.resize(numPipeLog2); + for (UINT_32 pipeIdx = 0; pipeIdx < numPipeLog2; pipeIdx++) + { + co.set('z', numPipeLog2 - 1 - pipeIdx); + xorMask2[pipeIdx].add(co); + } + + pPipeEq->xorin(xorMask2); + } + } + + xorMask.reverse(); + pPipeEq->xorin(xorMask); + } +} +/** +************************************************************************************************************************ +* Gfx9Lib::GetMetaEquation +* +* @brief +* Get meta equation for cmask/htile/DCC +* @return +* Pointer to a calculated meta equation +************************************************************************************************************************ +*/ +const CoordEq* Gfx9Lib::GetMetaEquation( + const MetaEqParams& metaEqParams) +{ + UINT_32 cachedMetaEqIndex; + + for (cachedMetaEqIndex = 0; cachedMetaEqIndex < MaxCachedMetaEq; cachedMetaEqIndex++) + { + if (memcmp(&metaEqParams, + &m_cachedMetaEqKey[cachedMetaEqIndex], + static_cast(sizeof(metaEqParams))) == 0) + { + break; + } + } + + CoordEq* pMetaEq = NULL; + + if (cachedMetaEqIndex < MaxCachedMetaEq) + { + pMetaEq = &m_cachedMetaEq[cachedMetaEqIndex]; + } + else + { + m_cachedMetaEqKey[m_metaEqOverrideIndex] = metaEqParams; + + pMetaEq = &m_cachedMetaEq[m_metaEqOverrideIndex++]; + + m_metaEqOverrideIndex %= MaxCachedMetaEq; + + GenMetaEquation(pMetaEq, + metaEqParams.maxMip, + metaEqParams.elementBytesLog2, + metaEqParams.numSamplesLog2, + metaEqParams.metaFlag, + metaEqParams.dataSurfaceType, + metaEqParams.swizzleMode, + metaEqParams.resourceType, + metaEqParams.metaBlkWidthLog2, + metaEqParams.metaBlkHeightLog2, + metaEqParams.metaBlkDepthLog2, + metaEqParams.compBlkWidthLog2, + metaEqParams.compBlkHeightLog2, + metaEqParams.compBlkDepthLog2); + } + + return pMetaEq; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GenMetaEquation +* +* @brief +* Get meta equation for cmask/htile/DCC +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::GenMetaEquation( + CoordEq* pMetaEq, ///< [out] meta equation + UINT_32 maxMip, ///< [in] max mip Id + UINT_32 elementBytesLog2, ///< [in] data surface element bytes + UINT_32 numSamplesLog2, ///< [in] data surface sample count + ADDR2_META_FLAGS metaFlag, ///< [in] meta falg + Gfx9DataType dataSurfaceType, ///< [in] data surface type + AddrSwizzleMode swizzleMode, ///< [in] data surface swizzle mode + AddrResourceType resourceType, ///< [in] data surface resource type + UINT_32 metaBlkWidthLog2, ///< [in] meta block width + UINT_32 metaBlkHeightLog2, ///< [in] meta block height + UINT_32 metaBlkDepthLog2, ///< [in] meta block depth + UINT_32 compBlkWidthLog2, ///< [in] compress block width + UINT_32 compBlkHeightLog2, ///< [in] compress block height + UINT_32 compBlkDepthLog2) ///< [in] compress block depth + const +{ + UINT_32 numPipeTotalLog2 = GetPipeLog2ForMetaAddressing(metaFlag.pipeAligned, swizzleMode); + UINT_32 pipeInterleaveLog2 = m_pipeInterleaveLog2; + + // Get the correct data address and rb equation + CoordEq dataEq; + GetDataEquation(&dataEq, dataSurfaceType, swizzleMode, resourceType, + elementBytesLog2, numSamplesLog2); + + // Get pipe and rb equations + CoordEq pipeEquation; + GetPipeEquation(&pipeEquation, &dataEq, pipeInterleaveLog2, numPipeTotalLog2, + numSamplesLog2, dataSurfaceType, swizzleMode, resourceType); + numPipeTotalLog2 = pipeEquation.getsize(); + + if (metaFlag.linear) + { + // Linear metadata supporting was removed for GFX9! No one can use this feature. + ADDR_ASSERT_ALWAYS(); + + ADDR_ASSERT(dataSurfaceType == Gfx9DataColor); + + dataEq.copy(*pMetaEq); + + if (IsLinear(swizzleMode)) + { + if (metaFlag.pipeAligned) + { + // Remove the pipe bits + INT_32 shift = static_cast(numPipeTotalLog2); + pMetaEq->shift(-shift, pipeInterleaveLog2); + } + // Divide by comp block size, which for linear (which is always color) is 256 B + pMetaEq->shift(-8); + + if (metaFlag.pipeAligned) + { + // Put pipe bits back in + pMetaEq->shift(numPipeTotalLog2, pipeInterleaveLog2); + + for (UINT_32 i = 0; i < numPipeTotalLog2; i++) + { + pipeEquation[i].copyto((*pMetaEq)[pipeInterleaveLog2 + i]); + } + } + } + + pMetaEq->shift(1); + } + else + { + UINT_32 maxCompFragLog2 = static_cast(m_maxCompFragLog2); + UINT_32 compFragLog2 = + ((dataSurfaceType == Gfx9DataColor) && (numSamplesLog2 > maxCompFragLog2)) ? + maxCompFragLog2 : numSamplesLog2; + + UINT_32 uncompFragLog2 = numSamplesLog2 - compFragLog2; + + // Make sure the metaaddr is cleared + pMetaEq->resize(0); + pMetaEq->resize(27); + + if (IsThick(resourceType, swizzleMode)) + { + Coordinate cx('x', 0); + Coordinate cy('y', 0); + Coordinate cz('z', 0); + + if (maxMip > 0) + { + pMetaEq->mort3d(cy, cx, cz); + } + else + { + pMetaEq->mort3d(cx, cy, cz); + } + } + else + { + Coordinate cx('x', 0); + Coordinate cy('y', 0); + Coordinate cs; + + if (maxMip > 0) + { + pMetaEq->mort2d(cy, cx, compFragLog2); + } + else + { + pMetaEq->mort2d(cx, cy, compFragLog2); + } + + //------------------------------------------------------------------------------------------------------------------------ + // Put the compressible fragments at the lsb + // the uncompressible frags will be at the msb of the micro address + //------------------------------------------------------------------------------------------------------------------------ + for (UINT_32 s = 0; s < compFragLog2; s++) + { + cs.set('s', s); + (*pMetaEq)[s].add(cs); + } + } + + // Keep a copy of the pipe equations + CoordEq origPipeEquation; + pipeEquation.copy(origPipeEquation); + + Coordinate co; + // filter out everything under the compressed block size + co.set('x', compBlkWidthLog2); + pMetaEq->Filter('<', co, 0, 'x'); + co.set('y', compBlkHeightLog2); + pMetaEq->Filter('<', co, 0, 'y'); + co.set('z', compBlkDepthLog2); + pMetaEq->Filter('<', co, 0, 'z'); + + // For non-color, filter out sample bits + if (dataSurfaceType != Gfx9DataColor) + { + co.set('x', 0); + pMetaEq->Filter('<', co, 0, 's'); + } + + // filter out everything above the metablock size + co.set('x', metaBlkWidthLog2 - 1); + pMetaEq->Filter('>', co, 0, 'x'); + co.set('y', metaBlkHeightLog2 - 1); + pMetaEq->Filter('>', co, 0, 'y'); + co.set('z', metaBlkDepthLog2 - 1); + pMetaEq->Filter('>', co, 0, 'z'); + + // filter out everything above the metablock size for the channel bits + co.set('x', metaBlkWidthLog2 - 1); + pipeEquation.Filter('>', co, 0, 'x'); + co.set('y', metaBlkHeightLog2 - 1); + pipeEquation.Filter('>', co, 0, 'y'); + co.set('z', metaBlkDepthLog2 - 1); + pipeEquation.Filter('>', co, 0, 'z'); + + // Make sure we still have the same number of channel bits + if (pipeEquation.getsize() != numPipeTotalLog2) + { + ADDR_ASSERT_ALWAYS(); + } + + // Loop through all channel and rb bits, + // and make sure these components exist in the metadata address + for (UINT_32 i = 0; i < numPipeTotalLog2; i++) + { + for (UINT_32 j = pipeEquation[i].getsize(); j > 0; j--) + { + if (pMetaEq->Exists(pipeEquation[i][j - 1]) == FALSE) + { + ADDR_ASSERT_ALWAYS(); + } + } + } + + const UINT_32 numSeLog2 = metaFlag.rbAligned ? m_seLog2 : 0; + const UINT_32 numRbPeSeLog2 = metaFlag.rbAligned ? m_rbPerSeLog2 : 0; + const UINT_32 numRbTotalLog2 = numRbPeSeLog2 + numSeLog2; + CoordEq origRbEquation; + + GetRbEquation(&origRbEquation, numRbPeSeLog2, numSeLog2); + + CoordEq rbEquation = origRbEquation; + + for (UINT_32 i = 0; i < numRbTotalLog2; i++) + { + for (UINT_32 j = rbEquation[i].getsize(); j > 0; j--) + { + if (pMetaEq->Exists(rbEquation[i][j - 1]) == FALSE) + { + ADDR_ASSERT_ALWAYS(); + } + } + } + + if (m_settings.applyAliasFix) + { + co.set('z', -1); + } + + // Loop through each rb id bit; if it is equal to any of the filtered channel bits, clear it + for (UINT_32 i = 0; i < numRbTotalLog2; i++) + { + for (UINT_32 j = 0; j < numPipeTotalLog2; j++) + { + BOOL_32 isRbEquationInPipeEquation = FALSE; + + if (m_settings.applyAliasFix) + { + CoordTerm filteredPipeEq; + filteredPipeEq = pipeEquation[j]; + + filteredPipeEq.Filter('>', co, 0, 'z'); + + isRbEquationInPipeEquation = (rbEquation[i] == filteredPipeEq); + } + else + { + isRbEquationInPipeEquation = (rbEquation[i] == pipeEquation[j]); + } + + if (isRbEquationInPipeEquation) + { + rbEquation[i].Clear(); + } + } + } + + bool rbAppendedWithPipeBits[1 << (MaxSeLog2 + MaxRbPerSeLog2)] = {}; + + // Loop through each bit of the channel, get the smallest coordinate, + // and remove it from the metaaddr, and rb_equation + for (UINT_32 i = 0; i < numPipeTotalLog2; i++) + { + pipeEquation[i].getsmallest(co); + + UINT_32 old_size = pMetaEq->getsize(); + pMetaEq->Filter('=', co); + UINT_32 new_size = pMetaEq->getsize(); + if (new_size != old_size-1) + { + ADDR_ASSERT_ALWAYS(); + } + pipeEquation.remove(co); + for (UINT_32 j = 0; j < numRbTotalLog2; j++) + { + if (rbEquation[j].remove(co)) + { + // if we actually removed something from this bit, then add the remaining + // channel bits, as these can be removed for this bit + for (UINT_32 k = 0; k < pipeEquation[i].getsize(); k++) + { + if (pipeEquation[i][k] != co) + { + rbEquation[j].add(pipeEquation[i][k]); + rbAppendedWithPipeBits[j] = true; + } + } + } + } + } + + // Loop through the rb bits and see what remain; + // filter out the smallest coordinate if it remains + UINT_32 rbBitsLeft = 0; + for (UINT_32 i = 0; i < numRbTotalLog2; i++) + { + BOOL_32 isRbEqAppended = FALSE; + + if (m_settings.applyAliasFix) + { + isRbEqAppended = (rbEquation[i].getsize() > (rbAppendedWithPipeBits[i] ? 1 : 0)); + } + else + { + isRbEqAppended = (rbEquation[i].getsize() > 0); + } + + if (isRbEqAppended) + { + rbBitsLeft++; + rbEquation[i].getsmallest(co); + UINT_32 old_size = pMetaEq->getsize(); + pMetaEq->Filter('=', co); + UINT_32 new_size = pMetaEq->getsize(); + if (new_size != old_size - 1) + { + // assert warning + } + for (UINT_32 j = i + 1; j < numRbTotalLog2; j++) + { + if (rbEquation[j].remove(co)) + { + // if we actually removed something from this bit, then add the remaining + // rb bits, as these can be removed for this bit + for (UINT_32 k = 0; k < rbEquation[i].getsize(); k++) + { + if (rbEquation[i][k] != co) + { + rbEquation[j].add(rbEquation[i][k]); + rbAppendedWithPipeBits[j] |= rbAppendedWithPipeBits[i]; + } + } + } + } + } + } + + // capture the size of the metaaddr + UINT_32 metaSize = pMetaEq->getsize(); + // resize to 49 bits...make this a nibble address + pMetaEq->resize(49); + // Concatenate the macro address above the current address + for (UINT_32 i = metaSize, j = 0; i < 49; i++, j++) + { + co.set('m', j); + (*pMetaEq)[i].add(co); + } + + // Multiply by meta element size (in nibbles) + if (dataSurfaceType == Gfx9DataColor) + { + pMetaEq->shift(1); + } + else if (dataSurfaceType == Gfx9DataDepthStencil) + { + pMetaEq->shift(3); + } + + //------------------------------------------------------------------------------------------ + // Note the pipeInterleaveLog2+1 is because address is a nibble address + // Shift up from pipe interleave number of channel + // and rb bits left, and uncompressed fragments + //------------------------------------------------------------------------------------------ + + pMetaEq->shift(numPipeTotalLog2 + rbBitsLeft + uncompFragLog2, pipeInterleaveLog2 + 1); + + // Put in the channel bits + for (UINT_32 i = 0; i < numPipeTotalLog2; i++) + { + origPipeEquation[i].copyto((*pMetaEq)[pipeInterleaveLog2+1 + i]); + } + + // Put in remaining rb bits + for (UINT_32 i = 0, j = 0; j < rbBitsLeft; i = (i + 1) % numRbTotalLog2) + { + BOOL_32 isRbEqAppended = FALSE; + + if (m_settings.applyAliasFix) + { + isRbEqAppended = (rbEquation[i].getsize() > (rbAppendedWithPipeBits[i] ? 1 : 0)); + } + else + { + isRbEqAppended = (rbEquation[i].getsize() > 0); + } + + if (isRbEqAppended) + { + origRbEquation[i].copyto((*pMetaEq)[pipeInterleaveLog2 + 1 + numPipeTotalLog2 + j]); + // Mark any rb bit we add in to the rb mask + j++; + } + } + + //------------------------------------------------------------------------------------------ + // Put in the uncompressed fragment bits + //------------------------------------------------------------------------------------------ + for (UINT_32 i = 0; i < uncompFragLog2; i++) + { + co.set('s', compFragLog2 + i); + (*pMetaEq)[pipeInterleaveLog2 + 1 + numPipeTotalLog2 + rbBitsLeft + i].add(co); + } + } +} + +/** +************************************************************************************************************************ +* Gfx9Lib::IsEquationSupported +* +* @brief +* Check if equation is supported for given swizzle mode and resource type. +* +* @return +* TRUE if supported +************************************************************************************************************************ +*/ +BOOL_32 Gfx9Lib::IsEquationSupported( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2) const +{ + BOOL_32 supported = (elementBytesLog2 < MaxElementBytesLog2) && + (IsLinear(swMode) == FALSE) && + (((IsTex2d(rsrcType) == TRUE) && + ((elementBytesLog2 < 4) || + ((IsRotateSwizzle(swMode) == FALSE) && + (IsZOrderSwizzle(swMode) == FALSE)))) || + ((IsTex3d(rsrcType) == TRUE) && + (IsRotateSwizzle(swMode) == FALSE) && + (IsBlock256b(swMode) == FALSE))); + + return supported; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::InitEquationTable +* +* @brief +* Initialize Equation table. +* +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::InitEquationTable() +{ + memset(m_equationTable, 0, sizeof(m_equationTable)); + + // Loop all possible resource type (2D/3D) + for (UINT_32 rsrcTypeIdx = 0; rsrcTypeIdx < MaxRsrcType; rsrcTypeIdx++) + { + AddrResourceType rsrcType = static_cast(rsrcTypeIdx + ADDR_RSRC_TEX_2D); + + // Loop all possible swizzle mode + for (UINT_32 swModeIdx = 0; swModeIdx < MaxSwMode; swModeIdx++) + { + AddrSwizzleMode swMode = static_cast(swModeIdx); + + // Loop all possible bpp + for (UINT_32 bppIdx = 0; bppIdx < MaxElementBytesLog2; bppIdx++) + { + UINT_32 equationIndex = ADDR_INVALID_EQUATION_INDEX; + + // Check if the input is supported + if (IsEquationSupported(rsrcType, swMode, bppIdx)) + { + ADDR_EQUATION equation; + ADDR_E_RETURNCODE retCode; + + memset(&equation, 0, sizeof(ADDR_EQUATION)); + + // Generate the equation + if (IsBlock256b(swMode) && IsTex2d(rsrcType)) + { + retCode = ComputeBlock256Equation(rsrcType, swMode, bppIdx, &equation); + } + else if (IsThin(rsrcType, swMode)) + { + retCode = ComputeThinEquation(rsrcType, swMode, bppIdx, &equation); + } + else + { + retCode = ComputeThickEquation(rsrcType, swMode, bppIdx, &equation); + } + + // Only fill the equation into the table if the return code is ADDR_OK, + // otherwise if the return code is not ADDR_OK, it indicates this is not + // a valid input, we do nothing but just fill invalid equation index + // into the lookup table. + if (retCode == ADDR_OK) + { + equationIndex = m_numEquations; + ADDR_ASSERT(equationIndex < EquationTableSize); + + m_equationTable[equationIndex] = equation; + + m_numEquations++; + } + else + { + ADDR_ASSERT_ALWAYS(); + } + } + + // Fill the index into the lookup table, if the combination is not supported + // fill the invalid equation index + m_equationLookupTable[rsrcTypeIdx][swModeIdx][bppIdx] = equationIndex; + } + } + } +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlGetEquationIndex +* +* @brief +* Interface function stub of GetEquationIndex +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +UINT_32 Gfx9Lib::HwlGetEquationIndex( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut + ) const +{ + AddrResourceType rsrcType = pIn->resourceType; + AddrSwizzleMode swMode = pIn->swizzleMode; + UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); + UINT_32 index = ADDR_INVALID_EQUATION_INDEX; + + if (IsEquationSupported(rsrcType, swMode, elementBytesLog2)) + { + UINT_32 rsrcTypeIdx = static_cast(rsrcType) - 1; + UINT_32 swModeIdx = static_cast(swMode); + + index = m_equationLookupTable[rsrcTypeIdx][swModeIdx][elementBytesLog2]; + } + + if (pOut->pMipInfo != NULL) + { + for (UINT_32 i = 0; i < pIn->numMipLevels; i++) + { + pOut->pMipInfo[i].equationIndex = index; + } + } + + return index; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeBlock256Equation +* +* @brief +* Interface function stub of ComputeBlock256Equation +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeBlock256Equation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const +{ + ADDR_E_RETURNCODE ret = ADDR_OK; + + pEquation->numBits = 8; + + UINT_32 i = 0; + for (; i < elementBytesLog2; i++) + { + InitChannel(1, 0 , i, &pEquation->addr[i]); + } + + ADDR_CHANNEL_SETTING* pixelBit = &pEquation->addr[elementBytesLog2]; + + const UINT_32 maxBitsUsed = 4; + ADDR_CHANNEL_SETTING x[maxBitsUsed] = {}; + ADDR_CHANNEL_SETTING y[maxBitsUsed] = {}; + + for (i = 0; i < maxBitsUsed; i++) + { + InitChannel(1, 0, elementBytesLog2 + i, &x[i]); + InitChannel(1, 1, i, &y[i]); + } + + if (IsStandardSwizzle(rsrcType, swMode)) + { + switch (elementBytesLog2) + { + case 0: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = x[2]; + pixelBit[3] = x[3]; + pixelBit[4] = y[0]; + pixelBit[5] = y[1]; + pixelBit[6] = y[2]; + pixelBit[7] = y[3]; + break; + case 1: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = x[2]; + pixelBit[3] = y[0]; + pixelBit[4] = y[1]; + pixelBit[5] = y[2]; + pixelBit[6] = x[3]; + break; + case 2: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = y[0]; + pixelBit[3] = y[1]; + pixelBit[4] = y[2]; + pixelBit[5] = x[2]; + break; + case 3: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = y[1]; + pixelBit[3] = x[1]; + pixelBit[4] = x[2]; + break; + case 4: + pixelBit[0] = y[0]; + pixelBit[1] = y[1]; + pixelBit[2] = x[0]; + pixelBit[3] = x[1]; + break; + default: + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + break; + } + } + else if (IsDisplaySwizzle(rsrcType, swMode)) + { + switch (elementBytesLog2) + { + case 0: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = x[2]; + pixelBit[3] = y[1]; + pixelBit[4] = y[0]; + pixelBit[5] = y[2]; + pixelBit[6] = x[3]; + pixelBit[7] = y[3]; + break; + case 1: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = x[2]; + pixelBit[3] = y[0]; + pixelBit[4] = y[1]; + pixelBit[5] = y[2]; + pixelBit[6] = x[3]; + break; + case 2: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = y[0]; + pixelBit[3] = x[2]; + pixelBit[4] = y[1]; + pixelBit[5] = y[2]; + break; + case 3: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = x[1]; + pixelBit[3] = x[2]; + pixelBit[4] = y[1]; + break; + case 4: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = x[1]; + pixelBit[3] = y[1]; + break; + default: + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + break; + } + } + else if (IsRotateSwizzle(swMode)) + { + switch (elementBytesLog2) + { + case 0: + pixelBit[0] = y[0]; + pixelBit[1] = y[1]; + pixelBit[2] = y[2]; + pixelBit[3] = x[1]; + pixelBit[4] = x[0]; + pixelBit[5] = x[2]; + pixelBit[6] = x[3]; + pixelBit[7] = y[3]; + break; + case 1: + pixelBit[0] = y[0]; + pixelBit[1] = y[1]; + pixelBit[2] = y[2]; + pixelBit[3] = x[0]; + pixelBit[4] = x[1]; + pixelBit[5] = x[2]; + pixelBit[6] = x[3]; + break; + case 2: + pixelBit[0] = y[0]; + pixelBit[1] = y[1]; + pixelBit[2] = x[0]; + pixelBit[3] = y[2]; + pixelBit[4] = x[1]; + pixelBit[5] = x[2]; + break; + case 3: + pixelBit[0] = y[0]; + pixelBit[1] = x[0]; + pixelBit[2] = y[1]; + pixelBit[3] = x[1]; + pixelBit[4] = x[2]; + break; + default: + ADDR_ASSERT_ALWAYS(); + case 4: + ret = ADDR_INVALIDPARAMS; + break; + } + } + else + { + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + } + + // Post validation + if (ret == ADDR_OK) + { + MAYBE_UNUSED Dim2d microBlockDim = Block256_2d[elementBytesLog2]; + ADDR_ASSERT((2u << GetMaxValidChannelIndex(pEquation->addr, 8, 0)) == + (microBlockDim.w * (1 << elementBytesLog2))); + ADDR_ASSERT((2u << GetMaxValidChannelIndex(pEquation->addr, 8, 1)) == microBlockDim.h); + } + + return ret; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeThinEquation +* +* @brief +* Interface function stub of ComputeThinEquation +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeThinEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const +{ + ADDR_E_RETURNCODE ret = ADDR_OK; + + UINT_32 blockSizeLog2 = GetBlockSizeLog2(swMode); + + UINT_32 maxXorBits = blockSizeLog2; + if (IsNonPrtXor(swMode)) + { + // For non-prt-xor, maybe need to initialize some more bits for xor + // The highest xor bit used in equation will be max the following 3 items: + // 1. m_pipeInterleaveLog2 + 2 * pipeXorBits + // 2. m_pipeInterleaveLog2 + pipeXorBits + 2 * bankXorBits + // 3. blockSizeLog2 + + maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + 2 * GetPipeXorBits(blockSizeLog2)); + maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + + GetPipeXorBits(blockSizeLog2) + + 2 * GetBankXorBits(blockSizeLog2)); + } + + const UINT_32 maxBitsUsed = 14; + ADDR_ASSERT((2 * maxBitsUsed) >= maxXorBits); + ADDR_CHANNEL_SETTING x[maxBitsUsed] = {}; + ADDR_CHANNEL_SETTING y[maxBitsUsed] = {}; + + const UINT_32 extraXorBits = 16; + ADDR_ASSERT(extraXorBits >= maxXorBits - blockSizeLog2); + ADDR_CHANNEL_SETTING xorExtra[extraXorBits] = {}; + + for (UINT_32 i = 0; i < maxBitsUsed; i++) + { + InitChannel(1, 0, elementBytesLog2 + i, &x[i]); + InitChannel(1, 1, i, &y[i]); + } + + ADDR_CHANNEL_SETTING* pixelBit = pEquation->addr; + + for (UINT_32 i = 0; i < elementBytesLog2; i++) + { + InitChannel(1, 0 , i, &pixelBit[i]); + } + + UINT_32 xIdx = 0; + UINT_32 yIdx = 0; + UINT_32 lowBits = 0; + + if (IsZOrderSwizzle(swMode)) + { + if (elementBytesLog2 <= 3) + { + for (UINT_32 i = elementBytesLog2; i < 6; i++) + { + pixelBit[i] = (((i - elementBytesLog2) & 1) == 0) ? x[xIdx++] : y[yIdx++]; + } + + lowBits = 6; + } + else + { + ret = ADDR_INVALIDPARAMS; + } + } + else + { + ret = HwlComputeBlock256Equation(rsrcType, swMode, elementBytesLog2, pEquation); + + if (ret == ADDR_OK) + { + Dim2d microBlockDim = Block256_2d[elementBytesLog2]; + xIdx = Log2(microBlockDim.w); + yIdx = Log2(microBlockDim.h); + lowBits = 8; + } + } + + if (ret == ADDR_OK) + { + for (UINT_32 i = lowBits; i < blockSizeLog2; i++) + { + pixelBit[i] = ((i & 1) == 0) ? y[yIdx++] : x[xIdx++]; + } + + for (UINT_32 i = blockSizeLog2; i < maxXorBits; i++) + { + xorExtra[i - blockSizeLog2] = ((i & 1) == 0) ? y[yIdx++] : x[xIdx++]; + } + + if (IsXor(swMode)) + { + // Fill XOR bits + UINT_32 pipeStart = m_pipeInterleaveLog2; + UINT_32 pipeXorBits = GetPipeXorBits(blockSizeLog2); + + UINT_32 bankStart = pipeStart + pipeXorBits; + UINT_32 bankXorBits = GetBankXorBits(blockSizeLog2); + + for (UINT_32 i = 0; i < pipeXorBits; i++) + { + UINT_32 xor1BitPos = pipeStart + 2 * pipeXorBits - 1 - i; + ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? + &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; + + InitChannel(&pEquation->xor1[pipeStart + i], pXor1Src); + } + + for (UINT_32 i = 0; i < bankXorBits; i++) + { + UINT_32 xor1BitPos = bankStart + 2 * bankXorBits - 1 - i; + ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? + &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; + + InitChannel(&pEquation->xor1[bankStart + i], pXor1Src); + } + + if (IsPrt(swMode) == FALSE) + { + for (UINT_32 i = 0; i < pipeXorBits; i++) + { + InitChannel(1, 2, pipeXorBits - i - 1, &pEquation->xor2[pipeStart + i]); + } + + for (UINT_32 i = 0; i < bankXorBits; i++) + { + InitChannel(1, 2, bankXorBits - i - 1 + pipeXorBits, &pEquation->xor2[bankStart + i]); + } + } + } + + pEquation->numBits = blockSizeLog2; + } + + return ret; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeThickEquation +* +* @brief +* Interface function stub of ComputeThickEquation +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeThickEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const +{ + ADDR_E_RETURNCODE ret = ADDR_OK; + + ADDR_ASSERT(IsTex3d(rsrcType)); + + UINT_32 blockSizeLog2 = GetBlockSizeLog2(swMode); + + UINT_32 maxXorBits = blockSizeLog2; + if (IsNonPrtXor(swMode)) + { + // For non-prt-xor, maybe need to initialize some more bits for xor + // The highest xor bit used in equation will be max the following 3: + // 1. m_pipeInterleaveLog2 + 3 * pipeXorBits + // 2. m_pipeInterleaveLog2 + pipeXorBits + 3 * bankXorBits + // 3. blockSizeLog2 + + maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + 3 * GetPipeXorBits(blockSizeLog2)); + maxXorBits = Max(maxXorBits, m_pipeInterleaveLog2 + + GetPipeXorBits(blockSizeLog2) + + 3 * GetBankXorBits(blockSizeLog2)); + } + + for (UINT_32 i = 0; i < elementBytesLog2; i++) + { + InitChannel(1, 0 , i, &pEquation->addr[i]); + } + + ADDR_CHANNEL_SETTING* pixelBit = &pEquation->addr[elementBytesLog2]; + + const UINT_32 maxBitsUsed = 12; + ADDR_ASSERT((3 * maxBitsUsed) >= maxXorBits); + ADDR_CHANNEL_SETTING x[maxBitsUsed] = {}; + ADDR_CHANNEL_SETTING y[maxBitsUsed] = {}; + ADDR_CHANNEL_SETTING z[maxBitsUsed] = {}; + + const UINT_32 extraXorBits = 24; + ADDR_ASSERT(extraXorBits >= maxXorBits - blockSizeLog2); + ADDR_CHANNEL_SETTING xorExtra[extraXorBits] = {}; + + for (UINT_32 i = 0; i < maxBitsUsed; i++) + { + InitChannel(1, 0, elementBytesLog2 + i, &x[i]); + InitChannel(1, 1, i, &y[i]); + InitChannel(1, 2, i, &z[i]); + } + + if (IsZOrderSwizzle(swMode)) + { + switch (elementBytesLog2) + { + case 0: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = x[1]; + pixelBit[3] = y[1]; + pixelBit[4] = z[0]; + pixelBit[5] = z[1]; + pixelBit[6] = x[2]; + pixelBit[7] = z[2]; + pixelBit[8] = y[2]; + pixelBit[9] = x[3]; + break; + case 1: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = x[1]; + pixelBit[3] = y[1]; + pixelBit[4] = z[0]; + pixelBit[5] = z[1]; + pixelBit[6] = z[2]; + pixelBit[7] = y[2]; + pixelBit[8] = x[2]; + break; + case 2: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = x[1]; + pixelBit[3] = z[0]; + pixelBit[4] = y[1]; + pixelBit[5] = z[1]; + pixelBit[6] = y[2]; + pixelBit[7] = x[2]; + break; + case 3: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = z[0]; + pixelBit[3] = x[1]; + pixelBit[4] = z[1]; + pixelBit[5] = y[1]; + pixelBit[6] = x[2]; + break; + case 4: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = z[0]; + pixelBit[3] = z[1]; + pixelBit[4] = y[1]; + pixelBit[5] = x[1]; + break; + default: + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + break; + } + } + else if (IsStandardSwizzle(rsrcType, swMode)) + { + switch (elementBytesLog2) + { + case 0: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = x[2]; + pixelBit[3] = x[3]; + pixelBit[4] = y[0]; + pixelBit[5] = y[1]; + pixelBit[6] = z[0]; + pixelBit[7] = z[1]; + pixelBit[8] = z[2]; + pixelBit[9] = y[2]; + break; + case 1: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = x[2]; + pixelBit[3] = y[0]; + pixelBit[4] = y[1]; + pixelBit[5] = z[0]; + pixelBit[6] = z[1]; + pixelBit[7] = z[2]; + pixelBit[8] = y[2]; + break; + case 2: + pixelBit[0] = x[0]; + pixelBit[1] = x[1]; + pixelBit[2] = y[0]; + pixelBit[3] = y[1]; + pixelBit[4] = z[0]; + pixelBit[5] = z[1]; + pixelBit[6] = y[2]; + pixelBit[7] = x[2]; + break; + case 3: + pixelBit[0] = x[0]; + pixelBit[1] = y[0]; + pixelBit[2] = y[1]; + pixelBit[3] = z[0]; + pixelBit[4] = z[1]; + pixelBit[5] = x[1]; + pixelBit[6] = x[2]; + break; + case 4: + pixelBit[0] = y[0]; + pixelBit[1] = y[1]; + pixelBit[2] = z[0]; + pixelBit[3] = z[1]; + pixelBit[4] = x[0]; + pixelBit[5] = x[1]; + break; + default: + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + break; + } + } + else + { + ADDR_ASSERT_ALWAYS(); + ret = ADDR_INVALIDPARAMS; + } + + if (ret == ADDR_OK) + { + Dim3d microBlockDim = Block1K_3d[elementBytesLog2]; + UINT_32 xIdx = Log2(microBlockDim.w); + UINT_32 yIdx = Log2(microBlockDim.h); + UINT_32 zIdx = Log2(microBlockDim.d); + + pixelBit = pEquation->addr; + + const UINT_32 lowBits = 10; + ADDR_ASSERT(pEquation->addr[lowBits - 1].valid == 1); + ADDR_ASSERT(pEquation->addr[lowBits].valid == 0); + + for (UINT_32 i = lowBits; i < blockSizeLog2; i++) + { + if ((i % 3) == 0) + { + pixelBit[i] = x[xIdx++]; + } + else if ((i % 3) == 1) + { + pixelBit[i] = z[zIdx++]; + } + else + { + pixelBit[i] = y[yIdx++]; + } + } + + for (UINT_32 i = blockSizeLog2; i < maxXorBits; i++) + { + if ((i % 3) == 0) + { + xorExtra[i - blockSizeLog2] = x[xIdx++]; + } + else if ((i % 3) == 1) + { + xorExtra[i - blockSizeLog2] = z[zIdx++]; + } + else + { + xorExtra[i - blockSizeLog2] = y[yIdx++]; + } + } + + if (IsXor(swMode)) + { + // Fill XOR bits + UINT_32 pipeStart = m_pipeInterleaveLog2; + UINT_32 pipeXorBits = GetPipeXorBits(blockSizeLog2); + for (UINT_32 i = 0; i < pipeXorBits; i++) + { + UINT_32 xor1BitPos = pipeStart + (3 * pipeXorBits) - 1 - (2 * i); + ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? + &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; + + InitChannel(&pEquation->xor1[pipeStart + i], pXor1Src); + + UINT_32 xor2BitPos = pipeStart + (3 * pipeXorBits) - 2 - (2 * i); + ADDR_CHANNEL_SETTING* pXor2Src = (xor2BitPos < blockSizeLog2) ? + &pEquation->addr[xor2BitPos] : &xorExtra[xor2BitPos - blockSizeLog2]; + + InitChannel(&pEquation->xor2[pipeStart + i], pXor2Src); + } + + UINT_32 bankStart = pipeStart + pipeXorBits; + UINT_32 bankXorBits = GetBankXorBits(blockSizeLog2); + for (UINT_32 i = 0; i < bankXorBits; i++) + { + UINT_32 xor1BitPos = bankStart + (3 * bankXorBits) - 1 - (2 * i); + ADDR_CHANNEL_SETTING* pXor1Src = (xor1BitPos < blockSizeLog2) ? + &pEquation->addr[xor1BitPos] : &xorExtra[xor1BitPos - blockSizeLog2]; + + InitChannel(&pEquation->xor1[bankStart + i], pXor1Src); + + UINT_32 xor2BitPos = bankStart + (3 * bankXorBits) - 2 - (2 * i); + ADDR_CHANNEL_SETTING* pXor2Src = (xor2BitPos < blockSizeLog2) ? + &pEquation->addr[xor2BitPos] : &xorExtra[xor2BitPos - blockSizeLog2]; + + InitChannel(&pEquation->xor2[bankStart + i], pXor2Src); + } + } + + pEquation->numBits = blockSizeLog2; + } + + return ret; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::IsValidDisplaySwizzleMode +* +* @brief +* Check if a swizzle mode is supported by display engine +* +* @return +* TRUE is swizzle mode is supported by display engine +************************************************************************************************************************ +*/ +BOOL_32 Gfx9Lib::IsValidDisplaySwizzleMode( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const +{ + BOOL_32 support = FALSE; + + const AddrResourceType resourceType = pIn->resourceType; + (void)resourceType; + const AddrSwizzleMode swizzleMode = pIn->swizzleMode; + + if (m_settings.isDce12) + { + switch (swizzleMode) + { + case ADDR_SW_256B_D: + case ADDR_SW_256B_R: + support = (pIn->bpp == 32); + break; + + case ADDR_SW_LINEAR: + case ADDR_SW_4KB_D: + case ADDR_SW_4KB_R: + case ADDR_SW_64KB_D: + case ADDR_SW_64KB_R: + case ADDR_SW_VAR_D: + case ADDR_SW_VAR_R: + case ADDR_SW_4KB_D_X: + case ADDR_SW_4KB_R_X: + case ADDR_SW_64KB_D_X: + case ADDR_SW_64KB_R_X: + case ADDR_SW_VAR_D_X: + case ADDR_SW_VAR_R_X: + support = (pIn->bpp <= 64); + break; + + default: + break; + } + } + else if (m_settings.isDcn1) + { + switch (swizzleMode) + { + case ADDR_SW_4KB_D: + case ADDR_SW_64KB_D: + case ADDR_SW_VAR_D: + case ADDR_SW_64KB_D_T: + case ADDR_SW_4KB_D_X: + case ADDR_SW_64KB_D_X: + case ADDR_SW_VAR_D_X: + support = (pIn->bpp == 64); + break; + + case ADDR_SW_LINEAR: + case ADDR_SW_4KB_S: + case ADDR_SW_64KB_S: + case ADDR_SW_VAR_S: + case ADDR_SW_64KB_S_T: + case ADDR_SW_4KB_S_X: + case ADDR_SW_64KB_S_X: + case ADDR_SW_VAR_S_X: + support = (pIn->bpp <= 64); + break; + + default: + break; + } + } + else + { + ADDR_NOT_IMPLEMENTED(); + } + + return support; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputePipeBankXor +* +* @brief +* Generate a PipeBankXor value to be ORed into bits above pipeInterleaveBits of address +* +* @return +* PipeBankXor value +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputePipeBankXor( + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) const +{ + if (IsXor(pIn->swizzleMode)) + { + UINT_32 macroBlockBits = GetBlockSizeLog2(pIn->swizzleMode); + UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); + UINT_32 bankBits = GetBankXorBits(macroBlockBits); + + UINT_32 pipeXor = 0; + UINT_32 bankXor = 0; + + const UINT_32 bankMask = (1 << bankBits) - 1; + const UINT_32 index = pIn->surfIndex & bankMask; + + const UINT_32 bpp = pIn->flags.fmask ? + GetFmaskBpp(pIn->numSamples, pIn->numFrags) : GetElemLib()->GetBitsPerPixel(pIn->format); + if (bankBits == 4) + { + static const UINT_32 BankXorSmallBpp[] = {0, 7, 4, 3, 8, 15, 12, 11, 1, 6, 5, 2, 9, 14, 13, 10}; + static const UINT_32 BankXorLargeBpp[] = {0, 7, 8, 15, 4, 3, 12, 11, 1, 6, 9, 14, 5, 2, 13, 10}; + + bankXor = (bpp <= 32) ? BankXorSmallBpp[index] : BankXorLargeBpp[index]; + } + else if (bankBits > 0) + { + UINT_32 bankIncrease = (1 << (bankBits - 1)) - 1; + bankIncrease = (bankIncrease == 0) ? 1 : bankIncrease; + bankXor = (index * bankIncrease) & bankMask; + } + + pOut->pipeBankXor = (bankXor << pipeBits) | pipeXor; + } + else + { + pOut->pipeBankXor = 0; + } + + return ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeSlicePipeBankXor +* +* @brief +* Generate slice PipeBankXor value based on base PipeBankXor value and slice id +* +* @return +* PipeBankXor value +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSlicePipeBankXor( + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) const +{ + UINT_32 macroBlockBits = GetBlockSizeLog2(pIn->swizzleMode); + UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); + UINT_32 bankBits = GetBankXorBits(macroBlockBits); + + UINT_32 pipeXor = ReverseBitVector(pIn->slice, pipeBits); + UINT_32 bankXor = ReverseBitVector(pIn->slice >> pipeBits, bankBits); + + pOut->pipeBankXor = pIn->basePipeBankXor ^ (pipeXor | (bankXor << pipeBits)); + + return ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeSubResourceOffsetForSwizzlePattern +* +* @brief +* Compute sub resource offset to support swizzle pattern +* +* @return +* Offset +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSubResourceOffsetForSwizzlePattern( + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) const +{ + ADDR_ASSERT(IsThin(pIn->resourceType, pIn->swizzleMode)); + + UINT_32 macroBlockBits = GetBlockSizeLog2(pIn->swizzleMode); + UINT_32 pipeBits = GetPipeXorBits(macroBlockBits); + UINT_32 bankBits = GetBankXorBits(macroBlockBits); + UINT_32 pipeXor = ReverseBitVector(pIn->slice, pipeBits); + UINT_32 bankXor = ReverseBitVector(pIn->slice >> pipeBits, bankBits); + UINT_32 pipeBankXor = ((pipeXor | (bankXor << pipeBits)) ^ (pIn->pipeBankXor)) << m_pipeInterleaveLog2; + + pOut->offset = pIn->slice * pIn->sliceSize + + pIn->macroBlockOffset + + (pIn->mipTailOffset ^ pipeBankXor) - + static_cast(pipeBankXor); + return ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeSurfaceInfoSanityCheck +* +* @brief +* Compute surface info sanity check +* +* @return +* Offset +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceInfoSanityCheck( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const +{ + BOOL_32 invalid = FALSE; + + if ((pIn->bpp > 128) || (pIn->width == 0) || (pIn->numFrags > 8) || (pIn->numSamples > 16)) + { + invalid = TRUE; + } + else if ((pIn->swizzleMode >= ADDR_SW_MAX_TYPE) || + (pIn->resourceType >= ADDR_RSRC_MAX_TYPE)) + { + invalid = TRUE; + } + + BOOL_32 mipmap = (pIn->numMipLevels > 1); + BOOL_32 msaa = (pIn->numFrags > 1); + + ADDR2_SURFACE_FLAGS flags = pIn->flags; + BOOL_32 zbuffer = (flags.depth || flags.stencil); + BOOL_32 color = flags.color; + BOOL_32 display = flags.display || flags.rotated; + + AddrResourceType rsrcType = pIn->resourceType; + BOOL_32 tex3d = IsTex3d(rsrcType); + BOOL_32 thin3d = tex3d && flags.view3dAs2dArray; + AddrSwizzleMode swizzle = pIn->swizzleMode; + BOOL_32 linear = IsLinear(swizzle); + BOOL_32 blk256B = IsBlock256b(swizzle); + BOOL_32 blkVar = IsBlockVariable(swizzle); + BOOL_32 isNonPrtXor = IsNonPrtXor(swizzle); + BOOL_32 prt = flags.prt; + BOOL_32 stereo = flags.qbStereo; + + if (invalid == FALSE) + { + if ((pIn->numFrags > 1) && + (GetBlockSize(swizzle) < (m_pipeInterleaveBytes * pIn->numFrags))) + { + // MSAA surface must have blk_bytes/pipe_interleave >= num_samples + invalid = TRUE; + } + } + + if (invalid == FALSE) + { + switch (rsrcType) + { + case ADDR_RSRC_TEX_1D: + invalid = msaa || zbuffer || display || (linear == FALSE) || stereo; + break; + case ADDR_RSRC_TEX_2D: + invalid = (msaa && mipmap) || (stereo && msaa) || (stereo && mipmap); + break; + case ADDR_RSRC_TEX_3D: + invalid = msaa || zbuffer || display || stereo; + break; + default: + invalid = TRUE; + break; + } + } + + if (invalid == FALSE) + { + if (display) + { + invalid = (IsValidDisplaySwizzleMode(pIn) == FALSE); + } + } + + if (invalid == FALSE) + { + if (linear) + { + invalid = ((ADDR_RSRC_TEX_1D != rsrcType) && prt) || + zbuffer || msaa || (pIn->bpp == 0) || ((pIn->bpp % 8) != 0); + } + else + { + if (blk256B || blkVar || isNonPrtXor) + { + invalid = prt; + if (blk256B) + { + invalid = invalid || zbuffer || tex3d || mipmap || msaa; + } + } + + if (invalid == FALSE) + { + if (IsZOrderSwizzle(swizzle)) + { + invalid = (color && msaa) || thin3d; + } + else if (IsStandardSwizzle(swizzle)) + { + invalid = zbuffer || thin3d; + } + else if (IsDisplaySwizzle(swizzle)) + { + invalid = zbuffer || (prt && (ADDR_RSRC_TEX_3D == rsrcType)); + } + else if (IsRotateSwizzle(swizzle)) + { + invalid = zbuffer || (pIn->bpp > 64) || tex3d; + } + else + { + ADDR_ASSERT(!"invalid swizzle mode"); + invalid = TRUE; + } + } + } + } + + ADDR_ASSERT(invalid == FALSE); + + return invalid ? ADDR_INVALIDPARAMS : ADDR_OK; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlGetPreferredSurfaceSetting +* +* @brief +* Internal function to get suggested surface information for cliet to use +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlGetPreferredSurfaceSetting( + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + ElemLib* pElemLib = GetElemLib(); + + UINT_32 bpp = pIn->bpp; + UINT_32 width = pIn->width; + UINT_32 height = pIn->height; + UINT_32 numSamples = Max(pIn->numSamples, 1u); + UINT_32 numFrags = (pIn->numFrags == 0) ? numSamples : pIn->numFrags; + + if (pIn->flags.fmask) + { + bpp = GetFmaskBpp(numSamples, numFrags); + numFrags = 1; + numSamples = 1; + pOut->resourceType = ADDR_RSRC_TEX_2D; + } + else + { + // Set format to INVALID will skip this conversion + if (pIn->format != ADDR_FMT_INVALID) + { + UINT_32 expandX, expandY; + + // Don't care for this case + ElemMode elemMode = ADDR_UNCOMPRESSED; + + // Get compression/expansion factors and element mode which indicates compression/expansion + bpp = pElemLib->GetBitsPerPixel(pIn->format, + &elemMode, + &expandX, + &expandY); + + UINT_32 basePitch = 0; + GetElemLib()->AdjustSurfaceInfo(elemMode, + expandX, + expandY, + &bpp, + &basePitch, + &width, + &height); + } + + // The output may get changed for volume(3D) texture resource in future + pOut->resourceType = pIn->resourceType; + } + + const UINT_32 numSlices = Max(pIn->numSlices, 1u); + const UINT_32 numMipLevels = Max(pIn->numMipLevels, 1u); + const BOOL_32 msaa = (numFrags > 1) || (numSamples > 1); + const BOOL_32 displayRsrc = pIn->flags.display || pIn->flags.rotated; + + // Forbid swizzle mode(s) by client setting, for simplicity we never allow VAR swizzle mode for GFX9 + ADDR2_SWMODE_SET allowedSwModeSet = {}; + allowedSwModeSet.value |= pIn->forbiddenBlock.linear ? 0 : Gfx9LinearSwModeMask; + allowedSwModeSet.value |= pIn->forbiddenBlock.micro ? 0 : Gfx9Blk256BSwModeMask; + allowedSwModeSet.value |= pIn->forbiddenBlock.macro4KB ? 0 : Gfx9Blk4KBSwModeMask; + allowedSwModeSet.value |= pIn->forbiddenBlock.macro64KB ? 0 : Gfx9Blk64KBSwModeMask; + + if (pIn->preferredSwSet.value != 0) + { + allowedSwModeSet.value &= pIn->preferredSwSet.sw_Z ? ~0 : ~Gfx9ZSwModeMask; + allowedSwModeSet.value &= pIn->preferredSwSet.sw_S ? ~0 : ~Gfx9StandardSwModeMask; + allowedSwModeSet.value &= pIn->preferredSwSet.sw_D ? ~0 : ~Gfx9DisplaySwModeMask; + allowedSwModeSet.value &= pIn->preferredSwSet.sw_R ? ~0 : ~Gfx9RotateSwModeMask; + } + + if (pIn->noXor) + { + allowedSwModeSet.value &= ~Gfx9XorSwModeMask; + } + + if (pIn->maxAlign > 0) + { + if (pIn->maxAlign < GetBlockSize(ADDR_SW_64KB)) + { + allowedSwModeSet.value &= ~Gfx9Blk64KBSwModeMask; + } + + if (pIn->maxAlign < GetBlockSize(ADDR_SW_4KB)) + { + allowedSwModeSet.value &= ~Gfx9Blk4KBSwModeMask; + } + + if (pIn->maxAlign < GetBlockSize(ADDR_SW_256B)) + { + allowedSwModeSet.value &= ~Gfx9Blk256BSwModeMask; + } + } + + // Filter out invalid swizzle mode(s) by image attributes and HW restrictions + switch (pOut->resourceType) + { + case ADDR_RSRC_TEX_1D: + allowedSwModeSet.value &= Gfx9Rsrc1dSwModeMask; + break; + + case ADDR_RSRC_TEX_2D: + allowedSwModeSet.value &= pIn->flags.prt ? Gfx9Rsrc2dPrtSwModeMask : Gfx9Rsrc2dSwModeMask; + + if (bpp > 64) + { + allowedSwModeSet.value &= ~(Gfx9RotateSwModeMask | Gfx9ZSwModeMask); + } + break; + + case ADDR_RSRC_TEX_3D: + allowedSwModeSet.value &= pIn->flags.prt ? Gfx9Rsrc3dPrtSwModeMask : Gfx9Rsrc3dSwModeMask; + + if ((numMipLevels > 1) && (numSlices >= width) && (numSlices >= height)) + { + // SW_*_D for 3D mipmaps (maxmip > 0) is only supported for Xmajor or Ymajor mipmap + // When depth (Z) is the maximum dimension then must use one of the SW_*_S + // or SW_*_Z modes if mipmapping is desired on a 3D surface + allowedSwModeSet.value &= ~Gfx9DisplaySwModeMask; + } + + if ((bpp == 128) && pIn->flags.color) + { + allowedSwModeSet.value &= ~Gfx9StandardSwModeMask; + } + + if (pIn->flags.view3dAs2dArray) + { + allowedSwModeSet.value &= Gfx9Rsrc3dThinSwModeMask | Gfx9LinearSwModeMask; + } + break; + + default: + ADDR_ASSERT_ALWAYS(); + allowedSwModeSet.value = 0; + break; + } + + if (pIn->format == ADDR_FMT_32_32_32) + { + allowedSwModeSet.value &= Gfx9LinearSwModeMask; + } + + if (ElemLib::IsBlockCompressed(pIn->format)) + { + if (pIn->flags.texture) + { + allowedSwModeSet.value &= Gfx9StandardSwModeMask | Gfx9DisplaySwModeMask; + } + else + { + allowedSwModeSet.value &= Gfx9StandardSwModeMask | Gfx9DisplaySwModeMask | Gfx9LinearSwModeMask; + } + } + + if (ElemLib::IsMacroPixelPacked(pIn->format) || + (msaa && ((bpp > 32) || pIn->flags.color || pIn->flags.unordered))) + { + allowedSwModeSet.value &= ~Gfx9ZSwModeMask; + } + + if (pIn->flags.fmask || pIn->flags.depth || pIn->flags.stencil) + { + allowedSwModeSet.value &= Gfx9ZSwModeMask; + + if (pIn->flags.noMetadata == FALSE) + { + if (pIn->flags.depth && + pIn->flags.texture && + (((bpp == 16) && (numFrags >= 4)) || ((bpp == 32) && (numFrags >= 2)))) + { + // When _X/_T swizzle mode was used for MSAA depth texture, TC will get zplane + // equation from wrong address within memory range a tile covered and use the + // garbage data for compressed Z reading which finally leads to corruption. + allowedSwModeSet.value &= ~Gfx9XorSwModeMask; + } + + if (m_settings.htileCacheRbConflict && + (pIn->flags.depth || pIn->flags.stencil) && + (numSlices > 1) && + (pIn->flags.metaRbUnaligned == FALSE) && + (pIn->flags.metaPipeUnaligned == FALSE)) + { + // Z_X 2D array with Rb/Pipe aligned HTile won't have metadata cache coherency + allowedSwModeSet.value &= ~Gfx9XSwModeMask; + } + } + } + + if (msaa) + { + allowedSwModeSet.value &= Gfx9MsaaSwModeMask; + } + + if ((numFrags > 1) && + (GetBlockSize(ADDR_SW_4KB) < (m_pipeInterleaveBytes * numFrags))) + { + // MSAA surface must have blk_bytes/pipe_interleave >= num_samples + allowedSwModeSet.value &= Gfx9Blk64KBSwModeMask; + } + + if (numMipLevels > 1) + { + allowedSwModeSet.value &= ~Gfx9Blk256BSwModeMask; + } + + if (displayRsrc) + { + if (m_settings.isDce12) + { + allowedSwModeSet.value &= (bpp == 32) ? Dce12Bpp32SwModeMask : Dce12NonBpp32SwModeMask; + } + else if (m_settings.isDcn1) + { + allowedSwModeSet.value &= (bpp == 64) ? Dcn1Bpp64SwModeMask : Dcn1NonBpp64SwModeMask; + } + else + { + ADDR_NOT_IMPLEMENTED(); + } + } + + if (allowedSwModeSet.value != 0) + { +#if DEBUG + // Post sanity check, at least AddrLib should accept the output generated by its own + ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {}; + localIn.flags = pIn->flags; + localIn.resourceType = pOut->resourceType; + localIn.format = pIn->format; + localIn.bpp = bpp; + localIn.width = width; + localIn.height = height; + localIn.numSlices = numSlices; + localIn.numMipLevels = numMipLevels; + localIn.numSamples = numSamples; + localIn.numFrags = numFrags; + + UINT_32 validateSwModeSet = allowedSwModeSet.value; + for (UINT_32 i = 0; validateSwModeSet != 0; i++) + { + if (validateSwModeSet & 1) + { + localIn.swizzleMode = static_cast(i); + HwlComputeSurfaceInfoSanityCheck(&localIn); + } + + validateSwModeSet >>= 1; + } +#endif + + pOut->validSwModeSet = allowedSwModeSet; + pOut->canXor = (allowedSwModeSet.value & Gfx9XorSwModeMask) ? TRUE : FALSE; + pOut->validBlockSet = GetAllowedBlockSet(allowedSwModeSet); + pOut->validSwTypeSet = GetAllowedSwSet(allowedSwModeSet); + + pOut->clientPreferredSwSet = pIn->preferredSwSet; + + if (pOut->clientPreferredSwSet.value == 0) + { + pOut->clientPreferredSwSet.value = AddrSwSetAll; + } + + if (allowedSwModeSet.value == Gfx9LinearSwModeMask) + { + pOut->swizzleMode = ADDR_SW_LINEAR; + } + else + { + // Always ignore linear swizzle mode if there is other choice. + allowedSwModeSet.swLinear = 0; + + ADDR2_BLOCK_SET allowedBlockSet = GetAllowedBlockSet(allowedSwModeSet); + + // Determine block size if there is 2 or more block type candidates + if (IsPow2(allowedBlockSet.value) == FALSE) + { + const AddrSwizzleMode swMode[AddrBlockMaxTiledType] = {ADDR_SW_256B, ADDR_SW_4KB, ADDR_SW_64KB}; + Dim3d blkDim[AddrBlockMaxTiledType] = {{0}, {0}, {0}}; + Dim3d padDim[AddrBlockMaxTiledType] = {{0}, {0}, {0}}; + UINT_64 padSize[AddrBlockMaxTiledType] = {0}; + + const UINT_32 ratioLow = pIn->flags.minimizeAlign ? 1 : (pIn->flags.opt4space ? 3 : 2); + const UINT_32 ratioHi = pIn->flags.minimizeAlign ? 1 : (pIn->flags.opt4space ? 2 : 1); + const UINT_64 sizeAlignInElement = Max(NextPow2(pIn->minSizeAlign) / (bpp >> 3), 1u); + UINT_32 minSizeBlk = AddrBlockMicro; + UINT_64 minSize = 0; + + for (UINT_32 i = AddrBlockMicro; i < AddrBlockMaxTiledType; i++) + { + if (allowedBlockSet.value & (1 << i)) + { + ComputeBlockDimensionForSurf(&blkDim[i].w, + &blkDim[i].h, + &blkDim[i].d, + bpp, + numFrags, + pOut->resourceType, + swMode[i]); + + if (displayRsrc) + { + blkDim[i].w = PowTwoAlign(blkDim[i].w, 32); + } + + padSize[i] = ComputePadSize(&blkDim[i], width, height, numSlices, &padDim[i]); + padSize[i] = PowTwoAlign(padSize[i], sizeAlignInElement); + + if ((minSize == 0) || + ((padSize[i] * ratioHi) <= (minSize * ratioLow))) + { + minSize = padSize[i]; + minSizeBlk = i; + } + } + } + + if ((allowedBlockSet.micro == TRUE) && + (width <= blkDim[AddrBlockMicro].w) && + (height <= blkDim[AddrBlockMicro].h) && + (NextPow2(pIn->minSizeAlign) <= GetBlockSize(ADDR_SW_256B))) + { + minSizeBlk = AddrBlockMicro; + } + + if (minSizeBlk == AddrBlockMicro) + { + allowedSwModeSet.value &= Gfx9Blk256BSwModeMask; + } + else if (minSizeBlk == AddrBlock4KB) + { + allowedSwModeSet.value &= Gfx9Blk4KBSwModeMask; + } + else + { + ADDR_ASSERT(minSizeBlk == AddrBlock64KB); + allowedSwModeSet.value &= Gfx9Blk64KBSwModeMask; + } + } + + // Block type should be determined. + ADDR_ASSERT(IsPow2(GetAllowedBlockSet(allowedSwModeSet).value)); + + ADDR2_SWTYPE_SET allowedSwSet = GetAllowedSwSet(allowedSwModeSet); + + // Determine swizzle type if there is 2 or more swizzle type candidates + if (IsPow2(allowedSwSet.value) == FALSE) + { + if (ElemLib::IsBlockCompressed(pIn->format)) + { + if (allowedSwSet.sw_D) + { + allowedSwModeSet.value &= Gfx9DisplaySwModeMask; + } + else + { + ADDR_ASSERT(allowedSwSet.sw_S); + allowedSwModeSet.value &= Gfx9StandardSwModeMask; + } + } + else if (ElemLib::IsMacroPixelPacked(pIn->format)) + { + if (allowedSwSet.sw_S) + { + allowedSwModeSet.value &= Gfx9StandardSwModeMask; + } + else if (allowedSwSet.sw_D) + { + allowedSwModeSet.value &= Gfx9DisplaySwModeMask; + } + else + { + ADDR_ASSERT(allowedSwSet.sw_R); + allowedSwModeSet.value &= Gfx9RotateSwModeMask; + } + } + else if (pOut->resourceType == ADDR_RSRC_TEX_3D) + { + if (pIn->flags.color && allowedSwSet.sw_D) + { + allowedSwModeSet.value &= Gfx9DisplaySwModeMask; + } + else if (allowedSwSet.sw_Z) + { + allowedSwModeSet.value &= Gfx9ZSwModeMask; + } + else + { + ADDR_ASSERT(allowedSwSet.sw_S); + allowedSwModeSet.value &= Gfx9StandardSwModeMask; + } + } + else + { + if (pIn->flags.rotated && allowedSwSet.sw_R) + { + allowedSwModeSet.value &= Gfx9RotateSwModeMask; + } + else if (displayRsrc && allowedSwSet.sw_D) + { + allowedSwModeSet.value &= Gfx9DisplaySwModeMask; + } + else if (allowedSwSet.sw_S) + { + allowedSwModeSet.value &= Gfx9StandardSwModeMask; + } + else + { + ADDR_ASSERT(allowedSwSet.sw_Z); + allowedSwModeSet.value &= Gfx9ZSwModeMask; + } + } + } + + // Swizzle type should be determined. + ADDR_ASSERT(IsPow2(GetAllowedSwSet(allowedSwModeSet).value)); + + // Determine swizzle mode now - always select the "largest" swizzle mode for a given block type + + // swizzle type combination. For example, for AddrBlock64KB + ADDR_SW_S, select SW_64KB_S_X(25) if it's + // available, or otherwise select SW_64KB_S_T(17) if it's available, or otherwise select SW_64KB_S(9). + pOut->swizzleMode = static_cast(Log2NonPow2(allowedSwModeSet.value)); + } + } + else + { + // Invalid combination... + ADDR_ASSERT_ALWAYS(); + returnCode = ADDR_INVALIDPARAMS; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::ComputeStereoInfo +* +* @brief +* Compute height alignment and right eye pipeBankXor for stereo surface +* +* @return +* Error code +* +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::ComputeStereoInfo( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut, + UINT_32* pHeightAlign + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + UINT_32 eqIndex = HwlGetEquationIndex(pIn, pOut); + + if (eqIndex < m_numEquations) + { + if (IsXor(pIn->swizzleMode)) + { + const UINT_32 blkSizeLog2 = GetBlockSizeLog2(pIn->swizzleMode); + const UINT_32 numPipeBits = GetPipeXorBits(blkSizeLog2); + const UINT_32 numBankBits = GetBankXorBits(blkSizeLog2); + const UINT_32 bppLog2 = Log2(pIn->bpp >> 3); + const UINT_32 maxYCoordBlock256 = Log2(Block256_2d[bppLog2].h) - 1; + MAYBE_UNUSED const ADDR_EQUATION *pEqToCheck = &m_equationTable[eqIndex]; + + ADDR_ASSERT(maxYCoordBlock256 == + GetMaxValidChannelIndex(&pEqToCheck->addr[0], GetBlockSizeLog2(ADDR_SW_256B), 1)); + + const UINT_32 maxYCoordInBaseEquation = + (blkSizeLog2 - GetBlockSizeLog2(ADDR_SW_256B)) / 2 + maxYCoordBlock256; + + ADDR_ASSERT(maxYCoordInBaseEquation == + GetMaxValidChannelIndex(&pEqToCheck->addr[0], blkSizeLog2, 1)); + + const UINT_32 maxYCoordInPipeXor = (numPipeBits == 0) ? 0 : maxYCoordBlock256 + numPipeBits; + + ADDR_ASSERT(maxYCoordInPipeXor == + GetMaxValidChannelIndex(&pEqToCheck->xor1[m_pipeInterleaveLog2], numPipeBits, 1)); + + const UINT_32 maxYCoordInBankXor = (numBankBits == 0) ? + 0 : maxYCoordBlock256 + (numPipeBits + 1) / 2 + numBankBits; + + ADDR_ASSERT(maxYCoordInBankXor == + GetMaxValidChannelIndex(&pEqToCheck->xor1[m_pipeInterleaveLog2 + numPipeBits], numBankBits, 1)); + + const UINT_32 maxYCoordInPipeBankXor = Max(maxYCoordInPipeXor, maxYCoordInBankXor); + + if (maxYCoordInPipeBankXor > maxYCoordInBaseEquation) + { + *pHeightAlign = 1u << maxYCoordInPipeBankXor; + + if (pOut->pStereoInfo != NULL) + { + pOut->pStereoInfo->rightSwizzle = 0; + + if ((PowTwoAlign(pIn->height, *pHeightAlign) % (*pHeightAlign * 2)) != 0) + { + if (maxYCoordInPipeXor == maxYCoordInPipeBankXor) + { + pOut->pStereoInfo->rightSwizzle |= (1u << 1); + } + + if (maxYCoordInBankXor == maxYCoordInPipeBankXor) + { + pOut->pStereoInfo->rightSwizzle |= + 1u << ((numPipeBits % 2) ? numPipeBits : numPipeBits + 1); + } + + ADDR_ASSERT(pOut->pStereoInfo->rightSwizzle == + GetCoordActiveMask(&pEqToCheck->xor1[m_pipeInterleaveLog2], + numPipeBits + numBankBits, 1, maxYCoordInPipeBankXor)); + } + } + } + } + } + else + { + ADDR_ASSERT_ALWAYS(); + returnCode = ADDR_ERROR; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeSurfaceInfoTiled +* +* @brief +* Internal function to calculate alignment for tiled surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceInfoTiled( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ComputeBlockDimensionForSurf(&pOut->blockWidth, + &pOut->blockHeight, + &pOut->blockSlices, + pIn->bpp, + pIn->numFrags, + pIn->resourceType, + pIn->swizzleMode); + + if (returnCode == ADDR_OK) + { + UINT_32 pitchAlignInElement = pOut->blockWidth; + + if ((IsTex2d(pIn->resourceType) == TRUE) && + (pIn->flags.display || pIn->flags.rotated) && + (pIn->numMipLevels <= 1) && + (pIn->numSamples <= 1) && + (pIn->numFrags <= 1)) + { + // Display engine needs pitch align to be at least 32 pixels. + pitchAlignInElement = PowTwoAlign(pitchAlignInElement, 32); + } + + pOut->pitch = PowTwoAlign(pIn->width, pitchAlignInElement); + + if ((pIn->numMipLevels <= 1) && (pIn->pitchInElement > 0)) + { + if ((pIn->pitchInElement % pitchAlignInElement) != 0) + { + returnCode = ADDR_INVALIDPARAMS; + } + else if (pIn->pitchInElement < pOut->pitch) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + pOut->pitch = pIn->pitchInElement; + } + } + + UINT_32 heightAlign = 0; + + if (pIn->flags.qbStereo) + { + returnCode = ComputeStereoInfo(pIn, pOut, &heightAlign); + } + + if (returnCode == ADDR_OK) + { + pOut->height = PowTwoAlign(pIn->height, pOut->blockHeight); + + if (heightAlign > 1) + { + pOut->height = PowTwoAlign(pOut->height, heightAlign); + } + + pOut->numSlices = PowTwoAlign(pIn->numSlices, pOut->blockSlices); + + pOut->epitchIsHeight = FALSE; + pOut->mipChainInTail = FALSE; + pOut->firstMipIdInTail = pIn->numMipLevels; + + pOut->mipChainPitch = pOut->pitch; + pOut->mipChainHeight = pOut->height; + pOut->mipChainSlice = pOut->numSlices; + + if (pIn->numMipLevels > 1) + { + pOut->firstMipIdInTail = GetMipChainInfo(pIn->resourceType, + pIn->swizzleMode, + pIn->bpp, + pIn->width, + pIn->height, + pIn->numSlices, + pOut->blockWidth, + pOut->blockHeight, + pOut->blockSlices, + pIn->numMipLevels, + pOut->pMipInfo); + + const UINT_32 endingMipId = Min(pOut->firstMipIdInTail, pIn->numMipLevels - 1); + + if (endingMipId == 0) + { + const Dim3d tailMaxDim = GetMipTailDim(pIn->resourceType, + pIn->swizzleMode, + pOut->blockWidth, + pOut->blockHeight, + pOut->blockSlices); + + pOut->epitchIsHeight = TRUE; + pOut->pitch = tailMaxDim.w; + pOut->height = tailMaxDim.h; + pOut->numSlices = IsThick(pIn->resourceType, pIn->swizzleMode) ? + tailMaxDim.d : pIn->numSlices; + pOut->mipChainInTail = TRUE; + } + else + { + UINT_32 mip0WidthInBlk = pOut->pitch / pOut->blockWidth; + UINT_32 mip0HeightInBlk = pOut->height / pOut->blockHeight; + + AddrMajorMode majorMode = GetMajorMode(pIn->resourceType, + pIn->swizzleMode, + mip0WidthInBlk, + mip0HeightInBlk, + pOut->numSlices / pOut->blockSlices); + if (majorMode == ADDR_MAJOR_Y) + { + UINT_32 mip1WidthInBlk = RoundHalf(mip0WidthInBlk); + + if ((mip1WidthInBlk == 1) && (endingMipId > 2)) + { + mip1WidthInBlk++; + } + + pOut->mipChainPitch += (mip1WidthInBlk * pOut->blockWidth); + + pOut->epitchIsHeight = FALSE; + } + else + { + UINT_32 mip1HeightInBlk = RoundHalf(mip0HeightInBlk); + + if ((mip1HeightInBlk == 1) && (endingMipId > 2)) + { + mip1HeightInBlk++; + } + + pOut->mipChainHeight += (mip1HeightInBlk * pOut->blockHeight); + + pOut->epitchIsHeight = TRUE; + } + } + + if (pOut->pMipInfo != NULL) + { + UINT_32 elementBytesLog2 = Log2(pIn->bpp >> 3); + + for (UINT_32 i = 0; i < pIn->numMipLevels; i++) + { + Dim3d mipStartPos = {0}; + UINT_32 mipTailOffsetInBytes = 0; + + mipStartPos = GetMipStartPos(pIn->resourceType, + pIn->swizzleMode, + pOut->pitch, + pOut->height, + pOut->numSlices, + pOut->blockWidth, + pOut->blockHeight, + pOut->blockSlices, + i, + elementBytesLog2, + &mipTailOffsetInBytes); + + UINT_32 pitchInBlock = + pOut->mipChainPitch / pOut->blockWidth; + UINT_32 sliceInBlock = + (pOut->mipChainHeight / pOut->blockHeight) * pitchInBlock; + UINT_64 blockIndex = + mipStartPos.d * sliceInBlock + mipStartPos.h * pitchInBlock + mipStartPos.w; + UINT_64 macroBlockOffset = + blockIndex << GetBlockSizeLog2(pIn->swizzleMode); + + pOut->pMipInfo[i].macroBlockOffset = macroBlockOffset; + pOut->pMipInfo[i].mipTailOffset = mipTailOffsetInBytes; + } + } + } + else if (pOut->pMipInfo != NULL) + { + pOut->pMipInfo[0].pitch = pOut->pitch; + pOut->pMipInfo[0].height = pOut->height; + pOut->pMipInfo[0].depth = IsTex3d(pIn->resourceType)? pOut->numSlices : 1; + pOut->pMipInfo[0].offset = 0; + } + + pOut->sliceSize = static_cast(pOut->mipChainPitch) * pOut->mipChainHeight * + (pIn->bpp >> 3) * pIn->numFrags; + pOut->surfSize = pOut->sliceSize * pOut->mipChainSlice; + pOut->baseAlign = ComputeSurfaceBaseAlignTiled(pIn->swizzleMode); + + if ((IsBlock256b(pIn->swizzleMode) == FALSE) && + (pIn->flags.color || pIn->flags.depth || pIn->flags.stencil || pIn->flags.fmask) && + (pIn->flags.texture == TRUE) && + (pIn->flags.noMetadata == FALSE) && + (pIn->flags.metaPipeUnaligned == FALSE)) + { + // Assume client requires pipe aligned metadata, which is TcCompatible and will be accessed by TC... + // Then we need extra padding for base surface. Otherwise, metadata and data surface for same pixel will + // be flushed to different pipes, but texture engine only uses pipe id of data surface to fetch both of + // them, which may cause invalid metadata to be fetched. + pOut->baseAlign = Max(pOut->baseAlign, m_pipeInterleaveBytes * m_pipes); + } + + if (pIn->flags.prt) + { + pOut->baseAlign = Max(pOut->baseAlign, PrtAlignment); + } + } + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeSurfaceInfoLinear +* +* @brief +* Internal function to calculate alignment for linear surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceInfoLinear( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + UINT_32 pitch = 0; + UINT_32 actualHeight = 0; + UINT_32 elementBytes = pIn->bpp >> 3; + const UINT_32 alignment = pIn->flags.prt ? PrtAlignment : 256; + + if (IsTex1d(pIn->resourceType)) + { + if (pIn->height > 1) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + const UINT_32 pitchAlignInElement = alignment / elementBytes; + + pitch = PowTwoAlign(pIn->width, pitchAlignInElement); + actualHeight = pIn->numMipLevels; + + if (pIn->flags.prt == FALSE) + { + returnCode = ApplyCustomizedPitchHeight(pIn, elementBytes, pitchAlignInElement, + &pitch, &actualHeight); + } + + if (returnCode == ADDR_OK) + { + if (pOut->pMipInfo != NULL) + { + for (UINT_32 i = 0; i < pIn->numMipLevels; i++) + { + pOut->pMipInfo[i].offset = pitch * elementBytes * i; + pOut->pMipInfo[i].pitch = pitch; + pOut->pMipInfo[i].height = 1; + pOut->pMipInfo[i].depth = 1; + } + } + } + } + } + else + { + returnCode = ComputeSurfaceLinearPadding(pIn, &pitch, &actualHeight, pOut->pMipInfo); + } + + if ((pitch == 0) || (actualHeight == 0)) + { + returnCode = ADDR_INVALIDPARAMS; + } + + if (returnCode == ADDR_OK) + { + pOut->pitch = pitch; + pOut->height = pIn->height; + pOut->numSlices = pIn->numSlices; + pOut->mipChainPitch = pitch; + pOut->mipChainHeight = actualHeight; + pOut->mipChainSlice = pOut->numSlices; + pOut->epitchIsHeight = (pIn->numMipLevels > 1) ? TRUE : FALSE; + pOut->sliceSize = static_cast(pOut->pitch) * actualHeight * elementBytes; + pOut->surfSize = pOut->sliceSize * pOut->numSlices; + pOut->baseAlign = (pIn->swizzleMode == ADDR_SW_LINEAR_GENERAL) ? (pIn->bpp / 8) : alignment; + pOut->blockWidth = (pIn->swizzleMode == ADDR_SW_LINEAR_GENERAL) ? 1 : (256 / elementBytes); + pOut->blockHeight = 1; + pOut->blockSlices = 1; + } + + // Post calculation validate + ADDR_ASSERT(pOut->sliceSize > 0); + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GetMipChainInfo +* +* @brief +* Internal function to get out information about mip chain +* +* @return +* Smaller value between Id of first mip fitted in mip tail and max Id of mip being created +************************************************************************************************************************ +*/ +UINT_32 Gfx9Lib::GetMipChainInfo( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 bpp, + UINT_32 mip0Width, + UINT_32 mip0Height, + UINT_32 mip0Depth, + UINT_32 blockWidth, + UINT_32 blockHeight, + UINT_32 blockDepth, + UINT_32 numMipLevel, + ADDR2_MIP_INFO* pMipInfo) const +{ + const Dim3d tailMaxDim = + GetMipTailDim(resourceType, swizzleMode, blockWidth, blockHeight, blockDepth); + + UINT_32 mipPitch = mip0Width; + UINT_32 mipHeight = mip0Height; + UINT_32 mipDepth = IsTex3d(resourceType) ? mip0Depth : 1; + UINT_32 offset = 0; + UINT_32 firstMipIdInTail = numMipLevel; + BOOL_32 inTail = FALSE; + BOOL_32 finalDim = FALSE; + BOOL_32 is3dThick = IsThick(resourceType, swizzleMode); + BOOL_32 is3dThin = IsTex3d(resourceType) && (is3dThick == FALSE); + + for (UINT_32 mipId = 0; mipId < numMipLevel; mipId++) + { + if (inTail) + { + if (finalDim == FALSE) + { + UINT_32 mipSize; + + if (is3dThick) + { + mipSize = mipPitch * mipHeight * mipDepth * (bpp >> 3); + } + else + { + mipSize = mipPitch * mipHeight * (bpp >> 3); + } + + if (mipSize <= 256) + { + UINT_32 index = Log2(bpp >> 3); + + if (is3dThick) + { + mipPitch = Block256_3dZ[index].w; + mipHeight = Block256_3dZ[index].h; + mipDepth = Block256_3dZ[index].d; + } + else + { + mipPitch = Block256_2d[index].w; + mipHeight = Block256_2d[index].h; + } + + finalDim = TRUE; + } + } + } + else + { + inTail = IsInMipTail(resourceType, swizzleMode, tailMaxDim, + mipPitch, mipHeight, mipDepth); + + if (inTail) + { + firstMipIdInTail = mipId; + mipPitch = tailMaxDim.w; + mipHeight = tailMaxDim.h; + + if (is3dThick) + { + mipDepth = tailMaxDim.d; + } + } + else + { + mipPitch = PowTwoAlign(mipPitch, blockWidth); + mipHeight = PowTwoAlign(mipHeight, blockHeight); + + if (is3dThick) + { + mipDepth = PowTwoAlign(mipDepth, blockDepth); + } + } + } + + if (pMipInfo != NULL) + { + pMipInfo[mipId].pitch = mipPitch; + pMipInfo[mipId].height = mipHeight; + pMipInfo[mipId].depth = mipDepth; + pMipInfo[mipId].offset = offset; + } + + offset += (mipPitch * mipHeight * mipDepth * (bpp >> 3)); + + if (finalDim) + { + if (is3dThin) + { + mipDepth = Max(mipDepth >> 1, 1u); + } + } + else + { + mipPitch = Max(mipPitch >> 1, 1u); + mipHeight = Max(mipHeight >> 1, 1u); + + if (is3dThick || is3dThin) + { + mipDepth = Max(mipDepth >> 1, 1u); + } + } + } + + return firstMipIdInTail; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GetMetaMiptailInfo +* +* @brief +* Get mip tail coordinate information. +* +* @return +* N/A +************************************************************************************************************************ +*/ +VOID Gfx9Lib::GetMetaMiptailInfo( + ADDR2_META_MIP_INFO* pInfo, ///< [out] output structure to store per mip coord + Dim3d mipCoord, ///< [in] mip tail base coord + UINT_32 numMipInTail, ///< [in] number of mips in tail + Dim3d* pMetaBlkDim ///< [in] meta block width/height/depth + ) const +{ + BOOL_32 isThick = (pMetaBlkDim->d > 1); + UINT_32 mipWidth = pMetaBlkDim->w; + UINT_32 mipHeight = pMetaBlkDim->h >> 1; + UINT_32 mipDepth = pMetaBlkDim->d; + UINT_32 minInc; + + if (isThick) + { + minInc = (pMetaBlkDim->h >= 512) ? 128 : ((pMetaBlkDim->h == 256) ? 64 : 32); + } + else if (pMetaBlkDim->h >= 1024) + { + minInc = 256; + } + else if (pMetaBlkDim->h == 512) + { + minInc = 128; + } + else + { + minInc = 64; + } + + UINT_32 blk32MipId = 0xFFFFFFFF; + + for (UINT_32 mip = 0; mip < numMipInTail; mip++) + { + pInfo[mip].inMiptail = TRUE; + pInfo[mip].startX = mipCoord.w; + pInfo[mip].startY = mipCoord.h; + pInfo[mip].startZ = mipCoord.d; + pInfo[mip].width = mipWidth; + pInfo[mip].height = mipHeight; + pInfo[mip].depth = mipDepth; + + if (mipWidth <= 32) + { + if (blk32MipId == 0xFFFFFFFF) + { + blk32MipId = mip; + } + + mipCoord.w = pInfo[blk32MipId].startX; + mipCoord.h = pInfo[blk32MipId].startY; + mipCoord.d = pInfo[blk32MipId].startZ; + + switch (mip - blk32MipId) + { + case 0: + mipCoord.w += 32; // 16x16 + break; + case 1: + mipCoord.h += 32; // 8x8 + break; + case 2: + mipCoord.h += 32; // 4x4 + mipCoord.w += 16; + break; + case 3: + mipCoord.h += 32; // 2x2 + mipCoord.w += 32; + break; + case 4: + mipCoord.h += 32; // 1x1 + mipCoord.w += 48; + break; + // The following are for BC/ASTC formats + case 5: + mipCoord.h += 48; // 1/2 x 1/2 + break; + case 6: + mipCoord.h += 48; // 1/4 x 1/4 + mipCoord.w += 16; + break; + case 7: + mipCoord.h += 48; // 1/8 x 1/8 + mipCoord.w += 32; + break; + case 8: + mipCoord.h += 48; // 1/16 x 1/16 + mipCoord.w += 48; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + mipWidth = ((mip - blk32MipId) == 0) ? 16 : 8; + mipHeight = mipWidth; + + if (isThick) + { + mipDepth = mipWidth; + } + } + else + { + if (mipWidth <= minInc) + { + // if we're below the minimal increment... + if (isThick) + { + // For 3d, just go in z direction + mipCoord.d += mipDepth; + } + else + { + // For 2d, first go across, then down + if ((mipWidth * 2) == minInc) + { + // if we're 2 mips below, that's when we go back in x, and down in y + mipCoord.w -= minInc; + mipCoord.h += minInc; + } + else + { + // otherwise, just go across in x + mipCoord.w += minInc; + } + } + } + else + { + // On even mip, go down, otherwise, go across + if (mip & 1) + { + mipCoord.w += mipWidth; + } + else + { + mipCoord.h += mipHeight; + } + } + // Divide the width by 2 + mipWidth >>= 1; + // After the first mip in tail, the mip is always a square + mipHeight = mipWidth; + // ...or for 3d, a cube + if (isThick) + { + mipDepth = mipWidth; + } + } + } +} + +/** +************************************************************************************************************************ +* Gfx9Lib::GetMipStartPos +* +* @brief +* Internal function to get out information about mip logical start position +* +* @return +* logical start position in macro block width/heith/depth of one mip level within one slice +************************************************************************************************************************ +*/ +Dim3d Gfx9Lib::GetMipStartPos( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 width, + UINT_32 height, + UINT_32 depth, + UINT_32 blockWidth, + UINT_32 blockHeight, + UINT_32 blockDepth, + UINT_32 mipId, + UINT_32 log2ElementBytes, + UINT_32* pMipTailBytesOffset) const +{ + Dim3d mipStartPos = {0}; + const Dim3d tailMaxDim = GetMipTailDim(resourceType, swizzleMode, blockWidth, blockHeight, blockDepth); + + // Report mip in tail if Mip0 is already in mip tail + BOOL_32 inMipTail = IsInMipTail(resourceType, swizzleMode, tailMaxDim, width, height, depth); + UINT_32 log2blkSize = GetBlockSizeLog2(swizzleMode); + UINT_32 mipIndexInTail = mipId; + + if (inMipTail == FALSE) + { + // Mip 0 dimension, unit in block + UINT_32 mipWidthInBlk = width / blockWidth; + UINT_32 mipHeightInBlk = height / blockHeight; + UINT_32 mipDepthInBlk = depth / blockDepth; + AddrMajorMode majorMode = GetMajorMode(resourceType, + swizzleMode, + mipWidthInBlk, + mipHeightInBlk, + mipDepthInBlk); + + UINT_32 endingMip = mipId + 1; + + for (UINT_32 i = 1; i <= mipId; i++) + { + if ((i == 1) || (i == 3)) + { + if (majorMode == ADDR_MAJOR_Y) + { + mipStartPos.w += mipWidthInBlk; + } + else + { + mipStartPos.h += mipHeightInBlk; + } + } + else + { + if (majorMode == ADDR_MAJOR_X) + { + mipStartPos.w += mipWidthInBlk; + } + else if (majorMode == ADDR_MAJOR_Y) + { + mipStartPos.h += mipHeightInBlk; + } + else + { + mipStartPos.d += mipDepthInBlk; + } + } + + BOOL_32 inTail = FALSE; + + if (IsThick(resourceType, swizzleMode)) + { + UINT_32 dim = log2blkSize % 3; + + if (dim == 0) + { + inTail = + (mipWidthInBlk <= 2) && (mipHeightInBlk == 1) && (mipDepthInBlk <= 2); + } + else if (dim == 1) + { + inTail = + (mipWidthInBlk == 1) && (mipHeightInBlk <= 2) && (mipDepthInBlk <= 2); + } + else + { + inTail = + (mipWidthInBlk <= 2) && (mipHeightInBlk <= 2) && (mipDepthInBlk == 1); + } + } + else + { + if (log2blkSize & 1) + { + inTail = (mipWidthInBlk <= 2) && (mipHeightInBlk == 1); + } + else + { + inTail = (mipWidthInBlk == 1) && (mipHeightInBlk <= 2); + } + } + + if (inTail) + { + endingMip = i; + break; + } + + mipWidthInBlk = RoundHalf(mipWidthInBlk); + mipHeightInBlk = RoundHalf(mipHeightInBlk); + mipDepthInBlk = RoundHalf(mipDepthInBlk); + } + + if (mipId >= endingMip) + { + inMipTail = TRUE; + mipIndexInTail = mipId - endingMip; + } + } + + if (inMipTail) + { + UINT_32 index = mipIndexInTail + MaxMacroBits - log2blkSize; + ADDR_ASSERT(index < sizeof(MipTailOffset256B) / sizeof(UINT_32)); + *pMipTailBytesOffset = MipTailOffset256B[index] << 8; + } + + return mipStartPos; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::HwlComputeSurfaceAddrFromCoordTiled +* +* @brief +* Internal function to calculate address from coord for tiled swizzle surface +* +* @return +* ADDR_E_RETURNCODE +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::HwlComputeSurfaceAddrFromCoordTiled( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR2_COMPUTE_SURFACE_INFO_INPUT localIn = {0}; + localIn.swizzleMode = pIn->swizzleMode; + localIn.flags = pIn->flags; + localIn.resourceType = pIn->resourceType; + localIn.bpp = pIn->bpp; + localIn.width = Max(pIn->unalignedWidth, 1u); + localIn.height = Max(pIn->unalignedHeight, 1u); + localIn.numSlices = Max(pIn->numSlices, 1u); + localIn.numMipLevels = Max(pIn->numMipLevels, 1u); + localIn.numSamples = Max(pIn->numSamples, 1u); + localIn.numFrags = Max(pIn->numFrags, 1u); + if (localIn.numMipLevels <= 1) + { + localIn.pitchInElement = pIn->pitchInElement; + } + + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT localOut = {0}; + ADDR_E_RETURNCODE returnCode = ComputeSurfaceInfoTiled(&localIn, &localOut); + + BOOL_32 valid = (returnCode == ADDR_OK) && + (IsThin(pIn->resourceType, pIn->swizzleMode) || + IsThick(pIn->resourceType, pIn->swizzleMode)) && + ((pIn->pipeBankXor == 0) || (IsXor(pIn->swizzleMode))); + + if (valid) + { + UINT_32 log2ElementBytes = Log2(pIn->bpp >> 3); + Dim3d mipStartPos = {0}; + UINT_32 mipTailBytesOffset = 0; + + if (pIn->numMipLevels > 1) + { + // Mip-map chain cannot be MSAA surface + ADDR_ASSERT((pIn->numSamples <= 1) && (pIn->numFrags<= 1)); + + mipStartPos = GetMipStartPos(pIn->resourceType, + pIn->swizzleMode, + localOut.pitch, + localOut.height, + localOut.numSlices, + localOut.blockWidth, + localOut.blockHeight, + localOut.blockSlices, + pIn->mipId, + log2ElementBytes, + &mipTailBytesOffset); + } + + UINT_32 interleaveOffset = 0; + UINT_32 pipeBits = 0; + UINT_32 pipeXor = 0; + UINT_32 bankBits = 0; + UINT_32 bankXor = 0; + + if (IsThin(pIn->resourceType, pIn->swizzleMode)) + { + UINT_32 blockOffset = 0; + UINT_32 log2blkSize = GetBlockSizeLog2(pIn->swizzleMode); + + if (IsZOrderSwizzle(pIn->swizzleMode)) + { + // Morton generation + if ((log2ElementBytes == 0) || (log2ElementBytes == 2)) + { + UINT_32 totalLowBits = 6 - log2ElementBytes; + UINT_32 mortBits = totalLowBits / 2; + UINT_32 lowBitsValue = MortonGen2d(pIn->y, pIn->x, mortBits); + // Are 9 bits enough? + UINT_32 highBitsValue = + MortonGen2d(pIn->x >> mortBits, pIn->y >> mortBits, 9) << totalLowBits; + blockOffset = lowBitsValue | highBitsValue; + ADDR_ASSERT(blockOffset == lowBitsValue + highBitsValue); + } + else + { + blockOffset = MortonGen2d(pIn->y, pIn->x, 13); + } + + // Fill LSBs with sample bits + if (pIn->numSamples > 1) + { + blockOffset *= pIn->numSamples; + blockOffset |= pIn->sample; + } + + // Shift according to BytesPP + blockOffset <<= log2ElementBytes; + } + else + { + // Micro block offset + UINT_32 microBlockOffset = ComputeSurface2DMicroBlockOffset(pIn); + blockOffset = microBlockOffset; + + // Micro block dimension + ADDR_ASSERT(log2ElementBytes < MaxNumOfBpp); + Dim2d microBlockDim = Block256_2d[log2ElementBytes]; + // Morton generation, does 12 bit enough? + blockOffset |= + MortonGen2d((pIn->x / microBlockDim.w), (pIn->y / microBlockDim.h), 12) << 8; + + // Sample bits start location + UINT_32 sampleStart = log2blkSize - Log2(pIn->numSamples); + // Join sample bits information to the highest Macro block bits + if (IsNonPrtXor(pIn->swizzleMode)) + { + // Non-prt-Xor : xor highest Macro block bits with sample bits + blockOffset = blockOffset ^ (pIn->sample << sampleStart); + } + else + { + // Non-Xor or prt-Xor: replace highest Macro block bits with sample bits + // after this op, the blockOffset only contains log2 Macro block size bits + blockOffset %= (1 << sampleStart); + blockOffset |= (pIn->sample << sampleStart); + ADDR_ASSERT((blockOffset >> log2blkSize) == 0); + } + } + + if (IsXor(pIn->swizzleMode)) + { + // Mask off bits above Macro block bits to keep page synonyms working for prt + if (IsPrt(pIn->swizzleMode)) + { + blockOffset &= ((1 << log2blkSize) - 1); + } + + // Preserve offset inside pipe interleave + interleaveOffset = blockOffset & ((1 << m_pipeInterleaveLog2) - 1); + blockOffset >>= m_pipeInterleaveLog2; + + // Pipe/Se xor bits + pipeBits = GetPipeXorBits(log2blkSize); + // Pipe xor + pipeXor = FoldXor2d(blockOffset, pipeBits); + blockOffset >>= pipeBits; + + // Bank xor bits + bankBits = GetBankXorBits(log2blkSize); + // Bank Xor + bankXor = FoldXor2d(blockOffset, bankBits); + blockOffset >>= bankBits; + + // Put all the part back together + blockOffset <<= bankBits; + blockOffset |= bankXor; + blockOffset <<= pipeBits; + blockOffset |= pipeXor; + blockOffset <<= m_pipeInterleaveLog2; + blockOffset |= interleaveOffset; + } + + ADDR_ASSERT((blockOffset | mipTailBytesOffset) == (blockOffset + mipTailBytesOffset)); + ADDR_ASSERT((mipTailBytesOffset == 0u) || (blockOffset < (1u << log2blkSize))); + + blockOffset |= mipTailBytesOffset; + + if (IsNonPrtXor(pIn->swizzleMode) && (pIn->numSamples <= 1)) + { + // Apply slice xor if not MSAA/PRT + blockOffset ^= (ReverseBitVector(pIn->slice, pipeBits) << m_pipeInterleaveLog2); + blockOffset ^= (ReverseBitVector(pIn->slice >> pipeBits, bankBits) << + (m_pipeInterleaveLog2 + pipeBits)); + } + + returnCode = ApplyCustomerPipeBankXor(pIn->swizzleMode, pIn->pipeBankXor, + bankBits, pipeBits, &blockOffset); + + blockOffset %= (1 << log2blkSize); + + UINT_32 pitchInMacroBlock = localOut.mipChainPitch / localOut.blockWidth; + UINT_32 paddedHeightInMacroBlock = localOut.mipChainHeight / localOut.blockHeight; + UINT_32 sliceSizeInMacroBlock = pitchInMacroBlock * paddedHeightInMacroBlock; + UINT_64 macroBlockIndex = + (pIn->slice + mipStartPos.d) * sliceSizeInMacroBlock + + ((pIn->y / localOut.blockHeight) + mipStartPos.h) * pitchInMacroBlock + + ((pIn->x / localOut.blockWidth) + mipStartPos.w); + + pOut->addr = blockOffset | (macroBlockIndex << log2blkSize); + } + else + { + UINT_32 log2blkSize = GetBlockSizeLog2(pIn->swizzleMode); + + Dim3d microBlockDim = Block1K_3d[log2ElementBytes]; + + UINT_32 blockOffset = MortonGen3d((pIn->x / microBlockDim.w), + (pIn->y / microBlockDim.h), + (pIn->slice / microBlockDim.d), + 8); + + blockOffset <<= 10; + blockOffset |= ComputeSurface3DMicroBlockOffset(pIn); + + if (IsXor(pIn->swizzleMode)) + { + // Mask off bits above Macro block bits to keep page synonyms working for prt + if (IsPrt(pIn->swizzleMode)) + { + blockOffset &= ((1 << log2blkSize) - 1); + } + + // Preserve offset inside pipe interleave + interleaveOffset = blockOffset & ((1 << m_pipeInterleaveLog2) - 1); + blockOffset >>= m_pipeInterleaveLog2; + + // Pipe/Se xor bits + pipeBits = GetPipeXorBits(log2blkSize); + // Pipe xor + pipeXor = FoldXor3d(blockOffset, pipeBits); + blockOffset >>= pipeBits; + + // Bank xor bits + bankBits = GetBankXorBits(log2blkSize); + // Bank Xor + bankXor = FoldXor3d(blockOffset, bankBits); + blockOffset >>= bankBits; + + // Put all the part back together + blockOffset <<= bankBits; + blockOffset |= bankXor; + blockOffset <<= pipeBits; + blockOffset |= pipeXor; + blockOffset <<= m_pipeInterleaveLog2; + blockOffset |= interleaveOffset; + } + + ADDR_ASSERT((blockOffset | mipTailBytesOffset) == (blockOffset + mipTailBytesOffset)); + ADDR_ASSERT((mipTailBytesOffset == 0u) || (blockOffset < (1u << log2blkSize))); + blockOffset |= mipTailBytesOffset; + + returnCode = ApplyCustomerPipeBankXor(pIn->swizzleMode, pIn->pipeBankXor, + bankBits, pipeBits, &blockOffset); + + blockOffset %= (1 << log2blkSize); + + UINT_32 xb = pIn->x / localOut.blockWidth + mipStartPos.w; + UINT_32 yb = pIn->y / localOut.blockHeight + mipStartPos.h; + UINT_32 zb = pIn->slice / localOut.blockSlices + + mipStartPos.d; + + UINT_32 pitchInBlock = localOut.mipChainPitch / localOut.blockWidth; + UINT_32 sliceSizeInBlock = + (localOut.mipChainHeight / localOut.blockHeight) * pitchInBlock; + UINT_64 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; + + pOut->addr = blockOffset | (blockIndex << log2blkSize); + } + } + else + { + returnCode = ADDR_INVALIDPARAMS; + } + + return returnCode; +} + +/** +************************************************************************************************************************ +* Gfx9Lib::ComputeSurfaceInfoLinear +* +* @brief +* Internal function to calculate padding for linear swizzle 2D/3D surface +* +* @return +* N/A +************************************************************************************************************************ +*/ +ADDR_E_RETURNCODE Gfx9Lib::ComputeSurfaceLinearPadding( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input srtucture + UINT_32* pMipmap0PaddedWidth, ///< [out] padded width in element + UINT_32* pSlice0PaddedHeight, ///< [out] padded height for HW + ADDR2_MIP_INFO* pMipInfo ///< [out] per mip information + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + UINT_32 elementBytes = pIn->bpp >> 3; + UINT_32 pitchAlignInElement = 0; + + if (pIn->swizzleMode == ADDR_SW_LINEAR_GENERAL) + { + ADDR_ASSERT(pIn->numMipLevels <= 1); + ADDR_ASSERT(pIn->numSlices <= 1); + pitchAlignInElement = 1; + } + else + { + pitchAlignInElement = (256 / elementBytes); + } + + UINT_32 mipChainWidth = PowTwoAlign(pIn->width, pitchAlignInElement); + UINT_32 slice0PaddedHeight = pIn->height; + + returnCode = ApplyCustomizedPitchHeight(pIn, elementBytes, pitchAlignInElement, + &mipChainWidth, &slice0PaddedHeight); + + if (returnCode == ADDR_OK) + { + UINT_32 mipChainHeight = 0; + UINT_32 mipHeight = pIn->height; + UINT_32 mipDepth = (pIn->resourceType == ADDR_RSRC_TEX_3D) ? pIn->numSlices : 1; + + for (UINT_32 i = 0; i < pIn->numMipLevels; i++) + { + if (pMipInfo != NULL) + { + pMipInfo[i].offset = mipChainWidth * mipChainHeight * elementBytes; + pMipInfo[i].pitch = mipChainWidth; + pMipInfo[i].height = mipHeight; + pMipInfo[i].depth = mipDepth; + } + + mipChainHeight += mipHeight; + mipHeight = RoundHalf(mipHeight); + mipHeight = Max(mipHeight, 1u); + } + + *pMipmap0PaddedWidth = mipChainWidth; + *pSlice0PaddedHeight = (pIn->numMipLevels > 1) ? mipChainHeight : slice0PaddedHeight; + } + + return returnCode; +} + +} // V2 +} // Addr diff --git a/src/amd/addrlib/src/gfx9/gfx9addrlib.h b/src/amd/addrlib/src/gfx9/gfx9addrlib.h new file mode 100644 index 00000000000..73f035370db --- /dev/null +++ b/src/amd/addrlib/src/gfx9/gfx9addrlib.h @@ -0,0 +1,629 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +************************************************************************************************************************ +* @file gfx9addrlib.h +* @brief Contgfx9ns the Gfx9Lib class definition. +************************************************************************************************************************ +*/ + +#ifndef __GFX9_ADDR_LIB_H__ +#define __GFX9_ADDR_LIB_H__ + +#include "addrlib2.h" +#include "coord.h" + +namespace Addr +{ +namespace V2 +{ + +/** +************************************************************************************************************************ +* @brief GFX9 specific settings structure. +************************************************************************************************************************ +*/ +struct Gfx9ChipSettings +{ + struct + { + // Asic/Generation name + UINT_32 isArcticIsland : 1; + UINT_32 isVega10 : 1; + UINT_32 isRaven : 1; + UINT_32 isVega12 : 1; + UINT_32 isVega20 : 1; + UINT_32 reserved0 : 27; + + // Display engine IP version name + UINT_32 isDce12 : 1; + UINT_32 isDcn1 : 1; + + // Misc configuration bits + UINT_32 metaBaseAlignFix : 1; + UINT_32 depthPipeXorDisable : 1; + UINT_32 htileAlignFix : 1; + UINT_32 applyAliasFix : 1; + UINT_32 htileCacheRbConflict: 1; + UINT_32 reserved2 : 27; + }; +}; + +/** +************************************************************************************************************************ +* @brief GFX9 data surface type. +************************************************************************************************************************ +*/ +enum Gfx9DataType +{ + Gfx9DataColor, + Gfx9DataDepthStencil, + Gfx9DataFmask +}; + +const UINT_32 Gfx9LinearSwModeMask = (1u << ADDR_SW_LINEAR); + +const UINT_32 Gfx9Blk256BSwModeMask = (1u << ADDR_SW_256B_S) | + (1u << ADDR_SW_256B_D) | + (1u << ADDR_SW_256B_R); + +const UINT_32 Gfx9Blk4KBSwModeMask = (1u << ADDR_SW_4KB_Z) | + (1u << ADDR_SW_4KB_S) | + (1u << ADDR_SW_4KB_D) | + (1u << ADDR_SW_4KB_R) | + (1u << ADDR_SW_4KB_Z_X) | + (1u << ADDR_SW_4KB_S_X) | + (1u << ADDR_SW_4KB_D_X) | + (1u << ADDR_SW_4KB_R_X); + +const UINT_32 Gfx9Blk64KBSwModeMask = (1u << ADDR_SW_64KB_Z) | + (1u << ADDR_SW_64KB_S) | + (1u << ADDR_SW_64KB_D) | + (1u << ADDR_SW_64KB_R) | + (1u << ADDR_SW_64KB_Z_T) | + (1u << ADDR_SW_64KB_S_T) | + (1u << ADDR_SW_64KB_D_T) | + (1u << ADDR_SW_64KB_R_T) | + (1u << ADDR_SW_64KB_Z_X) | + (1u << ADDR_SW_64KB_S_X) | + (1u << ADDR_SW_64KB_D_X) | + (1u << ADDR_SW_64KB_R_X); + +const UINT_32 Gfx9BlkVarSwModeMask = (1u << ADDR_SW_VAR_Z) | + (1u << ADDR_SW_VAR_S) | + (1u << ADDR_SW_VAR_D) | + (1u << ADDR_SW_VAR_R) | + (1u << ADDR_SW_VAR_Z_X) | + (1u << ADDR_SW_VAR_S_X) | + (1u << ADDR_SW_VAR_D_X) | + (1u << ADDR_SW_VAR_R_X); + +const UINT_32 Gfx9ZSwModeMask = (1u << ADDR_SW_4KB_Z) | + (1u << ADDR_SW_64KB_Z) | + (1u << ADDR_SW_VAR_Z) | + (1u << ADDR_SW_64KB_Z_T) | + (1u << ADDR_SW_4KB_Z_X) | + (1u << ADDR_SW_64KB_Z_X) | + (1u << ADDR_SW_VAR_Z_X); + +const UINT_32 Gfx9StandardSwModeMask = (1u << ADDR_SW_256B_S) | + (1u << ADDR_SW_4KB_S) | + (1u << ADDR_SW_64KB_S) | + (1u << ADDR_SW_VAR_S) | + (1u << ADDR_SW_64KB_S_T) | + (1u << ADDR_SW_4KB_S_X) | + (1u << ADDR_SW_64KB_S_X) | + (1u << ADDR_SW_VAR_S_X); + +const UINT_32 Gfx9DisplaySwModeMask = (1u << ADDR_SW_256B_D) | + (1u << ADDR_SW_4KB_D) | + (1u << ADDR_SW_64KB_D) | + (1u << ADDR_SW_VAR_D) | + (1u << ADDR_SW_64KB_D_T) | + (1u << ADDR_SW_4KB_D_X) | + (1u << ADDR_SW_64KB_D_X) | + (1u << ADDR_SW_VAR_D_X); + +const UINT_32 Gfx9RotateSwModeMask = (1u << ADDR_SW_256B_R) | + (1u << ADDR_SW_4KB_R) | + (1u << ADDR_SW_64KB_R) | + (1u << ADDR_SW_VAR_R) | + (1u << ADDR_SW_64KB_R_T) | + (1u << ADDR_SW_4KB_R_X) | + (1u << ADDR_SW_64KB_R_X) | + (1u << ADDR_SW_VAR_R_X); + +const UINT_32 Gfx9XSwModeMask = (1u << ADDR_SW_4KB_Z_X) | + (1u << ADDR_SW_4KB_S_X) | + (1u << ADDR_SW_4KB_D_X) | + (1u << ADDR_SW_4KB_R_X) | + (1u << ADDR_SW_64KB_Z_X) | + (1u << ADDR_SW_64KB_S_X) | + (1u << ADDR_SW_64KB_D_X) | + (1u << ADDR_SW_64KB_R_X) | + (1u << ADDR_SW_VAR_Z_X) | + (1u << ADDR_SW_VAR_S_X) | + (1u << ADDR_SW_VAR_D_X) | + (1u << ADDR_SW_VAR_R_X); + +const UINT_32 Gfx9TSwModeMask = (1u << ADDR_SW_64KB_Z_T) | + (1u << ADDR_SW_64KB_S_T) | + (1u << ADDR_SW_64KB_D_T) | + (1u << ADDR_SW_64KB_R_T); + +const UINT_32 Gfx9XorSwModeMask = Gfx9XSwModeMask | + Gfx9TSwModeMask; + +const UINT_32 Gfx9AllSwModeMask = Gfx9LinearSwModeMask | + Gfx9ZSwModeMask | + Gfx9StandardSwModeMask | + Gfx9DisplaySwModeMask | + Gfx9RotateSwModeMask; + +const UINT_32 Gfx9Rsrc1dSwModeMask = Gfx9LinearSwModeMask; + +const UINT_32 Gfx9Rsrc2dSwModeMask = Gfx9AllSwModeMask; + +const UINT_32 Gfx9Rsrc3dSwModeMask = Gfx9AllSwModeMask & ~Gfx9Blk256BSwModeMask & ~Gfx9RotateSwModeMask; + +const UINT_32 Gfx9Rsrc2dPrtSwModeMask = (Gfx9Blk4KBSwModeMask | Gfx9Blk64KBSwModeMask) & ~Gfx9XSwModeMask; + +const UINT_32 Gfx9Rsrc3dPrtSwModeMask = Gfx9Rsrc2dPrtSwModeMask & ~Gfx9RotateSwModeMask & ~Gfx9DisplaySwModeMask; + +const UINT_32 Gfx9Rsrc3dThinSwModeMask = Gfx9DisplaySwModeMask & ~Gfx9Blk256BSwModeMask; + +const UINT_32 Gfx9MsaaSwModeMask = Gfx9AllSwModeMask & ~Gfx9Blk256BSwModeMask & ~Gfx9LinearSwModeMask; + +const UINT_32 Dce12NonBpp32SwModeMask = (1u << ADDR_SW_LINEAR) | + (1u << ADDR_SW_4KB_D) | + (1u << ADDR_SW_4KB_R) | + (1u << ADDR_SW_64KB_D) | + (1u << ADDR_SW_64KB_R) | + (1u << ADDR_SW_VAR_D) | + (1u << ADDR_SW_VAR_R) | + (1u << ADDR_SW_4KB_D_X) | + (1u << ADDR_SW_4KB_R_X) | + (1u << ADDR_SW_64KB_D_X) | + (1u << ADDR_SW_64KB_R_X) | + (1u << ADDR_SW_VAR_D_X) | + (1u << ADDR_SW_VAR_R_X); + +const UINT_32 Dce12Bpp32SwModeMask = (1u << ADDR_SW_256B_D) | + (1u << ADDR_SW_256B_R) | + Dce12NonBpp32SwModeMask; + +const UINT_32 Dcn1NonBpp64SwModeMask = (1u << ADDR_SW_LINEAR) | + (1u << ADDR_SW_4KB_S) | + (1u << ADDR_SW_64KB_S) | + (1u << ADDR_SW_VAR_S) | + (1u << ADDR_SW_64KB_S_T) | + (1u << ADDR_SW_4KB_S_X) | + (1u << ADDR_SW_64KB_S_X) | + (1u << ADDR_SW_VAR_S_X); + +const UINT_32 Dcn1Bpp64SwModeMask = (1u << ADDR_SW_4KB_D) | + (1u << ADDR_SW_64KB_D) | + (1u << ADDR_SW_VAR_D) | + (1u << ADDR_SW_64KB_D_T) | + (1u << ADDR_SW_4KB_D_X) | + (1u << ADDR_SW_64KB_D_X) | + (1u << ADDR_SW_VAR_D_X) | + Dcn1NonBpp64SwModeMask; + +/** +************************************************************************************************************************ +* @brief GFX9 meta equation parameters +************************************************************************************************************************ +*/ +struct MetaEqParams +{ + UINT_32 maxMip; + UINT_32 elementBytesLog2; + UINT_32 numSamplesLog2; + ADDR2_META_FLAGS metaFlag; + Gfx9DataType dataSurfaceType; + AddrSwizzleMode swizzleMode; + AddrResourceType resourceType; + UINT_32 metaBlkWidthLog2; + UINT_32 metaBlkHeightLog2; + UINT_32 metaBlkDepthLog2; + UINT_32 compBlkWidthLog2; + UINT_32 compBlkHeightLog2; + UINT_32 compBlkDepthLog2; +}; + +/** +************************************************************************************************************************ +* @brief This class is the GFX9 specific address library +* function set. +************************************************************************************************************************ +*/ +class Gfx9Lib : public Lib +{ +public: + /// Creates Gfx9Lib object + static Addr::Lib* CreateObj(const Client* pClient) + { + VOID* pMem = Object::ClientAlloc(sizeof(Gfx9Lib), pClient); + return (pMem != NULL) ? new (pMem) Gfx9Lib(pClient) : NULL; + } + + virtual BOOL_32 IsValidDisplaySwizzleMode( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const; + +protected: + Gfx9Lib(const Client* pClient); + virtual ~Gfx9Lib(); + + virtual BOOL_32 HwlIsStandardSwizzle( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + return m_swizzleModeTable[swizzleMode].isStd || + (IsTex3d(resourceType) && m_swizzleModeTable[swizzleMode].isDisp); + } + + virtual BOOL_32 HwlIsDisplaySwizzle( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + return IsTex2d(resourceType) && m_swizzleModeTable[swizzleMode].isDisp; + } + + virtual BOOL_32 HwlIsThin( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + return ((IsTex2d(resourceType) == TRUE) || + ((IsTex3d(resourceType) == TRUE) && + (m_swizzleModeTable[swizzleMode].isZ == FALSE) && + (m_swizzleModeTable[swizzleMode].isStd == FALSE))); + } + + virtual BOOL_32 HwlIsThick( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode) const + { + return (IsTex3d(resourceType) && + (m_swizzleModeTable[swizzleMode].isZ || m_swizzleModeTable[swizzleMode].isStd)); + } + + virtual ADDR_E_RETURNCODE HwlComputeHtileInfo( + const ADDR2_COMPUTE_HTILE_INFO_INPUT* pIn, + ADDR2_COMPUTE_HTILE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeCmaskInfo( + const ADDR2_COMPUTE_CMASK_INFO_INPUT* pIn, + ADDR2_COMPUTE_CMASK_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeDccInfo( + const ADDR2_COMPUTE_DCCINFO_INPUT* pIn, + ADDR2_COMPUTE_DCCINFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( + const ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut); + + virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( + const ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut); + + virtual ADDR_E_RETURNCODE HwlComputeHtileCoordFromAddr( + const ADDR2_COMPUTE_HTILE_COORDFROMADDR_INPUT* pIn, + ADDR2_COMPUTE_HTILE_COORDFROMADDR_OUTPUT* pOut); + + virtual ADDR_E_RETURNCODE HwlComputeDccAddrFromCoord( + const ADDR2_COMPUTE_DCC_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_DCC_ADDRFROMCOORD_OUTPUT* pOut); + + virtual UINT_32 HwlGetEquationIndex( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeBlock256Equation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const; + + virtual ADDR_E_RETURNCODE HwlComputeThinEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const; + + virtual ADDR_E_RETURNCODE HwlComputeThickEquation( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2, + ADDR_EQUATION* pEquation) const; + + // Get equation table pointer and number of equations + virtual UINT_32 HwlGetEquationTableInfo(const ADDR_EQUATION** ppEquationTable) const + { + *ppEquationTable = m_equationTable; + + return m_numEquations; + } + + virtual BOOL_32 IsEquationSupported( + AddrResourceType rsrcType, + AddrSwizzleMode swMode, + UINT_32 elementBytesLog2) const; + + UINT_32 ComputeSurfaceBaseAlignTiled(AddrSwizzleMode swizzleMode) const + { + UINT_32 baseAlign; + + if (IsXor(swizzleMode)) + { + baseAlign = GetBlockSize(swizzleMode); + } + else + { + baseAlign = 256; + } + + return baseAlign; + } + + virtual ADDR_E_RETURNCODE HwlComputePipeBankXor( + const ADDR2_COMPUTE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_PIPEBANKXOR_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSlicePipeBankXor( + const ADDR2_COMPUTE_SLICE_PIPEBANKXOR_INPUT* pIn, + ADDR2_COMPUTE_SLICE_PIPEBANKXOR_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSubResourceOffsetForSwizzlePattern( + const ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_INPUT* pIn, + ADDR2_COMPUTE_SUBRESOURCE_OFFSET_FORSWIZZLEPATTERN_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlGetPreferredSurfaceSetting( + const ADDR2_GET_PREFERRED_SURF_SETTING_INPUT* pIn, + ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoSanityCheck( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn) const; + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoTiled( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfoLinear( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoordTiled( + const ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + // Initialize equation table + VOID InitEquationTable(); + + ADDR_E_RETURNCODE ComputeStereoInfo( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR2_COMPUTE_SURFACE_INFO_OUTPUT* pOut, + UINT_32* pHeightAlign) const; + + UINT_32 GetMipChainInfo( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 bpp, + UINT_32 mip0Width, + UINT_32 mip0Height, + UINT_32 mip0Depth, + UINT_32 blockWidth, + UINT_32 blockHeight, + UINT_32 blockDepth, + UINT_32 numMipLevel, + ADDR2_MIP_INFO* pMipInfo) const; + + VOID GetMetaMiptailInfo( + ADDR2_META_MIP_INFO* pInfo, + Dim3d mipCoord, + UINT_32 numMipInTail, + Dim3d* pMetaBlkDim) const; + + Dim3d GetMipStartPos( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 width, + UINT_32 height, + UINT_32 depth, + UINT_32 blockWidth, + UINT_32 blockHeight, + UINT_32 blockDepth, + UINT_32 mipId, + UINT_32 log2ElementBytes, + UINT_32* pMipTailBytesOffset) const; + + AddrMajorMode GetMajorMode( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 mip0WidthInBlk, + UINT_32 mip0HeightInBlk, + UINT_32 mip0DepthInBlk) const + { + BOOL_32 yMajor = (mip0WidthInBlk < mip0HeightInBlk); + BOOL_32 xMajor = (yMajor == FALSE); + + if (IsThick(resourceType, swizzleMode)) + { + yMajor = yMajor && (mip0HeightInBlk >= mip0DepthInBlk); + xMajor = xMajor && (mip0WidthInBlk >= mip0DepthInBlk); + } + + AddrMajorMode majorMode; + if (xMajor) + { + majorMode = ADDR_MAJOR_X; + } + else if (yMajor) + { + majorMode = ADDR_MAJOR_Y; + } + else + { + majorMode = ADDR_MAJOR_Z; + } + + return majorMode; + } + + Dim3d GetDccCompressBlk( + AddrResourceType resourceType, + AddrSwizzleMode swizzleMode, + UINT_32 bpp) const + { + UINT_32 index = Log2(bpp >> 3); + Dim3d compressBlkDim; + + if (IsThin(resourceType, swizzleMode)) + { + compressBlkDim.w = Block256_2d[index].w; + compressBlkDim.h = Block256_2d[index].h; + compressBlkDim.d = 1; + } + else if (IsStandardSwizzle(resourceType, swizzleMode)) + { + compressBlkDim = Block256_3dS[index]; + } + else + { + compressBlkDim = Block256_3dZ[index]; + } + + return compressBlkDim; + } + + static const UINT_32 MaxSeLog2 = 3; + static const UINT_32 MaxRbPerSeLog2 = 2; + + static const Dim3d Block256_3dS[MaxNumOfBpp]; + static const Dim3d Block256_3dZ[MaxNumOfBpp]; + + static const UINT_32 MipTailOffset256B[]; + + static const SwizzleModeFlags SwizzleModeTable[ADDR_SW_MAX_TYPE]; + + // Max number of swizzle mode supported for equation + static const UINT_32 MaxSwMode = 32; + // Max number of resource type (2D/3D) supported for equation + static const UINT_32 MaxRsrcType = 2; + // Max number of bpp (8bpp/16bpp/32bpp/64bpp/128bpp) + static const UINT_32 MaxElementBytesLog2 = 5; + // Almost all swizzle mode + resource type support equation + static const UINT_32 EquationTableSize = MaxElementBytesLog2 * MaxSwMode * MaxRsrcType; + // Equation table + ADDR_EQUATION m_equationTable[EquationTableSize]; + + // Number of equation entries in the table + UINT_32 m_numEquations; + // Equation lookup table according to bpp and tile index + UINT_32 m_equationLookupTable[MaxRsrcType][MaxSwMode][MaxElementBytesLog2]; + + static const UINT_32 MaxCachedMetaEq = 2; + +private: + virtual UINT_32 HwlComputeMaxBaseAlignments() const; + + virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const; + + virtual BOOL_32 HwlInitGlobalParams(const ADDR_CREATE_INPUT* pCreateIn); + + VOID GetRbEquation(CoordEq* pRbEq, UINT_32 rbPerSeLog2, UINT_32 seLog2) const; + + VOID GetDataEquation(CoordEq* pDataEq, Gfx9DataType dataSurfaceType, + AddrSwizzleMode swizzleMode, AddrResourceType resourceType, + UINT_32 elementBytesLog2, UINT_32 numSamplesLog2) const; + + VOID GetPipeEquation(CoordEq* pPipeEq, CoordEq* pDataEq, + UINT_32 pipeInterleaveLog2, UINT_32 numPipesLog2, + UINT_32 numSamplesLog2, Gfx9DataType dataSurfaceType, + AddrSwizzleMode swizzleMode, AddrResourceType resourceType) const; + + VOID GenMetaEquation(CoordEq* pMetaEq, UINT_32 maxMip, + UINT_32 elementBytesLog2, UINT_32 numSamplesLog2, + ADDR2_META_FLAGS metaFlag, Gfx9DataType dataSurfaceType, + AddrSwizzleMode swizzleMode, AddrResourceType resourceType, + UINT_32 metaBlkWidthLog2, UINT_32 metaBlkHeightLog2, + UINT_32 metaBlkDepthLog2, UINT_32 compBlkWidthLog2, + UINT_32 compBlkHeightLog2, UINT_32 compBlkDepthLog2) const; + + const CoordEq* GetMetaEquation(const MetaEqParams& metaEqParams); + + virtual ChipFamily HwlConvertChipFamily(UINT_32 uChipFamily, UINT_32 uChipRevision); + + VOID GetMetaMipInfo(UINT_32 numMipLevels, Dim3d* pMetaBlkDim, + BOOL_32 dataThick, ADDR2_META_MIP_INFO* pInfo, + UINT_32 mip0Width, UINT_32 mip0Height, UINT_32 mip0Depth, + UINT_32* pNumMetaBlkX, UINT_32* pNumMetaBlkY, UINT_32* pNumMetaBlkZ) const; + + ADDR_E_RETURNCODE ComputeSurfaceLinearPadding( + const ADDR2_COMPUTE_SURFACE_INFO_INPUT* pIn, + UINT_32* pMipmap0PaddedWidth, + UINT_32* pSlice0PaddedHeight, + ADDR2_MIP_INFO* pMipInfo = NULL) const; + + static ADDR2_BLOCK_SET GetAllowedBlockSet(ADDR2_SWMODE_SET allowedSwModeSet) + { + ADDR2_BLOCK_SET allowedBlockSet = {}; + + allowedBlockSet.micro = (allowedSwModeSet.value & Gfx9Blk256BSwModeMask) ? TRUE : FALSE; + allowedBlockSet.macro4KB = (allowedSwModeSet.value & Gfx9Blk4KBSwModeMask) ? TRUE : FALSE; + allowedBlockSet.macro64KB = (allowedSwModeSet.value & Gfx9Blk64KBSwModeMask) ? TRUE : FALSE; + allowedBlockSet.var = (allowedSwModeSet.value & Gfx9BlkVarSwModeMask) ? TRUE : FALSE; + allowedBlockSet.linear = (allowedSwModeSet.value & Gfx9LinearSwModeMask) ? TRUE : FALSE; + + return allowedBlockSet; + } + + static ADDR2_SWTYPE_SET GetAllowedSwSet(ADDR2_SWMODE_SET allowedSwModeSet) + { + ADDR2_SWTYPE_SET allowedSwSet = {}; + + allowedSwSet.sw_Z = (allowedSwModeSet.value & Gfx9ZSwModeMask) ? TRUE : FALSE; + allowedSwSet.sw_S = (allowedSwModeSet.value & Gfx9StandardSwModeMask) ? TRUE : FALSE; + allowedSwSet.sw_D = (allowedSwModeSet.value & Gfx9DisplaySwModeMask) ? TRUE : FALSE; + allowedSwSet.sw_R = (allowedSwModeSet.value & Gfx9RotateSwModeMask) ? TRUE : FALSE; + + return allowedSwSet; + } + + Gfx9ChipSettings m_settings; + + CoordEq m_cachedMetaEq[MaxCachedMetaEq]; + MetaEqParams m_cachedMetaEqKey[MaxCachedMetaEq]; + UINT_32 m_metaEqOverrideIndex; +}; + +} // V2 +} // Addr + +#endif + diff --git a/src/amd/addrlib/src/r800/ciaddrlib.cpp b/src/amd/addrlib/src/r800/ciaddrlib.cpp new file mode 100644 index 00000000000..5bec0918471 --- /dev/null +++ b/src/amd/addrlib/src/r800/ciaddrlib.cpp @@ -0,0 +1,2339 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file ciaddrlib.cpp +* @brief Contains the implementation for the CiLib class. +**************************************************************************************************** +*/ + +#include "ciaddrlib.h" + +#include "si_gb_reg.h" + +#include "amdgpu_asic_addr.h" + +//////////////////////////////////////////////////////////////////////////////////////////////////// +//////////////////////////////////////////////////////////////////////////////////////////////////// + +namespace Addr +{ + +/** +**************************************************************************************************** +* CiHwlInit +* +* @brief +* Creates an CiLib object. +* +* @return +* Returns an CiLib object pointer. +**************************************************************************************************** +*/ +Lib* CiHwlInit(const Client* pClient) +{ + return V1::CiLib::CreateObj(pClient); +} + +namespace V1 +{ + +/** +**************************************************************************************************** +* Mask +* +* @brief +* Gets a mask of "width" +* @return +* Bit mask +**************************************************************************************************** +*/ +static UINT_64 Mask( + UINT_32 width) ///< Width of bits +{ + UINT_64 ret; + + if (width >= sizeof(UINT_64)*8) + { + ret = ~((UINT_64) 0); + } + else + { + return (((UINT_64) 1) << width) - 1; + } + return ret; +} + +/** +**************************************************************************************************** +* GetBits +* +* @brief +* Gets bits within a range of [msb, lsb] +* @return +* Bits of this range +**************************************************************************************************** +*/ +static UINT_64 GetBits( + UINT_64 bits, ///< Source bits + UINT_32 msb, ///< Most signicant bit + UINT_32 lsb) ///< Least signicant bit +{ + UINT_64 ret = 0; + + if (msb >= lsb) + { + ret = (bits >> lsb) & (Mask(1 + msb - lsb)); + } + return ret; +} + +/** +**************************************************************************************************** +* RemoveBits +* +* @brief +* Removes bits within the range of [msb, lsb] +* @return +* Modified bits +**************************************************************************************************** +*/ +static UINT_64 RemoveBits( + UINT_64 bits, ///< Source bits + UINT_32 msb, ///< Most signicant bit + UINT_32 lsb) ///< Least signicant bit +{ + UINT_64 ret = bits; + + if (msb >= lsb) + { + ret = GetBits(bits, lsb - 1, 0) // low bits + | (GetBits(bits, 8 * sizeof(bits) - 1, msb + 1) << lsb); //high bits + } + return ret; +} + +/** +**************************************************************************************************** +* InsertBits +* +* @brief +* Inserts new bits into the range of [msb, lsb] +* @return +* Modified bits +**************************************************************************************************** +*/ +static UINT_64 InsertBits( + UINT_64 bits, ///< Source bits + UINT_64 newBits, ///< New bits to be inserted + UINT_32 msb, ///< Most signicant bit + UINT_32 lsb) ///< Least signicant bit +{ + UINT_64 ret = bits; + + if (msb >= lsb) + { + ret = GetBits(bits, lsb - 1, 0) // old low bitss + | (GetBits(newBits, msb - lsb, 0) << lsb) //new bits + | (GetBits(bits, 8 * sizeof(bits) - 1, lsb) << (msb + 1)); //old high bits + } + return ret; +} + +/** +**************************************************************************************************** +* CiLib::CiLib +* +* @brief +* Constructor +* +**************************************************************************************************** +*/ +CiLib::CiLib(const Client* pClient) + : + SiLib(pClient), + m_noOfMacroEntries(0), + m_allowNonDispThickModes(FALSE) +{ + m_class = CI_ADDRLIB; +} + +/** +**************************************************************************************************** +* CiLib::~CiLib +* +* @brief +* Destructor +**************************************************************************************************** +*/ +CiLib::~CiLib() +{ +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeDccInfo +* +* @brief +* Compute DCC key size, base alignment +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE CiLib::HwlComputeDccInfo( + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + if (m_settings.isVolcanicIslands && IsMacroTiled(pIn->tileMode)) + { + UINT_64 dccFastClearSize = pIn->colorSurfSize >> 8; + + ADDR_ASSERT(0 == (pIn->colorSurfSize & 0xff)); + + if (pIn->numSamples > 1) + { + UINT_32 tileSizePerSample = BITS_TO_BYTES(pIn->bpp * MicroTileWidth * MicroTileHeight); + UINT_32 samplesPerSplit = pIn->tileInfo.tileSplitBytes / tileSizePerSample; + + if (samplesPerSplit < pIn->numSamples) + { + UINT_32 numSplits = pIn->numSamples / samplesPerSplit; + UINT_32 fastClearBaseAlign = HwlGetPipes(&pIn->tileInfo) * m_pipeInterleaveBytes; + + ADDR_ASSERT(IsPow2(fastClearBaseAlign)); + + dccFastClearSize /= numSplits; + + if (0 != (dccFastClearSize & (fastClearBaseAlign - 1))) + { + // Disable dcc fast clear + // if key size of fisrt sample split is not pipe*interleave aligned + dccFastClearSize = 0; + } + } + } + + pOut->dccRamSize = pIn->colorSurfSize >> 8; + pOut->dccRamBaseAlign = pIn->tileInfo.banks * + HwlGetPipes(&pIn->tileInfo) * + m_pipeInterleaveBytes; + pOut->dccFastClearSize = dccFastClearSize; + pOut->dccRamSizeAligned = TRUE; + + ADDR_ASSERT(IsPow2(pOut->dccRamBaseAlign)); + + if (0 == (pOut->dccRamSize & (pOut->dccRamBaseAlign - 1))) + { + pOut->subLvlCompressible = TRUE; + } + else + { + UINT_64 dccRamSizeAlign = HwlGetPipes(&pIn->tileInfo) * m_pipeInterleaveBytes; + + if (pOut->dccRamSize == pOut->dccFastClearSize) + { + pOut->dccFastClearSize = PowTwoAlign(pOut->dccRamSize, dccRamSizeAlign); + } + if ((pOut->dccRamSize & (dccRamSizeAlign - 1)) != 0) + { + pOut->dccRamSizeAligned = FALSE; + } + pOut->dccRamSize = PowTwoAlign(pOut->dccRamSize, dccRamSizeAlign); + pOut->subLvlCompressible = FALSE; + } + } + else + { + returnCode = ADDR_NOTSUPPORTED; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeCmaskAddrFromCoord +* +* @brief +* Compute tc compatible Cmask address from fmask ram address +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE CiLib::HwlComputeCmaskAddrFromCoord( + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] fmask addr/bpp/tile input + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] cmask address + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_NOTSUPPORTED; + + if ((m_settings.isVolcanicIslands == TRUE) && + (pIn->flags.tcCompatible == TRUE)) + { + UINT_32 numOfPipes = HwlGetPipes(pIn->pTileInfo); + UINT_32 numOfBanks = pIn->pTileInfo->banks; + UINT_64 fmaskAddress = pIn->fmaskAddr; + UINT_32 elemBits = pIn->bpp; + UINT_32 blockByte = 64 * elemBits / 8; + UINT_64 metaNibbleAddress = HwlComputeMetadataNibbleAddress(fmaskAddress, + 0, + 0, + 4, // cmask 4 bits + elemBits, + blockByte, + m_pipeInterleaveBytes, + numOfPipes, + numOfBanks, + 1); + pOut->addr = (metaNibbleAddress >> 1); + pOut->bitPosition = (metaNibbleAddress % 2) ? 4 : 0; + returnCode = ADDR_OK; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeHtileAddrFromCoord +* +* @brief +* Compute tc compatible Htile address from depth/stencil address +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE CiLib::HwlComputeHtileAddrFromCoord( + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, ///< [in] depth/stencil addr/bpp/tile input + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] htile address + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_NOTSUPPORTED; + + if ((m_settings.isVolcanicIslands == TRUE) && + (pIn->flags.tcCompatible == TRUE)) + { + UINT_32 numOfPipes = HwlGetPipes(pIn->pTileInfo); + UINT_32 numOfBanks = pIn->pTileInfo->banks; + UINT_64 zStencilAddr = pIn->zStencilAddr; + UINT_32 elemBits = pIn->bpp; + UINT_32 blockByte = 64 * elemBits / 8; + UINT_64 metaNibbleAddress = HwlComputeMetadataNibbleAddress(zStencilAddr, + 0, + 0, + 32, // htile 32 bits + elemBits, + blockByte, + m_pipeInterleaveBytes, + numOfPipes, + numOfBanks, + 1); + pOut->addr = (metaNibbleAddress >> 1); + pOut->bitPosition = 0; + returnCode = ADDR_OK; + } + + return returnCode; +} + +/** +**************************************************************************************************** +* CiLib::HwlConvertChipFamily +* +* @brief +* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision +* @return +* ChipFamily +**************************************************************************************************** +*/ +ChipFamily CiLib::HwlConvertChipFamily( + UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h + UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h +{ + ChipFamily family = ADDR_CHIP_FAMILY_CI; + + switch (uChipFamily) + { + case FAMILY_CI: + m_settings.isSeaIsland = 1; + m_settings.isBonaire = ASICREV_IS_BONAIRE_M(uChipRevision); + m_settings.isHawaii = ASICREV_IS_HAWAII_P(uChipRevision); + break; + case FAMILY_KV: + m_settings.isKaveri = 1; + m_settings.isSpectre = ASICREV_IS_SPECTRE(uChipRevision); + m_settings.isSpooky = ASICREV_IS_SPOOKY(uChipRevision); + m_settings.isKalindi = ASICREV_IS_KALINDI(uChipRevision); + break; + case FAMILY_VI: + m_settings.isVolcanicIslands = 1; + m_settings.isIceland = ASICREV_IS_ICELAND_M(uChipRevision); + m_settings.isTonga = ASICREV_IS_TONGA_P(uChipRevision); + m_settings.isFiji = ASICREV_IS_FIJI_P(uChipRevision); + m_settings.isPolaris10 = ASICREV_IS_POLARIS10_P(uChipRevision); + m_settings.isPolaris11 = ASICREV_IS_POLARIS11_M(uChipRevision); + m_settings.isPolaris12 = ASICREV_IS_POLARIS12_V(uChipRevision); + m_settings.isVegaM = ASICREV_IS_VEGAM_P(uChipRevision); + family = ADDR_CHIP_FAMILY_VI; + break; + case FAMILY_CZ: + m_settings.isCarrizo = 1; + m_settings.isVolcanicIslands = 1; + family = ADDR_CHIP_FAMILY_VI; + break; + default: + ADDR_ASSERT(!"This should be a unexpected Fusion"); + break; + } + + return family; +} + +/** +**************************************************************************************************** +* CiLib::HwlInitGlobalParams +* +* @brief +* Initializes global parameters +* +* @return +* TRUE if all settings are valid +* +**************************************************************************************************** +*/ +BOOL_32 CiLib::HwlInitGlobalParams( + const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input +{ + BOOL_32 valid = TRUE; + + const ADDR_REGISTER_VALUE* pRegValue = &pCreateIn->regValue; + + valid = DecodeGbRegs(pRegValue); + + // The following assignments for m_pipes is only for fail-safe, InitTileSettingTable should + // read the correct pipes from tile mode table + if (m_settings.isHawaii) + { + m_pipes = 16; + } + else if (m_settings.isBonaire || m_settings.isSpectre) + { + m_pipes = 4; + } + else // Treat other KV asics to be 2-pipe + { + m_pipes = 2; + } + + // @todo: VI + // Move this to VI code path once created + if (m_settings.isTonga || m_settings.isPolaris10) + { + m_pipes = 8; + } + else if (m_settings.isIceland) + { + m_pipes = 2; + } + else if (m_settings.isFiji) + { + m_pipes = 16; + } + else if (m_settings.isPolaris11 || m_settings.isPolaris12) + { + m_pipes = 4; + } + else if (m_settings.isVegaM) + { + m_pipes = 16; + } + + if (valid) + { + valid = InitTileSettingTable(pRegValue->pTileConfig, pRegValue->noOfEntries); + } + if (valid) + { + valid = InitMacroTileCfgTable(pRegValue->pMacroTileConfig, pRegValue->noOfMacroEntries); + } + + if (valid) + { + InitEquationTable(); + } + + return valid; +} + +/** +**************************************************************************************************** +* CiLib::HwlPostCheckTileIndex +* +* @brief +* Map a tile setting to index if curIndex is invalid, otherwise check if curIndex matches +* tile mode/type/info and change the index if needed +* @return +* Tile index. +**************************************************************************************************** +*/ +INT_32 CiLib::HwlPostCheckTileIndex( + const ADDR_TILEINFO* pInfo, ///< [in] Tile Info + AddrTileMode mode, ///< [in] Tile mode + AddrTileType type, ///< [in] Tile type + INT curIndex ///< [in] Current index assigned in HwlSetupTileInfo + ) const +{ + INT_32 index = curIndex; + + if (mode == ADDR_TM_LINEAR_GENERAL) + { + index = TileIndexLinearGeneral; + } + else + { + BOOL_32 macroTiled = IsMacroTiled(mode); + + // We need to find a new index if either of them is true + // 1. curIndex is invalid + // 2. tile mode is changed + // 3. tile info does not match for macro tiled + if ((index == TileIndexInvalid) || + (mode != m_tileTable[index].mode) || + (macroTiled && pInfo->pipeConfig != m_tileTable[index].info.pipeConfig)) + { + for (index = 0; index < static_cast(m_noOfEntries); index++) + { + if (macroTiled) + { + // macro tile modes need all to match + if ((pInfo->pipeConfig == m_tileTable[index].info.pipeConfig) && + (mode == m_tileTable[index].mode) && + (type == m_tileTable[index].type)) + { + // tileSplitBytes stored in m_tileTable is only valid for depth entries + if (type == ADDR_DEPTH_SAMPLE_ORDER) + { + if (Min(m_tileTable[index].info.tileSplitBytes, + m_rowSize) == pInfo->tileSplitBytes) + { + break; + } + } + else // other entries are determined by other 3 fields + { + break; + } + } + } + else if (mode == ADDR_TM_LINEAR_ALIGNED) + { + // linear mode only needs tile mode to match + if (mode == m_tileTable[index].mode) + { + break; + } + } + else + { + // micro tile modes only need tile mode and tile type to match + if (mode == m_tileTable[index].mode && + type == m_tileTable[index].type) + { + break; + } + } + } + } + } + + ADDR_ASSERT(index < static_cast(m_noOfEntries)); + + if (index >= static_cast(m_noOfEntries)) + { + index = TileIndexInvalid; + } + + return index; +} + +/** +**************************************************************************************************** +* CiLib::HwlSetupTileCfg +* +* @brief +* Map tile index to tile setting. +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE CiLib::HwlSetupTileCfg( + UINT_32 bpp, ///< Bits per pixel + INT_32 index, ///< Tile index + INT_32 macroModeIndex, ///< Index in macro tile mode table(CI) + ADDR_TILEINFO* pInfo, ///< [out] Tile Info + AddrTileMode* pMode, ///< [out] Tile mode + AddrTileType* pType ///< [out] Tile type + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + // Global flag to control usage of tileIndex + if (UseTileIndex(index)) + { + if (index == TileIndexLinearGeneral) + { + pInfo->banks = 2; + pInfo->bankWidth = 1; + pInfo->bankHeight = 1; + pInfo->macroAspectRatio = 1; + pInfo->tileSplitBytes = 64; + pInfo->pipeConfig = ADDR_PIPECFG_P2; + } + else if (static_cast(index) >= m_noOfEntries) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + const TileConfig* pCfgTable = GetTileSetting(index); + + if (pInfo != NULL) + { + if (IsMacroTiled(pCfgTable->mode)) + { + ADDR_ASSERT((macroModeIndex != TileIndexInvalid) && + (macroModeIndex != TileIndexNoMacroIndex)); + + UINT_32 tileSplit; + + *pInfo = m_macroTileTable[macroModeIndex]; + + if (pCfgTable->type == ADDR_DEPTH_SAMPLE_ORDER) + { + tileSplit = pCfgTable->info.tileSplitBytes; + } + else + { + if (bpp > 0) + { + UINT_32 thickness = Thickness(pCfgTable->mode); + UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness); + // Non-depth entries store a split factor + UINT_32 sampleSplit = m_tileTable[index].info.tileSplitBytes; + tileSplit = Max(256u, sampleSplit * tileBytes1x); + } + else + { + // Return tileBytes instead if not enough info + tileSplit = pInfo->tileSplitBytes; + } + } + + // Clamp to row_size + pInfo->tileSplitBytes = Min(m_rowSize, tileSplit); + + pInfo->pipeConfig = pCfgTable->info.pipeConfig; + } + else // 1D and linear modes, we return default value stored in table + { + *pInfo = pCfgTable->info; + } + } + + if (pMode != NULL) + { + *pMode = pCfgTable->mode; + } + + if (pType != NULL) + { + *pType = pCfgTable->type; + } + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeSurfaceInfo +* +* @brief +* Entry of CI's ComputeSurfaceInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE CiLib::HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + // If tileIndex is invalid, force macroModeIndex to be invalid, too + if (pIn->tileIndex == TileIndexInvalid) + { + pOut->macroModeIndex = TileIndexInvalid; + } + + ADDR_E_RETURNCODE retCode = SiLib::HwlComputeSurfaceInfo(pIn, pOut); + + if ((pIn->mipLevel > 0) && + (pOut->tcCompatible == TRUE) && + (pOut->tileMode != pIn->tileMode) && + (m_settings.isVolcanicIslands == TRUE)) + { + pOut->tcCompatible = CheckTcCompatibility(pOut->pTileInfo, pIn->bpp, pOut->tileMode, pOut->tileType, pOut); + } + + if (pOut->macroModeIndex == TileIndexNoMacroIndex) + { + pOut->macroModeIndex = TileIndexInvalid; + } + + if ((pIn->flags.matchStencilTileCfg == TRUE) && + (pIn->flags.depth == TRUE)) + { + pOut->stencilTileIdx = TileIndexInvalid; + + if ((MinDepth2DThinIndex <= pOut->tileIndex) && + (MaxDepth2DThinIndex >= pOut->tileIndex)) + { + BOOL_32 depthStencil2DTileConfigMatch = DepthStencilTileCfgMatch(pIn, pOut); + + if ((depthStencil2DTileConfigMatch == FALSE) && + (pOut->tcCompatible == TRUE)) + { + pOut->macroModeIndex = TileIndexInvalid; + + ADDR_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; + localIn.tileIndex = TileIndexInvalid; + localIn.pTileInfo = NULL; + localIn.flags.tcCompatible = FALSE; + + SiLib::HwlComputeSurfaceInfo(&localIn, pOut); + + ADDR_ASSERT((MinDepth2DThinIndex <= pOut->tileIndex) && (MaxDepth2DThinIndex >= pOut->tileIndex)); + + depthStencil2DTileConfigMatch = DepthStencilTileCfgMatch(pIn, pOut); + } + + if ((depthStencil2DTileConfigMatch == FALSE) && + (pIn->numSamples <= 1)) + { + pOut->macroModeIndex = TileIndexInvalid; + + ADDR_COMPUTE_SURFACE_INFO_INPUT localIn = *pIn; + localIn.tileMode = ADDR_TM_1D_TILED_THIN1; + localIn.tileIndex = TileIndexInvalid; + localIn.pTileInfo = NULL; + + retCode = SiLib::HwlComputeSurfaceInfo(&localIn, pOut); + } + } + + if (pOut->tileIndex == Depth1DThinIndex) + { + pOut->stencilTileIdx = Depth1DThinIndex; + } + } + + return retCode; +} + +/** +**************************************************************************************************** +* CiLib::HwlFmaskSurfaceInfo +* @brief +* Entry of r800's ComputeFmaskInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE CiLib::HwlComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + ADDR_TILEINFO tileInfo = {0}; + ADDR_COMPUTE_FMASK_INFO_INPUT fmaskIn; + fmaskIn = *pIn; + + AddrTileMode tileMode = pIn->tileMode; + + // Use internal tile info if pOut does not have a valid pTileInfo + if (pOut->pTileInfo == NULL) + { + pOut->pTileInfo = &tileInfo; + } + + ADDR_ASSERT(tileMode == ADDR_TM_2D_TILED_THIN1 || + tileMode == ADDR_TM_3D_TILED_THIN1 || + tileMode == ADDR_TM_PRT_TILED_THIN1 || + tileMode == ADDR_TM_PRT_2D_TILED_THIN1 || + tileMode == ADDR_TM_PRT_3D_TILED_THIN1); + + ADDR_ASSERT(m_tileTable[14].mode == ADDR_TM_2D_TILED_THIN1); + ADDR_ASSERT(m_tileTable[15].mode == ADDR_TM_3D_TILED_THIN1); + + // The only valid tile modes for fmask are 2D_THIN1 and 3D_THIN1 plus non-displayable + INT_32 tileIndex = tileMode == ADDR_TM_2D_TILED_THIN1 ? 14 : 15; + ADDR_SURFACE_FLAGS flags = {{0}}; + flags.fmask = 1; + + INT_32 macroModeIndex = TileIndexInvalid; + + UINT_32 numSamples = pIn->numSamples; + UINT_32 numFrags = pIn->numFrags == 0 ? numSamples : pIn->numFrags; + + UINT_32 bpp = QLog2(numFrags); + + // EQAA needs one more bit + if (numSamples > numFrags) + { + bpp++; + } + + if (bpp == 3) + { + bpp = 4; + } + + bpp = Max(8u, bpp * numSamples); + + macroModeIndex = HwlComputeMacroModeIndex(tileIndex, flags, bpp, numSamples, pOut->pTileInfo); + + fmaskIn.tileIndex = tileIndex; + fmaskIn.pTileInfo = pOut->pTileInfo; + pOut->macroModeIndex = macroModeIndex; + pOut->tileIndex = tileIndex; + + retCode = DispatchComputeFmaskInfo(&fmaskIn, pOut); + + if (retCode == ADDR_OK) + { + pOut->tileIndex = + HwlPostCheckTileIndex(pOut->pTileInfo, pIn->tileMode, ADDR_NON_DISPLAYABLE, + pOut->tileIndex); + } + + // Resets pTileInfo to NULL if the internal tile info is used + if (pOut->pTileInfo == &tileInfo) + { + pOut->pTileInfo = NULL; + } + + return retCode; +} + +/** +**************************************************************************************************** +* CiLib::HwlFmaskPreThunkSurfInfo +* +* @brief +* Some preparation before thunking a ComputeSurfaceInfo call for Fmask +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +VOID CiLib::HwlFmaskPreThunkSurfInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, ///< [in] Input of fmask info + const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, ///< [in] Output of fmask info + ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, ///< [out] Input of thunked surface info + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut ///< [out] Output of thunked surface info + ) const +{ + pSurfIn->tileIndex = pFmaskIn->tileIndex; + pSurfOut->macroModeIndex = pFmaskOut->macroModeIndex; +} + +/** +**************************************************************************************************** +* CiLib::HwlFmaskPostThunkSurfInfo +* +* @brief +* Copy hwl extra field after calling thunked ComputeSurfaceInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +VOID CiLib::HwlFmaskPostThunkSurfInfo( + const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, ///< [in] Output of surface info + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut ///< [out] Output of fmask info + ) const +{ + pFmaskOut->tileIndex = pSurfOut->tileIndex; + pFmaskOut->macroModeIndex = pSurfOut->macroModeIndex; +} + +/** +**************************************************************************************************** +* CiLib::HwlDegradeThickTileMode +* +* @brief +* Degrades valid tile mode for thick modes if needed +* +* @return +* Suitable tile mode +**************************************************************************************************** +*/ +AddrTileMode CiLib::HwlDegradeThickTileMode( + AddrTileMode baseTileMode, ///< [in] base tile mode + UINT_32 numSlices, ///< [in] current number of slices + UINT_32* pBytesPerTile ///< [in,out] pointer to bytes per slice + ) const +{ + return baseTileMode; +} + +/** +**************************************************************************************************** +* CiLib::HwlOptimizeTileMode +* +* @brief +* Optimize tile mode on CI +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID CiLib::HwlOptimizeTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode = pInOut->tileMode; + + // Override 2D/3D macro tile mode to PRT_* tile mode if + // client driver requests this surface is equation compatible + if (IsMacroTiled(tileMode) == TRUE) + { + if ((pInOut->flags.needEquation == TRUE) && + (pInOut->numSamples <= 1) && + (IsPrtTileMode(tileMode) == FALSE)) + { + if ((pInOut->numSlices > 1) && ((pInOut->maxBaseAlign == 0) || (pInOut->maxBaseAlign >= Block64K))) + { + UINT_32 thickness = Thickness(tileMode); + + if (thickness == 1) + { + tileMode = ADDR_TM_PRT_TILED_THIN1; + } + else + { + static const UINT_32 PrtTileBytes = 0x10000; + // First prt thick tile index in the tile mode table + static const UINT_32 PrtThickTileIndex = 22; + ADDR_TILEINFO tileInfo = {0}; + + HwlComputeMacroModeIndex(PrtThickTileIndex, + pInOut->flags, + pInOut->bpp, + pInOut->numSamples, + &tileInfo); + + UINT_32 macroTileBytes = ((pInOut->bpp) >> 3) * 64 * pInOut->numSamples * + thickness * HwlGetPipes(&tileInfo) * + tileInfo.banks * tileInfo.bankWidth * + tileInfo.bankHeight; + + if (macroTileBytes <= PrtTileBytes) + { + tileMode = ADDR_TM_PRT_TILED_THICK; + } + else + { + tileMode = ADDR_TM_PRT_TILED_THIN1; + } + } + } + } + + if (pInOut->maxBaseAlign != 0) + { + pInOut->flags.dccPipeWorkaround = FALSE; + } + } + + if (tileMode != pInOut->tileMode) + { + pInOut->tileMode = tileMode; + } +} + +/** +**************************************************************************************************** +* CiLib::HwlOverrideTileMode +* +* @brief +* Override THICK to THIN, for specific formats on CI +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID CiLib::HwlOverrideTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode = pInOut->tileMode; + AddrTileType tileType = pInOut->tileType; + + // currently, all CI/VI family do not + // support ADDR_TM_PRT_2D_TILED_THICK,ADDR_TM_PRT_3D_TILED_THICK and + // ADDR_TM_PRT_2D_TILED_THIN1, ADDR_TM_PRT_3D_TILED_THIN1 + switch (tileMode) + { + case ADDR_TM_PRT_2D_TILED_THICK: + case ADDR_TM_PRT_3D_TILED_THICK: + tileMode = ADDR_TM_PRT_TILED_THICK; + break; + case ADDR_TM_PRT_2D_TILED_THIN1: + case ADDR_TM_PRT_3D_TILED_THIN1: + tileMode = ADDR_TM_PRT_TILED_THIN1; + break; + default: + break; + } + + // UBTS#404321, we do not need such overriding, as THICK+THICK entries removed from the tile-mode table + if (!m_settings.isBonaire) + { + UINT_32 thickness = Thickness(tileMode); + + // tile_thickness = (array_mode == XTHICK) ? 8 : ((array_mode == THICK) ? 4 : 1) + if (thickness > 1) + { + switch (pInOut->format) + { + // tcpError("Thick micro tiling is not supported for format... + case ADDR_FMT_X24_8_32_FLOAT: + case ADDR_FMT_32_AS_8: + case ADDR_FMT_32_AS_8_8: + case ADDR_FMT_32_AS_32_32_32_32: + + // packed formats + case ADDR_FMT_GB_GR: + case ADDR_FMT_BG_RG: + case ADDR_FMT_1_REVERSED: + case ADDR_FMT_1: + case ADDR_FMT_BC1: + case ADDR_FMT_BC2: + case ADDR_FMT_BC3: + case ADDR_FMT_BC4: + case ADDR_FMT_BC5: + case ADDR_FMT_BC6: + case ADDR_FMT_BC7: + switch (tileMode) + { + case ADDR_TM_1D_TILED_THICK: + tileMode = ADDR_TM_1D_TILED_THIN1; + break; + + case ADDR_TM_2D_TILED_XTHICK: + case ADDR_TM_2D_TILED_THICK: + tileMode = ADDR_TM_2D_TILED_THIN1; + break; + + case ADDR_TM_3D_TILED_XTHICK: + case ADDR_TM_3D_TILED_THICK: + tileMode = ADDR_TM_3D_TILED_THIN1; + break; + + case ADDR_TM_PRT_TILED_THICK: + tileMode = ADDR_TM_PRT_TILED_THIN1; + break; + + case ADDR_TM_PRT_2D_TILED_THICK: + tileMode = ADDR_TM_PRT_2D_TILED_THIN1; + break; + + case ADDR_TM_PRT_3D_TILED_THICK: + tileMode = ADDR_TM_PRT_3D_TILED_THIN1; + break; + + default: + break; + + } + + // Switch tile type from thick to thin + if (tileMode != pInOut->tileMode) + { + // see tileIndex: 13-18 + tileType = ADDR_NON_DISPLAYABLE; + } + + break; + default: + break; + } + } + } + + if (tileMode != pInOut->tileMode) + { + pInOut->tileMode = tileMode; + pInOut->tileType = tileType; + } +} + +/** +**************************************************************************************************** +* CiLib::HwlSelectTileMode +* +* @brief +* Select tile modes. +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID CiLib::HwlSelectTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode; + AddrTileType tileType; + + if (pInOut->flags.rotateDisplay) + { + tileMode = ADDR_TM_2D_TILED_THIN1; + tileType = ADDR_ROTATED; + } + else if (pInOut->flags.volume) + { + BOOL_32 bThin = (m_settings.isBonaire == TRUE) || + ((m_allowNonDispThickModes == TRUE) && (pInOut->flags.color == TRUE)); + + if (pInOut->numSlices >= 8) + { + tileMode = ADDR_TM_2D_TILED_XTHICK; + tileType = (bThin == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; + } + else if (pInOut->numSlices >= 4) + { + tileMode = ADDR_TM_2D_TILED_THICK; + tileType = (bThin == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; + } + else + { + tileMode = ADDR_TM_2D_TILED_THIN1; + tileType = ADDR_NON_DISPLAYABLE; + } + } + else + { + tileMode = ADDR_TM_2D_TILED_THIN1; + + if (pInOut->flags.depth || pInOut->flags.stencil) + { + tileType = ADDR_DEPTH_SAMPLE_ORDER; + } + else if ((pInOut->bpp <= 32) || + (pInOut->flags.display == TRUE) || + (pInOut->flags.overlay == TRUE)) + { + tileType = ADDR_DISPLAYABLE; + } + else + { + tileType = ADDR_NON_DISPLAYABLE; + } + } + + if (pInOut->flags.prt) + { + if (Thickness(tileMode) > 1) + { + tileMode = ADDR_TM_PRT_TILED_THICK; + tileType = (m_settings.isBonaire == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; + } + else + { + tileMode = ADDR_TM_PRT_TILED_THIN1; + } + } + + pInOut->tileMode = tileMode; + pInOut->tileType = tileType; + + if ((pInOut->flags.dccCompatible == FALSE) && + (pInOut->flags.tcCompatible == FALSE)) + { + pInOut->flags.opt4Space = TRUE; + pInOut->maxBaseAlign = Block64K; + } + + // Optimize tile mode if possible + OptimizeTileMode(pInOut); + + HwlOverrideTileMode(pInOut); +} + +/** +**************************************************************************************************** +* CiLib::HwlSetPrtTileMode +* +* @brief +* Set PRT tile mode. +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID CiLib::HwlSetPrtTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode = pInOut->tileMode; + AddrTileType tileType = pInOut->tileType; + + if (Thickness(tileMode) > 1) + { + tileMode = ADDR_TM_PRT_TILED_THICK; + tileType = (m_settings.isBonaire == TRUE) ? ADDR_NON_DISPLAYABLE : ADDR_THICK; + } + else + { + tileMode = ADDR_TM_PRT_TILED_THIN1; + tileType = (tileType == ADDR_THICK) ? ADDR_NON_DISPLAYABLE : tileType; + } + + pInOut->tileMode = tileMode; + pInOut->tileType = tileType; +} + +/** +**************************************************************************************************** +* CiLib::HwlSetupTileInfo +* +* @brief +* Setup default value of tile info for SI +**************************************************************************************************** +*/ +VOID CiLib::HwlSetupTileInfo( + AddrTileMode tileMode, ///< [in] Tile mode + ADDR_SURFACE_FLAGS flags, ///< [in] Surface type flags + UINT_32 bpp, ///< [in] Bits per pixel + UINT_32 pitch, ///< [in] Pitch in pixels + UINT_32 height, ///< [in] Height in pixels + UINT_32 numSamples, ///< [in] Number of samples + ADDR_TILEINFO* pTileInfoIn, ///< [in] Tile info input: NULL for default + ADDR_TILEINFO* pTileInfoOut, ///< [out] Tile info output + AddrTileType inTileType, ///< [in] Tile type + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output + ) const +{ + UINT_32 thickness = Thickness(tileMode); + ADDR_TILEINFO* pTileInfo = pTileInfoOut; + INT index = TileIndexInvalid; + INT macroModeIndex = TileIndexInvalid; + + // Fail-safe code + if (IsLinear(tileMode) == FALSE) + { + // Thick tile modes must use thick micro tile mode but Bonaire does not support due to + // old derived netlists (UBTS 404321) + if (thickness > 1) + { + if (m_settings.isBonaire) + { + inTileType = ADDR_NON_DISPLAYABLE; + } + else if ((m_allowNonDispThickModes == FALSE) || + (inTileType != ADDR_NON_DISPLAYABLE) || + // There is no PRT_THICK + THIN entry in tile mode table except Bonaire + (IsPrtTileMode(tileMode) == TRUE)) + { + inTileType = ADDR_THICK; + } + } + // 128 bpp tiling must be non-displayable. + // Fmask reuse color buffer's entry but bank-height field can be from another entry + // To simplify the logic, fmask entry should be picked from non-displayable ones + else if (bpp == 128 || flags.fmask) + { + inTileType = ADDR_NON_DISPLAYABLE; + } + // These two modes only have non-disp entries though they can be other micro tile modes + else if (tileMode == ADDR_TM_3D_TILED_THIN1 || tileMode == ADDR_TM_PRT_3D_TILED_THIN1) + { + inTileType = ADDR_NON_DISPLAYABLE; + } + + if (flags.depth || flags.stencil) + { + inTileType = ADDR_DEPTH_SAMPLE_ORDER; + } + } + + // tcCompatible flag is only meaningful for gfx8. + if (m_settings.isVolcanicIslands == FALSE) + { + flags.tcCompatible = FALSE; + } + + if (IsTileInfoAllZero(pTileInfo)) + { + // See table entries 0-4 + if (flags.depth || flags.stencil) + { + // tileSize = thickness * bpp * numSamples * 8 * 8 / 8 + UINT_32 tileSize = thickness * bpp * numSamples * 8; + + // Turn off tc compatible if row_size is smaller than tile size (tile split occurs). + if (m_rowSize < tileSize) + { + flags.tcCompatible = FALSE; + } + + if (flags.nonSplit | flags.tcCompatible | flags.needEquation) + { + // Texture readable depth surface should not be split + switch (tileSize) + { + case 64: + index = 0; + break; + case 128: + index = 1; + break; + case 256: + index = 2; + break; + case 512: + index = 3; + break; + default: + index = 4; + break; + } + } + else + { + // Depth and stencil need to use the same index, thus the pre-defined tile_split + // can meet the requirement to choose the same macro mode index + // uncompressed depth/stencil are not supported for now + switch (numSamples) + { + case 1: + index = 0; + break; + case 2: + case 4: + index = 1; + break; + case 8: + index = 2; + break; + default: + break; + } + } + } + + // See table entries 5-6 + if (inTileType == ADDR_DEPTH_SAMPLE_ORDER) + { + switch (tileMode) + { + case ADDR_TM_1D_TILED_THIN1: + index = 5; + break; + case ADDR_TM_PRT_TILED_THIN1: + index = 6; + break; + default: + break; + } + } + + // See table entries 8-12 + if (inTileType == ADDR_DISPLAYABLE) + { + switch (tileMode) + { + case ADDR_TM_1D_TILED_THIN1: + index = 9; + break; + case ADDR_TM_2D_TILED_THIN1: + index = 10; + break; + case ADDR_TM_PRT_TILED_THIN1: + index = 11; + break; + default: + break; + } + } + + // See table entries 13-18 + if (inTileType == ADDR_NON_DISPLAYABLE) + { + switch (tileMode) + { + case ADDR_TM_1D_TILED_THIN1: + index = 13; + break; + case ADDR_TM_2D_TILED_THIN1: + index = 14; + break; + case ADDR_TM_3D_TILED_THIN1: + index = 15; + break; + case ADDR_TM_PRT_TILED_THIN1: + index = 16; + break; + default: + break; + } + } + + // See table entries 19-26 + if (thickness > 1) + { + switch (tileMode) + { + case ADDR_TM_1D_TILED_THICK: + // special check for bonaire, for the compatablity between old KMD and new UMD + index = ((inTileType == ADDR_THICK) || m_settings.isBonaire) ? 19 : 18; + break; + case ADDR_TM_2D_TILED_THICK: + // special check for bonaire, for the compatablity between old KMD and new UMD + index = ((inTileType == ADDR_THICK) || m_settings.isBonaire) ? 20 : 24; + break; + case ADDR_TM_3D_TILED_THICK: + index = 21; + break; + case ADDR_TM_PRT_TILED_THICK: + index = 22; + break; + case ADDR_TM_2D_TILED_XTHICK: + index = 25; + break; + case ADDR_TM_3D_TILED_XTHICK: + index = 26; + break; + default: + break; + } + } + + // See table entries 27-30 + if (inTileType == ADDR_ROTATED) + { + switch (tileMode) + { + case ADDR_TM_1D_TILED_THIN1: + index = 27; + break; + case ADDR_TM_2D_TILED_THIN1: + index = 28; + break; + case ADDR_TM_PRT_TILED_THIN1: + index = 29; + break; + case ADDR_TM_PRT_2D_TILED_THIN1: + index = 30; + break; + default: + break; + } + } + + if (m_pipes >= 8) + { + ADDR_ASSERT((index + 1) < static_cast(m_noOfEntries)); + // Only do this when tile mode table is updated. + if (((tileMode == ADDR_TM_PRT_TILED_THIN1) || (tileMode == ADDR_TM_PRT_TILED_THICK)) && + (m_tileTable[index + 1].mode == tileMode)) + { + static const UINT_32 PrtTileBytes = 0x10000; + ADDR_TILEINFO tileInfo = {0}; + + HwlComputeMacroModeIndex(index, flags, bpp, numSamples, &tileInfo); + + UINT_32 macroTileBytes = (bpp >> 3) * 64 * numSamples * thickness * + HwlGetPipes(&tileInfo) * tileInfo.banks * + tileInfo.bankWidth * tileInfo.bankHeight; + + if (macroTileBytes != PrtTileBytes) + { + // Switching to next tile mode entry to make sure macro tile size is 64KB + index += 1; + + tileInfo.pipeConfig = m_tileTable[index].info.pipeConfig; + + macroTileBytes = (bpp >> 3) * 64 * numSamples * thickness * + HwlGetPipes(&tileInfo) * tileInfo.banks * + tileInfo.bankWidth * tileInfo.bankHeight; + + ADDR_ASSERT(macroTileBytes == PrtTileBytes); + + flags.tcCompatible = FALSE; + pOut->dccUnsupport = TRUE; + } + } + } + } + else + { + // A pre-filled tile info is ready + index = pOut->tileIndex; + macroModeIndex = pOut->macroModeIndex; + + // pass tile type back for post tile index compute + pOut->tileType = inTileType; + + if (flags.depth || flags.stencil) + { + // tileSize = thickness * bpp * numSamples * 8 * 8 / 8 + UINT_32 tileSize = thickness * bpp * numSamples * 8; + + // Turn off tc compatible if row_size is smaller than tile size (tile split occurs). + if (m_rowSize < tileSize) + { + flags.tcCompatible = FALSE; + } + } + + UINT_32 numPipes = GetPipePerSurf(pTileInfo->pipeConfig); + + if (m_pipes != numPipes) + { + pOut->dccUnsupport = TRUE; + } + } + + // We only need to set up tile info if there is a valid index but macroModeIndex is invalid + if ((index != TileIndexInvalid) && (macroModeIndex == TileIndexInvalid)) + { + macroModeIndex = HwlComputeMacroModeIndex(index, flags, bpp, numSamples, pTileInfo); + + // Copy to pOut->tileType/tileIndex/macroModeIndex + pOut->tileIndex = index; + pOut->tileType = m_tileTable[index].type; // Or inTileType, the samea + pOut->macroModeIndex = macroModeIndex; + } + else if (tileMode == ADDR_TM_LINEAR_GENERAL) + { + pOut->tileIndex = TileIndexLinearGeneral; + + // Copy linear-aligned entry?? + *pTileInfo = m_tileTable[8].info; + } + else if (tileMode == ADDR_TM_LINEAR_ALIGNED) + { + pOut->tileIndex = 8; + *pTileInfo = m_tileTable[8].info; + } + + if (flags.tcCompatible) + { + flags.tcCompatible = CheckTcCompatibility(pTileInfo, bpp, tileMode, inTileType, pOut); + } + + pOut->tcCompatible = flags.tcCompatible; +} + +/** +**************************************************************************************************** +* CiLib::ReadGbTileMode +* +* @brief +* Convert GB_TILE_MODE HW value to ADDR_TILE_CONFIG. +**************************************************************************************************** +*/ +VOID CiLib::ReadGbTileMode( + UINT_32 regValue, ///< [in] GB_TILE_MODE register + TileConfig* pCfg ///< [out] output structure + ) const +{ + GB_TILE_MODE gbTileMode; + gbTileMode.val = regValue; + + pCfg->type = static_cast(gbTileMode.f.micro_tile_mode_new); + pCfg->info.pipeConfig = static_cast(gbTileMode.f.pipe_config + 1); + + if (pCfg->type == ADDR_DEPTH_SAMPLE_ORDER) + { + pCfg->info.tileSplitBytes = 64 << gbTileMode.f.tile_split; + } + else + { + pCfg->info.tileSplitBytes = 1 << gbTileMode.f.sample_split; + } + + UINT_32 regArrayMode = gbTileMode.f.array_mode; + + pCfg->mode = static_cast(regArrayMode); + + switch (regArrayMode) + { + case 5: + pCfg->mode = ADDR_TM_PRT_TILED_THIN1; + break; + case 6: + pCfg->mode = ADDR_TM_PRT_2D_TILED_THIN1; + break; + case 8: + pCfg->mode = ADDR_TM_2D_TILED_XTHICK; + break; + case 9: + pCfg->mode = ADDR_TM_PRT_TILED_THICK; + break; + case 0xa: + pCfg->mode = ADDR_TM_PRT_2D_TILED_THICK; + break; + case 0xb: + pCfg->mode = ADDR_TM_PRT_3D_TILED_THIN1; + break; + case 0xe: + pCfg->mode = ADDR_TM_3D_TILED_XTHICK; + break; + case 0xf: + pCfg->mode = ADDR_TM_PRT_3D_TILED_THICK; + break; + default: + break; + } + + // Fail-safe code for these always convert tile info, as the non-macro modes + // return the entry of tile mode table directly without looking up macro mode table + if (!IsMacroTiled(pCfg->mode)) + { + pCfg->info.banks = 2; + pCfg->info.bankWidth = 1; + pCfg->info.bankHeight = 1; + pCfg->info.macroAspectRatio = 1; + pCfg->info.tileSplitBytes = 64; + } +} + +/** +**************************************************************************************************** +* CiLib::InitTileSettingTable +* +* @brief +* Initialize the ADDR_TILE_CONFIG table. +* @return +* TRUE if tile table is correctly initialized +**************************************************************************************************** +*/ +BOOL_32 CiLib::InitTileSettingTable( + const UINT_32* pCfg, ///< [in] Pointer to table of tile configs + UINT_32 noOfEntries ///< [in] Numbe of entries in the table above + ) +{ + BOOL_32 initOk = TRUE; + + ADDR_ASSERT(noOfEntries <= TileTableSize); + + memset(m_tileTable, 0, sizeof(m_tileTable)); + + if (noOfEntries != 0) + { + m_noOfEntries = noOfEntries; + } + else + { + m_noOfEntries = TileTableSize; + } + + if (pCfg) // From Client + { + for (UINT_32 i = 0; i < m_noOfEntries; i++) + { + ReadGbTileMode(*(pCfg + i), &m_tileTable[i]); + } + } + else + { + ADDR_ASSERT_ALWAYS(); + initOk = FALSE; + } + + if (initOk) + { + ADDR_ASSERT(m_tileTable[TILEINDEX_LINEAR_ALIGNED].mode == ADDR_TM_LINEAR_ALIGNED); + + if (m_settings.isBonaire == FALSE) + { + // Check if entry 18 is "thick+thin" combination + if ((m_tileTable[18].mode == ADDR_TM_1D_TILED_THICK) && + (m_tileTable[18].type == ADDR_NON_DISPLAYABLE)) + { + m_allowNonDispThickModes = TRUE; + ADDR_ASSERT(m_tileTable[24].mode == ADDR_TM_2D_TILED_THICK); + } + } + else + { + m_allowNonDispThickModes = TRUE; + } + + // Assume the first entry is always programmed with full pipes + m_pipes = HwlGetPipes(&m_tileTable[0].info); + } + + return initOk; +} + +/** +**************************************************************************************************** +* CiLib::ReadGbMacroTileCfg +* +* @brief +* Convert GB_MACRO_TILE_CFG HW value to ADDR_TILE_CONFIG. +**************************************************************************************************** +*/ +VOID CiLib::ReadGbMacroTileCfg( + UINT_32 regValue, ///< [in] GB_MACRO_TILE_MODE register + ADDR_TILEINFO* pCfg ///< [out] output structure + ) const +{ + GB_MACROTILE_MODE gbTileMode; + gbTileMode.val = regValue; + + pCfg->bankHeight = 1 << gbTileMode.f.bank_height; + pCfg->bankWidth = 1 << gbTileMode.f.bank_width; + pCfg->banks = 1 << (gbTileMode.f.num_banks + 1); + pCfg->macroAspectRatio = 1 << gbTileMode.f.macro_tile_aspect; +} + +/** +**************************************************************************************************** +* CiLib::InitMacroTileCfgTable +* +* @brief +* Initialize the ADDR_MACRO_TILE_CONFIG table. +* @return +* TRUE if macro tile table is correctly initialized +**************************************************************************************************** +*/ +BOOL_32 CiLib::InitMacroTileCfgTable( + const UINT_32* pCfg, ///< [in] Pointer to table of tile configs + UINT_32 noOfMacroEntries ///< [in] Numbe of entries in the table above + ) +{ + BOOL_32 initOk = TRUE; + + ADDR_ASSERT(noOfMacroEntries <= MacroTileTableSize); + + memset(m_macroTileTable, 0, sizeof(m_macroTileTable)); + + if (noOfMacroEntries != 0) + { + m_noOfMacroEntries = noOfMacroEntries; + } + else + { + m_noOfMacroEntries = MacroTileTableSize; + } + + if (pCfg) // From Client + { + for (UINT_32 i = 0; i < m_noOfMacroEntries; i++) + { + ReadGbMacroTileCfg(*(pCfg + i), &m_macroTileTable[i]); + + m_macroTileTable[i].tileSplitBytes = 64 << (i % 8); + } + } + else + { + ADDR_ASSERT_ALWAYS(); + initOk = FALSE; + } + return initOk; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeMacroModeIndex +* +* @brief +* Computes macro tile mode index +* @return +* TRUE if macro tile table is correctly initialized +**************************************************************************************************** +*/ +INT_32 CiLib::HwlComputeMacroModeIndex( + INT_32 tileIndex, ///< [in] Tile mode index + ADDR_SURFACE_FLAGS flags, ///< [in] Surface flags + UINT_32 bpp, ///< [in] Bit per pixel + UINT_32 numSamples, ///< [in] Number of samples + ADDR_TILEINFO* pTileInfo, ///< [out] Pointer to ADDR_TILEINFO + AddrTileMode* pTileMode, ///< [out] Pointer to AddrTileMode + AddrTileType* pTileType ///< [out] Pointer to AddrTileType + ) const +{ + INT_32 macroModeIndex = TileIndexInvalid; + + AddrTileMode tileMode = m_tileTable[tileIndex].mode; + AddrTileType tileType = m_tileTable[tileIndex].type; + UINT_32 thickness = Thickness(tileMode); + + if (!IsMacroTiled(tileMode)) + { + *pTileInfo = m_tileTable[tileIndex].info; + macroModeIndex = TileIndexNoMacroIndex; + } + else + { + UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness); + UINT_32 tileSplit; + + if (m_tileTable[tileIndex].type == ADDR_DEPTH_SAMPLE_ORDER) + { + // Depth entries store real tileSplitBytes + tileSplit = m_tileTable[tileIndex].info.tileSplitBytes; + } + else + { + // Non-depth entries store a split factor + UINT_32 sampleSplit = m_tileTable[tileIndex].info.tileSplitBytes; + UINT_32 colorTileSplit = Max(256u, sampleSplit * tileBytes1x); + + tileSplit = colorTileSplit; + } + + UINT_32 tileSplitC = Min(m_rowSize, tileSplit); + UINT_32 tileBytes; + + if (flags.fmask) + { + tileBytes = Min(tileSplitC, tileBytes1x); + } + else + { + tileBytes = Min(tileSplitC, numSamples * tileBytes1x); + } + + if (tileBytes < 64) + { + tileBytes = 64; + } + + macroModeIndex = Log2(tileBytes / 64); + + if (flags.prt || IsPrtTileMode(tileMode)) + { + macroModeIndex += PrtMacroModeOffset; + *pTileInfo = m_macroTileTable[macroModeIndex]; + } + else + { + *pTileInfo = m_macroTileTable[macroModeIndex]; + } + + pTileInfo->pipeConfig = m_tileTable[tileIndex].info.pipeConfig; + + pTileInfo->tileSplitBytes = tileSplitC; + } + + if (NULL != pTileMode) + { + *pTileMode = tileMode; + } + + if (NULL != pTileType) + { + *pTileType = tileType; + } + + return macroModeIndex; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeTileDataWidthAndHeightLinear +* +* @brief +* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout +* +* @note +* MacroWidth and macroHeight are measured in pixels +**************************************************************************************************** +*/ +VOID CiLib::HwlComputeTileDataWidthAndHeightLinear( + UINT_32* pMacroWidth, ///< [out] macro tile width + UINT_32* pMacroHeight, ///< [out] macro tile height + UINT_32 bpp, ///< [in] bits per pixel + ADDR_TILEINFO* pTileInfo ///< [in] tile info + ) const +{ + ADDR_ASSERT(pTileInfo != NULL); + + UINT_32 numTiles; + + switch (pTileInfo->pipeConfig) + { + case ADDR_PIPECFG_P16_32x32_8x16: + case ADDR_PIPECFG_P16_32x32_16x16: + case ADDR_PIPECFG_P8_32x64_32x32: + case ADDR_PIPECFG_P8_32x32_16x32: + case ADDR_PIPECFG_P8_32x32_16x16: + case ADDR_PIPECFG_P8_32x32_8x16: + case ADDR_PIPECFG_P4_32x32: + numTiles = 8; + break; + default: + numTiles = 4; + break; + } + + *pMacroWidth = numTiles * MicroTileWidth; + *pMacroHeight = numTiles * MicroTileHeight; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeMetadataNibbleAddress +* +* @brief +* calculate meta data address based on input information +* +* ¶meter +* uncompressedDataByteAddress - address of a pixel in color surface +* dataBaseByteAddress - base address of color surface +* metadataBaseByteAddress - base address of meta ram +* metadataBitSize - meta key size, 8 for DCC, 4 for cmask +* elementBitSize - element size of color surface +* blockByteSize - compression block size, 256 for DCC +* pipeInterleaveBytes - pipe interleave size +* numOfPipes - number of pipes +* numOfBanks - number of banks +* numOfSamplesPerSplit - number of samples per tile split +* @return +* meta data nibble address (nibble address is used to support DCC compatible cmask) +* +**************************************************************************************************** +*/ +UINT_64 CiLib::HwlComputeMetadataNibbleAddress( + UINT_64 uncompressedDataByteAddress, + UINT_64 dataBaseByteAddress, + UINT_64 metadataBaseByteAddress, + UINT_32 metadataBitSize, + UINT_32 elementBitSize, + UINT_32 blockByteSize, + UINT_32 pipeInterleaveBytes, + UINT_32 numOfPipes, + UINT_32 numOfBanks, + UINT_32 numOfSamplesPerSplit) const +{ + ///-------------------------------------------------------------------------------------------- + /// Get pipe interleave, bank and pipe bits + ///-------------------------------------------------------------------------------------------- + UINT_32 pipeInterleaveBits = Log2(pipeInterleaveBytes); + UINT_32 pipeBits = Log2(numOfPipes); + UINT_32 bankBits = Log2(numOfBanks); + + ///-------------------------------------------------------------------------------------------- + /// Clear pipe and bank swizzles + ///-------------------------------------------------------------------------------------------- + UINT_32 dataMacrotileBits = pipeInterleaveBits + pipeBits + bankBits; + UINT_32 metadataMacrotileBits = pipeInterleaveBits + pipeBits + bankBits; + + UINT_64 dataMacrotileClearMask = ~((1L << dataMacrotileBits) - 1); + UINT_64 metadataMacrotileClearMask = ~((1L << metadataMacrotileBits) - 1); + + UINT_64 dataBaseByteAddressNoSwizzle = dataBaseByteAddress & dataMacrotileClearMask; + UINT_64 metadataBaseByteAddressNoSwizzle = metadataBaseByteAddress & metadataMacrotileClearMask; + + ///-------------------------------------------------------------------------------------------- + /// Modify metadata base before adding in so that when final address is divided by data ratio, + /// the base address returns to where it should be + ///-------------------------------------------------------------------------------------------- + ADDR_ASSERT((0 != metadataBitSize)); + UINT_64 metadataBaseShifted = metadataBaseByteAddressNoSwizzle * blockByteSize * 8 / + metadataBitSize; + UINT_64 offset = uncompressedDataByteAddress - + dataBaseByteAddressNoSwizzle + + metadataBaseShifted; + + ///-------------------------------------------------------------------------------------------- + /// Save bank data bits + ///-------------------------------------------------------------------------------------------- + UINT_32 lsb = pipeBits + pipeInterleaveBits; + UINT_32 msb = bankBits - 1 + lsb; + + UINT_64 bankDataBits = GetBits(offset, msb, lsb); + + ///-------------------------------------------------------------------------------------------- + /// Save pipe data bits + ///-------------------------------------------------------------------------------------------- + lsb = pipeInterleaveBits; + msb = pipeBits - 1 + lsb; + + UINT_64 pipeDataBits = GetBits(offset, msb, lsb); + + ///-------------------------------------------------------------------------------------------- + /// Remove pipe and bank bits + ///-------------------------------------------------------------------------------------------- + lsb = pipeInterleaveBits; + msb = dataMacrotileBits - 1; + + UINT_64 offsetWithoutPipeBankBits = RemoveBits(offset, msb, lsb); + + ADDR_ASSERT((0 != blockByteSize)); + UINT_64 blockInBankpipe = offsetWithoutPipeBankBits / blockByteSize; + + UINT_32 tileSize = 8 * 8 * elementBitSize/8 * numOfSamplesPerSplit; + UINT_32 blocksInTile = tileSize / blockByteSize; + + if (0 == blocksInTile) + { + lsb = 0; + } + else + { + lsb = Log2(blocksInTile); + } + msb = bankBits - 1 + lsb; + + UINT_64 blockInBankpipeWithBankBits = InsertBits(blockInBankpipe, bankDataBits, msb, lsb); + + /// NOTE *2 because we are converting to Nibble address in this step + UINT_64 metaAddressInPipe = blockInBankpipeWithBankBits * 2 * metadataBitSize / 8; + + ///-------------------------------------------------------------------------------------------- + /// Reinsert pipe bits back into the final address + ///-------------------------------------------------------------------------------------------- + lsb = pipeInterleaveBits + 1; ///<+1 due to Nibble address now gives interleave bits extra lsb. + msb = pipeBits - 1 + lsb; + UINT_64 metadataAddress = InsertBits(metaAddressInPipe, pipeDataBits, msb, lsb); + + return metadataAddress; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeSurfaceAlignmentsMacroTiled +* +* @brief +* Hardware layer function to compute alignment request for macro tile mode +* +**************************************************************************************************** +*/ +VOID CiLib::HwlComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 mipLevel, ///< [in] mip level + UINT_32 numSamples, ///< [in] number of samples + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Surface output + ) const +{ + // This is to workaround a H/W limitation that DCC doesn't work when pipe config is switched to + // P4. In theory, all asics that have such switching should be patched but we now only know what + // to pad for Fiji. + if ((m_settings.isFiji == TRUE) && + (flags.dccPipeWorkaround == TRUE) && + (flags.prt == FALSE) && + (mipLevel == 0) && + (tileMode == ADDR_TM_PRT_TILED_THIN1) && + (pOut->dccUnsupport == TRUE)) + { + pOut->pitchAlign = PowTwoAlign(pOut->pitchAlign, 256); + // In case the client still requests DCC usage. + pOut->dccUnsupport = FALSE; + } +} + +/** +**************************************************************************************************** +* CiLib::HwlPadDimensions +* +* @brief +* Helper function to pad dimensions +* +**************************************************************************************************** +*/ +VOID CiLib::HwlPadDimensions( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples, ///< [in] number of samples + ADDR_TILEINFO* pTileInfo, ///< [in] tile info + UINT_32 mipLevel, ///< [in] mip level + UINT_32* pPitch, ///< [in,out] pitch in pixels + UINT_32* pPitchAlign, ///< [in,out] pitch alignment + UINT_32 height, ///< [in] height in pixels + UINT_32 heightAlign ///< [in] height alignment + ) const +{ + if ((m_settings.isVolcanicIslands == TRUE) && + (flags.dccCompatible == TRUE) && + (numSamples > 1) && + (mipLevel == 0) && + (IsMacroTiled(tileMode) == TRUE)) + { + UINT_32 tileSizePerSample = BITS_TO_BYTES(bpp * MicroTileWidth * MicroTileHeight); + UINT_32 samplesPerSplit = pTileInfo->tileSplitBytes / tileSizePerSample; + + if (samplesPerSplit < numSamples) + { + UINT_32 dccFastClearByteAlign = HwlGetPipes(pTileInfo) * m_pipeInterleaveBytes * 256; + UINT_32 bytesPerSplit = BITS_TO_BYTES((*pPitch) * height * bpp * samplesPerSplit); + + ADDR_ASSERT(IsPow2(dccFastClearByteAlign)); + + if (0 != (bytesPerSplit & (dccFastClearByteAlign - 1))) + { + UINT_32 dccFastClearPixelAlign = dccFastClearByteAlign / + BITS_TO_BYTES(bpp) / + samplesPerSplit; + UINT_32 macroTilePixelAlign = (*pPitchAlign) * heightAlign; + + if ((dccFastClearPixelAlign >= macroTilePixelAlign) && + ((dccFastClearPixelAlign % macroTilePixelAlign) == 0)) + { + UINT_32 dccFastClearPitchAlignInMacroTile = + dccFastClearPixelAlign / macroTilePixelAlign; + UINT_32 heightInMacroTile = height / heightAlign; + + while ((heightInMacroTile > 1) && + ((heightInMacroTile % 2) == 0) && + (dccFastClearPitchAlignInMacroTile > 1) && + ((dccFastClearPitchAlignInMacroTile % 2) == 0)) + { + heightInMacroTile >>= 1; + dccFastClearPitchAlignInMacroTile >>= 1; + } + + UINT_32 dccFastClearPitchAlignInPixels = + (*pPitchAlign) * dccFastClearPitchAlignInMacroTile; + + if (IsPow2(dccFastClearPitchAlignInPixels)) + { + *pPitch = PowTwoAlign((*pPitch), dccFastClearPitchAlignInPixels); + } + else + { + *pPitch += (dccFastClearPitchAlignInPixels - 1); + *pPitch /= dccFastClearPitchAlignInPixels; + *pPitch *= dccFastClearPitchAlignInPixels; + } + + *pPitchAlign = dccFastClearPitchAlignInPixels; + } + } + } + } +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeMaxBaseAlignments +* +* @brief +* Gets maximum alignments +* @return +* maximum alignments +**************************************************************************************************** +*/ +UINT_32 CiLib::HwlComputeMaxBaseAlignments() const +{ + const UINT_32 pipes = HwlGetPipes(&m_tileTable[0].info); + + // Initial size is 64 KiB for PRT. + UINT_32 maxBaseAlign = 64 * 1024; + + for (UINT_32 i = 0; i < m_noOfMacroEntries; i++) + { + // The maximum tile size is 16 byte-per-pixel and either 8-sample or 8-slice. + UINT_32 tileSize = m_macroTileTable[i].tileSplitBytes; + + UINT_32 baseAlign = tileSize * pipes * m_macroTileTable[i].banks * + m_macroTileTable[i].bankWidth * m_macroTileTable[i].bankHeight; + + if (baseAlign > maxBaseAlign) + { + maxBaseAlign = baseAlign; + } + } + + return maxBaseAlign; +} + +/** +**************************************************************************************************** +* CiLib::HwlComputeMaxMetaBaseAlignments +* +* @brief +* Gets maximum alignments for metadata +* @return +* maximum alignments for metadata +**************************************************************************************************** +*/ +UINT_32 CiLib::HwlComputeMaxMetaBaseAlignments() const +{ + UINT_32 maxBank = 1; + + for (UINT_32 i = 0; i < m_noOfMacroEntries; i++) + { + if ((m_settings.isVolcanicIslands) && IsMacroTiled(m_tileTable[i].mode)) + { + maxBank = Max(maxBank, m_macroTileTable[i].banks); + } + } + + return SiLib::HwlComputeMaxMetaBaseAlignments() * maxBank; +} + +/** +**************************************************************************************************** +* CiLib::DepthStencilTileCfgMatch +* +* @brief +* Try to find a tile index for stencil which makes its tile config parameters matches to depth +* @return +* TRUE if such tile index for stencil can be found +**************************************************************************************************** +*/ +BOOL_32 CiLib::DepthStencilTileCfgMatch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + BOOL_32 depthStencil2DTileConfigMatch = FALSE; + + for (INT_32 stencilTileIndex = MinDepth2DThinIndex; + stencilTileIndex <= MaxDepth2DThinIndex; + stencilTileIndex++) + { + ADDR_TILEINFO tileInfo = {0}; + INT_32 stencilMacroIndex = HwlComputeMacroModeIndex(stencilTileIndex, + pIn->flags, + 8, + pIn->numSamples, + &tileInfo); + + if (stencilMacroIndex != TileIndexNoMacroIndex) + { + if ((m_macroTileTable[stencilMacroIndex].banks == + m_macroTileTable[pOut->macroModeIndex].banks) && + (m_macroTileTable[stencilMacroIndex].bankWidth == + m_macroTileTable[pOut->macroModeIndex].bankWidth) && + (m_macroTileTable[stencilMacroIndex].bankHeight == + m_macroTileTable[pOut->macroModeIndex].bankHeight) && + (m_macroTileTable[stencilMacroIndex].macroAspectRatio == + m_macroTileTable[pOut->macroModeIndex].macroAspectRatio) && + (m_macroTileTable[stencilMacroIndex].pipeConfig == + m_macroTileTable[pOut->macroModeIndex].pipeConfig)) + { + if ((pOut->tcCompatible == FALSE) || + (tileInfo.tileSplitBytes >= MicroTileWidth * MicroTileHeight * pIn->numSamples)) + { + depthStencil2DTileConfigMatch = TRUE; + pOut->stencilTileIdx = stencilTileIndex; + break; + } + } + } + else + { + ADDR_ASSERT_ALWAYS(); + } + } + + return depthStencil2DTileConfigMatch; +} + +/** +**************************************************************************************************** +* CiLib::DepthStencilTileCfgMatch +* +* @brief +* Check if tc compatibility is available +* @return +* If tc compatibility is not available +**************************************************************************************************** +*/ +BOOL_32 CiLib::CheckTcCompatibility( + const ADDR_TILEINFO* pTileInfo, ///< [in] input tile info + UINT_32 bpp, ///< [in] Bits per pixel + AddrTileMode tileMode, ///< [in] input tile mode + AddrTileType tileType, ///< [in] input tile type + const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in] output surf info + ) const +{ + BOOL_32 tcCompatible = TRUE; + + if (IsMacroTiled(tileMode)) + { + if (tileType != ADDR_DEPTH_SAMPLE_ORDER) + { + // Turn off tcCompatible for color surface if tileSplit happens. Depth/stencil + // tileSplit case was handled at tileIndex selecting time. + INT_32 tileIndex = pOut->tileIndex; + + if ((tileIndex == TileIndexInvalid) && (IsTileInfoAllZero(pTileInfo) == FALSE)) + { + tileIndex = HwlPostCheckTileIndex(pTileInfo, tileMode, tileType, tileIndex); + } + + if (tileIndex != TileIndexInvalid) + { + UINT_32 thickness = Thickness(tileMode); + + ADDR_ASSERT(static_cast(tileIndex) < TileTableSize); + // Non-depth entries store a split factor + UINT_32 sampleSplit = m_tileTable[tileIndex].info.tileSplitBytes; + UINT_32 tileBytes1x = BITS_TO_BYTES(bpp * MicroTilePixels * thickness); + UINT_32 colorTileSplit = Max(256u, sampleSplit * tileBytes1x); + + if (m_rowSize < colorTileSplit) + { + tcCompatible = FALSE; + } + } + } + } + else + { + // Client should not enable tc compatible for linear and 1D tile modes. + tcCompatible = FALSE; + } + + return tcCompatible; +} + +} // V1 +} // Addr diff --git a/src/amd/addrlib/src/r800/ciaddrlib.h b/src/amd/addrlib/src/r800/ciaddrlib.h new file mode 100644 index 00000000000..51853893266 --- /dev/null +++ b/src/amd/addrlib/src/r800/ciaddrlib.h @@ -0,0 +1,201 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file ciaddrlib.h +* @brief Contains the CiLib class definition. +**************************************************************************************************** +*/ + +#ifndef __CI_ADDR_LIB_H__ +#define __CI_ADDR_LIB_H__ + +#include "addrlib1.h" +#include "siaddrlib.h" + +namespace Addr +{ +namespace V1 +{ + +/** +**************************************************************************************************** +* @brief This class is the CI specific address library +* function set. +**************************************************************************************************** +*/ +class CiLib : public SiLib +{ +public: + /// Creates CiLib object + static Addr::Lib* CreateObj(const Client* pClient) + { + VOID* pMem = Object::ClientAlloc(sizeof(CiLib), pClient); + return (pMem != NULL) ? new (pMem) CiLib(pClient) : NULL; + } + +private: + CiLib(const Client* pClient); + virtual ~CiLib(); + +protected: + + // Hwl interface - defined in AddrLib1 + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); + + virtual ChipFamily HwlConvertChipFamily( + UINT_32 uChipFamily, UINT_32 uChipRevision); + + virtual BOOL_32 HwlInitGlobalParams( + const ADDR_CREATE_INPUT* pCreateIn); + + virtual ADDR_E_RETURNCODE HwlSetupTileCfg( + UINT_32 bpp, INT_32 index, INT_32 macroModeIndex, ADDR_TILEINFO* pInfo, + AddrTileMode* pMode = 0, AddrTileType* pType = 0) const; + + virtual VOID HwlComputeTileDataWidthAndHeightLinear( + UINT_32* pMacroWidth, UINT_32* pMacroHeight, + UINT_32 bpp, ADDR_TILEINFO* pTileInfo) const; + + virtual INT_32 HwlComputeMacroModeIndex( + INT_32 tileIndex, ADDR_SURFACE_FLAGS flags, UINT_32 bpp, UINT_32 numSamples, + ADDR_TILEINFO* pTileInfo, AddrTileMode* pTileMode = NULL, AddrTileType* pTileType = NULL + ) const; + + // Sub-hwl interface - defined in EgBasedLib + virtual VOID HwlSetupTileInfo( + AddrTileMode tileMode, ADDR_SURFACE_FLAGS flags, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + ADDR_TILEINFO* inputTileInfo, ADDR_TILEINFO* outputTileInfo, + AddrTileType inTileType, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual INT_32 HwlPostCheckTileIndex( + const ADDR_TILEINFO* pInfo, AddrTileMode mode, AddrTileType type, + INT curIndex = TileIndexInvalid) const; + + virtual VOID HwlFmaskPreThunkSurfInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, + const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, + ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut) const; + + virtual VOID HwlFmaskPostThunkSurfInfo( + const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut) const; + + virtual AddrTileMode HwlDegradeThickTileMode( + AddrTileMode baseTileMode, UINT_32 numSlices, UINT_32* pBytesPerTile) const; + + virtual VOID HwlOverrideTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + virtual VOID HwlOptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + virtual VOID HwlSelectTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + /// Overwrite tile setting to PRT + virtual VOID HwlSetPrtTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeDccInfo( + const ADDR_COMPUTE_DCCINFO_INPUT* pIn, + ADDR_COMPUTE_DCCINFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeCmaskAddrFromCoord( + const ADDR_COMPUTE_CMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_CMASK_ADDRFROMCOORD_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeHtileAddrFromCoord( + const ADDR_COMPUTE_HTILE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_HTILE_ADDRFROMCOORD_OUTPUT* pOut) const; + + virtual UINT_32 HwlComputeMaxBaseAlignments() const; + + virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const; + + virtual VOID HwlPadDimensions( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 numSamples, ADDR_TILEINFO* pTileInfo, UINT_32 mipLevel, + UINT_32* pPitch, UINT_32 *PitchAlign, UINT_32 height, UINT_32 heightAlign) const; + + virtual VOID HwlComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 mipLevel, UINT_32 numSamples, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + +private: + + VOID ReadGbTileMode( + UINT_32 regValue, TileConfig* pCfg) const; + + VOID ReadGbMacroTileCfg( + UINT_32 regValue, ADDR_TILEINFO* pCfg) const; + +private: + BOOL_32 InitTileSettingTable( + const UINT_32 *pSetting, UINT_32 noOfEntries); + + BOOL_32 InitMacroTileCfgTable( + const UINT_32 *pSetting, UINT_32 noOfEntries); + + UINT_64 HwlComputeMetadataNibbleAddress( + UINT_64 uncompressedDataByteAddress, + UINT_64 dataBaseByteAddress, + UINT_64 metadataBaseByteAddress, + UINT_32 metadataBitSize, + UINT_32 elementBitSize, + UINT_32 blockByteSize, + UINT_32 pipeInterleaveBytes, + UINT_32 numOfPipes, + UINT_32 numOfBanks, + UINT_32 numOfSamplesPerSplit) const; + + BOOL_32 DepthStencilTileCfgMatch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + BOOL_32 CheckTcCompatibility(const ADDR_TILEINFO* pTileInfo, UINT_32 bpp, AddrTileMode tileMode, + AddrTileType tileType, const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + static const UINT_32 MacroTileTableSize = 16; + static const UINT_32 PrtMacroModeOffset = MacroTileTableSize / 2; + static const INT_32 MinDepth2DThinIndex = 0; + static const INT_32 MaxDepth2DThinIndex = 4; + static const INT_32 Depth1DThinIndex = 5; + + ADDR_TILEINFO m_macroTileTable[MacroTileTableSize]; + UINT_32 m_noOfMacroEntries; + BOOL_32 m_allowNonDispThickModes; +}; + +} // V1 +} // Addr + +#endif diff --git a/src/amd/addrlib/src/r800/egbaddrlib.cpp b/src/amd/addrlib/src/r800/egbaddrlib.cpp new file mode 100644 index 00000000000..3c684235058 --- /dev/null +++ b/src/amd/addrlib/src/r800/egbaddrlib.cpp @@ -0,0 +1,4156 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file egbaddrlib.cpp +* @brief Contains the EgBasedLib class implementation. +**************************************************************************************************** +*/ + +#include "egbaddrlib.h" + +#include "util/macros.h" + +namespace Addr +{ +namespace V1 +{ + +/** +**************************************************************************************************** +* EgBasedLib::EgBasedLib +* +* @brief +* Constructor +* +* @note +* +**************************************************************************************************** +*/ +EgBasedLib::EgBasedLib(const Client* pClient) + : + Lib(pClient), + m_ranks(0), + m_logicalBanks(0), + m_bankInterleave(1) +{ +} + +/** +**************************************************************************************************** +* EgBasedLib::~EgBasedLib +* +* @brief +* Destructor +**************************************************************************************************** +*/ +EgBasedLib::~EgBasedLib() +{ +} + +/** +**************************************************************************************************** +* EgBasedLib::DispatchComputeSurfaceInfo +* +* @brief +* Compute surface sizes include padded pitch,height,slices,total size in bytes, +* meanwhile output suitable tile mode and base alignment might be changed in this +* call as well. Results are returned through output parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::DispatchComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + AddrTileMode tileMode = pIn->tileMode; + UINT_32 bpp = pIn->bpp; + UINT_32 numSamples = pIn->numSamples; + UINT_32 numFrags = ((pIn->numFrags == 0) ? numSamples : pIn->numFrags); + UINT_32 pitch = pIn->width; + UINT_32 height = pIn->height; + UINT_32 numSlices = pIn->numSlices; + UINT_32 mipLevel = pIn->mipLevel; + ADDR_SURFACE_FLAGS flags = pIn->flags; + + ADDR_TILEINFO tileInfoDef = {0}; + ADDR_TILEINFO* pTileInfo = &tileInfoDef; + UINT_32 padDims = 0; + BOOL_32 valid; + + if (pIn->flags.disallowLargeThickDegrade == 0) + { + tileMode = DegradeLargeThickTile(tileMode, bpp); + } + + // Only override numSamples for NI above + if (m_chipFamily >= ADDR_CHIP_FAMILY_NI) + { + if (numFrags != numSamples) // This means EQAA + { + // The real surface size needed is determined by number of fragments + numSamples = numFrags; + } + + // Save altered numSamples in pOut + pOut->numSamples = numSamples; + } + + // Caller makes sure pOut->pTileInfo is not NULL, see HwlComputeSurfaceInfo + ADDR_ASSERT(pOut->pTileInfo); + + if (pOut->pTileInfo != NULL) + { + pTileInfo = pOut->pTileInfo; + } + + // Set default values + if (pIn->pTileInfo != NULL) + { + if (pTileInfo != pIn->pTileInfo) + { + *pTileInfo = *pIn->pTileInfo; + } + } + else + { + memset(pTileInfo, 0, sizeof(ADDR_TILEINFO)); + } + + // For macro tile mode, we should calculate default tiling parameters + HwlSetupTileInfo(tileMode, + flags, + bpp, + pitch, + height, + numSamples, + pIn->pTileInfo, + pTileInfo, + pIn->tileType, + pOut); + + if (flags.cube) + { + if (mipLevel == 0) + { + padDims = 2; + } + + if (numSlices == 1) + { + // This is calculating one face, remove cube flag + flags.cube = 0; + } + } + + switch (tileMode) + { + case ADDR_TM_LINEAR_GENERAL://fall through + case ADDR_TM_LINEAR_ALIGNED: + valid = ComputeSurfaceInfoLinear(pIn, pOut, padDims); + break; + + case ADDR_TM_1D_TILED_THIN1://fall through + case ADDR_TM_1D_TILED_THICK: + valid = ComputeSurfaceInfoMicroTiled(pIn, pOut, padDims, tileMode); + break; + + case ADDR_TM_2D_TILED_THIN1: //fall through + case ADDR_TM_2D_TILED_THICK: //fall through + case ADDR_TM_3D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THICK: //fall through + case ADDR_TM_2D_TILED_XTHICK: //fall through + case ADDR_TM_3D_TILED_XTHICK: //fall through + case ADDR_TM_PRT_TILED_THIN1: //fall through + case ADDR_TM_PRT_2D_TILED_THIN1://fall through + case ADDR_TM_PRT_3D_TILED_THIN1://fall through + case ADDR_TM_PRT_TILED_THICK: //fall through + case ADDR_TM_PRT_2D_TILED_THICK://fall through + case ADDR_TM_PRT_3D_TILED_THICK: + valid = ComputeSurfaceInfoMacroTiled(pIn, pOut, padDims, tileMode); + break; + + default: + valid = FALSE; + ADDR_ASSERT_ALWAYS(); + break; + } + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceInfoLinear +* +* @brief +* Compute linear surface sizes include padded pitch, height, slices, total size in +* bytes, meanwhile alignments as well. Since it is linear mode, so output tile mode +* will not be changed here. Results are returned through output parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::ComputeSurfaceInfoLinear( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, ///< [out] Output structure + UINT_32 padDims ///< [in] Dimensions to padd + ) const +{ + UINT_32 expPitch = pIn->width; + UINT_32 expHeight = pIn->height; + UINT_32 expNumSlices = pIn->numSlices; + + // No linear MSAA on real H/W, keep this for TGL + UINT_32 numSamples = pOut->numSamples; + + const UINT_32 microTileThickness = 1; + + // + // Compute the surface alignments. + // + ComputeSurfaceAlignmentsLinear(pIn->tileMode, + pIn->bpp, + pIn->flags, + &pOut->baseAlign, + &pOut->pitchAlign, + &pOut->heightAlign); + + if ((pIn->tileMode == ADDR_TM_LINEAR_GENERAL) && pIn->flags.color && (pIn->height > 1)) + { +#if !ALT_TEST + // When linear_general surface is accessed in multiple lines, it requires 8 pixels in pitch + // alignment since PITCH_TILE_MAX is in unit of 8 pixels. + // It is OK if it is accessed per line. + ADDR_ASSERT((pIn->width % 8) == 0); +#endif + } + + pOut->depthAlign = microTileThickness; + + expPitch = HwlPreHandleBaseLvl3xPitch(pIn, expPitch); + + // + // Pad pitch and height to the required granularities. + // + PadDimensions(pIn->tileMode, + pIn->bpp, + pIn->flags, + numSamples, + pOut->pTileInfo, + padDims, + pIn->mipLevel, + &expPitch, &pOut->pitchAlign, + &expHeight, pOut->heightAlign, + &expNumSlices, microTileThickness); + + expPitch = HwlPostHandleBaseLvl3xPitch(pIn, expPitch); + + // + // Adjust per HWL + // + + UINT_64 logicalSliceSize; + + logicalSliceSize = HwlGetSizeAdjustmentLinear(pIn->tileMode, + pIn->bpp, + numSamples, + pOut->baseAlign, + pOut->pitchAlign, + &expPitch, + &expHeight, + &pOut->heightAlign); + + if ((pIn->pitchAlign != 0) || (pIn->heightAlign != 0)) + { + if (pIn->pitchAlign != 0) + { + ADDR_ASSERT((pIn->pitchAlign % pOut->pitchAlign) == 0); + pOut->pitchAlign = pIn->pitchAlign; + + if (IsPow2(pOut->pitchAlign)) + { + expPitch = PowTwoAlign(expPitch, pOut->pitchAlign); + } + else + { + expPitch += pOut->pitchAlign - 1; + expPitch /= pOut->pitchAlign; + expPitch *= pOut->pitchAlign; + } + } + + if (pIn->heightAlign != 0) + { + ADDR_ASSERT((pIn->heightAlign % pOut->heightAlign) == 0); + pOut->heightAlign = pIn->heightAlign; + + if (IsPow2(pOut->heightAlign)) + { + expHeight = PowTwoAlign(expHeight, pOut->heightAlign); + } + else + { + expHeight += pOut->heightAlign - 1; + expHeight /= pOut->heightAlign; + expHeight *= pOut->heightAlign; + } + } + + logicalSliceSize = BITS_TO_BYTES(expPitch * expHeight * pIn->bpp); + } + + pOut->pitch = expPitch; + pOut->height = expHeight; + pOut->depth = expNumSlices; + + pOut->surfSize = logicalSliceSize * expNumSlices; + + pOut->tileMode = pIn->tileMode; + + return TRUE; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceInfoMicroTiled +* +* @brief +* Compute 1D/Micro Tiled surface sizes include padded pitch, height, slices, total +* size in bytes, meanwhile alignments as well. Results are returned through output +* parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::ComputeSurfaceInfoMicroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, ///< [out] Output structure + UINT_32 padDims, ///< [in] Dimensions to padd + AddrTileMode expTileMode ///< [in] Expected tile mode + ) const +{ + BOOL_32 valid = TRUE; + + UINT_32 microTileThickness; + UINT_32 expPitch = pIn->width; + UINT_32 expHeight = pIn->height; + UINT_32 expNumSlices = pIn->numSlices; + + // No 1D MSAA on real H/W, keep this for TGL + UINT_32 numSamples = pOut->numSamples; + + // + // Compute the micro tile thickness. + // + microTileThickness = Thickness(expTileMode); + + // + // Extra override for mip levels + // + if (pIn->mipLevel > 0) + { + // + // Reduce tiling mode from thick to thin if the number of slices is less than the + // micro tile thickness. + // + if ((expTileMode == ADDR_TM_1D_TILED_THICK) && + (expNumSlices < ThickTileThickness)) + { + expTileMode = HwlDegradeThickTileMode(ADDR_TM_1D_TILED_THICK, expNumSlices, NULL); + if (expTileMode != ADDR_TM_1D_TILED_THICK) + { + microTileThickness = 1; + } + } + } + + // + // Compute the surface restrictions. + // + ComputeSurfaceAlignmentsMicroTiled(expTileMode, + pIn->bpp, + pIn->flags, + pIn->mipLevel, + numSamples, + &pOut->baseAlign, + &pOut->pitchAlign, + &pOut->heightAlign); + + pOut->depthAlign = microTileThickness; + + // + // Pad pitch and height to the required granularities. + // Compute surface size. + // Return parameters. + // + PadDimensions(expTileMode, + pIn->bpp, + pIn->flags, + numSamples, + pOut->pTileInfo, + padDims, + pIn->mipLevel, + &expPitch, &pOut->pitchAlign, + &expHeight, pOut->heightAlign, + &expNumSlices, microTileThickness); + + // + // Get HWL specific pitch adjustment + // + UINT_64 logicalSliceSize = HwlGetSizeAdjustmentMicroTiled(microTileThickness, + pIn->bpp, + pIn->flags, + numSamples, + pOut->baseAlign, + pOut->pitchAlign, + &expPitch, + &expHeight); + + pOut->pitch = expPitch; + pOut->height = expHeight; + pOut->depth = expNumSlices; + + pOut->surfSize = logicalSliceSize * expNumSlices; + + pOut->tileMode = expTileMode; + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceInfoMacroTiled +* +* @brief +* Compute 2D/macro tiled surface sizes include padded pitch, height, slices, total +* size in bytes, meanwhile output suitable tile mode and alignments might be changed +* in this call as well. Results are returned through output parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::ComputeSurfaceInfoMacroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, ///< [out] Output structure + UINT_32 padDims, ///< [in] Dimensions to padd + AddrTileMode expTileMode ///< [in] Expected tile mode + ) const +{ + BOOL_32 valid = TRUE; + + AddrTileMode origTileMode = expTileMode; + UINT_32 microTileThickness; + + UINT_32 paddedPitch; + UINT_32 paddedHeight; + UINT_64 bytesPerSlice; + + UINT_32 expPitch = pIn->width; + UINT_32 expHeight = pIn->height; + UINT_32 expNumSlices = pIn->numSlices; + + UINT_32 numSamples = pOut->numSamples; + + // + // Compute the surface restrictions as base + // SanityCheckMacroTiled is called in ComputeSurfaceAlignmentsMacroTiled + // + valid = ComputeSurfaceAlignmentsMacroTiled(expTileMode, + pIn->bpp, + pIn->flags, + pIn->mipLevel, + numSamples, + pOut); + + if (valid) + { + // + // Compute the micro tile thickness. + // + microTileThickness = Thickness(expTileMode); + + // + // Find the correct tiling mode for mip levels + // + if (pIn->mipLevel > 0) + { + // + // Try valid tile mode + // + expTileMode = ComputeSurfaceMipLevelTileMode(expTileMode, + pIn->bpp, + expPitch, + expHeight, + expNumSlices, + numSamples, + pOut->blockWidth, + pOut->blockHeight, + pOut->pTileInfo); + + if (!IsMacroTiled(expTileMode)) // Downgraded to micro-tiled + { + return ComputeSurfaceInfoMicroTiled(pIn, pOut, padDims, expTileMode); + } + else if (microTileThickness != Thickness(expTileMode)) + { + // + // Re-compute if thickness changed since bank-height may be changed! + // + return ComputeSurfaceInfoMacroTiled(pIn, pOut, padDims, expTileMode); + } + } + + paddedPitch = expPitch; + paddedHeight = expHeight; + + // + // Re-cal alignment + // + if (expTileMode != origTileMode) // Tile mode is changed but still macro-tiled + { + valid = ComputeSurfaceAlignmentsMacroTiled(expTileMode, + pIn->bpp, + pIn->flags, + pIn->mipLevel, + numSamples, + pOut); + } + + // + // Do padding + // + PadDimensions(expTileMode, + pIn->bpp, + pIn->flags, + numSamples, + pOut->pTileInfo, + padDims, + pIn->mipLevel, + &paddedPitch, &pOut->pitchAlign, + &paddedHeight, pOut->heightAlign, + &expNumSlices, microTileThickness); + + if (pIn->flags.qbStereo && + (pOut->pStereoInfo != NULL)) + { + UINT_32 stereoHeightAlign = HwlStereoCheckRightOffsetPadding(pOut->pTileInfo); + + if (stereoHeightAlign != 0) + { + paddedHeight = PowTwoAlign(paddedHeight, stereoHeightAlign); + } + } + + if ((pIn->flags.needEquation == TRUE) && + (m_chipFamily == ADDR_CHIP_FAMILY_SI) && + (pIn->numMipLevels > 1) && + (pIn->mipLevel == 0)) + { + BOOL_32 convertTo1D = FALSE; + + ADDR_ASSERT(Thickness(expTileMode) == 1); + + for (UINT_32 i = 1; i < pIn->numMipLevels; i++) + { + UINT_32 mipPitch = Max(1u, paddedPitch >> i); + UINT_32 mipHeight = Max(1u, pIn->height >> i); + UINT_32 mipSlices = pIn->flags.volume ? + Max(1u, pIn->numSlices >> i) : pIn->numSlices; + expTileMode = ComputeSurfaceMipLevelTileMode(expTileMode, + pIn->bpp, + mipPitch, + mipHeight, + mipSlices, + numSamples, + pOut->blockWidth, + pOut->blockHeight, + pOut->pTileInfo); + + if (IsMacroTiled(expTileMode)) + { + if (PowTwoAlign(mipPitch, pOut->blockWidth) != + PowTwoAlign(mipPitch, pOut->pitchAlign)) + { + convertTo1D = TRUE; + break; + } + } + else + { + break; + } + } + + if (convertTo1D) + { + return ComputeSurfaceInfoMicroTiled(pIn, pOut, padDims, ADDR_TM_1D_TILED_THIN1); + } + } + + pOut->pitch = paddedPitch; + // Put this check right here to workaround special mipmap cases which the original height + // is needed. + // The original height is pre-stored in pOut->height in PostComputeMipLevel and + // pOut->pitch is needed in HwlCheckLastMacroTiledLvl, too. + if (m_configFlags.checkLast2DLevel && (numSamples == 1)) // Don't check MSAA + { + // Set a TRUE in pOut if next Level is the first 1D sub level + HwlCheckLastMacroTiledLvl(pIn, pOut); + } + pOut->height = paddedHeight; + + pOut->depth = expNumSlices; + + // + // Compute the size of a slice. + // + bytesPerSlice = BITS_TO_BYTES(static_cast(paddedPitch) * + paddedHeight * NextPow2(pIn->bpp) * numSamples); + + pOut->surfSize = bytesPerSlice * expNumSlices; + + pOut->tileMode = expTileMode; + + pOut->depthAlign = microTileThickness; + + } // if (valid) + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceAlignmentsLinear +* +* @brief +* Compute linear surface alignment, calculation results are returned through +* output parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::ComputeSurfaceAlignmentsLinear( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32* pBaseAlign, ///< [out] base address alignment in bytes + UINT_32* pPitchAlign, ///< [out] pitch alignment in pixels + UINT_32* pHeightAlign ///< [out] height alignment in pixels + ) const +{ + BOOL_32 valid = TRUE; + + switch (tileMode) + { + case ADDR_TM_LINEAR_GENERAL: + // + // The required base alignment and pitch and height granularities is to 1 element. + // + *pBaseAlign = (bpp > 8) ? bpp / 8 : 1; + *pPitchAlign = 1; + *pHeightAlign = 1; + break; + case ADDR_TM_LINEAR_ALIGNED: + // + // The required alignment for base is the pipe interleave size. + // The required granularity for pitch is hwl dependent. + // The required granularity for height is one row. + // + *pBaseAlign = m_pipeInterleaveBytes; + *pPitchAlign = HwlGetPitchAlignmentLinear(bpp, flags); + *pHeightAlign = 1; + break; + default: + *pBaseAlign = 1; + *pPitchAlign = 1; + *pHeightAlign = 1; + ADDR_UNHANDLED_CASE(); + break; + } + + AdjustPitchAlignment(flags, pPitchAlign); + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceAlignmentsMicroTiled +* +* @brief +* Compute 1D tiled surface alignment, calculation results are returned through +* output parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::ComputeSurfaceAlignmentsMicroTiled( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 mipLevel, ///< [in] mip level + UINT_32 numSamples, ///< [in] number of samples + UINT_32* pBaseAlign, ///< [out] base address alignment in bytes + UINT_32* pPitchAlign, ///< [out] pitch alignment in pixels + UINT_32* pHeightAlign ///< [out] height alignment in pixels + ) const +{ + BOOL_32 valid = TRUE; + + // + // The required alignment for base is the pipe interleave size. + // + *pBaseAlign = m_pipeInterleaveBytes; + + *pPitchAlign = HwlGetPitchAlignmentMicroTiled(tileMode, bpp, flags, numSamples); + + *pHeightAlign = MicroTileHeight; + + AdjustPitchAlignment(flags, pPitchAlign); + + // Workaround 2 for 1D tiling - There is HW bug for Carrizo, + // where it requires the following alignments for 1D tiling. + if (flags.czDispCompatible && (mipLevel == 0)) + { + *pBaseAlign = PowTwoAlign(*pBaseAlign, 4096); //Base address MOD 4096 = 0 + *pPitchAlign = PowTwoAlign(*pPitchAlign, 512 / (BITS_TO_BYTES(bpp))); //(8 lines * pitch * bytes per pixel) MOD 4096 = 0 + } + // end Carrizo workaround for 1D tilling + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlReduceBankWidthHeight +* +* @brief +* Additional checks, reduce bankHeight/bankWidth if needed and possible +* tileSize*BANK_WIDTH*BANK_HEIGHT <= ROW_SIZE +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::HwlReduceBankWidthHeight( + UINT_32 tileSize, ///< [in] tile size + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples, ///< [in] number of samples + UINT_32 bankHeightAlign, ///< [in] bank height alignment + UINT_32 pipes, ///< [in] pipes + ADDR_TILEINFO* pTileInfo ///< [in,out] bank structure. + ) const +{ + UINT_32 macroAspectAlign; + BOOL_32 valid = TRUE; + + if (tileSize * pTileInfo->bankWidth * pTileInfo->bankHeight > m_rowSize) + { + BOOL_32 stillGreater = TRUE; + + // Try reducing bankWidth first + if (stillGreater && pTileInfo->bankWidth > 1) + { + while (stillGreater && pTileInfo->bankWidth > 0) + { + pTileInfo->bankWidth >>= 1; + + if (pTileInfo->bankWidth == 0) + { + pTileInfo->bankWidth = 1; + break; + } + + stillGreater = + tileSize * pTileInfo->bankWidth * pTileInfo->bankHeight > m_rowSize; + } + + // bankWidth is reduced above, so we need to recalculate bankHeight and ratio + bankHeightAlign = Max(1u, + m_pipeInterleaveBytes * m_bankInterleave / + (tileSize * pTileInfo->bankWidth) + ); + + // We cannot increase bankHeight so just assert this case. + ADDR_ASSERT((pTileInfo->bankHeight % bankHeightAlign) == 0); + + if (numSamples == 1) + { + macroAspectAlign = Max(1u, + m_pipeInterleaveBytes * m_bankInterleave / + (tileSize * pipes * pTileInfo->bankWidth) + ); + pTileInfo->macroAspectRatio = PowTwoAlign(pTileInfo->macroAspectRatio, + macroAspectAlign); + } + } + + // Early quit bank_height degradation for "64" bit z buffer + if (flags.depth && bpp >= 64) + { + stillGreater = FALSE; + } + + // Then try reducing bankHeight + if (stillGreater && pTileInfo->bankHeight > bankHeightAlign) + { + while (stillGreater && pTileInfo->bankHeight > bankHeightAlign) + { + pTileInfo->bankHeight >>= 1; + + if (pTileInfo->bankHeight < bankHeightAlign) + { + pTileInfo->bankHeight = bankHeightAlign; + break; + } + + stillGreater = + tileSize * pTileInfo->bankWidth * pTileInfo->bankHeight > m_rowSize; + } + } + + valid = !stillGreater; + + // Generate a warning if we still fail to meet this constraint + if (valid == FALSE) + { + ADDR_WARN( + 0, ("TILE_SIZE(%d)*BANK_WIDTH(%d)*BANK_HEIGHT(%d) <= ROW_SIZE(%d)", + tileSize, pTileInfo->bankWidth, pTileInfo->bankHeight, m_rowSize)); + } + } + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceAlignmentsMacroTiled +* +* @brief +* Compute 2D tiled surface alignment, calculation results are returned through +* output parameters. +* +* @return +* TRUE if no error occurs +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::ComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 mipLevel, ///< [in] mip level + UINT_32 numSamples, ///< [in] number of samples + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Surface output + ) const +{ + ADDR_TILEINFO* pTileInfo = pOut->pTileInfo; + + BOOL_32 valid = SanityCheckMacroTiled(pTileInfo); + + if (valid) + { + UINT_32 macroTileWidth; + UINT_32 macroTileHeight; + + UINT_32 tileSize; + UINT_32 bankHeightAlign; + UINT_32 macroAspectAlign; + + UINT_32 thickness = Thickness(tileMode); + UINT_32 pipes = HwlGetPipes(pTileInfo); + + // + // Align bank height first according to latest h/w spec + // + + // tile_size = MIN(tile_split, 64 * tile_thickness * element_bytes * num_samples) + tileSize = Min(pTileInfo->tileSplitBytes, + BITS_TO_BYTES(64 * thickness * bpp * numSamples)); + + // bank_height_align = + // MAX(1, (pipe_interleave_bytes * bank_interleave)/(tile_size*bank_width)) + bankHeightAlign = Max(1u, + m_pipeInterleaveBytes * m_bankInterleave / + (tileSize * pTileInfo->bankWidth) + ); + + pTileInfo->bankHeight = PowTwoAlign(pTileInfo->bankHeight, bankHeightAlign); + + // num_pipes * bank_width * macro_tile_aspect >= + // (pipe_interleave_size * bank_interleave) / tile_size + if (numSamples == 1) + { + // this restriction is only for mipmap (mipmap's numSamples must be 1) + macroAspectAlign = Max(1u, + m_pipeInterleaveBytes * m_bankInterleave / + (tileSize * pipes * pTileInfo->bankWidth) + ); + pTileInfo->macroAspectRatio = PowTwoAlign(pTileInfo->macroAspectRatio, macroAspectAlign); + } + + valid = HwlReduceBankWidthHeight(tileSize, + bpp, + flags, + numSamples, + bankHeightAlign, + pipes, + pTileInfo); + + // + // The required granularity for pitch is the macro tile width. + // + macroTileWidth = MicroTileWidth * pTileInfo->bankWidth * pipes * + pTileInfo->macroAspectRatio; + + pOut->pitchAlign = macroTileWidth; + pOut->blockWidth = macroTileWidth; + + AdjustPitchAlignment(flags, &pOut->pitchAlign); + + // + // The required granularity for height is the macro tile height. + // + macroTileHeight = MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks / + pTileInfo->macroAspectRatio; + + pOut->heightAlign = macroTileHeight; + pOut->blockHeight = macroTileHeight; + + // + // Compute base alignment + // + pOut->baseAlign = + pipes * pTileInfo->bankWidth * pTileInfo->banks * pTileInfo->bankHeight * tileSize; + + HwlComputeSurfaceAlignmentsMacroTiled(tileMode, bpp, flags, mipLevel, numSamples, pOut); + } + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::SanityCheckMacroTiled +* +* @brief +* Check if macro-tiled parameters are valid +* @return +* TRUE if valid +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::SanityCheckMacroTiled( + ADDR_TILEINFO* pTileInfo ///< [in] macro-tiled parameters + ) const +{ + BOOL_32 valid = TRUE; + MAYBE_UNUSED UINT_32 numPipes = HwlGetPipes(pTileInfo); + + switch (pTileInfo->banks) + { + case 2: //fall through + case 4: //fall through + case 8: //fall through + case 16: + break; + default: + valid = FALSE; + break; + + } + + if (valid) + { + switch (pTileInfo->bankWidth) + { + case 1: //fall through + case 2: //fall through + case 4: //fall through + case 8: + break; + default: + valid = FALSE; + break; + } + } + + if (valid) + { + switch (pTileInfo->bankHeight) + { + case 1: //fall through + case 2: //fall through + case 4: //fall through + case 8: + break; + default: + valid = FALSE; + break; + } + } + + if (valid) + { + switch (pTileInfo->macroAspectRatio) + { + case 1: //fall through + case 2: //fall through + case 4: //fall through + case 8: + break; + default: + valid = FALSE; + break; + } + } + + if (valid) + { + if (pTileInfo->banks < pTileInfo->macroAspectRatio) + { + // This will generate macro tile height <= 1 + valid = FALSE; + } + } + + if (valid) + { + if (pTileInfo->tileSplitBytes > m_rowSize) + { + ADDR_WARN(0, ("tileSplitBytes is bigger than row size")); + } + } + + if (valid) + { + valid = HwlSanityCheckMacroTiled(pTileInfo); + } + + ADDR_ASSERT(valid == TRUE); + + // Add this assert for guidance + ADDR_ASSERT(numPipes * pTileInfo->banks >= 4); + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceMipLevelTileMode +* +* @brief +* Compute valid tile mode for surface mipmap sub-levels +* +* @return +* Suitable tile mode +**************************************************************************************************** +*/ +AddrTileMode EgBasedLib::ComputeSurfaceMipLevelTileMode( + AddrTileMode baseTileMode, ///< [in] base tile mode + UINT_32 bpp, ///< [in] bits per pixels + UINT_32 pitch, ///< [in] current level pitch + UINT_32 height, ///< [in] current level height + UINT_32 numSlices, ///< [in] current number of slices + UINT_32 numSamples, ///< [in] number of samples + UINT_32 pitchAlign, ///< [in] pitch alignment + UINT_32 heightAlign, ///< [in] height alignment + ADDR_TILEINFO* pTileInfo ///< [in] ptr to bank structure + ) const +{ + UINT_64 bytesPerSlice; + (void)bytesPerSlice; + UINT_32 bytesPerTile; + + AddrTileMode expTileMode = baseTileMode; + UINT_32 microTileThickness = Thickness(expTileMode); + UINT_32 interleaveSize = m_pipeInterleaveBytes * m_bankInterleave; + + // + // Compute the size of a slice. + // + bytesPerSlice = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); + bytesPerTile = BITS_TO_BYTES(MicroTilePixels * microTileThickness * NextPow2(bpp) * numSamples); + + // + // Reduce tiling mode from thick to thin if the number of slices is less than the + // micro tile thickness. + // + if (numSlices < microTileThickness) + { + expTileMode = HwlDegradeThickTileMode(expTileMode, numSlices, &bytesPerTile); + } + + if (bytesPerTile > pTileInfo->tileSplitBytes) + { + bytesPerTile = pTileInfo->tileSplitBytes; + } + + UINT_32 threshold1 = + bytesPerTile * HwlGetPipes(pTileInfo) * pTileInfo->bankWidth * pTileInfo->macroAspectRatio; + + UINT_32 threshold2 = + bytesPerTile * pTileInfo->bankWidth * pTileInfo->bankHeight; + + // + // Reduce the tile mode from 2D/3D to 1D in following conditions + // + switch (expTileMode) + { + case ADDR_TM_2D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THIN1: + case ADDR_TM_PRT_TILED_THIN1: + case ADDR_TM_PRT_2D_TILED_THIN1: + case ADDR_TM_PRT_3D_TILED_THIN1: + if ((pitch < pitchAlign) || + (height < heightAlign) || + (interleaveSize > threshold1) || + (interleaveSize > threshold2)) + { + expTileMode = ADDR_TM_1D_TILED_THIN1; + } + break; + case ADDR_TM_2D_TILED_THICK: //fall through + case ADDR_TM_3D_TILED_THICK: + case ADDR_TM_2D_TILED_XTHICK: + case ADDR_TM_3D_TILED_XTHICK: + case ADDR_TM_PRT_TILED_THICK: + case ADDR_TM_PRT_2D_TILED_THICK: + case ADDR_TM_PRT_3D_TILED_THICK: + if ((pitch < pitchAlign) || + (height < heightAlign)) + { + expTileMode = ADDR_TM_1D_TILED_THICK; + } + break; + default: + break; + } + + return expTileMode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlGetAlignmentInfoMacroTiled +* @brief +* Get alignment info for giving tile mode +* @return +* TRUE if getting alignment is OK +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::HwlGetAlignmentInfoMacroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] create surface info + UINT_32* pPitchAlign, ///< [out] pitch alignment + UINT_32* pHeightAlign, ///< [out] height alignment + UINT_32* pSizeAlign ///< [out] size alignment + ) const +{ + BOOL_32 valid = TRUE; + + ADDR_ASSERT(IsMacroTiled(pIn->tileMode)); + + UINT_32 numSamples = (pIn->numFrags == 0) ? pIn->numSamples : pIn->numFrags; + + ADDR_ASSERT(pIn->pTileInfo); + ADDR_TILEINFO tileInfo = *pIn->pTileInfo; + ADDR_COMPUTE_SURFACE_INFO_OUTPUT out = {0}; + out.pTileInfo = &tileInfo; + + if (UseTileIndex(pIn->tileIndex)) + { + out.tileIndex = pIn->tileIndex; + out.macroModeIndex = TileIndexInvalid; + } + + HwlSetupTileInfo(pIn->tileMode, + pIn->flags, + pIn->bpp, + pIn->width, + pIn->height, + numSamples, + &tileInfo, + &tileInfo, + pIn->tileType, + &out); + + valid = ComputeSurfaceAlignmentsMacroTiled(pIn->tileMode, + pIn->bpp, + pIn->flags, + pIn->mipLevel, + numSamples, + &out); + + if (valid) + { + *pPitchAlign = out.pitchAlign; + *pHeightAlign = out.heightAlign; + *pSizeAlign = out.baseAlign; + } + + return valid; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlDegradeThickTileMode +* +* @brief +* Degrades valid tile mode for thick modes if needed +* +* @return +* Suitable tile mode +**************************************************************************************************** +*/ +AddrTileMode EgBasedLib::HwlDegradeThickTileMode( + AddrTileMode baseTileMode, ///< [in] base tile mode + UINT_32 numSlices, ///< [in] current number of slices + UINT_32* pBytesPerTile ///< [in,out] pointer to bytes per slice + ) const +{ + ADDR_ASSERT(numSlices < Thickness(baseTileMode)); + // if pBytesPerTile is NULL, this is a don't-care.... + UINT_32 bytesPerTile = pBytesPerTile != NULL ? *pBytesPerTile : 64; + + AddrTileMode expTileMode = baseTileMode; + switch (baseTileMode) + { + case ADDR_TM_1D_TILED_THICK: + expTileMode = ADDR_TM_1D_TILED_THIN1; + bytesPerTile >>= 2; + break; + case ADDR_TM_2D_TILED_THICK: + expTileMode = ADDR_TM_2D_TILED_THIN1; + bytesPerTile >>= 2; + break; + case ADDR_TM_3D_TILED_THICK: + expTileMode = ADDR_TM_3D_TILED_THIN1; + bytesPerTile >>= 2; + break; + case ADDR_TM_2D_TILED_XTHICK: + if (numSlices < ThickTileThickness) + { + expTileMode = ADDR_TM_2D_TILED_THIN1; + bytesPerTile >>= 3; + } + else + { + expTileMode = ADDR_TM_2D_TILED_THICK; + bytesPerTile >>= 1; + } + break; + case ADDR_TM_3D_TILED_XTHICK: + if (numSlices < ThickTileThickness) + { + expTileMode = ADDR_TM_3D_TILED_THIN1; + bytesPerTile >>= 3; + } + else + { + expTileMode = ADDR_TM_3D_TILED_THICK; + bytesPerTile >>= 1; + } + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + if (pBytesPerTile != NULL) + { + *pBytesPerTile = bytesPerTile; + } + + return expTileMode; +} + +/** +**************************************************************************************************** +* EgBasedLib::DispatchComputeSurfaceAddrFromCoord +* +* @brief +* Compute surface address from given coord (x, y, slice,sample) +* +* @return +* Address in bytes +**************************************************************************************************** +*/ +UINT_64 EgBasedLib::DispatchComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + UINT_32 x = pIn->x; + UINT_32 y = pIn->y; + UINT_32 slice = pIn->slice; + UINT_32 sample = pIn->sample; + UINT_32 bpp = pIn->bpp; + UINT_32 pitch = pIn->pitch; + UINT_32 height = pIn->height; + UINT_32 numSlices = pIn->numSlices; + UINT_32 numSamples = ((pIn->numSamples == 0) ? 1 : pIn->numSamples); + UINT_32 numFrags = ((pIn->numFrags == 0) ? numSamples : pIn->numFrags); + AddrTileMode tileMode = pIn->tileMode; + AddrTileType microTileType = pIn->tileType; + BOOL_32 ignoreSE = pIn->ignoreSE; + BOOL_32 isDepthSampleOrder = pIn->isDepth; + ADDR_TILEINFO* pTileInfo = pIn->pTileInfo; + + UINT_32* pBitPosition = &pOut->bitPosition; + UINT_64 addr; + + // ADDR_DEPTH_SAMPLE_ORDER = non-disp + depth-sample-order + if (microTileType == ADDR_DEPTH_SAMPLE_ORDER) + { + isDepthSampleOrder = TRUE; + } + + if (m_chipFamily >= ADDR_CHIP_FAMILY_NI) + { + if (numFrags != numSamples) + { + numSamples = numFrags; + ADDR_ASSERT(sample < numSamples); + } + + /// @note + /// 128 bit/thick tiled surface doesn't support display tiling and + /// mipmap chain must have the same tileType, so please fill tileType correctly + if (IsLinear(pIn->tileMode) == FALSE) + { + if (bpp >= 128 || Thickness(tileMode) > 1) + { + ADDR_ASSERT(microTileType != ADDR_DISPLAYABLE); + } + } + } + + switch (tileMode) + { + case ADDR_TM_LINEAR_GENERAL://fall through + case ADDR_TM_LINEAR_ALIGNED: + addr = ComputeSurfaceAddrFromCoordLinear(x, + y, + slice, + sample, + bpp, + pitch, + height, + numSlices, + pBitPosition); + break; + case ADDR_TM_1D_TILED_THIN1://fall through + case ADDR_TM_1D_TILED_THICK: + addr = ComputeSurfaceAddrFromCoordMicroTiled(x, + y, + slice, + sample, + bpp, + pitch, + height, + numSamples, + tileMode, + microTileType, + isDepthSampleOrder, + pBitPosition); + break; + case ADDR_TM_2D_TILED_THIN1: //fall through + case ADDR_TM_2D_TILED_THICK: //fall through + case ADDR_TM_3D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THICK: //fall through + case ADDR_TM_2D_TILED_XTHICK: //fall through + case ADDR_TM_3D_TILED_XTHICK: //fall through + case ADDR_TM_PRT_TILED_THIN1: //fall through + case ADDR_TM_PRT_2D_TILED_THIN1://fall through + case ADDR_TM_PRT_3D_TILED_THIN1://fall through + case ADDR_TM_PRT_TILED_THICK: //fall through + case ADDR_TM_PRT_2D_TILED_THICK://fall through + case ADDR_TM_PRT_3D_TILED_THICK: + UINT_32 pipeSwizzle; + UINT_32 bankSwizzle; + + if (m_configFlags.useCombinedSwizzle) + { + ExtractBankPipeSwizzle(pIn->tileSwizzle, pIn->pTileInfo, + &bankSwizzle, &pipeSwizzle); + } + else + { + pipeSwizzle = pIn->pipeSwizzle; + bankSwizzle = pIn->bankSwizzle; + } + + addr = ComputeSurfaceAddrFromCoordMacroTiled(x, + y, + slice, + sample, + bpp, + pitch, + height, + numSamples, + tileMode, + microTileType, + ignoreSE, + isDepthSampleOrder, + pipeSwizzle, + bankSwizzle, + pTileInfo, + pBitPosition); + break; + default: + addr = 0; + ADDR_ASSERT_ALWAYS(); + break; + } + + return addr; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeMacroTileEquation +* +* @brief +* Computes the address equation in macro tile +* @return +* If equation can be computed +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::ComputeMacroTileEquation( + UINT_32 log2BytesPP, ///< [in] log2 of bytes per pixel + AddrTileMode tileMode, ///< [in] tile mode + AddrTileType microTileType, ///< [in] micro tiling type + ADDR_TILEINFO* pTileInfo, ///< [in] bank structure + ADDR_EQUATION* pEquation ///< [out] Equation for addressing in macro tile + ) const +{ + ADDR_E_RETURNCODE retCode; + + // Element equation within a tile + retCode = ComputeMicroTileEquation(log2BytesPP, tileMode, microTileType, pEquation); + + if (retCode == ADDR_OK) + { + // Tile equesiton with signle pipe bank + UINT_32 numPipes = HwlGetPipes(pTileInfo); + UINT_32 numPipeBits = Log2(numPipes); + + for (UINT_32 i = 0; i < Log2(pTileInfo->bankWidth); i++) + { + pEquation->addr[pEquation->numBits].valid = 1; + pEquation->addr[pEquation->numBits].channel = 0; + pEquation->addr[pEquation->numBits].index = i + log2BytesPP + 3 + numPipeBits; + pEquation->numBits++; + } + + for (UINT_32 i = 0; i < Log2(pTileInfo->bankHeight); i++) + { + pEquation->addr[pEquation->numBits].valid = 1; + pEquation->addr[pEquation->numBits].channel = 1; + pEquation->addr[pEquation->numBits].index = i + 3; + pEquation->numBits++; + } + + ADDR_EQUATION equation; + memset(&equation, 0, sizeof(ADDR_EQUATION)); + + UINT_32 thresholdX = 32; + UINT_32 thresholdY = 32; + + if (IsPrtNoRotationTileMode(tileMode)) + { + UINT_32 macroTilePitch = + (MicroTileWidth * pTileInfo->bankWidth * numPipes) * pTileInfo->macroAspectRatio; + UINT_32 macroTileHeight = + (MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks) / + pTileInfo->macroAspectRatio; + thresholdX = Log2(macroTilePitch); + thresholdY = Log2(macroTileHeight); + } + + // Pipe equation + retCode = ComputePipeEquation(log2BytesPP, thresholdX, thresholdY, pTileInfo, &equation); + + if (retCode == ADDR_OK) + { + UINT_32 pipeBitStart = Log2(m_pipeInterleaveBytes); + + if (pEquation->numBits > pipeBitStart) + { + UINT_32 numLeftShift = pEquation->numBits - pipeBitStart; + + for (UINT_32 i = 0; i < numLeftShift; i++) + { + pEquation->addr[pEquation->numBits + equation.numBits - i - 1] = + pEquation->addr[pEquation->numBits - i - 1]; + pEquation->xor1[pEquation->numBits + equation.numBits - i - 1] = + pEquation->xor1[pEquation->numBits - i - 1]; + pEquation->xor2[pEquation->numBits + equation.numBits - i - 1] = + pEquation->xor2[pEquation->numBits - i - 1]; + } + } + + for (UINT_32 i = 0; i < equation.numBits; i++) + { + pEquation->addr[pipeBitStart + i] = equation.addr[i]; + pEquation->xor1[pipeBitStart + i] = equation.xor1[i]; + pEquation->xor2[pipeBitStart + i] = equation.xor2[i]; + pEquation->numBits++; + } + + // Bank equation + memset(&equation, 0, sizeof(ADDR_EQUATION)); + + retCode = ComputeBankEquation(log2BytesPP, thresholdX, thresholdY, + pTileInfo, &equation); + + if (retCode == ADDR_OK) + { + UINT_32 bankBitStart = pipeBitStart + numPipeBits + Log2(m_bankInterleave); + + if (pEquation->numBits > bankBitStart) + { + UINT_32 numLeftShift = pEquation->numBits - bankBitStart; + + for (UINT_32 i = 0; i < numLeftShift; i++) + { + pEquation->addr[pEquation->numBits + equation.numBits - i - 1] = + pEquation->addr[pEquation->numBits - i - 1]; + pEquation->xor1[pEquation->numBits + equation.numBits - i - 1] = + pEquation->xor1[pEquation->numBits - i - 1]; + pEquation->xor2[pEquation->numBits + equation.numBits - i - 1] = + pEquation->xor2[pEquation->numBits - i - 1]; + } + } + + for (UINT_32 i = 0; i < equation.numBits; i++) + { + pEquation->addr[bankBitStart + i] = equation.addr[i]; + pEquation->xor1[bankBitStart + i] = equation.xor1[i]; + pEquation->xor2[bankBitStart + i] = equation.xor2[i]; + pEquation->numBits++; + } + } + } + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceAddrFromCoordMicroTiled +* +* @brief +* Computes the surface address and bit position from a +* coordinate for 2D tilied (macro tiled) +* @return +* The byte address +**************************************************************************************************** +*/ +UINT_64 EgBasedLib::ComputeSurfaceAddrFromCoordMacroTiled( + UINT_32 x, ///< [in] x coordinate + UINT_32 y, ///< [in] y coordinate + UINT_32 slice, ///< [in] slice index + UINT_32 sample, ///< [in] sample index + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 pitch, ///< [in] surface pitch, in pixels + UINT_32 height, ///< [in] surface height, in pixels + UINT_32 numSamples, ///< [in] number of samples + AddrTileMode tileMode, ///< [in] tile mode + AddrTileType microTileType, ///< [in] micro tiling type + BOOL_32 ignoreSE, ///< [in] TRUE if shader enginers can be ignored + BOOL_32 isDepthSampleOrder, ///< [in] TRUE if it depth sample ordering is used + UINT_32 pipeSwizzle, ///< [in] pipe swizzle + UINT_32 bankSwizzle, ///< [in] bank swizzle + ADDR_TILEINFO* pTileInfo, ///< [in] bank structure + /// **All fields to be valid on entry** + UINT_32* pBitPosition ///< [out] bit position, e.g. FMT_1 will use this + ) const +{ + UINT_64 addr; + + UINT_32 microTileBytes; + UINT_32 microTileBits; + UINT_32 sampleOffset; + UINT_32 pixelIndex; + UINT_32 pixelOffset; + UINT_32 elementOffset; + UINT_32 tileSplitSlice; + UINT_32 pipe; + UINT_32 bank; + UINT_64 sliceBytes; + UINT_64 sliceOffset; + UINT_32 macroTilePitch; + UINT_32 macroTileHeight; + UINT_32 macroTilesPerRow; + UINT_32 macroTilesPerSlice; + UINT_64 macroTileBytes; + UINT_32 macroTileIndexX; + UINT_32 macroTileIndexY; + UINT_64 macroTileOffset; + UINT_64 totalOffset; + UINT_64 pipeInterleaveMask; + UINT_64 bankInterleaveMask; + UINT_64 pipeInterleaveOffset; + UINT_32 bankInterleaveOffset; + UINT_64 offset; + UINT_32 tileRowIndex; + UINT_32 tileColumnIndex; + UINT_32 tileIndex; + UINT_32 tileOffset; + + UINT_32 microTileThickness = Thickness(tileMode); + + // + // Compute the number of group, pipe, and bank bits. + // + UINT_32 numPipes = HwlGetPipes(pTileInfo); + UINT_32 numPipeInterleaveBits = Log2(m_pipeInterleaveBytes); + UINT_32 numPipeBits = Log2(numPipes); + UINT_32 numBankInterleaveBits = Log2(m_bankInterleave); + UINT_32 numBankBits = Log2(pTileInfo->banks); + + // + // Compute the micro tile size. + // + microTileBits = MicroTilePixels * microTileThickness * bpp * numSamples; + + microTileBytes = microTileBits / 8; + // + // Compute the pixel index within the micro tile. + // + pixelIndex = ComputePixelIndexWithinMicroTile(x, + y, + slice, + bpp, + tileMode, + microTileType); + + // + // Compute the sample offset and pixel offset. + // + if (isDepthSampleOrder) + { + // + // For depth surfaces, samples are stored contiguously for each element, so the sample + // offset is the sample number times the element size. + // + sampleOffset = sample * bpp; + pixelOffset = pixelIndex * bpp * numSamples; + } + else + { + // + // For color surfaces, all elements for a particular sample are stored contiguously, so + // the sample offset is the sample number times the micro tile size divided yBit the number + // of samples. + // + sampleOffset = sample * (microTileBits / numSamples); + pixelOffset = pixelIndex * bpp; + } + + // + // Compute the element offset. + // + elementOffset = pixelOffset + sampleOffset; + + *pBitPosition = static_cast(elementOffset % 8); + + elementOffset /= 8; //bit-to-byte + + // + // Determine if tiles need to be split across slices. + // + // If the size of the micro tile is larger than the tile split size, then the tile will be + // split across multiple slices. + // + UINT_32 slicesPerTile = 1; + + if ((microTileBytes > pTileInfo->tileSplitBytes) && (microTileThickness == 1)) + { //don't support for thick mode + + // + // Compute the number of slices per tile. + // + slicesPerTile = microTileBytes / pTileInfo->tileSplitBytes; + + // + // Compute the tile split slice number for use in rotating the bank. + // + tileSplitSlice = elementOffset / pTileInfo->tileSplitBytes; + + // + // Adjust the element offset to account for the portion of the tile that is being moved to + // a new slice.. + // + elementOffset %= pTileInfo->tileSplitBytes; + + // + // Adjust the microTileBytes size to tileSplitBytes size since + // a new slice.. + // + microTileBytes = pTileInfo->tileSplitBytes; + } + else + { + tileSplitSlice = 0; + } + + // + // Compute macro tile pitch and height. + // + macroTilePitch = + (MicroTileWidth * pTileInfo->bankWidth * numPipes) * pTileInfo->macroAspectRatio; + macroTileHeight = + (MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks) / pTileInfo->macroAspectRatio; + + // + // Compute the number of bytes per macro tile. Note: bytes of the same bank/pipe actually + // + macroTileBytes = + static_cast(microTileBytes) * + (macroTilePitch / MicroTileWidth) * (macroTileHeight / MicroTileHeight) / + (numPipes * pTileInfo->banks); + + // + // Compute the number of macro tiles per row. + // + macroTilesPerRow = pitch / macroTilePitch; + + // + // Compute the offset to the macro tile containing the specified coordinate. + // + macroTileIndexX = x / macroTilePitch; + macroTileIndexY = y / macroTileHeight; + macroTileOffset = ((macroTileIndexY * macroTilesPerRow) + macroTileIndexX) * macroTileBytes; + + // + // Compute the number of macro tiles per slice. + // + macroTilesPerSlice = macroTilesPerRow * (height / macroTileHeight); + + // + // Compute the slice size. + // + sliceBytes = macroTilesPerSlice * macroTileBytes; + + // + // Compute the slice offset. + // + sliceOffset = sliceBytes * (tileSplitSlice + slicesPerTile * (slice / microTileThickness)); + + // + // Compute tile offest + // + tileRowIndex = (y / MicroTileHeight) % pTileInfo->bankHeight; + tileColumnIndex = ((x / MicroTileWidth) / numPipes) % pTileInfo->bankWidth; + tileIndex = (tileRowIndex * pTileInfo->bankWidth) + tileColumnIndex; + tileOffset = tileIndex * microTileBytes; + + // + // Combine the slice offset and macro tile offset with the pixel and sample offsets, accounting + // for the pipe and bank bits in the middle of the address. + // + totalOffset = sliceOffset + macroTileOffset + elementOffset + tileOffset; + + // + // Get the pipe and bank. + // + + // when the tileMode is PRT type, then adjust x and y coordinates + if (IsPrtNoRotationTileMode(tileMode)) + { + x = x % macroTilePitch; + y = y % macroTileHeight; + } + + pipe = ComputePipeFromCoord(x, + y, + slice, + tileMode, + pipeSwizzle, + ignoreSE, + pTileInfo); + + bank = ComputeBankFromCoord(x, + y, + slice, + tileMode, + bankSwizzle, + tileSplitSlice, + pTileInfo); + + // + // Split the offset to put some bits below the pipe+bank bits and some above. + // + pipeInterleaveMask = (1 << numPipeInterleaveBits) - 1; + bankInterleaveMask = (1 << numBankInterleaveBits) - 1; + pipeInterleaveOffset = totalOffset & pipeInterleaveMask; + bankInterleaveOffset = static_cast((totalOffset >> numPipeInterleaveBits) & + bankInterleaveMask); + offset = totalOffset >> (numPipeInterleaveBits + numBankInterleaveBits); + + // + // Assemble the address from its components. + // + addr = pipeInterleaveOffset; + // This is to remove /analyze warnings + UINT_32 pipeBits = pipe << numPipeInterleaveBits; + UINT_32 bankInterleaveBits = bankInterleaveOffset << (numPipeInterleaveBits + numPipeBits); + UINT_32 bankBits = bank << (numPipeInterleaveBits + numPipeBits + + numBankInterleaveBits); + UINT_64 offsetBits = offset << (numPipeInterleaveBits + numPipeBits + + numBankInterleaveBits + numBankBits); + + addr |= pipeBits; + addr |= bankInterleaveBits; + addr |= bankBits; + addr |= offsetBits; + + return addr; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceAddrFromCoordMicroTiled +* +* @brief +* Computes the surface address and bit position from a coordinate for 1D tilied +* (micro tiled) +* @return +* The byte address +**************************************************************************************************** +*/ +UINT_64 EgBasedLib::ComputeSurfaceAddrFromCoordMicroTiled( + UINT_32 x, ///< [in] x coordinate + UINT_32 y, ///< [in] y coordinate + UINT_32 slice, ///< [in] slice index + UINT_32 sample, ///< [in] sample index + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 pitch, ///< [in] pitch, in pixels + UINT_32 height, ///< [in] height, in pixels + UINT_32 numSamples, ///< [in] number of samples + AddrTileMode tileMode, ///< [in] tile mode + AddrTileType microTileType, ///< [in] micro tiling type + BOOL_32 isDepthSampleOrder, ///< [in] TRUE if depth sample ordering is used + UINT_32* pBitPosition ///< [out] bit position, e.g. FMT_1 will use this + ) const +{ + UINT_64 addr = 0; + + UINT_32 microTileBytes; + UINT_64 sliceBytes; + UINT_32 microTilesPerRow; + UINT_32 microTileIndexX; + UINT_32 microTileIndexY; + UINT_32 microTileIndexZ; + UINT_64 sliceOffset; + UINT_64 microTileOffset; + UINT_32 sampleOffset; + UINT_32 pixelIndex; + UINT_32 pixelOffset; + + UINT_32 microTileThickness = Thickness(tileMode); + + // + // Compute the micro tile size. + // + microTileBytes = BITS_TO_BYTES(MicroTilePixels * microTileThickness * bpp * numSamples); + + // + // Compute the slice size. + // + sliceBytes = + BITS_TO_BYTES(static_cast(pitch) * height * microTileThickness * bpp * numSamples); + + // + // Compute the number of micro tiles per row. + // + microTilesPerRow = pitch / MicroTileWidth; + + // + // Compute the micro tile index. + // + microTileIndexX = x / MicroTileWidth; + microTileIndexY = y / MicroTileHeight; + microTileIndexZ = slice / microTileThickness; + + // + // Compute the slice offset. + // + sliceOffset = static_cast(microTileIndexZ) * sliceBytes; + + // + // Compute the offset to the micro tile containing the specified coordinate. + // + microTileOffset = (static_cast(microTileIndexY) * microTilesPerRow + microTileIndexX) * + microTileBytes; + + // + // Compute the pixel index within the micro tile. + // + pixelIndex = ComputePixelIndexWithinMicroTile(x, + y, + slice, + bpp, + tileMode, + microTileType); + + // Compute the sample offset. + // + if (isDepthSampleOrder) + { + // + // For depth surfaces, samples are stored contiguously for each element, so the sample + // offset is the sample number times the element size. + // + sampleOffset = sample * bpp; + pixelOffset = pixelIndex * bpp * numSamples; + } + else + { + // + // For color surfaces, all elements for a particular sample are stored contiguously, so + // the sample offset is the sample number times the micro tile size divided yBit the number + // of samples. + // + sampleOffset = sample * (microTileBytes*8 / numSamples); + pixelOffset = pixelIndex * bpp; + } + + // + // Compute the bit position of the pixel. Each element is stored with one bit per sample. + // + + UINT_32 elemOffset = sampleOffset + pixelOffset; + + *pBitPosition = elemOffset % 8; + elemOffset /= 8; + + // + // Combine the slice offset, micro tile offset, sample offset, and pixel offsets. + // + addr = sliceOffset + microTileOffset + elemOffset; + + return addr; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputePixelCoordFromOffset +* +* @brief +* Compute pixel coordinate from offset inside a micro tile +* @return +* N/A +**************************************************************************************************** +*/ +VOID EgBasedLib::HwlComputePixelCoordFromOffset( + UINT_32 offset, ///< [in] offset inside micro tile in bits + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 numSamples, ///< [in] number of samples + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 tileBase, ///< [in] base offset within a tile + UINT_32 compBits, ///< [in] component bits actually needed(for planar surface) + UINT_32* pX, ///< [out] x coordinate + UINT_32* pY, ///< [out] y coordinate + UINT_32* pSlice, ///< [out] slice index + UINT_32* pSample, ///< [out] sample index + AddrTileType microTileType, ///< [in] micro tiling type + BOOL_32 isDepthSampleOrder ///< [in] TRUE if depth sample order in microtile is used + ) const +{ + UINT_32 x = 0; + UINT_32 y = 0; + UINT_32 z = 0; + UINT_32 thickness = Thickness(tileMode); + + // For planar surface, we adjust offset acoording to tile base + if ((bpp != compBits) && (compBits != 0) && isDepthSampleOrder) + { + offset -= tileBase; + + ADDR_ASSERT(microTileType == ADDR_NON_DISPLAYABLE || + microTileType == ADDR_DEPTH_SAMPLE_ORDER); + + bpp = compBits; + } + + UINT_32 sampleTileBits; + UINT_32 samplePixelBits; + UINT_32 pixelIndex; + + if (isDepthSampleOrder) + { + samplePixelBits = bpp * numSamples; + pixelIndex = offset / samplePixelBits; + *pSample = (offset % samplePixelBits) / bpp; + } + else + { + sampleTileBits = MicroTilePixels * bpp * thickness; + *pSample = offset / sampleTileBits; + pixelIndex = (offset % sampleTileBits) / bpp; + } + + if (microTileType != ADDR_THICK) + { + if (microTileType == ADDR_DISPLAYABLE) // displayable + { + switch (bpp) + { + case 8: + x = pixelIndex & 0x7; + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,3),_BIT(pixelIndex,4)); + break; + case 16: + x = pixelIndex & 0x7; + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,3)); + break; + case 32: + x = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,1),_BIT(pixelIndex,0)); + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,2)); + break; + case 64: + x = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,1)); + break; + case 128: + x = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,2),_BIT(pixelIndex,1)); + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,0)); + break; + default: + break; + } + } + else if (microTileType == ADDR_NON_DISPLAYABLE || microTileType == ADDR_DEPTH_SAMPLE_ORDER) + { + x = Bits2Number(3, _BIT(pixelIndex,4),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,3),_BIT(pixelIndex,1)); + } + else if (microTileType == ADDR_ROTATED) + { + /* + 8-Bit Elements + element_index[5:0] = { x[2], x[0], x[1], y[2], y[1], y[0] } + + 16-Bit Elements + element_index[5:0] = { x[2], x[1], x[0], y[2], y[1], y[0] } + + 32-Bit Elements + element_index[5:0] = { x[2], x[1], y[2], x[0], y[1], y[0] } + + 64-Bit Elements + element_index[5:0] = { y[2], x[2], x[1], y[1], x[0], y[0] } + */ + switch(bpp) + { + case 8: + x = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,3),_BIT(pixelIndex,4)); + y = pixelIndex & 0x7; + break; + case 16: + x = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,3)); + y = pixelIndex & 0x7; + break; + case 32: + x = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,4),_BIT(pixelIndex,2)); + y = Bits2Number(3, _BIT(pixelIndex,3),_BIT(pixelIndex,1),_BIT(pixelIndex,0)); + break; + case 64: + x = Bits2Number(3, _BIT(pixelIndex,4),_BIT(pixelIndex,3),_BIT(pixelIndex,1)); + y = Bits2Number(3, _BIT(pixelIndex,5),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + + if (thickness > 1) // thick + { + z = Bits2Number(3, _BIT(pixelIndex,8),_BIT(pixelIndex,7),_BIT(pixelIndex,6)); + } + } + else + { + ADDR_ASSERT((m_chipFamily >= ADDR_CHIP_FAMILY_CI) && (thickness > 1)); + /* + 8-Bit Elements and 16-Bit Elements + element_index[7:0] = { y[2], x[2], z[1], z[0], y[1], x[1], y[0], x[0] } + + 32-Bit Elements + element_index[7:0] = { y[2], x[2], z[1], y[1], z[0], x[1], y[0], x[0] } + + 64-Bit Elements and 128-Bit Elements + element_index[7:0] = { y[2], x[2], z[1], y[1], x[1], z[0], y[0], x[0] } + + The equation to compute the element index for the extra thick tile: + element_index[8] = z[2] + */ + switch (bpp) + { + case 8: + case 16: // fall-through + x = Bits2Number(3, _BIT(pixelIndex,6),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); + y = Bits2Number(3, _BIT(pixelIndex,7),_BIT(pixelIndex,3),_BIT(pixelIndex,1)); + z = Bits2Number(2, _BIT(pixelIndex,5),_BIT(pixelIndex,4)); + break; + case 32: + x = Bits2Number(3, _BIT(pixelIndex,6),_BIT(pixelIndex,2),_BIT(pixelIndex,0)); + y = Bits2Number(3, _BIT(pixelIndex,7),_BIT(pixelIndex,4),_BIT(pixelIndex,1)); + z = Bits2Number(2, _BIT(pixelIndex,5),_BIT(pixelIndex,3)); + break; + case 64: + case 128: // fall-through + x = Bits2Number(3, _BIT(pixelIndex,6),_BIT(pixelIndex,3),_BIT(pixelIndex,0)); + y = Bits2Number(3, _BIT(pixelIndex,7),_BIT(pixelIndex,4),_BIT(pixelIndex,1)); + z = Bits2Number(2, _BIT(pixelIndex,5),_BIT(pixelIndex,2)); + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + if (thickness == 8) + { + z += Bits2Number(3,_BIT(pixelIndex,8),0,0); + } + } + + *pX = x; + *pY = y; + *pSlice += z; +} + +/** +**************************************************************************************************** +* EgBasedLib::DispatchComputeSurfaceCoordFromAddrDispatch +* +* @brief +* Compute (x,y,slice,sample) coordinates from surface address +* @return +* N/A +**************************************************************************************************** +*/ +VOID EgBasedLib::DispatchComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + UINT_64 addr = pIn->addr; + UINT_32 bitPosition = pIn->bitPosition; + UINT_32 bpp = pIn->bpp; + UINT_32 pitch = pIn->pitch; + UINT_32 height = pIn->height; + UINT_32 numSlices = pIn->numSlices; + UINT_32 numSamples = ((pIn->numSamples == 0) ? 1 : pIn->numSamples); + UINT_32 numFrags = ((pIn->numFrags == 0) ? numSamples : pIn->numFrags); + AddrTileMode tileMode = pIn->tileMode; + UINT_32 tileBase = pIn->tileBase; + UINT_32 compBits = pIn->compBits; + AddrTileType microTileType = pIn->tileType; + BOOL_32 ignoreSE = pIn->ignoreSE; + BOOL_32 isDepthSampleOrder = pIn->isDepth; + ADDR_TILEINFO* pTileInfo = pIn->pTileInfo; + + UINT_32* pX = &pOut->x; + UINT_32* pY = &pOut->y; + UINT_32* pSlice = &pOut->slice; + UINT_32* pSample = &pOut->sample; + + if (microTileType == ADDR_DEPTH_SAMPLE_ORDER) + { + isDepthSampleOrder = TRUE; + } + + if (m_chipFamily >= ADDR_CHIP_FAMILY_NI) + { + if (numFrags != numSamples) + { + numSamples = numFrags; + } + + /// @note + /// 128 bit/thick tiled surface doesn't support display tiling and + /// mipmap chain must have the same tileType, so please fill tileType correctly + if (IsLinear(pIn->tileMode) == FALSE) + { + if (bpp >= 128 || Thickness(tileMode) > 1) + { + ADDR_ASSERT(microTileType != ADDR_DISPLAYABLE); + } + } + } + + switch (tileMode) + { + case ADDR_TM_LINEAR_GENERAL://fall through + case ADDR_TM_LINEAR_ALIGNED: + ComputeSurfaceCoordFromAddrLinear(addr, + bitPosition, + bpp, + pitch, + height, + numSlices, + pX, + pY, + pSlice, + pSample); + break; + case ADDR_TM_1D_TILED_THIN1://fall through + case ADDR_TM_1D_TILED_THICK: + ComputeSurfaceCoordFromAddrMicroTiled(addr, + bitPosition, + bpp, + pitch, + height, + numSamples, + tileMode, + tileBase, + compBits, + pX, + pY, + pSlice, + pSample, + microTileType, + isDepthSampleOrder); + break; + case ADDR_TM_2D_TILED_THIN1: //fall through + case ADDR_TM_2D_TILED_THICK: //fall through + case ADDR_TM_3D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THICK: //fall through + case ADDR_TM_2D_TILED_XTHICK: //fall through + case ADDR_TM_3D_TILED_XTHICK: //fall through + case ADDR_TM_PRT_TILED_THIN1: //fall through + case ADDR_TM_PRT_2D_TILED_THIN1://fall through + case ADDR_TM_PRT_3D_TILED_THIN1://fall through + case ADDR_TM_PRT_TILED_THICK: //fall through + case ADDR_TM_PRT_2D_TILED_THICK://fall through + case ADDR_TM_PRT_3D_TILED_THICK: + UINT_32 pipeSwizzle; + UINT_32 bankSwizzle; + + if (m_configFlags.useCombinedSwizzle) + { + ExtractBankPipeSwizzle(pIn->tileSwizzle, pIn->pTileInfo, + &bankSwizzle, &pipeSwizzle); + } + else + { + pipeSwizzle = pIn->pipeSwizzle; + bankSwizzle = pIn->bankSwizzle; + } + + ComputeSurfaceCoordFromAddrMacroTiled(addr, + bitPosition, + bpp, + pitch, + height, + numSamples, + tileMode, + tileBase, + compBits, + microTileType, + ignoreSE, + isDepthSampleOrder, + pipeSwizzle, + bankSwizzle, + pTileInfo, + pX, + pY, + pSlice, + pSample); + break; + default: + ADDR_ASSERT_ALWAYS(); + } +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceCoordFromAddrMacroTiled +* +* @brief +* Compute surface coordinates from address for macro tiled surface +* @return +* N/A +**************************************************************************************************** +*/ +VOID EgBasedLib::ComputeSurfaceCoordFromAddrMacroTiled( + UINT_64 addr, ///< [in] byte address + UINT_32 bitPosition, ///< [in] bit position + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 pitch, ///< [in] pitch in pixels + UINT_32 height, ///< [in] height in pixels + UINT_32 numSamples, ///< [in] number of samples + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 tileBase, ///< [in] tile base offset + UINT_32 compBits, ///< [in] component bits (for planar surface) + AddrTileType microTileType, ///< [in] micro tiling type + BOOL_32 ignoreSE, ///< [in] TRUE if shader engines can be ignored + BOOL_32 isDepthSampleOrder, ///< [in] TRUE if depth sample order is used + UINT_32 pipeSwizzle, ///< [in] pipe swizzle + UINT_32 bankSwizzle, ///< [in] bank swizzle + ADDR_TILEINFO* pTileInfo, ///< [in] bank structure. + /// **All fields to be valid on entry** + UINT_32* pX, ///< [out] X coord + UINT_32* pY, ///< [out] Y coord + UINT_32* pSlice, ///< [out] slice index + UINT_32* pSample ///< [out] sample index + ) const +{ + UINT_32 mx; + UINT_32 my; + UINT_64 tileBits; + UINT_64 macroTileBits; + UINT_32 slices; + UINT_32 tileSlices; + UINT_64 elementOffset; + UINT_64 macroTileIndex; + UINT_32 tileIndex; + UINT_64 totalOffset; + + UINT_32 bank; + UINT_32 pipe; + UINT_32 groupBits = m_pipeInterleaveBytes << 3; + UINT_32 pipes = HwlGetPipes(pTileInfo); + UINT_32 banks = pTileInfo->banks; + + UINT_32 bankInterleave = m_bankInterleave; + + UINT_64 addrBits = BYTES_TO_BITS(addr) + bitPosition; + + // + // remove bits for bank and pipe + // + totalOffset = (addrBits % groupBits) + + (((addrBits / groupBits / pipes) % bankInterleave) * groupBits) + + (((addrBits / groupBits / pipes) / bankInterleave) / banks) * groupBits * bankInterleave; + + UINT_32 microTileThickness = Thickness(tileMode); + + UINT_32 microTileBits = bpp * microTileThickness * MicroTilePixels * numSamples; + + UINT_32 microTileBytes = BITS_TO_BYTES(microTileBits); + // + // Determine if tiles need to be split across slices. + // + // If the size of the micro tile is larger than the tile split size, then the tile will be + // split across multiple slices. + // + UINT_32 slicesPerTile = 1; //_State->TileSlices + + if ((microTileBytes > pTileInfo->tileSplitBytes) && (microTileThickness == 1)) + { //don't support for thick mode + + // + // Compute the number of slices per tile. + // + slicesPerTile = microTileBytes / pTileInfo->tileSplitBytes; + } + + tileBits = microTileBits / slicesPerTile; // micro tile bits + + // in micro tiles because not MicroTileWidth timed. + UINT_32 macroWidth = pTileInfo->bankWidth * pipes * pTileInfo->macroAspectRatio; + // in micro tiles as well + UINT_32 macroHeight = pTileInfo->bankHeight * banks / pTileInfo->macroAspectRatio; + + UINT_32 pitchInMacroTiles = pitch / MicroTileWidth / macroWidth; + + macroTileBits = (macroWidth * macroHeight) * tileBits / (banks * pipes); + + macroTileIndex = totalOffset / macroTileBits; + + // pitchMacros * height / heightMacros; macroTilesPerSlice == _State->SliceMacros + UINT_32 macroTilesPerSlice = (pitch / (macroWidth * MicroTileWidth)) * height / + (macroHeight * MicroTileWidth); + + slices = static_cast(macroTileIndex / macroTilesPerSlice); + + *pSlice = static_cast(slices / slicesPerTile * microTileThickness); + + // + // calculate element offset and x[2:0], y[2:0], z[1:0] for thick + // + tileSlices = slices % slicesPerTile; + + elementOffset = tileSlices * tileBits; + elementOffset += totalOffset % tileBits; + + UINT_32 coordZ = 0; + + HwlComputePixelCoordFromOffset(static_cast(elementOffset), + bpp, + numSamples, + tileMode, + tileBase, + compBits, + pX, + pY, + &coordZ, + pSample, + microTileType, + isDepthSampleOrder); + + macroTileIndex = macroTileIndex % macroTilesPerSlice; + *pY += static_cast(macroTileIndex / pitchInMacroTiles * macroHeight * MicroTileHeight); + *pX += static_cast(macroTileIndex % pitchInMacroTiles * macroWidth * MicroTileWidth); + + *pSlice += coordZ; + + tileIndex = static_cast((totalOffset % macroTileBits) / tileBits); + + my = (tileIndex / pTileInfo->bankWidth) % pTileInfo->bankHeight * MicroTileHeight; + mx = (tileIndex % pTileInfo->bankWidth) * pipes * MicroTileWidth; + + *pY += my; + *pX += mx; + + bank = ComputeBankFromAddr(addr, banks, pipes); + pipe = ComputePipeFromAddr(addr, pipes); + + HwlComputeSurfaceCoord2DFromBankPipe(tileMode, + pX, + pY, + *pSlice, + bank, + pipe, + bankSwizzle, + pipeSwizzle, + tileSlices, + ignoreSE, + pTileInfo); +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSurfaceCoord2DFromBankPipe +* +* @brief +* Compute surface x,y coordinates from bank/pipe info +* @return +* N/A +**************************************************************************************************** +*/ +VOID EgBasedLib::ComputeSurfaceCoord2DFromBankPipe( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 x, ///< [in] x coordinate + UINT_32 y, ///< [in] y coordinate + UINT_32 slice, ///< [in] slice index + UINT_32 bank, ///< [in] bank number + UINT_32 pipe, ///< [in] pipe number + UINT_32 bankSwizzle,///< [in] bank swizzle + UINT_32 pipeSwizzle,///< [in] pipe swizzle + UINT_32 tileSlices, ///< [in] slices in a micro tile + ADDR_TILEINFO* pTileInfo, ///< [in] bank structure. **All fields to be valid on entry** + CoordFromBankPipe* pOutput ///< [out] pointer to extracted x/y bits + ) const +{ + UINT_32 yBit3 = 0; + UINT_32 yBit4 = 0; + UINT_32 yBit5 = 0; + UINT_32 yBit6 = 0; + + UINT_32 xBit3 = 0; + UINT_32 xBit4 = 0; + UINT_32 xBit5 = 0; + + UINT_32 tileSplitRotation; + + UINT_32 numPipes = HwlGetPipes(pTileInfo); + + UINT_32 bankRotation = ComputeBankRotation(tileMode, + pTileInfo->banks, numPipes); + + UINT_32 pipeRotation = ComputePipeRotation(tileMode, numPipes); + + UINT_32 xBit = x / (MicroTileWidth * pTileInfo->bankWidth * numPipes); + UINT_32 yBit = y / (MicroTileHeight * pTileInfo->bankHeight); + + //calculate the bank and pipe before rotation and swizzle + + switch (tileMode) + { + case ADDR_TM_2D_TILED_THIN1: //fall through + case ADDR_TM_2D_TILED_THICK: //fall through + case ADDR_TM_2D_TILED_XTHICK: //fall through + case ADDR_TM_3D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THICK: //fall through + case ADDR_TM_3D_TILED_XTHICK: + tileSplitRotation = ((pTileInfo->banks / 2) + 1); + break; + default: + tileSplitRotation = 0; + break; + } + + UINT_32 microTileThickness = Thickness(tileMode); + + bank ^= tileSplitRotation * tileSlices; + if (pipeRotation == 0) + { + bank ^= bankRotation * (slice / microTileThickness) + bankSwizzle; + bank %= pTileInfo->banks; + pipe ^= pipeSwizzle; + } + else + { + bank ^= bankRotation * (slice / microTileThickness) / numPipes + bankSwizzle; + bank %= pTileInfo->banks; + pipe ^= pipeRotation * (slice / microTileThickness) + pipeSwizzle; + } + + if (pTileInfo->macroAspectRatio == 1) + { + switch (pTileInfo->banks) + { + case 2: + yBit3 = _BIT(bank, 0) ^ _BIT(xBit,0); + break; + case 4: + yBit4 = _BIT(bank, 0) ^ _BIT(xBit,0); + yBit3 = _BIT(bank, 1) ^ _BIT(xBit,1); + break; + case 8: + yBit3 = _BIT(bank, 2) ^ _BIT(xBit,2); + yBit5 = _BIT(bank, 0) ^ _BIT(xBit,0); + yBit4 = _BIT(bank, 1) ^ _BIT(xBit,1) ^ yBit5; + break; + case 16: + yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); + yBit4 = _BIT(bank, 2) ^ _BIT(xBit, 2); + yBit6 = _BIT(bank, 0) ^ _BIT(xBit, 0); + yBit5 = _BIT(bank, 1) ^ _BIT(xBit, 1) ^ yBit6; + break; + default: + break; + } + + } + else if (pTileInfo->macroAspectRatio == 2) + { + switch (pTileInfo->banks) + { + case 2: //xBit3 = yBit3^b0 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit,0); + break; + case 4: //xBit3=yBit4^b0; yBit3=xBit4^b1 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit,1); + yBit3 = _BIT(bank, 1) ^ _BIT(xBit,1); + break; + case 8: //xBit4, xBit5, yBit5 are known + xBit3 = _BIT(bank, 0) ^ _BIT(yBit,2); + yBit3 = _BIT(bank, 2) ^ _BIT(xBit,2); + yBit4 = _BIT(bank, 1) ^ _BIT(xBit,1) ^ _BIT(yBit, 2); + break; + case 16://x4,x5,x6,y6 are known + xBit3 = _BIT(bank, 0) ^ _BIT(yBit, 3); //x3 = y6 ^ b0 + yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); //y3 = x6 ^ b3 + yBit4 = _BIT(bank, 2) ^ _BIT(xBit, 2); //y4 = x5 ^ b2 + yBit5 = _BIT(bank, 1) ^ _BIT(xBit, 1) ^ _BIT(yBit, 3); //y5=x4^y6^b1 + break; + default: + break; + } + } + else if (pTileInfo->macroAspectRatio == 4) + { + switch (pTileInfo->banks) + { + case 4: //yBit3, yBit4 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit,1); + xBit4 = _BIT(bank, 1) ^ _BIT(yBit,0); + break; + case 8: //xBit5, yBit4, yBit5 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit,2); + yBit3 = _BIT(bank, 2) ^ _BIT(xBit,2); + xBit4 = _BIT(bank, 1) ^ _BIT(yBit,1) ^ _BIT(yBit,2); + break; + case 16: //xBit5, xBit6, yBit5, yBit6 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit, 3);//x3 = b0 ^ y6 + xBit4 = _BIT(bank, 1) ^ _BIT(yBit, 2) ^ _BIT(yBit, 3);//x4 = b1 ^ y5 ^ y6; + yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); //y3 = b3 ^ x6; + yBit4 = _BIT(bank, 2) ^ _BIT(xBit, 2); //y4 = b2 ^ x5; + break; + default: + break; + } + } + else if (pTileInfo->macroAspectRatio == 8) + { + switch (pTileInfo->banks) + { + case 8: //yBit3, yBit4, yBit5 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit,2); //x3 = b0 ^ y5; + xBit4 = _BIT(bank, 1) ^ _BIT(yBit,1) ^ _BIT(yBit, 2);//x4 = b1 ^ y4 ^ y5; + xBit5 = _BIT(bank, 2) ^ _BIT(yBit,0); + break; + case 16: //xBit6, yBit4, yBit5, yBit6 + xBit3 = _BIT(bank, 0) ^ _BIT(yBit, 3);//x3 = y6 ^ b0 + xBit4 = _BIT(bank, 1) ^ _BIT(yBit, 2) ^ _BIT(yBit, 3);//x4 = y5 ^ y6 ^ b1 + xBit5 = _BIT(bank, 2) ^ _BIT(yBit, 1);//x5 = y4 ^ b2 + yBit3 = _BIT(bank, 3) ^ _BIT(xBit, 3); //y3 = x6 ^ b3 + break; + default: + break; + } + } + + pOutput->xBits = xBit; + pOutput->yBits = yBit; + + pOutput->xBit3 = xBit3; + pOutput->xBit4 = xBit4; + pOutput->xBit5 = xBit5; + pOutput->yBit3 = yBit3; + pOutput->yBit4 = yBit4; + pOutput->yBit5 = yBit5; + pOutput->yBit6 = yBit6; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlExtractBankPipeSwizzle +* @brief +* Entry of EgBasedLib ExtractBankPipeSwizzle +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlExtractBankPipeSwizzle( + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, ///< [in] input structure + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut ///< [out] output structure + ) const +{ + ExtractBankPipeSwizzle(pIn->base256b, + pIn->pTileInfo, + &pOut->bankSwizzle, + &pOut->pipeSwizzle); + + return ADDR_OK; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlCombineBankPipeSwizzle +* @brief +* Combine bank/pipe swizzle +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlCombineBankPipeSwizzle( + UINT_32 bankSwizzle, ///< [in] bank swizzle + UINT_32 pipeSwizzle, ///< [in] pipe swizzle + ADDR_TILEINFO* pTileInfo, ///< [in] tile info + UINT_64 baseAddr, ///< [in] base address + UINT_32* pTileSwizzle ///< [out] combined swizzle + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + if (pTileSwizzle) + { + *pTileSwizzle = GetBankPipeSwizzle(bankSwizzle, pipeSwizzle, baseAddr, pTileInfo); + } + else + { + retCode = ADDR_INVALIDPARAMS; + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeBaseSwizzle +* @brief +* Compute base swizzle +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeBaseSwizzle( + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut + ) const +{ + UINT_32 bankSwizzle = 0; + UINT_32 pipeSwizzle = 0; + ADDR_TILEINFO* pTileInfo = pIn->pTileInfo; + + ADDR_ASSERT(IsMacroTiled(pIn->tileMode)); + ADDR_ASSERT(pIn->pTileInfo); + + /// This is a legacy misreading of h/w doc, use it as it doesn't hurt. + static const UINT_8 bankRotationArray[4][16] = { + { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, // ADDR_SURF_2_BANK + { 0, 1, 2, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, // ADDR_SURF_4_BANK + { 0, 3, 6, 1, 4, 7, 2, 5, 0, 0, 0, 0, 0, 0, 0, 0 }, // ADDR_SURF_8_BANK + { 0, 7, 14, 5, 12, 3, 10, 1, 8, 15, 6, 13, 4, 11, 2, 9 }, // ADDR_SURF_16_BANK + }; + + UINT_32 pipes = HwlGetPipes(pTileInfo); + (void)pipes; + UINT_32 banks = pTileInfo ? pTileInfo->banks : 2; + UINT_32 hwNumBanks; + + // Uses less bank swizzle bits + if (pIn->option.reduceBankBit && banks > 2) + { + banks >>= 1; + } + + switch (banks) + { + case 2: + hwNumBanks = 0; + break; + case 4: + hwNumBanks = 1; + break; + case 8: + hwNumBanks = 2; + break; + case 16: + hwNumBanks = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + hwNumBanks = 0; + break; + } + + if (pIn->option.genOption == ADDR_SWIZZLE_GEN_LINEAR) + { + bankSwizzle = pIn->surfIndex & (banks - 1); + } + else // (pIn->option.genOption == ADDR_SWIZZLE_GEN_DEFAULT) + { + bankSwizzle = bankRotationArray[hwNumBanks][pIn->surfIndex & (banks - 1)]; + } + + if (IsMacro3dTiled(pIn->tileMode)) + { + pipeSwizzle = pIn->surfIndex & (HwlGetPipes(pTileInfo) - 1); + } + + return HwlCombineBankPipeSwizzle(bankSwizzle, pipeSwizzle, pTileInfo, 0, &pOut->tileSwizzle); +} + +/** +**************************************************************************************************** +* EgBasedLib::ExtractBankPipeSwizzle +* @brief +* Extract bank/pipe swizzle from base256b +* @return +* N/A +**************************************************************************************************** +*/ +VOID EgBasedLib::ExtractBankPipeSwizzle( + UINT_32 base256b, ///< [in] input base256b register value + ADDR_TILEINFO* pTileInfo, ///< [in] 2D tile parameters. Client must provide all data + UINT_32* pBankSwizzle, ///< [out] bank swizzle + UINT_32* pPipeSwizzle ///< [out] pipe swizzle + ) const +{ + UINT_32 bankSwizzle = 0; + UINT_32 pipeSwizzle = 0; + + if (base256b != 0) + { + UINT_32 numPipes = HwlGetPipes(pTileInfo); + UINT_32 bankBits = QLog2(pTileInfo->banks); + UINT_32 pipeBits = QLog2(numPipes); + UINT_32 groupBytes = m_pipeInterleaveBytes; + UINT_32 bankInterleave = m_bankInterleave; + + pipeSwizzle = + (base256b / (groupBytes >> 8)) & ((1<> 8) / numPipes / bankInterleave) & ((1 << bankBits) - 1); + } + + *pPipeSwizzle = pipeSwizzle; + *pBankSwizzle = bankSwizzle; +} + +/** +**************************************************************************************************** +* EgBasedLib::GetBankPipeSwizzle +* @brief +* Combine bank/pipe swizzle +* @return +* Base256b bits (only filled bank/pipe bits) +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::GetBankPipeSwizzle( + UINT_32 bankSwizzle, ///< [in] bank swizzle + UINT_32 pipeSwizzle, ///< [in] pipe swizzle + UINT_64 baseAddr, ///< [in] base address + ADDR_TILEINFO* pTileInfo ///< [in] tile info + ) const +{ + UINT_32 pipeBits = QLog2(HwlGetPipes(pTileInfo)); + UINT_32 bankInterleaveBits = QLog2(m_bankInterleave); + UINT_32 tileSwizzle = pipeSwizzle + ((bankSwizzle << bankInterleaveBits) << pipeBits); + + baseAddr ^= tileSwizzle * m_pipeInterleaveBytes; + baseAddr >>= 8; + + return static_cast(baseAddr); +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeSliceTileSwizzle +* @brief +* Compute cubemap/3d texture faces/slices tile swizzle +* @return +* Tile swizzle +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputeSliceTileSwizzle( + AddrTileMode tileMode, ///< [in] Tile mode + UINT_32 baseSwizzle, ///< [in] Base swizzle + UINT_32 slice, ///< [in] Slice index, Cubemap face index, 0 means +X + UINT_64 baseAddr, ///< [in] Base address + ADDR_TILEINFO* pTileInfo ///< [in] Bank structure + ) const +{ + UINT_32 tileSwizzle = 0; + + if (IsMacroTiled(tileMode)) // Swizzle only for macro tile mode + { + UINT_32 firstSlice = slice / Thickness(tileMode); + + UINT_32 numPipes = HwlGetPipes(pTileInfo); + UINT_32 numBanks = pTileInfo->banks; + + UINT_32 pipeRotation; + UINT_32 bankRotation; + + UINT_32 bankSwizzle = 0; + UINT_32 pipeSwizzle = 0; + + pipeRotation = ComputePipeRotation(tileMode, numPipes); + bankRotation = ComputeBankRotation(tileMode, numBanks, numPipes); + + if (baseSwizzle != 0) + { + ExtractBankPipeSwizzle(baseSwizzle, + pTileInfo, + &bankSwizzle, + &pipeSwizzle); + } + + if (pipeRotation == 0) //2D mode + { + bankSwizzle += firstSlice * bankRotation; + bankSwizzle %= numBanks; + } + else //3D mode + { + pipeSwizzle += firstSlice * pipeRotation; + pipeSwizzle %= numPipes; + bankSwizzle += firstSlice * bankRotation / numPipes; + bankSwizzle %= numBanks; + } + + tileSwizzle = GetBankPipeSwizzle(bankSwizzle, + pipeSwizzle, + baseAddr, + pTileInfo); + } + + return tileSwizzle; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeQbStereoRightSwizzle +* +* @brief +* Compute right eye swizzle +* @return +* swizzle +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::HwlComputeQbStereoRightSwizzle( + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pInfo ///< [in] Surface info, must be valid + ) const +{ + UINT_32 bankBits = 0; + UINT_32 swizzle = 0; + + // The assumption is default swizzle for left eye is 0 + if (IsMacroTiled(pInfo->tileMode) && pInfo->pStereoInfo && pInfo->pTileInfo) + { + bankBits = ComputeBankFromCoord(0, pInfo->height, 0, + pInfo->tileMode, 0, 0, pInfo->pTileInfo); + + if (bankBits) + { + HwlCombineBankPipeSwizzle(bankBits, 0, pInfo->pTileInfo, 0, &swizzle); + } + } + + return swizzle; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeBankFromCoord +* +* @brief +* Compute bank number from coordinates +* @return +* Bank number +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputeBankFromCoord( + UINT_32 x, ///< [in] x coordinate + UINT_32 y, ///< [in] y coordinate + UINT_32 slice, ///< [in] slice index + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bankSwizzle, ///< [in] bank swizzle + UINT_32 tileSplitSlice, ///< [in] If the size of the pixel offset is larger than the + /// tile split size, then the pixel will be moved to a separate + /// slice. This value equals pixelOffset / tileSplitBytes + /// in this case. Otherwise this is 0. + ADDR_TILEINFO* pTileInfo ///< [in] tile info + ) const +{ + UINT_32 pipes = HwlGetPipes(pTileInfo); + UINT_32 bankBit0 = 0; + UINT_32 bankBit1 = 0; + UINT_32 bankBit2 = 0; + UINT_32 bankBit3 = 0; + UINT_32 sliceRotation; + UINT_32 tileSplitRotation; + UINT_32 bank; + UINT_32 numBanks = pTileInfo->banks; + UINT_32 bankWidth = pTileInfo->bankWidth; + UINT_32 bankHeight = pTileInfo->bankHeight; + + UINT_32 tx = x / MicroTileWidth / (bankWidth * pipes); + UINT_32 ty = y / MicroTileHeight / bankHeight; + + UINT_32 x3 = _BIT(tx,0); + UINT_32 x4 = _BIT(tx,1); + UINT_32 x5 = _BIT(tx,2); + UINT_32 x6 = _BIT(tx,3); + UINT_32 y3 = _BIT(ty,0); + UINT_32 y4 = _BIT(ty,1); + UINT_32 y5 = _BIT(ty,2); + UINT_32 y6 = _BIT(ty,3); + + switch (numBanks) + { + case 16: + bankBit0 = x3 ^ y6; + bankBit1 = x4 ^ y5 ^ y6; + bankBit2 = x5 ^ y4; + bankBit3 = x6 ^ y3; + break; + case 8: + bankBit0 = x3 ^ y5; + bankBit1 = x4 ^ y4 ^ y5; + bankBit2 = x5 ^ y3; + break; + case 4: + bankBit0 = x3 ^ y4; + bankBit1 = x4 ^ y3; + break; + case 2: + bankBit0 = x3 ^ y3; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + + bank = bankBit0 | (bankBit1 << 1) | (bankBit2 << 2) | (bankBit3 << 3); + + //Bits2Number(4, bankBit3, bankBit2, bankBit1, bankBit0); + + bank = HwlPreAdjustBank((x / MicroTileWidth), bank, pTileInfo); + // + // Compute bank rotation for the slice. + // + UINT_32 microTileThickness = Thickness(tileMode); + + switch (tileMode) + { + case ADDR_TM_2D_TILED_THIN1: // fall through + case ADDR_TM_2D_TILED_THICK: // fall through + case ADDR_TM_2D_TILED_XTHICK: + sliceRotation = ((numBanks / 2) - 1) * (slice / microTileThickness); + break; + case ADDR_TM_3D_TILED_THIN1: // fall through + case ADDR_TM_3D_TILED_THICK: // fall through + case ADDR_TM_3D_TILED_XTHICK: + sliceRotation = + Max(1u, (pipes / 2) - 1) * (slice / microTileThickness) / pipes; + break; + default: + sliceRotation = 0; + break; + } + + // + // Compute bank rotation for the tile split slice. + // + // The sample slice will be non-zero if samples must be split across multiple slices. + // This situation arises when the micro tile size multiplied yBit the number of samples exceeds + // the split size (set in GB_ADDR_CONFIG). + // + switch (tileMode) + { + case ADDR_TM_2D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THIN1: //fall through + case ADDR_TM_PRT_2D_TILED_THIN1: //fall through + case ADDR_TM_PRT_3D_TILED_THIN1: //fall through + tileSplitRotation = ((numBanks / 2) + 1) * tileSplitSlice; + break; + default: + tileSplitRotation = 0; + break; + } + + // + // Apply bank rotation for the slice and tile split slice. + // + bank ^= bankSwizzle + sliceRotation; + bank ^= tileSplitRotation; + + bank &= (numBanks - 1); + + return bank; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeBankFromAddr +* +* @brief +* Compute the bank number from an address +* @return +* Bank number +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputeBankFromAddr( + UINT_64 addr, ///< [in] address + UINT_32 numBanks, ///< [in] number of banks + UINT_32 numPipes ///< [in] number of pipes + ) const +{ + UINT_32 bank; + + // + // The LSBs of the address are arranged as follows: + // bank | bankInterleave | pipe | pipeInterleave + // + // To get the bank number, shift off the pipe interleave, pipe, and bank interlave bits and + // mask the bank bits. + // + bank = static_cast( + (addr >> Log2(m_pipeInterleaveBytes * numPipes * m_bankInterleave)) & + (numBanks - 1) + ); + + return bank; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputePipeRotation +* +* @brief +* Compute pipe rotation value +* @return +* Pipe rotation +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputePipeRotation( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 numPipes ///< [in] number of pipes + ) const +{ + UINT_32 rotation; + + switch (tileMode) + { + case ADDR_TM_3D_TILED_THIN1: //fall through + case ADDR_TM_3D_TILED_THICK: //fall through + case ADDR_TM_3D_TILED_XTHICK: //fall through + case ADDR_TM_PRT_3D_TILED_THIN1: //fall through + case ADDR_TM_PRT_3D_TILED_THICK: + rotation = (numPipes < 4) ? 1 : (numPipes / 2 - 1); + break; + default: + rotation = 0; + } + + return rotation; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeBankRotation +* +* @brief +* Compute bank rotation value +* @return +* Bank rotation +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputeBankRotation( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 numBanks, ///< [in] number of banks + UINT_32 numPipes ///< [in] number of pipes + ) const +{ + UINT_32 rotation; + + switch (tileMode) + { + case ADDR_TM_2D_TILED_THIN1: // fall through + case ADDR_TM_2D_TILED_THICK: // fall through + case ADDR_TM_2D_TILED_XTHICK: + case ADDR_TM_PRT_2D_TILED_THIN1: + case ADDR_TM_PRT_2D_TILED_THICK: + // Rotate banks per Z-slice yBit 1 for 4-bank or 3 for 8-bank + rotation = numBanks / 2 - 1; + break; + case ADDR_TM_3D_TILED_THIN1: // fall through + case ADDR_TM_3D_TILED_THICK: // fall through + case ADDR_TM_3D_TILED_XTHICK: + case ADDR_TM_PRT_3D_TILED_THIN1: + case ADDR_TM_PRT_3D_TILED_THICK: + rotation = (numPipes < 4) ? 1 : (numPipes / 2 - 1); // rotate pipes & banks + break; + default: + rotation = 0; + } + + return rotation; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeHtileBytes +* +* @brief +* Compute htile size in bytes +* +* @return +* Htile size in bytes +**************************************************************************************************** +*/ +UINT_64 EgBasedLib::ComputeHtileBytes( + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 bpp, ///< [in] bits per pixel + BOOL_32 isLinear, ///< [in] if it is linear mode + UINT_32 numSlices, ///< [in] number of slices + UINT_64* sliceBytes, ///< [out] bytes per slice + UINT_32 baseAlign ///< [in] base alignments + ) const +{ + UINT_64 surfBytes; + + const UINT_64 HtileCacheLineSize = BITS_TO_BYTES(HtileCacheBits); + + *sliceBytes = BITS_TO_BYTES(static_cast(pitch) * height * bpp / 64); + + if (m_configFlags.useHtileSliceAlign) + { + // Align the sliceSize to htilecachelinesize * pipes at first + *sliceBytes = PowTwoAlign(*sliceBytes, HtileCacheLineSize * m_pipes); + surfBytes = *sliceBytes * numSlices; + } + else + { + // Align the surfSize to htilecachelinesize * pipes at last + surfBytes = *sliceBytes * numSlices; + surfBytes = PowTwoAlign(surfBytes, HtileCacheLineSize * m_pipes); + } + + return surfBytes; +} + +/** +**************************************************************************************************** +* EgBasedLib::DispatchComputeFmaskInfo +* +* @brief +* Compute fmask sizes include padded pitch, height, slices, total size in bytes, +* meanwhile output suitable tile mode and alignments as well. Results are returned +* through output parameters. +* +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::DispatchComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut) ///< [out] output structure +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + ADDR_COMPUTE_SURFACE_INFO_INPUT surfIn = {0}; + ADDR_COMPUTE_SURFACE_INFO_OUTPUT surfOut = {0}; + + // Setup input structure + surfIn.tileMode = pIn->tileMode; + surfIn.width = pIn->pitch; + surfIn.height = pIn->height; + surfIn.numSlices = pIn->numSlices; + surfIn.pTileInfo = pIn->pTileInfo; + surfIn.tileType = ADDR_NON_DISPLAYABLE; + surfIn.flags.fmask = 1; + + // Setup output structure + surfOut.pTileInfo = pOut->pTileInfo; + + // Setup hwl specific fields + HwlFmaskPreThunkSurfInfo(pIn, pOut, &surfIn, &surfOut); + + surfIn.bpp = HwlComputeFmaskBits(pIn, &surfIn.numSamples); + + // ComputeSurfaceInfo needs numSamples in surfOut as surface routines need adjusted numSamples + surfOut.numSamples = surfIn.numSamples; + + retCode = HwlComputeSurfaceInfo(&surfIn, &surfOut); + + // Save bpp field for surface dump support + surfOut.bpp = surfIn.bpp; + + if (retCode == ADDR_OK) + { + pOut->bpp = surfOut.bpp; + pOut->pitch = surfOut.pitch; + pOut->height = surfOut.height; + pOut->numSlices = surfOut.depth; + pOut->fmaskBytes = surfOut.surfSize; + pOut->baseAlign = surfOut.baseAlign; + pOut->pitchAlign = surfOut.pitchAlign; + pOut->heightAlign = surfOut.heightAlign; + + if (surfOut.depth > 1) + { + // For fmask, expNumSlices is stored in depth. + pOut->sliceSize = surfOut.surfSize / surfOut.depth; + } + else + { + pOut->sliceSize = surfOut.surfSize; + } + + // Save numSamples field for surface dump support + pOut->numSamples = surfOut.numSamples; + + HwlFmaskPostThunkSurfInfo(&surfOut, pOut); + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlFmaskSurfaceInfo +* @brief +* Entry of EgBasedLib ComputeFmaskInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut ///< [out] output structure + ) +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + ADDR_TILEINFO tileInfo = {0}; + + // Use internal tile info if pOut does not have a valid pTileInfo + if (pOut->pTileInfo == NULL) + { + pOut->pTileInfo = &tileInfo; + } + + retCode = DispatchComputeFmaskInfo(pIn, pOut); + + if (retCode == ADDR_OK) + { + pOut->tileIndex = + HwlPostCheckTileIndex(pOut->pTileInfo, pIn->tileMode, ADDR_NON_DISPLAYABLE, + pOut->tileIndex); + } + + // Resets pTileInfo to NULL if the internal tile info is used + if (pOut->pTileInfo == &tileInfo) + { + pOut->pTileInfo = NULL; + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeFmaskAddrFromCoord +* @brief +* Entry of EgBasedLib ComputeFmaskAddrFromCoord +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeFmaskAddrFromCoord( + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeFmaskCoordFromAddr +* @brief +* Entry of EgBasedLib ComputeFmaskCoordFromAddr +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeFmaskCoordFromAddr( + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeFmaskNumPlanesFromNumSamples +* +* @brief +* Compute fmask number of planes from number of samples +* +* @return +* Number of planes +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputeFmaskNumPlanesFromNumSamples( + UINT_32 numSamples) ///< [in] number of samples +{ + UINT_32 numPlanes; + + // + // FMASK is stored such that each micro tile is composed of elements containing N bits, where + // N is the number of samples. There is a micro tile for each bit in the FMASK address, and + // micro tiles for each address bit, sometimes referred to as a plane, are stored sequentially. + // The FMASK for a 2-sample surface looks like a general surface with 2 bits per element. + // The FMASK for a 4-sample surface looks like a general surface with 4 bits per element and + // 2 samples. The FMASK for an 8-sample surface looks like a general surface with 8 bits per + // element and 4 samples. R6xx and R7xx only stored 3 planes for 8-sample FMASK surfaces. + // This was changed for R8xx to simplify the logic in the CB. + // + switch (numSamples) + { + case 2: + numPlanes = 1; + break; + case 4: + numPlanes = 2; + break; + case 8: + numPlanes = 4; + break; + default: + ADDR_UNHANDLED_CASE(); + numPlanes = 0; + break; + } + return numPlanes; +} + +/** +**************************************************************************************************** +* EgBasedLib::ComputeFmaskResolvedBppFromNumSamples +* +* @brief +* Compute resolved fmask effective bpp based on number of samples +* +* @return +* bpp +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::ComputeFmaskResolvedBppFromNumSamples( + UINT_32 numSamples) ///< number of samples +{ + UINT_32 bpp; + + // + // Resolved FMASK surfaces are generated yBit the CB and read yBit the texture unit + // so that the texture unit can read compressed multi-sample color data. + // These surfaces store each index value packed per element. + // Each element contains at least num_samples * log2(num_samples) bits. + // Resolved FMASK surfaces are addressed as follows: + // 2-sample Addressed similarly to a color surface with 8 bits per element and 1 sample. + // 4-sample Addressed similarly to a color surface with 8 bits per element and 1 sample. + // 8-sample Addressed similarly to a color surface with 32 bits per element and 1 sample. + + switch (numSamples) + { + case 2: + bpp = 8; + break; + case 4: + bpp = 8; + break; + case 8: + bpp = 32; + break; + default: + ADDR_UNHANDLED_CASE(); + bpp = 0; + break; + } + return bpp; +} + +/** +**************************************************************************************************** +* EgBasedLib::IsTileInfoAllZero +* +* @brief +* Return TRUE if all field are zero +* @note +* Since NULL input is consider to be all zero +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::IsTileInfoAllZero( + const ADDR_TILEINFO* pTileInfo) +{ + BOOL_32 allZero = TRUE; + + if (pTileInfo) + { + if ((pTileInfo->banks != 0) || + (pTileInfo->bankWidth != 0) || + (pTileInfo->bankHeight != 0) || + (pTileInfo->macroAspectRatio != 0) || + (pTileInfo->tileSplitBytes != 0) || + (pTileInfo->pipeConfig != 0) + ) + { + allZero = FALSE; + } + } + + return allZero; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlTileInfoEqual +* +* @brief +* Return TRUE if all field are equal +* @note +* Only takes care of current HWL's data +**************************************************************************************************** +*/ +BOOL_32 EgBasedLib::HwlTileInfoEqual( + const ADDR_TILEINFO* pLeft, ///<[in] Left compare operand + const ADDR_TILEINFO* pRight ///<[in] Right compare operand + ) const +{ + BOOL_32 equal = FALSE; + + if (pLeft->banks == pRight->banks && + pLeft->bankWidth == pRight->bankWidth && + pLeft->bankHeight == pRight->bankHeight && + pLeft->macroAspectRatio == pRight->macroAspectRatio && + pLeft->tileSplitBytes == pRight->tileSplitBytes) + { + equal = TRUE; + } + + return equal; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlConvertTileInfoToHW +* @brief +* Entry of EgBasedLib ConvertTileInfoToHW +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] input structure + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + ADDR_TILEINFO *pTileInfoIn = pIn->pTileInfo; + ADDR_TILEINFO *pTileInfoOut = pOut->pTileInfo; + + if ((pTileInfoIn != NULL) && (pTileInfoOut != NULL)) + { + if (pIn->reverse == FALSE) + { + switch (pTileInfoIn->banks) + { + case 2: + pTileInfoOut->banks = 0; + break; + case 4: + pTileInfoOut->banks = 1; + break; + case 8: + pTileInfoOut->banks = 2; + break; + case 16: + pTileInfoOut->banks = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->banks = 0; + break; + } + + switch (pTileInfoIn->bankWidth) + { + case 1: + pTileInfoOut->bankWidth = 0; + break; + case 2: + pTileInfoOut->bankWidth = 1; + break; + case 4: + pTileInfoOut->bankWidth = 2; + break; + case 8: + pTileInfoOut->bankWidth = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->bankWidth = 0; + break; + } + + switch (pTileInfoIn->bankHeight) + { + case 1: + pTileInfoOut->bankHeight = 0; + break; + case 2: + pTileInfoOut->bankHeight = 1; + break; + case 4: + pTileInfoOut->bankHeight = 2; + break; + case 8: + pTileInfoOut->bankHeight = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->bankHeight = 0; + break; + } + + switch (pTileInfoIn->macroAspectRatio) + { + case 1: + pTileInfoOut->macroAspectRatio = 0; + break; + case 2: + pTileInfoOut->macroAspectRatio = 1; + break; + case 4: + pTileInfoOut->macroAspectRatio = 2; + break; + case 8: + pTileInfoOut->macroAspectRatio = 3; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->macroAspectRatio = 0; + break; + } + + switch (pTileInfoIn->tileSplitBytes) + { + case 64: + pTileInfoOut->tileSplitBytes = 0; + break; + case 128: + pTileInfoOut->tileSplitBytes = 1; + break; + case 256: + pTileInfoOut->tileSplitBytes = 2; + break; + case 512: + pTileInfoOut->tileSplitBytes = 3; + break; + case 1024: + pTileInfoOut->tileSplitBytes = 4; + break; + case 2048: + pTileInfoOut->tileSplitBytes = 5; + break; + case 4096: + pTileInfoOut->tileSplitBytes = 6; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->tileSplitBytes = 0; + break; + } + } + else + { + switch (pTileInfoIn->banks) + { + case 0: + pTileInfoOut->banks = 2; + break; + case 1: + pTileInfoOut->banks = 4; + break; + case 2: + pTileInfoOut->banks = 8; + break; + case 3: + pTileInfoOut->banks = 16; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->banks = 2; + break; + } + + switch (pTileInfoIn->bankWidth) + { + case 0: + pTileInfoOut->bankWidth = 1; + break; + case 1: + pTileInfoOut->bankWidth = 2; + break; + case 2: + pTileInfoOut->bankWidth = 4; + break; + case 3: + pTileInfoOut->bankWidth = 8; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->bankWidth = 1; + break; + } + + switch (pTileInfoIn->bankHeight) + { + case 0: + pTileInfoOut->bankHeight = 1; + break; + case 1: + pTileInfoOut->bankHeight = 2; + break; + case 2: + pTileInfoOut->bankHeight = 4; + break; + case 3: + pTileInfoOut->bankHeight = 8; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->bankHeight = 1; + break; + } + + switch (pTileInfoIn->macroAspectRatio) + { + case 0: + pTileInfoOut->macroAspectRatio = 1; + break; + case 1: + pTileInfoOut->macroAspectRatio = 2; + break; + case 2: + pTileInfoOut->macroAspectRatio = 4; + break; + case 3: + pTileInfoOut->macroAspectRatio = 8; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->macroAspectRatio = 1; + break; + } + + switch (pTileInfoIn->tileSplitBytes) + { + case 0: + pTileInfoOut->tileSplitBytes = 64; + break; + case 1: + pTileInfoOut->tileSplitBytes = 128; + break; + case 2: + pTileInfoOut->tileSplitBytes = 256; + break; + case 3: + pTileInfoOut->tileSplitBytes = 512; + break; + case 4: + pTileInfoOut->tileSplitBytes = 1024; + break; + case 5: + pTileInfoOut->tileSplitBytes = 2048; + break; + case 6: + pTileInfoOut->tileSplitBytes = 4096; + break; + default: + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + pTileInfoOut->tileSplitBytes = 64; + break; + } + } + + if (pTileInfoIn != pTileInfoOut) + { + pTileInfoOut->pipeConfig = pTileInfoIn->pipeConfig; + } + } + else + { + ADDR_ASSERT_ALWAYS(); + retCode = ADDR_INVALIDPARAMS; + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeSurfaceInfo +* @brief +* Entry of EgBasedLib ComputeSurfaceInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + if (pIn->numSamples < pIn->numFrags) + { + retCode = ADDR_INVALIDPARAMS; + } + + ADDR_TILEINFO tileInfo = {0}; + + if (retCode == ADDR_OK) + { + // Uses internal tile info if pOut does not have a valid pTileInfo + if (pOut->pTileInfo == NULL) + { + pOut->pTileInfo = &tileInfo; + } + + if (DispatchComputeSurfaceInfo(pIn, pOut) == FALSE) + { + retCode = ADDR_INVALIDPARAMS; + } + + // In case client uses tile info as input and would like to calculate a correct size and + // alignment together with tile info as output when the tile info is not suppose to have any + // matching indices in tile mode tables. + if (pIn->flags.skipIndicesOutput == FALSE) + { + // Returns an index + pOut->tileIndex = HwlPostCheckTileIndex(pOut->pTileInfo, + pOut->tileMode, + pOut->tileType, + pOut->tileIndex); + + if (IsMacroTiled(pOut->tileMode) && (pOut->macroModeIndex == TileIndexInvalid)) + { + pOut->macroModeIndex = HwlComputeMacroModeIndex(pOut->tileIndex, + pIn->flags, + pIn->bpp, + pIn->numSamples, + pOut->pTileInfo); + } + } + + // Resets pTileInfo to NULL if the internal tile info is used + if (pOut->pTileInfo == &tileInfo) + { +#if DEBUG + // Client does not pass in a valid pTileInfo + if (IsMacroTiled(pOut->tileMode)) + { + // If a valid index is returned, then no pTileInfo is okay + ADDR_ASSERT((m_configFlags.useTileIndex == FALSE) || + (pOut->tileIndex != TileIndexInvalid)); + + if (IsTileInfoAllZero(pIn->pTileInfo) == FALSE) + { + // The initial value of pIn->pTileInfo is copied to tileInfo + // We do not expect any of these value to be changed nor any 0 of inputs + ADDR_ASSERT(tileInfo.banks == pIn->pTileInfo->banks); + ADDR_ASSERT(tileInfo.bankWidth == pIn->pTileInfo->bankWidth); + ADDR_ASSERT(tileInfo.bankHeight == pIn->pTileInfo->bankHeight); + ADDR_ASSERT(tileInfo.macroAspectRatio == pIn->pTileInfo->macroAspectRatio); + ADDR_ASSERT(tileInfo.tileSplitBytes == pIn->pTileInfo->tileSplitBytes); + } + } +#endif + pOut->pTileInfo = NULL; + } + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeSurfaceAddrFromCoord +* @brief +* Entry of EgBasedLib ComputeSurfaceAddrFromCoord +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + if ( +#if !ALT_TEST // Overflow test needs this out-of-boundary coord + (pIn->x > pIn->pitch) || + (pIn->y > pIn->height) || +#endif + (pIn->numSamples > m_maxSamples)) + { + retCode = ADDR_INVALIDPARAMS; + } + else + { + pOut->addr = DispatchComputeSurfaceAddrFromCoord(pIn, pOut); + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeSurfaceCoordFromAddr +* @brief +* Entry of EgBasedLib ComputeSurfaceCoordFromAddr +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + if ((pIn->bitPosition >= 8) || + (pIn->numSamples > m_maxSamples)) + { + retCode = ADDR_INVALIDPARAMS; + } + else + { + DispatchComputeSurfaceCoordFromAddr(pIn, pOut); + } + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeSliceTileSwizzle +* @brief +* Entry of EgBasedLib ComputeSurfaceCoordFromAddr +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE EgBasedLib::HwlComputeSliceTileSwizzle( + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + if (pIn->pTileInfo && (pIn->pTileInfo->banks > 0)) + { + + pOut->tileSwizzle = ComputeSliceTileSwizzle(pIn->tileMode, + pIn->baseSwizzle, + pIn->slice, + pIn->baseAddr, + pIn->pTileInfo); + } + else + { + retCode = ADDR_INVALIDPARAMS; + } + + return retCode; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeHtileBpp +* +* @brief +* Compute htile bpp +* +* @return +* Htile bpp +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::HwlComputeHtileBpp( + BOOL_32 isWidth8, ///< [in] TRUE if block width is 8 + BOOL_32 isHeight8 ///< [in] TRUE if block height is 8 + ) const +{ + // only support 8x8 mode + ADDR_ASSERT(isWidth8 && isHeight8); + return 32; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlComputeHtileBaseAlign +* +* @brief +* Compute htile base alignment +* +* @return +* Htile base alignment +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::HwlComputeHtileBaseAlign( + BOOL_32 isTcCompatible, ///< [in] if TC compatible + BOOL_32 isLinear, ///< [in] if it is linear mode + ADDR_TILEINFO* pTileInfo ///< [in] Tile info + ) const +{ + UINT_32 baseAlign = m_pipeInterleaveBytes * HwlGetPipes(pTileInfo); + + if (isTcCompatible) + { + ADDR_ASSERT(pTileInfo != NULL); + if (pTileInfo) + { + baseAlign *= pTileInfo->banks; + } + } + + return baseAlign; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlGetPitchAlignmentMicroTiled +* +* @brief +* Compute 1D tiled surface pitch alignment, calculation results are returned through +* output parameters. +* +* @return +* pitch alignment +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::HwlGetPitchAlignmentMicroTiled( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples ///< [in] number of samples + ) const +{ + UINT_32 pitchAlign; + + UINT_32 microTileThickness = Thickness(tileMode); + + UINT_32 pixelsPerMicroTile; + UINT_32 pixelsPerPipeInterleave; + UINT_32 microTilesPerPipeInterleave; + + // + // Special workaround for depth/stencil buffer, use 8 bpp to meet larger requirement for + // stencil buffer since pitch alignment is related to bpp. + // For a depth only buffer do not set this. + // + // Note: this actually does not work for mipmap but mipmap depth texture is not really + // sampled with mipmap. + // + if (flags.depth && (flags.noStencil == FALSE)) + { + bpp = 8; + } + + pixelsPerMicroTile = MicroTilePixels * microTileThickness; + pixelsPerPipeInterleave = BYTES_TO_BITS(m_pipeInterleaveBytes) / (bpp * numSamples); + microTilesPerPipeInterleave = pixelsPerPipeInterleave / pixelsPerMicroTile; + + pitchAlign = Max(MicroTileWidth, microTilesPerPipeInterleave * MicroTileWidth); + + return pitchAlign; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlGetSizeAdjustmentMicroTiled +* +* @brief +* Adjust 1D tiled surface pitch and slice size +* +* @return +* Logical slice size in bytes +**************************************************************************************************** +*/ +UINT_64 EgBasedLib::HwlGetSizeAdjustmentMicroTiled( + UINT_32 thickness, ///< [in] thickness + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples, ///< [in] number of samples + UINT_32 baseAlign, ///< [in] base alignment + UINT_32 pitchAlign, ///< [in] pitch alignment + UINT_32* pPitch, ///< [in,out] pointer to pitch + UINT_32* pHeight ///< [in,out] pointer to height + ) const +{ + UINT_64 logicalSliceSize; + MAYBE_UNUSED UINT_64 physicalSliceSize; + + UINT_32 pitch = *pPitch; + UINT_32 height = *pHeight; + + // Logical slice: pitch * height * bpp * numSamples (no 1D MSAA so actually numSamples == 1) + logicalSliceSize = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); + + // Physical slice: multiplied by thickness + physicalSliceSize = logicalSliceSize * thickness; + + // + // R800 will always pad physical slice size to baseAlign which is pipe_interleave_bytes + // + ADDR_ASSERT((physicalSliceSize % baseAlign) == 0); + + return logicalSliceSize; +} + +/** +**************************************************************************************************** +* EgBasedLib::HwlStereoCheckRightOffsetPadding +* +* @brief +* check if the height needs extra padding for stereo right eye offset, to avoid swizzling +* +* @return +* TRUE is the extra padding is needed +* +**************************************************************************************************** +*/ +UINT_32 EgBasedLib::HwlStereoCheckRightOffsetPadding( + ADDR_TILEINFO* pTileInfo ///< Tiling info + ) const +{ + UINT_32 stereoHeightAlign = 0; + + if (pTileInfo->macroAspectRatio > 2) + { + // Since 3D rendering treats right eye surface starting from y == "eye height" while + // display engine treats it to be 0, so the bank bits may be different. + // Additional padding in height is required to make sure it's possible + // to achieve synonym by adjusting bank swizzle of right eye surface. + + static const UINT_32 StereoAspectRatio = 2; + stereoHeightAlign = pTileInfo->banks * + pTileInfo->bankHeight * + MicroTileHeight / + StereoAspectRatio; + } + + return stereoHeightAlign; +} + +} // V1 +} // Addr diff --git a/src/amd/addrlib/src/r800/egbaddrlib.h b/src/amd/addrlib/src/r800/egbaddrlib.h new file mode 100644 index 00000000000..f5bae10ed68 --- /dev/null +++ b/src/amd/addrlib/src/r800/egbaddrlib.h @@ -0,0 +1,430 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file egbaddrlib.h +* @brief Contains the EgBasedLib class definition. +**************************************************************************************************** +*/ + +#ifndef __EG_BASED_ADDR_LIB_H__ +#define __EG_BASED_ADDR_LIB_H__ + +#include "addrlib1.h" + +namespace Addr +{ +namespace V1 +{ +/// Structures for functions +struct CoordFromBankPipe +{ + UINT_32 xBits : 3; + UINT_32 yBits : 4; + + UINT_32 xBit3 : 1; + UINT_32 xBit4 : 1; + UINT_32 xBit5 : 1; + UINT_32 yBit3 : 1; + UINT_32 yBit4 : 1; + UINT_32 yBit5 : 1; + UINT_32 yBit6 : 1; +}; + +/** +**************************************************************************************************** +* @brief This class is the Evergreen based address library +* @note Abstract class +**************************************************************************************************** +*/ +class EgBasedLib : public Lib +{ +protected: + EgBasedLib(const Client* pClient); + virtual ~EgBasedLib(); + +public: + + /// Surface info functions + + // NOTE: DispatchComputeSurfaceInfo using TileInfo takes both an input and an output. + // On input: + // One or more fields may be 0 to be calculated/defaulted - pre-SI h/w. + // H/W using tile mode index only accepts none or all 0's - SI and newer h/w. + // It then returns the actual tiling configuration used. + // Other methods' TileInfo must be valid on entry + BOOL_32 DispatchComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + ADDR_E_RETURNCODE DispatchComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); + +protected: + // Hwl interface + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeSliceTileSwizzle( + const ADDR_COMPUTE_SLICESWIZZLE_INPUT* pIn, + ADDR_COMPUTE_SLICESWIZZLE_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlExtractBankPipeSwizzle( + const ADDR_EXTRACT_BANKPIPE_SWIZZLE_INPUT* pIn, + ADDR_EXTRACT_BANKPIPE_SWIZZLE_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlCombineBankPipeSwizzle( + UINT_32 bankSwizzle, UINT_32 pipeSwizzle, ADDR_TILEINFO* pTileInfo, + UINT_64 baseAddr, UINT_32* pTileSwizzle) const; + + virtual ADDR_E_RETURNCODE HwlComputeBaseSwizzle( + const ADDR_COMPUTE_BASE_SWIZZLE_INPUT* pIn, + ADDR_COMPUTE_BASE_SWIZZLE_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const; + + virtual UINT_32 HwlComputeHtileBpp( + BOOL_32 isWidth8, BOOL_32 isHeight8) const; + + virtual UINT_32 HwlComputeHtileBaseAlign( + BOOL_32 isTcCompatible, BOOL_32 isLinear, ADDR_TILEINFO* pTileInfo) const; + + virtual ADDR_E_RETURNCODE HwlComputeFmaskInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pOut); + + virtual ADDR_E_RETURNCODE HwlComputeFmaskAddrFromCoord( + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlComputeFmaskCoordFromAddr( + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; + + virtual BOOL_32 HwlGetAlignmentInfoMacroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + UINT_32* pPitchAlign, UINT_32* pHeightAlign, UINT_32* pSizeAlign) const; + + virtual UINT_32 HwlComputeQbStereoRightSwizzle( + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pInfo) const; + + virtual VOID HwlComputePixelCoordFromOffset( + UINT_32 offset, UINT_32 bpp, UINT_32 numSamples, + AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, + AddrTileType microTileType, BOOL_32 isDepthSampleOrder) const; + + /// Return Cmask block max + virtual BOOL_32 HwlGetMaxCmaskBlockMax() const + { + return 0x3FFF; // 14 bits, 0n16383 + } + + // Sub-hwl interface + /// Pure virtual function to setup tile info (indices) if client requests to do so + virtual VOID HwlSetupTileInfo( + AddrTileMode tileMode, ADDR_SURFACE_FLAGS flags, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + ADDR_TILEINFO* inputTileInfo, ADDR_TILEINFO* outputTileInfo, + AddrTileType inTileType, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; + + /// Pure virtual function to get pitch alignment for linear modes + virtual UINT_32 HwlGetPitchAlignmentLinear(UINT_32 bpp, ADDR_SURFACE_FLAGS flags) const = 0; + + /// Pure virtual function to get size adjustment for linear modes + virtual UINT_64 HwlGetSizeAdjustmentLinear( + AddrTileMode tileMode, + UINT_32 bpp, UINT_32 numSamples, UINT_32 baseAlign, UINT_32 pitchAlign, + UINT_32 *pPitch, UINT_32 *pHeight, UINT_32 *pHeightAlign) const = 0; + + virtual UINT_32 HwlGetPitchAlignmentMicroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples) const; + + virtual UINT_64 HwlGetSizeAdjustmentMicroTiled( + UINT_32 thickness, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, + UINT_32 baseAlign, UINT_32 pitchAlign, + UINT_32 *pPitch, UINT_32 *pHeight) const; + + /// Pure virtual function to do extra sanity check + virtual BOOL_32 HwlSanityCheckMacroTiled( + ADDR_TILEINFO* pTileInfo) const = 0; + + /// Pure virtual function to check current level to be the last macro tiled one + virtual VOID HwlCheckLastMacroTiledLvl( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const = 0; + + /// Adjusts bank before bank is modified by rotation + virtual UINT_32 HwlPreAdjustBank( + UINT_32 tileX, UINT_32 bank, ADDR_TILEINFO* pTileInfo) const = 0; + + virtual VOID HwlComputeSurfaceCoord2DFromBankPipe( + AddrTileMode tileMode, UINT_32* pX, UINT_32* pY, UINT_32 slice, + UINT_32 bank, UINT_32 pipe, + UINT_32 bankSwizzle, UINT_32 pipeSwizzle, UINT_32 tileSlices, + BOOL_32 ignoreSE, + ADDR_TILEINFO* pTileInfo) const = 0; + + virtual BOOL_32 HwlTileInfoEqual( + const ADDR_TILEINFO* pLeft, const ADDR_TILEINFO* pRight) const; + + virtual AddrTileMode HwlDegradeThickTileMode( + AddrTileMode baseTileMode, UINT_32 numSlices, UINT_32* pBytesPerTile) const; + + virtual INT_32 HwlPostCheckTileIndex( + const ADDR_TILEINFO* pInfo, AddrTileMode mode, AddrTileType type, + INT curIndex = TileIndexInvalid) const + { + return TileIndexInvalid; + } + + virtual VOID HwlFmaskPreThunkSurfInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, + const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, + ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut) const + { + } + + virtual VOID HwlFmaskPostThunkSurfInfo( + const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut) const + { + } + + virtual UINT_32 HwlStereoCheckRightOffsetPadding(ADDR_TILEINFO* pTileInfo) const; + + virtual BOOL_32 HwlReduceBankWidthHeight( + UINT_32 tileSize, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, + UINT_32 bankHeightAlign, UINT_32 pipes, + ADDR_TILEINFO* pTileInfo) const; + + // Protected non-virtual functions + + /// Mip level functions + AddrTileMode ComputeSurfaceMipLevelTileMode( + AddrTileMode baseTileMode, UINT_32 bpp, + UINT_32 pitch, UINT_32 height, UINT_32 numSlices, UINT_32 numSamples, + UINT_32 pitchAlign, UINT_32 heightAlign, + ADDR_TILEINFO* pTileInfo) const; + + /// Swizzle functions + VOID ExtractBankPipeSwizzle( + UINT_32 base256b, ADDR_TILEINFO* pTileInfo, + UINT_32* pBankSwizzle, UINT_32* pPipeSwizzle) const; + + UINT_32 GetBankPipeSwizzle( + UINT_32 bankSwizzle, UINT_32 pipeSwizzle, + UINT_64 baseAddr, ADDR_TILEINFO* pTileInfo) const; + + UINT_32 ComputeSliceTileSwizzle( + AddrTileMode tileMode, UINT_32 baseSwizzle, UINT_32 slice, UINT_64 baseAddr, + ADDR_TILEINFO* pTileInfo) const; + + /// Addressing functions + virtual ADDR_E_RETURNCODE ComputeBankEquation( + UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, + ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const + { + return ADDR_NOTSUPPORTED; + } + + UINT_32 ComputeBankFromCoord( + UINT_32 x, UINT_32 y, UINT_32 slice, + AddrTileMode tileMode, UINT_32 bankSwizzle, UINT_32 tileSpitSlice, + ADDR_TILEINFO* pTileInfo) const; + + UINT_32 ComputeBankFromAddr( + UINT_64 addr, UINT_32 numBanks, UINT_32 numPipes) const; + + UINT_32 ComputePipeRotation( + AddrTileMode tileMode, UINT_32 numPipes) const; + + UINT_32 ComputeBankRotation( + AddrTileMode tileMode, UINT_32 numBanks, + UINT_32 numPipes) const; + + VOID ComputeSurfaceCoord2DFromBankPipe( + AddrTileMode tileMode, UINT_32 x, UINT_32 y, UINT_32 slice, + UINT_32 bank, UINT_32 pipe, + UINT_32 bankSwizzle, UINT_32 pipeSwizzle, UINT_32 tileSlices, + ADDR_TILEINFO* pTileInfo, + CoordFromBankPipe *pOutput) const; + + /// Htile/Cmask functions + UINT_64 ComputeHtileBytes( + UINT_32 pitch, UINT_32 height, UINT_32 bpp, + BOOL_32 isLinear, UINT_32 numSlices, UINT_64* sliceBytes, UINT_32 baseAlign) const; + + ADDR_E_RETURNCODE ComputeMacroTileEquation( + UINT_32 log2BytesPP, AddrTileMode tileMode, AddrTileType microTileType, + ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const; + + // Static functions + static BOOL_32 IsTileInfoAllZero(const ADDR_TILEINFO* pTileInfo); + static UINT_32 ComputeFmaskNumPlanesFromNumSamples(UINT_32 numSamples); + static UINT_32 ComputeFmaskResolvedBppFromNumSamples(UINT_32 numSamples); + + virtual VOID HwlComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 mipLevel, UINT_32 numSamples, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const + { + } + +private: + + BOOL_32 ComputeSurfaceInfoLinear( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, + UINT_32 padDims) const; + + BOOL_32 ComputeSurfaceInfoMicroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, + UINT_32 padDims, + AddrTileMode expTileMode) const; + + BOOL_32 ComputeSurfaceInfoMacroTiled( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut, + UINT_32 padDims, + AddrTileMode expTileMode) const; + + BOOL_32 ComputeSurfaceAlignmentsLinear( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32* pBaseAlign, UINT_32* pPitchAlign, UINT_32* pHeightAlign) const; + + BOOL_32 ComputeSurfaceAlignmentsMicroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 mipLevel, UINT_32 numSamples, + UINT_32* pBaseAlign, UINT_32* pPitchAlign, UINT_32* pHeightAlign) const; + + BOOL_32 ComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 mipLevel, UINT_32 numSamples, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + /// Surface addressing functions + UINT_64 DispatchComputeSurfaceAddrFromCoord( + const ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_SURFACE_ADDRFROMCOORD_OUTPUT* pOut) const; + + VOID DispatchComputeSurfaceCoordFromAddr( + const ADDR_COMPUTE_SURFACE_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_SURFACE_COORDFROMADDR_OUTPUT* pOut) const; + + UINT_64 ComputeSurfaceAddrFromCoordMicroTiled( + UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + AddrTileMode tileMode, + AddrTileType microTileType, BOOL_32 isDepthSampleOrder, + UINT_32* pBitPosition) const; + + UINT_64 ComputeSurfaceAddrFromCoordMacroTiled( + UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + AddrTileMode tileMode, + AddrTileType microTileType, BOOL_32 ignoreSE, BOOL_32 isDepthSampleOrder, + UINT_32 pipeSwizzle, UINT_32 bankSwizzle, + ADDR_TILEINFO* pTileInfo, + UINT_32* pBitPosition) const; + + VOID ComputeSurfaceCoordFromAddrMacroTiled( + UINT_64 addr, UINT_32 bitPosition, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + AddrTileMode tileMode, UINT_32 tileBase, UINT_32 compBits, + AddrTileType microTileType, BOOL_32 ignoreSE, BOOL_32 isDepthSampleOrder, + UINT_32 pipeSwizzle, UINT_32 bankSwizzle, + ADDR_TILEINFO* pTileInfo, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample) const; + + /// Fmask functions + UINT_64 DispatchComputeFmaskAddrFromCoord( + const ADDR_COMPUTE_FMASK_ADDRFROMCOORD_INPUT* pIn, + ADDR_COMPUTE_FMASK_ADDRFROMCOORD_OUTPUT* pOut) const; + + VOID DispatchComputeFmaskCoordFromAddr( + const ADDR_COMPUTE_FMASK_COORDFROMADDR_INPUT* pIn, + ADDR_COMPUTE_FMASK_COORDFROMADDR_OUTPUT* pOut) const; + + // FMASK related methods - private + UINT_64 ComputeFmaskAddrFromCoordMicroTiled( + UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, UINT_32 plane, + UINT_32 pitch, UINT_32 height, UINT_32 numSamples, AddrTileMode tileMode, + BOOL_32 resolved, UINT_32* pBitPosition) const; + + VOID ComputeFmaskCoordFromAddrMicroTiled( + UINT_64 addr, UINT_32 bitPosition, + UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + AddrTileMode tileMode, BOOL_32 resolved, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, UINT_32* pPlane) const; + + VOID ComputeFmaskCoordFromAddrMacroTiled( + UINT_64 addr, UINT_32 bitPosition, + UINT_32 pitch, UINT_32 height, UINT_32 numSamples, AddrTileMode tileMode, + UINT_32 pipeSwizzle, UINT_32 bankSwizzle, + BOOL_32 ignoreSE, + ADDR_TILEINFO* pTileInfo, + BOOL_32 resolved, + UINT_32* pX, UINT_32* pY, UINT_32* pSlice, UINT_32* pSample, UINT_32* pPlane) const; + + UINT_64 ComputeFmaskAddrFromCoordMacroTiled( + UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 sample, UINT_32 plane, + UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + AddrTileMode tileMode, UINT_32 pipeSwizzle, UINT_32 bankSwizzle, + BOOL_32 ignoreSE, + ADDR_TILEINFO* pTileInfo, + BOOL_32 resolved, + UINT_32* pBitPosition) const; + + /// Sanity check functions + BOOL_32 SanityCheckMacroTiled( + ADDR_TILEINFO* pTileInfo) const; + +protected: + UINT_32 m_ranks; ///< Number of ranks - MC_ARB_RAMCFG.NOOFRANK + UINT_32 m_logicalBanks; ///< Logical banks = m_banks * m_ranks if m_banks != 16 + UINT_32 m_bankInterleave; ///< Bank interleave, as a multiple of pipe interleave size +}; + +} // V1 +} // Addr + +#endif + diff --git a/src/amd/addrlib/src/r800/siaddrlib.cpp b/src/amd/addrlib/src/r800/siaddrlib.cpp new file mode 100644 index 00000000000..da37ad8f901 --- /dev/null +++ b/src/amd/addrlib/src/r800/siaddrlib.cpp @@ -0,0 +1,3872 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file siaddrlib.cpp +* @brief Contains the implementation for the SiLib class. +**************************************************************************************************** +*/ + +#include "siaddrlib.h" +#include "si_gb_reg.h" + +#include "amdgpu_asic_addr.h" + +//////////////////////////////////////////////////////////////////////////////////////////////////// +//////////////////////////////////////////////////////////////////////////////////////////////////// +namespace Addr +{ + +/** +**************************************************************************************************** +* SiHwlInit +* +* @brief +* Creates an SiLib object. +* +* @return +* Returns an SiLib object pointer. +**************************************************************************************************** +*/ +Lib* SiHwlInit(const Client* pClient) +{ + return V1::SiLib::CreateObj(pClient); +} + +namespace V1 +{ + +// We don't support MSAA for equation +const BOOL_32 SiLib::m_EquationSupport[SiLib::TileTableSize][SiLib::MaxNumElementBytes] = +{ + {TRUE, TRUE, TRUE, FALSE, FALSE}, // 0, non-AA compressed depth or any stencil + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 1, 2xAA/4xAA compressed depth with or without stencil + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 2, 8xAA compressed depth with or without stencil + {FALSE, TRUE, FALSE, FALSE, FALSE}, // 3, 16 bpp depth PRT (non-MSAA), don't support uncompressed depth + {TRUE, TRUE, TRUE, FALSE, FALSE}, // 4, 1D depth + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 5, 16 bpp depth PRT (4xMSAA) + {FALSE, FALSE, TRUE, FALSE, FALSE}, // 6, 32 bpp depth PRT (non-MSAA) + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 7, 32 bpp depth PRT (4xMSAA) + {TRUE, TRUE, TRUE, TRUE, TRUE }, // 8, Linear + {TRUE, TRUE, TRUE, TRUE, TRUE }, // 9, 1D display + {TRUE, FALSE, FALSE, FALSE, FALSE}, // 10, 8 bpp color (displayable) + {FALSE, TRUE, FALSE, FALSE, FALSE}, // 11, 16 bpp color (displayable) + {FALSE, FALSE, TRUE, TRUE, FALSE}, // 12, 32/64 bpp color (displayable) + {TRUE, TRUE, TRUE, TRUE, TRUE }, // 13, 1D thin + {TRUE, FALSE, FALSE, FALSE, FALSE}, // 14, 8 bpp color non-displayable + {FALSE, TRUE, FALSE, FALSE, FALSE}, // 15, 16 bpp color non-displayable + {FALSE, FALSE, TRUE, FALSE, FALSE}, // 16, 32 bpp color non-displayable + {FALSE, FALSE, FALSE, TRUE, TRUE }, // 17, 64/128 bpp color non-displayable + {TRUE, TRUE, TRUE, TRUE, TRUE }, // 18, 1D THICK + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 19, 2D XTHICK + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 20, 2D THICK + {TRUE, FALSE, FALSE, FALSE, FALSE}, // 21, 8 bpp 2D PRTs (non-MSAA) + {FALSE, TRUE, FALSE, FALSE, FALSE}, // 22, 16 bpp 2D PRTs (non-MSAA) + {FALSE, FALSE, TRUE, FALSE, FALSE}, // 23, 32 bpp 2D PRTs (non-MSAA) + {FALSE, FALSE, FALSE, TRUE, FALSE}, // 24, 64 bpp 2D PRTs (non-MSAA) + {FALSE, FALSE, FALSE, FALSE, TRUE }, // 25, 128bpp 2D PRTs (non-MSAA) + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 26, none + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 27, none + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 28, none + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 29, none + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 30, 64bpp 2D PRTs (4xMSAA) + {FALSE, FALSE, FALSE, FALSE, FALSE}, // 31, none +}; + +/** +**************************************************************************************************** +* SiLib::SiLib +* +* @brief +* Constructor +* +**************************************************************************************************** +*/ +SiLib::SiLib(const Client* pClient) + : + EgBasedLib(pClient), + m_noOfEntries(0), + m_numEquations(0) +{ + m_class = SI_ADDRLIB; + memset(&m_settings, 0, sizeof(m_settings)); +} + +/** +**************************************************************************************************** +* SiLib::~SiLib +* +* @brief +* Destructor +**************************************************************************************************** +*/ +SiLib::~SiLib() +{ +} + +/** +**************************************************************************************************** +* SiLib::HwlGetPipes +* +* @brief +* Get number pipes +* @return +* num pipes +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlGetPipes( + const ADDR_TILEINFO* pTileInfo ///< [in] Tile info + ) const +{ + UINT_32 numPipes; + + if (pTileInfo) + { + numPipes = GetPipePerSurf(pTileInfo->pipeConfig); + } + else + { + ADDR_ASSERT_ALWAYS(); + numPipes = m_pipes; // Suppose we should still have a global pipes + } + + return numPipes; +} + +/** +**************************************************************************************************** +* SiLib::GetPipePerSurf +* @brief +* get pipe num base on inputing tileinfo->pipeconfig +* @return +* pipe number +**************************************************************************************************** +*/ +UINT_32 SiLib::GetPipePerSurf( + AddrPipeCfg pipeConfig ///< [in] pipe config + ) const +{ + UINT_32 numPipes = 0; + + switch (pipeConfig) + { + case ADDR_PIPECFG_P2: + numPipes = 2; + break; + case ADDR_PIPECFG_P4_8x16: + case ADDR_PIPECFG_P4_16x16: + case ADDR_PIPECFG_P4_16x32: + case ADDR_PIPECFG_P4_32x32: + numPipes = 4; + break; + case ADDR_PIPECFG_P8_16x16_8x16: + case ADDR_PIPECFG_P8_16x32_8x16: + case ADDR_PIPECFG_P8_32x32_8x16: + case ADDR_PIPECFG_P8_16x32_16x16: + case ADDR_PIPECFG_P8_32x32_16x16: + case ADDR_PIPECFG_P8_32x32_16x32: + case ADDR_PIPECFG_P8_32x64_32x32: + numPipes = 8; + break; + case ADDR_PIPECFG_P16_32x32_8x16: + case ADDR_PIPECFG_P16_32x32_16x16: + numPipes = 16; + break; + default: + ADDR_ASSERT(!"Invalid pipe config"); + numPipes = m_pipes; + } + return numPipes; +} + +/** +**************************************************************************************************** +* SiLib::ComputeBankEquation +* +* @brief +* Compute bank equation +* +* @return +* If equation can be computed +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE SiLib::ComputeBankEquation( + UINT_32 log2BytesPP, ///< [in] log2 of bytes per pixel + UINT_32 threshX, ///< [in] threshold for x channel + UINT_32 threshY, ///< [in] threshold for y channel + ADDR_TILEINFO* pTileInfo, ///< [in] tile info + ADDR_EQUATION* pEquation ///< [out] bank equation + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + UINT_32 pipes = HwlGetPipes(pTileInfo); + UINT_32 bankXStart = 3 + Log2(pipes) + Log2(pTileInfo->bankWidth); + UINT_32 bankYStart = 3 + Log2(pTileInfo->bankHeight); + + ADDR_CHANNEL_SETTING x3 = InitChannel(1, 0, log2BytesPP + bankXStart); + ADDR_CHANNEL_SETTING x4 = InitChannel(1, 0, log2BytesPP + bankXStart + 1); + ADDR_CHANNEL_SETTING x5 = InitChannel(1, 0, log2BytesPP + bankXStart + 2); + ADDR_CHANNEL_SETTING x6 = InitChannel(1, 0, log2BytesPP + bankXStart + 3); + ADDR_CHANNEL_SETTING y3 = InitChannel(1, 1, bankYStart); + ADDR_CHANNEL_SETTING y4 = InitChannel(1, 1, bankYStart + 1); + ADDR_CHANNEL_SETTING y5 = InitChannel(1, 1, bankYStart + 2); + ADDR_CHANNEL_SETTING y6 = InitChannel(1, 1, bankYStart + 3); + + x3.value = (threshX > bankXStart) ? x3.value : 0; + x4.value = (threshX > bankXStart + 1) ? x4.value : 0; + x5.value = (threshX > bankXStart + 2) ? x5.value : 0; + x6.value = (threshX > bankXStart + 3) ? x6.value : 0; + y3.value = (threshY > bankYStart) ? y3.value : 0; + y4.value = (threshY > bankYStart + 1) ? y4.value : 0; + y5.value = (threshY > bankYStart + 2) ? y5.value : 0; + y6.value = (threshY > bankYStart + 3) ? y6.value : 0; + + switch (pTileInfo->banks) + { + case 16: + if (pTileInfo->macroAspectRatio == 1) + { + pEquation->addr[0] = y6; + pEquation->xor1[0] = x3; + pEquation->addr[1] = y5; + pEquation->xor1[1] = y6; + pEquation->xor2[1] = x4; + pEquation->addr[2] = y4; + pEquation->xor1[2] = x5; + pEquation->addr[3] = y3; + pEquation->xor1[3] = x6; + } + else if (pTileInfo->macroAspectRatio == 2) + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y6; + pEquation->addr[1] = y5; + pEquation->xor1[1] = y6; + pEquation->xor2[1] = x4; + pEquation->addr[2] = y4; + pEquation->xor1[2] = x5; + pEquation->addr[3] = y3; + pEquation->xor1[3] = x6; + } + else if (pTileInfo->macroAspectRatio == 4) + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y6; + pEquation->addr[1] = x4; + pEquation->xor1[1] = y5; + pEquation->xor2[1] = y6; + pEquation->addr[2] = y4; + pEquation->xor1[2] = x5; + pEquation->addr[3] = y3; + pEquation->xor1[3] = x6; + } + else if (pTileInfo->macroAspectRatio == 8) + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y6; + pEquation->addr[1] = x4; + pEquation->xor1[1] = y5; + pEquation->xor2[1] = y6; + pEquation->addr[2] = x5; + pEquation->xor1[2] = y4; + pEquation->addr[3] = y3; + pEquation->xor1[3] = x6; + } + else + { + ADDR_ASSERT_ALWAYS(); + } + pEquation->numBits = 4; + break; + case 8: + if (pTileInfo->macroAspectRatio == 1) + { + pEquation->addr[0] = y5; + pEquation->xor1[0] = x3; + pEquation->addr[1] = y4; + pEquation->xor1[1] = y5; + pEquation->xor2[1] = x4; + pEquation->addr[2] = y3; + pEquation->xor1[2] = x5; + } + else if (pTileInfo->macroAspectRatio == 2) + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y5; + pEquation->addr[1] = y4; + pEquation->xor1[1] = y5; + pEquation->xor2[1] = x4; + pEquation->addr[2] = y3; + pEquation->xor1[2] = x5; + } + else if (pTileInfo->macroAspectRatio == 4) + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y5; + pEquation->addr[1] = x4; + pEquation->xor1[1] = y4; + pEquation->xor2[1] = y5; + pEquation->addr[2] = y3; + pEquation->xor1[2] = x5; + } + else + { + ADDR_ASSERT_ALWAYS(); + } + pEquation->numBits = 3; + break; + case 4: + if (pTileInfo->macroAspectRatio == 1) + { + pEquation->addr[0] = y4; + pEquation->xor1[0] = x3; + pEquation->addr[1] = y3; + pEquation->xor1[1] = x4; + } + else if (pTileInfo->macroAspectRatio == 2) + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y4; + pEquation->addr[1] = y3; + pEquation->xor1[1] = x4; + } + else + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y4; + pEquation->addr[1] = x4; + pEquation->xor1[1] = y3; + } + pEquation->numBits = 2; + break; + case 2: + if (pTileInfo->macroAspectRatio == 1) + { + pEquation->addr[0] = y3; + pEquation->xor1[0] = x3; + } + else + { + pEquation->addr[0] = x3; + pEquation->xor1[0] = y3; + } + pEquation->numBits = 1; + break; + default: + pEquation->numBits = 0; + retCode = ADDR_NOTSUPPORTED; + ADDR_ASSERT_ALWAYS(); + break; + } + + for (UINT_32 i = 0; i < pEquation->numBits; i++) + { + if (pEquation->addr[i].value == 0) + { + if (pEquation->xor1[i].value == 0) + { + // 00X -> X00 + pEquation->addr[i].value = pEquation->xor2[i].value; + pEquation->xor2[i].value = 0; + } + else + { + pEquation->addr[i].value = pEquation->xor1[i].value; + + if (pEquation->xor2[i].value != 0) + { + // 0XY -> XY0 + pEquation->xor1[i].value = pEquation->xor2[i].value; + pEquation->xor2[i].value = 0; + } + else + { + // 0X0 -> X00 + pEquation->xor1[i].value = 0; + } + } + } + else if (pEquation->xor1[i].value == 0) + { + if (pEquation->xor2[i].value != 0) + { + // X0Y -> XY0 + pEquation->xor1[i].value = pEquation->xor2[i].value; + pEquation->xor2[i].value = 0; + } + } + } + + if ((pTileInfo->bankWidth == 1) && + ((pTileInfo->pipeConfig == ADDR_PIPECFG_P4_32x32) || + (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32))) + { + retCode = ADDR_NOTSUPPORTED; + } + + return retCode; +} + +/** +**************************************************************************************************** +* SiLib::ComputePipeEquation +* +* @brief +* Compute pipe equation +* +* @return +* If equation can be computed +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE SiLib::ComputePipeEquation( + UINT_32 log2BytesPP, ///< [in] Log2 of bytes per pixel + UINT_32 threshX, ///< [in] Threshold for X channel + UINT_32 threshY, ///< [in] Threshold for Y channel + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + ADDR_EQUATION* pEquation ///< [out] Pipe configure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + ADDR_CHANNEL_SETTING* pAddr = pEquation->addr; + ADDR_CHANNEL_SETTING* pXor1 = pEquation->xor1; + ADDR_CHANNEL_SETTING* pXor2 = pEquation->xor2; + + ADDR_CHANNEL_SETTING x3 = InitChannel(1, 0, 3 + log2BytesPP); + ADDR_CHANNEL_SETTING x4 = InitChannel(1, 0, 4 + log2BytesPP); + ADDR_CHANNEL_SETTING x5 = InitChannel(1, 0, 5 + log2BytesPP); + ADDR_CHANNEL_SETTING x6 = InitChannel(1, 0, 6 + log2BytesPP); + ADDR_CHANNEL_SETTING y3 = InitChannel(1, 1, 3); + ADDR_CHANNEL_SETTING y4 = InitChannel(1, 1, 4); + ADDR_CHANNEL_SETTING y5 = InitChannel(1, 1, 5); + ADDR_CHANNEL_SETTING y6 = InitChannel(1, 1, 6); + + x3.value = (threshX > 3) ? x3.value : 0; + x4.value = (threshX > 4) ? x4.value : 0; + x5.value = (threshX > 5) ? x5.value : 0; + x6.value = (threshX > 6) ? x6.value : 0; + y3.value = (threshY > 3) ? y3.value : 0; + y4.value = (threshY > 4) ? y4.value : 0; + y5.value = (threshY > 5) ? y5.value : 0; + y6.value = (threshY > 6) ? y6.value : 0; + + switch (pTileInfo->pipeConfig) + { + case ADDR_PIPECFG_P2: + pAddr[0] = x3; + pXor1[0] = y3; + pEquation->numBits = 1; + break; + case ADDR_PIPECFG_P4_8x16: + pAddr[0] = x4; + pXor1[0] = y3; + pAddr[1] = x3; + pXor1[1] = y4; + pEquation->numBits = 2; + break; + case ADDR_PIPECFG_P4_16x16: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x4; + pAddr[1] = x4; + pXor1[1] = y4; + pEquation->numBits = 2; + break; + case ADDR_PIPECFG_P4_16x32: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x4; + pAddr[1] = x4; + pXor1[1] = y5; + pEquation->numBits = 2; + break; + case ADDR_PIPECFG_P4_32x32: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x5; + pAddr[1] = x5; + pXor1[1] = y5; + pEquation->numBits = 2; + break; + case ADDR_PIPECFG_P8_16x16_8x16: + pAddr[0] = x4; + pXor1[0] = y3; + pXor2[0] = x5; + pAddr[1] = x3; + pXor1[1] = y5; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P8_16x32_8x16: + pAddr[0] = x4; + pXor1[0] = y3; + pXor2[0] = x5; + pAddr[1] = x3; + pXor1[1] = y4; + pAddr[2] = x4; + pXor1[2] = y5; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P8_16x32_16x16: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x4; + pAddr[1] = x5; + pXor1[1] = y4; + pAddr[2] = x4; + pXor1[2] = y5; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P8_32x32_8x16: + pAddr[0] = x4; + pXor1[0] = y3; + pXor2[0] = x5; + pAddr[1] = x3; + pXor1[1] = y4; + pAddr[2] = x5; + pXor1[2] = y5; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P8_32x32_16x16: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x4; + pAddr[1] = x4; + pXor1[1] = y4; + pAddr[2] = x5; + pXor1[2] = y5; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P8_32x32_16x32: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x4; + pAddr[1] = x4; + pXor1[1] = y6; + pAddr[2] = x5; + pXor1[2] = y5; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P8_32x64_32x32: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x5; + pAddr[1] = x6; + pXor1[1] = y5; + pAddr[2] = x5; + pXor1[2] = y6; + pEquation->numBits = 3; + break; + case ADDR_PIPECFG_P16_32x32_8x16: + pAddr[0] = x4; + pXor1[0] = y3; + pAddr[1] = x3; + pXor1[1] = y4; + pAddr[2] = x5; + pXor1[2] = y6; + pAddr[3] = x6; + pXor1[3] = y5; + pEquation->numBits = 4; + break; + case ADDR_PIPECFG_P16_32x32_16x16: + pAddr[0] = x3; + pXor1[0] = y3; + pXor2[0] = x4; + pAddr[1] = x4; + pXor1[1] = y4; + pAddr[2] = x5; + pXor1[2] = y6; + pAddr[3] = x6; + pXor1[3] = y5; + pEquation->numBits = 4; + break; + default: + ADDR_UNHANDLED_CASE(); + pEquation->numBits = 0; + retCode = ADDR_NOTSUPPORTED; + break; + } + + if (m_settings.isVegaM && (pEquation->numBits == 4)) + { + ADDR_CHANNEL_SETTING addeMsb = pAddr[0]; + ADDR_CHANNEL_SETTING xor1Msb = pXor1[0]; + ADDR_CHANNEL_SETTING xor2Msb = pXor2[0]; + + pAddr[0] = pAddr[1]; + pXor1[0] = pXor1[1]; + pXor2[0] = pXor2[1]; + + pAddr[1] = pAddr[2]; + pXor1[1] = pXor1[2]; + pXor2[1] = pXor2[2]; + + pAddr[2] = pAddr[3]; + pXor1[2] = pXor1[3]; + pXor2[2] = pXor2[3]; + + pAddr[3] = addeMsb; + pXor1[3] = xor1Msb; + pXor2[3] = xor2Msb; + } + + for (UINT_32 i = 0; i < pEquation->numBits; i++) + { + if (pAddr[i].value == 0) + { + if (pXor1[i].value == 0) + { + pAddr[i].value = pXor2[i].value; + } + else + { + pAddr[i].value = pXor1[i].value; + pXor1[i].value = 0; + } + } + } + + return retCode; +} + +/** +**************************************************************************************************** +* SiLib::ComputePipeFromCoord +* +* @brief +* Compute pipe number from coordinates +* @return +* Pipe number +**************************************************************************************************** +*/ +UINT_32 SiLib::ComputePipeFromCoord( + UINT_32 x, ///< [in] x coordinate + UINT_32 y, ///< [in] y coordinate + UINT_32 slice, ///< [in] slice index + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 pipeSwizzle, ///< [in] pipe swizzle + BOOL_32 ignoreSE, ///< [in] TRUE if shader engines are ignored + ADDR_TILEINFO* pTileInfo ///< [in] Tile info + ) const +{ + UINT_32 pipe; + UINT_32 pipeBit0 = 0; + UINT_32 pipeBit1 = 0; + UINT_32 pipeBit2 = 0; + UINT_32 pipeBit3 = 0; + UINT_32 sliceRotation; + UINT_32 numPipes = 0; + + UINT_32 tx = x / MicroTileWidth; + UINT_32 ty = y / MicroTileHeight; + UINT_32 x3 = _BIT(tx,0); + UINT_32 x4 = _BIT(tx,1); + UINT_32 x5 = _BIT(tx,2); + UINT_32 x6 = _BIT(tx,3); + UINT_32 y3 = _BIT(ty,0); + UINT_32 y4 = _BIT(ty,1); + UINT_32 y5 = _BIT(ty,2); + UINT_32 y6 = _BIT(ty,3); + + switch (pTileInfo->pipeConfig) + { + case ADDR_PIPECFG_P2: + pipeBit0 = x3 ^ y3; + numPipes = 2; + break; + case ADDR_PIPECFG_P4_8x16: + pipeBit0 = x4 ^ y3; + pipeBit1 = x3 ^ y4; + numPipes = 4; + break; + case ADDR_PIPECFG_P4_16x16: + pipeBit0 = x3 ^ y3 ^ x4; + pipeBit1 = x4 ^ y4; + numPipes = 4; + break; + case ADDR_PIPECFG_P4_16x32: + pipeBit0 = x3 ^ y3 ^ x4; + pipeBit1 = x4 ^ y5; + numPipes = 4; + break; + case ADDR_PIPECFG_P4_32x32: + pipeBit0 = x3 ^ y3 ^ x5; + pipeBit1 = x5 ^ y5; + numPipes = 4; + break; + case ADDR_PIPECFG_P8_16x16_8x16: + pipeBit0 = x4 ^ y3 ^ x5; + pipeBit1 = x3 ^ y5; + numPipes = 8; + break; + case ADDR_PIPECFG_P8_16x32_8x16: + pipeBit0 = x4 ^ y3 ^ x5; + pipeBit1 = x3 ^ y4; + pipeBit2 = x4 ^ y5; + numPipes = 8; + break; + case ADDR_PIPECFG_P8_16x32_16x16: + pipeBit0 = x3 ^ y3 ^ x4; + pipeBit1 = x5 ^ y4; + pipeBit2 = x4 ^ y5; + numPipes = 8; + break; + case ADDR_PIPECFG_P8_32x32_8x16: + pipeBit0 = x4 ^ y3 ^ x5; + pipeBit1 = x3 ^ y4; + pipeBit2 = x5 ^ y5; + numPipes = 8; + break; + case ADDR_PIPECFG_P8_32x32_16x16: + pipeBit0 = x3 ^ y3 ^ x4; + pipeBit1 = x4 ^ y4; + pipeBit2 = x5 ^ y5; + numPipes = 8; + break; + case ADDR_PIPECFG_P8_32x32_16x32: + pipeBit0 = x3 ^ y3 ^ x4; + pipeBit1 = x4 ^ y6; + pipeBit2 = x5 ^ y5; + numPipes = 8; + break; + case ADDR_PIPECFG_P8_32x64_32x32: + pipeBit0 = x3 ^ y3 ^ x5; + pipeBit1 = x6 ^ y5; + pipeBit2 = x5 ^ y6; + numPipes = 8; + break; + case ADDR_PIPECFG_P16_32x32_8x16: + pipeBit0 = x4 ^ y3; + pipeBit1 = x3 ^ y4; + pipeBit2 = x5 ^ y6; + pipeBit3 = x6 ^ y5; + numPipes = 16; + break; + case ADDR_PIPECFG_P16_32x32_16x16: + pipeBit0 = x3 ^ y3 ^ x4; + pipeBit1 = x4 ^ y4; + pipeBit2 = x5 ^ y6; + pipeBit3 = x6 ^ y5; + numPipes = 16; + break; + default: + ADDR_UNHANDLED_CASE(); + break; + } + + if (m_settings.isVegaM && (numPipes == 16)) + { + UINT_32 pipeMsb = pipeBit0; + pipeBit0 = pipeBit1; + pipeBit1 = pipeBit2; + pipeBit2 = pipeBit3; + pipeBit3 = pipeMsb; + } + + pipe = pipeBit0 | (pipeBit1 << 1) | (pipeBit2 << 2) | (pipeBit3 << 3); + + UINT_32 microTileThickness = Thickness(tileMode); + + // + // Apply pipe rotation for the slice. + // + switch (tileMode) + { + case ADDR_TM_3D_TILED_THIN1: //fall through thin + case ADDR_TM_3D_TILED_THICK: //fall through thick + case ADDR_TM_3D_TILED_XTHICK: + sliceRotation = + Max(1, static_cast(numPipes / 2) - 1) * (slice / microTileThickness); + break; + default: + sliceRotation = 0; + break; + } + pipeSwizzle += sliceRotation; + pipeSwizzle &= (numPipes - 1); + + pipe = pipe ^ pipeSwizzle; + + return pipe; +} + +/** +**************************************************************************************************** +* SiLib::ComputeTileCoordFromPipeAndElemIdx +* +* @brief +* Compute (x,y) of a tile within a macro tile from address +* @return +* Pipe number +**************************************************************************************************** +*/ +VOID SiLib::ComputeTileCoordFromPipeAndElemIdx( + UINT_32 elemIdx, ///< [in] per pipe element index within a macro tile + UINT_32 pipe, ///< [in] pipe index + AddrPipeCfg pipeCfg, ///< [in] pipe config + UINT_32 pitchInMacroTile, ///< [in] surface pitch in macro tile + UINT_32 x, ///< [in] x coordinate of the (0,0) tile in a macro tile + UINT_32 y, ///< [in] y coordinate of the (0,0) tile in a macro tile + UINT_32* pX, ///< [out] x coordinate + UINT_32* pY ///< [out] y coordinate + ) const +{ + UINT_32 pipebit0 = _BIT(pipe,0); + UINT_32 pipebit1 = _BIT(pipe,1); + UINT_32 pipebit2 = _BIT(pipe,2); + UINT_32 pipebit3 = _BIT(pipe,3); + UINT_32 elemIdx0 = _BIT(elemIdx,0); + UINT_32 elemIdx1 = _BIT(elemIdx,1); + UINT_32 elemIdx2 = _BIT(elemIdx,2); + UINT_32 x3 = 0; + UINT_32 x4 = 0; + UINT_32 x5 = 0; + UINT_32 x6 = 0; + UINT_32 y3 = 0; + UINT_32 y4 = 0; + UINT_32 y5 = 0; + UINT_32 y6 = 0; + + switch(pipeCfg) + { + case ADDR_PIPECFG_P2: + x4 = elemIdx2; + y4 = elemIdx1 ^ x4; + y3 = elemIdx0 ^ x4; + x3 = pipebit0 ^ y3; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P4_8x16: + x4 = elemIdx1; + y4 = elemIdx0 ^ x4; + x3 = pipebit1 ^ y4; + y3 = pipebit0 ^ x4; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P4_16x16: + x4 = elemIdx1; + y3 = elemIdx0 ^ x4; + y4 = pipebit1 ^ x4; + x3 = pipebit0 ^ y3 ^ x4; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P4_16x32: + x3 = elemIdx0 ^ pipebit0; + y5 = _BIT(y,5); + x4 = pipebit1 ^ y5; + y3 = pipebit0 ^ x3 ^ x4; + y4 = elemIdx1 ^ x4; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P4_32x32: + x4 = elemIdx2; + y3 = elemIdx0 ^ x4; + y4 = elemIdx1 ^ x4; + if((pitchInMacroTile % 2) == 0) + { //even + y5 = _BIT(y,5); + x5 = pipebit1 ^ y5; + x3 = pipebit0 ^ y3 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + else + { //odd + x5 = _BIT(x,5); + x3 = pipebit0 ^ y3 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + } + break; + case ADDR_PIPECFG_P8_16x16_8x16: + x4 = elemIdx0; + y5 = _BIT(y,5); + x5 = _BIT(x,5); + x3 = pipebit1 ^ y5; + y4 = pipebit2 ^ x4; + y3 = pipebit0 ^ x5 ^ x4; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P8_16x32_8x16: + x3 = elemIdx0; + y4 = pipebit1 ^ x3; + y5 = _BIT(y,5); + x5 = _BIT(x,5); + x4 = pipebit2 ^ y5; + y3 = pipebit0 ^ x4 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P8_32x32_8x16: + x4 = elemIdx1; + y4 = elemIdx0 ^ x4; + x3 = pipebit1 ^ y4; + if((pitchInMacroTile % 2) == 0) + { //even + y5 = _BIT(y,5); + x5 = _BIT(x,5); + x5 = pipebit2 ^ y5; + y3 = pipebit0 ^ x4 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + else + { //odd + x5 = _BIT(x,5); + y3 = pipebit0 ^ x4 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + } + break; + case ADDR_PIPECFG_P8_16x32_16x16: + x3 = elemIdx0; + x5 = _BIT(x,5); + y5 = _BIT(y,5); + x4 = pipebit2 ^ y5; + y4 = pipebit1 ^ x5; + y3 = pipebit0 ^ x3 ^ x4; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + break; + case ADDR_PIPECFG_P8_32x32_16x16: + x4 = elemIdx1; + y3 = elemIdx0 ^ x4; + x3 = y3^x4^pipebit0; + y4 = pipebit1 ^ x4; + if((pitchInMacroTile % 2) == 0) + { //even + y5 = _BIT(y,5); + x5 = pipebit2 ^ y5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + else + { //odd + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + } + break; + case ADDR_PIPECFG_P8_32x32_16x32: + if((pitchInMacroTile % 2) == 0) + { //even + y5 = _BIT(y,5); + y6 = _BIT(y,6); + x4 = pipebit1 ^ y6; + y3 = elemIdx0 ^ x4; + y4 = elemIdx1 ^ x4; + x3 = pipebit0 ^ y3 ^ x4; + x5 = pipebit2 ^ y5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + else + { //odd + y6 = _BIT(y,6); + x4 = pipebit1 ^ y6; + y3 = elemIdx0 ^ x4; + y4 = elemIdx1 ^ x4; + x3 = pipebit0 ^ y3 ^ x4; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(2, x4, x3); + } + break; + case ADDR_PIPECFG_P8_32x64_32x32: + x4 = elemIdx2; + y3 = elemIdx0 ^ x4; + y4 = elemIdx1 ^ x4; + if((pitchInMacroTile % 4) == 0) + { //multiple of 4 + y5 = _BIT(y,5); + y6 = _BIT(y,6); + x5 = pipebit2 ^ y6; + x6 = pipebit1 ^ y5; + x3 = pipebit0 ^ y3 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(4, x6, x5, x4, x3); + } + else + { + y6 = _BIT(y,6); + x5 = pipebit2 ^ y6; + x3 = pipebit0 ^ y3 ^ x5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + break; + case ADDR_PIPECFG_P16_32x32_8x16: + x4 = elemIdx1; + y4 = elemIdx0 ^ x4; + y3 = pipebit0 ^ x4; + x3 = pipebit1 ^ y4; + if((pitchInMacroTile % 4) == 0) + { //multiple of 4 + y5 = _BIT(y,5); + y6 = _BIT(y,6); + x5 = pipebit2 ^ y6; + x6 = pipebit3 ^ y5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(4, x6, x5,x4, x3); + } + else + { + y6 = _BIT(y,6); + x5 = pipebit2 ^ y6; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + break; + case ADDR_PIPECFG_P16_32x32_16x16: + x4 = elemIdx1; + y3 = elemIdx0 ^ x4; + y4 = pipebit1 ^ x4; + x3 = pipebit0 ^ y3 ^ x4; + if((pitchInMacroTile % 4) == 0) + { //multiple of 4 + y5 = _BIT(y,5); + y6 = _BIT(y,6); + x5 = pipebit2 ^ y6; + x6 = pipebit3 ^ y5; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(4, x6, x5, x4, x3); + } + else + { + y6 = _BIT(y,6); + x5 = pipebit2 ^ y6; + *pY = Bits2Number(2, y4, y3); + *pX = Bits2Number(3, x5, x4, x3); + } + break; + default: + ADDR_UNHANDLED_CASE(); + } +} + +/** +**************************************************************************************************** +* SiLib::TileCoordToMaskElementIndex +* +* @brief +* Compute element index from coordinates in tiles +* @return +* Element index +**************************************************************************************************** +*/ +UINT_32 SiLib::TileCoordToMaskElementIndex( + UINT_32 tx, ///< [in] x coord, in Tiles + UINT_32 ty, ///< [in] y coord, in Tiles + AddrPipeCfg pipeConfig, ///< [in] pipe config + UINT_32* macroShift, ///< [out] macro shift + UINT_32* elemIdxBits ///< [out] tile offset bits + ) const +{ + UINT_32 elemIdx = 0; + UINT_32 elemIdx0, elemIdx1, elemIdx2; + UINT_32 tx0, tx1; + UINT_32 ty0, ty1; + + tx0 = _BIT(tx,0); + tx1 = _BIT(tx,1); + ty0 = _BIT(ty,0); + ty1 = _BIT(ty,1); + + switch(pipeConfig) + { + case ADDR_PIPECFG_P2: + *macroShift = 3; + *elemIdxBits =3; + elemIdx2 = tx1; + elemIdx1 = tx1 ^ ty1; + elemIdx0 = tx1 ^ ty0; + elemIdx = Bits2Number(3,elemIdx2,elemIdx1,elemIdx0); + break; + case ADDR_PIPECFG_P4_8x16: + *macroShift = 2; + *elemIdxBits =2; + elemIdx1 = tx1; + elemIdx0 = tx1 ^ ty1; + elemIdx = Bits2Number(2,elemIdx1,elemIdx0); + break; + case ADDR_PIPECFG_P4_16x16: + *macroShift = 2; + *elemIdxBits =2; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P4_16x32: + *macroShift = 2; + *elemIdxBits =2; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1^ty1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P4_32x32: + *macroShift = 2; + *elemIdxBits =3; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1^ty1; + elemIdx2 = tx1; + elemIdx = Bits2Number(3, elemIdx2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P8_16x16_8x16: + *macroShift = 1; + *elemIdxBits =1; + elemIdx0 = tx1; + elemIdx = elemIdx0; + break; + case ADDR_PIPECFG_P8_16x32_8x16: + *macroShift = 1; + *elemIdxBits =1; + elemIdx0 = tx0; + elemIdx = elemIdx0; + break; + case ADDR_PIPECFG_P8_32x32_8x16: + *macroShift = 1; + *elemIdxBits =2; + elemIdx1 = tx1; + elemIdx0 = tx1^ty1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P8_16x32_16x16: + *macroShift = 1; + *elemIdxBits =1; + elemIdx0 = tx0; + elemIdx = elemIdx0; + break; + case ADDR_PIPECFG_P8_32x32_16x16: + *macroShift = 1; + *elemIdxBits =2; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P8_32x32_16x32: + *macroShift = 1; + *elemIdxBits =2; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1^ty1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P8_32x64_32x32: + *macroShift = 1; + *elemIdxBits =3; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1^ty1; + elemIdx2 = tx1; + elemIdx = Bits2Number(3, elemIdx2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P16_32x32_8x16: + *macroShift = 0; + *elemIdxBits =2; + elemIdx0 = tx1^ty1; + elemIdx1 = tx1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + case ADDR_PIPECFG_P16_32x32_16x16: + *macroShift = 0; + *elemIdxBits =2; + elemIdx0 = tx1^ty0; + elemIdx1 = tx1; + elemIdx = Bits2Number(2, elemIdx1, elemIdx0); + break; + default: + ADDR_UNHANDLED_CASE(); + break; + } + + return elemIdx; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeTileDataWidthAndHeightLinear +* +* @brief +* Compute the squared cache shape for per-tile data (CMASK and HTILE) for linear layout +* +* @return +* N/A +* +* @note +* MacroWidth and macroHeight are measured in pixels +**************************************************************************************************** +*/ +VOID SiLib::HwlComputeTileDataWidthAndHeightLinear( + UINT_32* pMacroWidth, ///< [out] macro tile width + UINT_32* pMacroHeight, ///< [out] macro tile height + UINT_32 bpp, ///< [in] bits per pixel + ADDR_TILEINFO* pTileInfo ///< [in] tile info + ) const +{ + ADDR_ASSERT(pTileInfo != NULL); + UINT_32 macroWidth; + UINT_32 macroHeight; + + /// In linear mode, the htile or cmask buffer must be padded out to 4 tiles + /// but for P8_32x64_32x32, it must be padded out to 8 tiles + /// Actually there are more pipe configs which need 8-tile padding but SI family + /// has a bug which is fixed in CI family + if ((pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32) || + (pTileInfo->pipeConfig == ADDR_PIPECFG_P16_32x32_8x16) || + (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x32_16x16)) + { + macroWidth = 8*MicroTileWidth; + macroHeight = 8*MicroTileHeight; + } + else + { + macroWidth = 4*MicroTileWidth; + macroHeight = 4*MicroTileHeight; + } + + *pMacroWidth = macroWidth; + *pMacroHeight = macroHeight; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeHtileBytes +* +* @brief +* Compute htile size in bytes +* +* @return +* Htile size in bytes +**************************************************************************************************** +*/ +UINT_64 SiLib::HwlComputeHtileBytes( + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 bpp, ///< [in] bits per pixel + BOOL_32 isLinear, ///< [in] if it is linear mode + UINT_32 numSlices, ///< [in] number of slices + UINT_64* pSliceBytes, ///< [out] bytes per slice + UINT_32 baseAlign ///< [in] base alignments + ) const +{ + return ComputeHtileBytes(pitch, height, bpp, isLinear, numSlices, pSliceBytes, baseAlign); +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeXmaskAddrFromCoord +* +* @brief +* Compute address from coordinates for htile/cmask +* @return +* Byte address +**************************************************************************************************** +*/ +UINT_64 SiLib::HwlComputeXmaskAddrFromCoord( + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 x, ///< [in] x coord + UINT_32 y, ///< [in] y coord + UINT_32 slice, ///< [in] slice/depth index + UINT_32 numSlices, ///< [in] number of slices + UINT_32 factor, ///< [in] factor that indicates cmask(2) or htile(1) + BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout + BOOL_32 isWidth8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value + BOOL_32 isHeight8, ///< [in] TRUE if width is 8, FALSE means 4. It's register value + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pBitPosition ///< [out] bit position inside a byte + ) const +{ + UINT_32 tx = x / MicroTileWidth; + UINT_32 ty = y / MicroTileHeight; + UINT_32 newPitch; + UINT_32 newHeight; + UINT_64 totalBytes; + UINT_32 macroWidth; + UINT_32 macroHeight; + UINT_64 pSliceBytes; + UINT_32 pBaseAlign; + UINT_32 tileNumPerPipe; + UINT_32 elemBits; + + if (factor == 2) //CMASK + { + ADDR_CMASK_FLAGS flags = {{0}}; + + tileNumPerPipe = 256; + + ComputeCmaskInfo(flags, + pitch, + height, + numSlices, + isLinear, + pTileInfo, + &newPitch, + &newHeight, + &totalBytes, + ¯oWidth, + ¯oHeight); + elemBits = CmaskElemBits; + } + else //HTile + { + ADDR_HTILE_FLAGS flags = {{0}}; + + tileNumPerPipe = 512; + + ComputeHtileInfo(flags, + pitch, + height, + numSlices, + isLinear, + TRUE, + TRUE, + pTileInfo, + &newPitch, + &newHeight, + &totalBytes, + ¯oWidth, + ¯oHeight, + &pSliceBytes, + &pBaseAlign); + elemBits = 32; + } + + const UINT_32 pitchInTile = newPitch / MicroTileWidth; + const UINT_32 heightInTile = newHeight / MicroTileWidth; + UINT_64 macroOffset; // Per pipe starting offset of the macro tile in which this tile lies. + UINT_64 microNumber; // Per pipe starting offset of the macro tile in which this tile lies. + UINT_32 microX; + UINT_32 microY; + UINT_64 microOffset; + UINT_32 microShift; + UINT_64 totalOffset; + UINT_32 elemIdxBits; + UINT_32 elemIdx = + TileCoordToMaskElementIndex(tx, ty, pTileInfo->pipeConfig, µShift, &elemIdxBits); + + UINT_32 numPipes = HwlGetPipes(pTileInfo); + + if (isLinear) + { //linear addressing + // Linear addressing is extremelly wasting memory if slice > 1, since each pipe has the full + // slice memory foot print instead of divided by numPipes. + microX = tx / 4; // Macro Tile is 4x4 + microY = ty / 4 ; + microNumber = static_cast(microX + microY * (pitchInTile / 4)) << microShift; + + UINT_32 sliceBits = pitchInTile * heightInTile; + + // do htile single slice alignment if the flag is true + if (m_configFlags.useHtileSliceAlign && (factor == 1)) //Htile + { + sliceBits = PowTwoAlign(sliceBits, BITS_TO_BYTES(HtileCacheBits) * numPipes / elemBits); + } + macroOffset = slice * (sliceBits / numPipes) * elemBits ; + } + else + { //tiled addressing + const UINT_32 macroWidthInTile = macroWidth / MicroTileWidth; // Now in unit of Tiles + const UINT_32 macroHeightInTile = macroHeight / MicroTileHeight; + const UINT_32 pitchInCL = pitchInTile / macroWidthInTile; + const UINT_32 heightInCL = heightInTile / macroHeightInTile; + + const UINT_32 macroX = x / macroWidth; + const UINT_32 macroY = y / macroHeight; + const UINT_32 macroNumber = macroX + macroY * pitchInCL + slice * pitchInCL * heightInCL; + + // Per pipe starting offset of the cache line in which this tile lies. + microX = (x % macroWidth) / MicroTileWidth / 4; // Macro Tile is 4x4 + microY = (y % macroHeight) / MicroTileHeight / 4 ; + microNumber = static_cast(microX + microY * (macroWidth / MicroTileWidth / 4)) << microShift; + + macroOffset = macroNumber * tileNumPerPipe * elemBits; + } + + if(elemIdxBits == microShift) + { + microNumber += elemIdx; + } + else + { + microNumber >>= elemIdxBits; + microNumber <<= elemIdxBits; + microNumber += elemIdx; + } + + microOffset = elemBits * microNumber; + totalOffset = microOffset + macroOffset; + + UINT_32 pipe = ComputePipeFromCoord(x, y, 0, ADDR_TM_2D_TILED_THIN1, 0, FALSE, pTileInfo); + UINT_64 addrInBits = totalOffset % (m_pipeInterleaveBytes * 8) + + pipe * (m_pipeInterleaveBytes * 8) + + totalOffset / (m_pipeInterleaveBytes * 8) * (m_pipeInterleaveBytes * 8) * numPipes; + *pBitPosition = static_cast(addrInBits) % 8; + UINT_64 addr = addrInBits / 8; + + return addr; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeXmaskCoordFromAddr +* +* @brief +* Compute the coord from an address of a cmask/htile +* +* @return +* N/A +* +* @note +* This method is reused by htile, so rename to Xmask +**************************************************************************************************** +*/ +VOID SiLib::HwlComputeXmaskCoordFromAddr( + UINT_64 addr, ///< [in] address + UINT_32 bitPosition, ///< [in] bitPosition in a byte + UINT_32 pitch, ///< [in] pitch + UINT_32 height, ///< [in] height + UINT_32 numSlices, ///< [in] number of slices + UINT_32 factor, ///< [in] factor that indicates cmask or htile + BOOL_32 isLinear, ///< [in] linear or tiled HTILE layout + BOOL_32 isWidth8, ///< [in] Not used by SI + BOOL_32 isHeight8, ///< [in] Not used by SI + ADDR_TILEINFO* pTileInfo, ///< [in] Tile info + UINT_32* pX, ///< [out] x coord + UINT_32* pY, ///< [out] y coord + UINT_32* pSlice ///< [out] slice index + ) const +{ + UINT_32 newPitch; + UINT_32 newHeight; + UINT_64 totalBytes; + UINT_32 clWidth; + UINT_32 clHeight; + UINT_32 tileNumPerPipe; + UINT_64 sliceBytes; + + *pX = 0; + *pY = 0; + *pSlice = 0; + + if (factor == 2) //CMASK + { + ADDR_CMASK_FLAGS flags = {{0}}; + + tileNumPerPipe = 256; + + ComputeCmaskInfo(flags, + pitch, + height, + numSlices, + isLinear, + pTileInfo, + &newPitch, + &newHeight, + &totalBytes, + &clWidth, + &clHeight); + } + else //HTile + { + ADDR_HTILE_FLAGS flags = {{0}}; + + tileNumPerPipe = 512; + + ComputeHtileInfo(flags, + pitch, + height, + numSlices, + isLinear, + TRUE, + TRUE, + pTileInfo, + &newPitch, + &newHeight, + &totalBytes, + &clWidth, + &clHeight, + &sliceBytes); + } + + const UINT_32 pitchInTile = newPitch / MicroTileWidth; + const UINT_32 heightInTile = newHeight / MicroTileWidth; + const UINT_32 pitchInMacroTile = pitchInTile / 4; + UINT_32 macroShift; + UINT_32 elemIdxBits; + // get macroShift and elemIdxBits + TileCoordToMaskElementIndex(0, 0, pTileInfo->pipeConfig, ¯oShift, &elemIdxBits); + + const UINT_32 numPipes = HwlGetPipes(pTileInfo); + const UINT_32 pipe = (UINT_32)((addr / m_pipeInterleaveBytes) % numPipes); + // per pipe + UINT_64 localOffset = (addr % m_pipeInterleaveBytes) + + (addr / m_pipeInterleaveBytes / numPipes)* m_pipeInterleaveBytes; + + UINT_32 tileIndex; + if (factor == 2) //CMASK + { + tileIndex = (UINT_32)(localOffset * 2 + (bitPosition != 0)); + } + else + { + tileIndex = (UINT_32)(localOffset / 4); + } + + UINT_32 macroOffset; + if (isLinear) + { + UINT_32 sliceSizeInTile = pitchInTile * heightInTile; + + // do htile single slice alignment if the flag is true + if (m_configFlags.useHtileSliceAlign && (factor == 1)) //Htile + { + sliceSizeInTile = PowTwoAlign(sliceSizeInTile, static_cast(sliceBytes) / 64); + } + *pSlice = tileIndex / (sliceSizeInTile / numPipes); + macroOffset = tileIndex % (sliceSizeInTile / numPipes); + } + else + { + const UINT_32 clWidthInTile = clWidth / MicroTileWidth; // Now in unit of Tiles + const UINT_32 clHeightInTile = clHeight / MicroTileHeight; + const UINT_32 pitchInCL = pitchInTile / clWidthInTile; + const UINT_32 heightInCL = heightInTile / clHeightInTile; + const UINT_32 clIndex = tileIndex / tileNumPerPipe; + + UINT_32 clX = clIndex % pitchInCL; + UINT_32 clY = (clIndex % (heightInCL * pitchInCL)) / pitchInCL; + + *pX = clX * clWidthInTile * MicroTileWidth; + *pY = clY * clHeightInTile * MicroTileHeight; + *pSlice = clIndex / (heightInCL * pitchInCL); + + macroOffset = tileIndex % tileNumPerPipe; + } + + UINT_32 elemIdx = macroOffset & 7; + macroOffset >>= elemIdxBits; + + if (elemIdxBits != macroShift) + { + macroOffset <<= (elemIdxBits - macroShift); + + UINT_32 pipebit1 = _BIT(pipe,1); + UINT_32 pipebit2 = _BIT(pipe,2); + UINT_32 pipebit3 = _BIT(pipe,3); + if (pitchInMacroTile % 2) + { //odd + switch (pTileInfo->pipeConfig) + { + case ADDR_PIPECFG_P4_32x32: + macroOffset |= pipebit1; + break; + case ADDR_PIPECFG_P8_32x32_8x16: + case ADDR_PIPECFG_P8_32x32_16x16: + case ADDR_PIPECFG_P8_32x32_16x32: + macroOffset |= pipebit2; + break; + default: + break; + } + + } + + if (pitchInMacroTile % 4) + { + if (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32) + { + macroOffset |= (pipebit1<<1); + } + if((pTileInfo->pipeConfig == ADDR_PIPECFG_P16_32x32_8x16) || + (pTileInfo->pipeConfig == ADDR_PIPECFG_P16_32x32_16x16)) + { + macroOffset |= (pipebit3<<1); + } + } + } + + UINT_32 macroX; + UINT_32 macroY; + + if (isLinear) + { + macroX = macroOffset % pitchInMacroTile; + macroY = macroOffset / pitchInMacroTile; + } + else + { + const UINT_32 clWidthInMacroTile = clWidth / (MicroTileWidth * 4); + macroX = macroOffset % clWidthInMacroTile; + macroY = macroOffset / clWidthInMacroTile; + } + + *pX += macroX * 4 * MicroTileWidth; + *pY += macroY * 4 * MicroTileHeight; + + UINT_32 microX; + UINT_32 microY; + ComputeTileCoordFromPipeAndElemIdx(elemIdx, pipe, pTileInfo->pipeConfig, pitchInMacroTile, + *pX, *pY, µX, µY); + + *pX += microX * MicroTileWidth; + *pY += microY * MicroTileWidth; +} + +/** +**************************************************************************************************** +* SiLib::HwlGetPitchAlignmentLinear +* @brief +* Get pitch alignment +* @return +* pitch alignment +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlGetPitchAlignmentLinear( + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags ///< [in] surface flags + ) const +{ + UINT_32 pitchAlign; + + // Interleaved access requires a 256B aligned pitch, so fall back to pre-SI alignment + if (flags.interleaved) + { + pitchAlign = Max(64u, m_pipeInterleaveBytes / BITS_TO_BYTES(bpp)); + + } + else + { + pitchAlign = Max(8u, 64 / BITS_TO_BYTES(bpp)); + } + + return pitchAlign; +} + +/** +**************************************************************************************************** +* SiLib::HwlGetSizeAdjustmentLinear +* +* @brief +* Adjust linear surface pitch and slice size +* +* @return +* Logical slice size in bytes +**************************************************************************************************** +*/ +UINT_64 SiLib::HwlGetSizeAdjustmentLinear( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + UINT_32 numSamples, ///< [in] number of samples + UINT_32 baseAlign, ///< [in] base alignment + UINT_32 pitchAlign, ///< [in] pitch alignment + UINT_32* pPitch, ///< [in,out] pointer to pitch + UINT_32* pHeight, ///< [in,out] pointer to height + UINT_32* pHeightAlign ///< [in,out] pointer to height align + ) const +{ + UINT_64 sliceSize; + if (tileMode == ADDR_TM_LINEAR_GENERAL) + { + sliceSize = BITS_TO_BYTES(static_cast(*pPitch) * (*pHeight) * bpp * numSamples); + } + else + { + UINT_32 pitch = *pPitch; + UINT_32 height = *pHeight; + + UINT_32 pixelsPerPipeInterleave = m_pipeInterleaveBytes / BITS_TO_BYTES(bpp); + UINT_32 sliceAlignInPixel = pixelsPerPipeInterleave < 64 ? 64 : pixelsPerPipeInterleave; + + // numSamples should be 1 in real cases (no MSAA for linear but TGL may pass non 1 value) + UINT_64 pixelPerSlice = static_cast(pitch) * height * numSamples; + + while (pixelPerSlice % sliceAlignInPixel) + { + pitch += pitchAlign; + pixelPerSlice = static_cast(pitch) * height * numSamples; + } + + *pPitch = pitch; + + UINT_32 heightAlign = 1; + + while ((pitch * heightAlign) % sliceAlignInPixel) + { + heightAlign++; + } + + *pHeightAlign = heightAlign; + + sliceSize = BITS_TO_BYTES(pixelPerSlice * bpp); + } + + return sliceSize; +} + +/** +**************************************************************************************************** +* SiLib::HwlPreHandleBaseLvl3xPitch +* +* @brief +* Pre-handler of 3x pitch (96 bit) adjustment +* +* @return +* Expected pitch +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlPreHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input + UINT_32 expPitch ///< [in] pitch + ) const +{ + ADDR_ASSERT(pIn->width == expPitch); + + // From SI, if pow2Pad is 1 the pitch is expanded 3x first, then padded to pow2, so nothing to + // do here + if (pIn->flags.pow2Pad == FALSE) + { + Addr::V1::Lib::HwlPreHandleBaseLvl3xPitch(pIn, expPitch); + } + else + { + ADDR_ASSERT(IsPow2(expPitch)); + } + + return expPitch; +} + +/** +**************************************************************************************************** +* SiLib::HwlPostHandleBaseLvl3xPitch +* +* @brief +* Post-handler of 3x pitch adjustment +* +* @return +* Expected pitch +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlPostHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input + UINT_32 expPitch ///< [in] pitch + ) const +{ + /** + * @note The pitch will be divided by 3 in the end so the value will look odd but h/w should + * be able to compute a correct pitch from it as h/w address library is doing the job. + */ + // From SI, the pitch is expanded 3x first, then padded to pow2, so no special handler here + if (pIn->flags.pow2Pad == FALSE) + { + Addr::V1::Lib::HwlPostHandleBaseLvl3xPitch(pIn, expPitch); + } + + return expPitch; +} + +/** +**************************************************************************************************** +* SiLib::HwlGetPitchAlignmentMicroTiled +* +* @brief +* Compute 1D tiled surface pitch alignment +* +* @return +* pitch alignment +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlGetPitchAlignmentMicroTiled( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples ///< [in] number of samples + ) const +{ + UINT_32 pitchAlign; + + if (flags.qbStereo) + { + pitchAlign = EgBasedLib::HwlGetPitchAlignmentMicroTiled(tileMode,bpp,flags,numSamples); + } + else + { + pitchAlign = 8; + } + + return pitchAlign; +} + +/** +**************************************************************************************************** +* SiLib::HwlGetSizeAdjustmentMicroTiled +* +* @brief +* Adjust 1D tiled surface pitch and slice size +* +* @return +* Logical slice size in bytes +**************************************************************************************************** +*/ +UINT_64 SiLib::HwlGetSizeAdjustmentMicroTiled( + UINT_32 thickness, ///< [in] thickness + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 numSamples, ///< [in] number of samples + UINT_32 baseAlign, ///< [in] base alignment + UINT_32 pitchAlign, ///< [in] pitch alignment + UINT_32* pPitch, ///< [in,out] pointer to pitch + UINT_32* pHeight ///< [in,out] pointer to height + ) const +{ + UINT_64 logicalSliceSize; + UINT_64 physicalSliceSize; + + UINT_32 pitch = *pPitch; + UINT_32 height = *pHeight; + + // Logical slice: pitch * height * bpp * numSamples (no 1D MSAA so actually numSamples == 1) + logicalSliceSize = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); + + // Physical slice: multiplied by thickness + physicalSliceSize = logicalSliceSize * thickness; + + // Pitch alignment is always 8, so if slice size is not padded to base alignment + // (pipe_interleave_size), we need to increase pitch + while ((physicalSliceSize % baseAlign) != 0) + { + pitch += pitchAlign; + + logicalSliceSize = BITS_TO_BYTES(static_cast(pitch) * height * bpp * numSamples); + + physicalSliceSize = logicalSliceSize * thickness; + } + +#if !ALT_TEST + // + // Special workaround for depth/stencil buffer, use 8 bpp to align depth buffer again since + // the stencil plane may have larger pitch if the slice size is smaller than base alignment. + // + // Note: this actually does not work for mipmap but mipmap depth texture is not really + // sampled with mipmap. + // + if (flags.depth && (flags.noStencil == FALSE)) + { + ADDR_ASSERT(numSamples == 1); + + UINT_64 logicalSiceSizeStencil = static_cast(pitch) * height; // 1 byte stencil + + while ((logicalSiceSizeStencil % baseAlign) != 0) + { + pitch += pitchAlign; // Stencil plane's pitch alignment is the same as depth plane's + + logicalSiceSizeStencil = static_cast(pitch) * height; + } + + if (pitch != *pPitch) + { + // If this is a mipmap, this padded one cannot be sampled as a whole mipmap! + logicalSliceSize = logicalSiceSizeStencil * BITS_TO_BYTES(bpp); + } + } +#endif + *pPitch = pitch; + + // No adjust for pHeight + + return logicalSliceSize; +} + +/** +**************************************************************************************************** +* SiLib::HwlConvertChipFamily +* +* @brief +* Convert familyID defined in atiid.h to ChipFamily and set m_chipFamily/m_chipRevision +* @return +* ChipFamily +**************************************************************************************************** +*/ +ChipFamily SiLib::HwlConvertChipFamily( + UINT_32 uChipFamily, ///< [in] chip family defined in atiih.h + UINT_32 uChipRevision) ///< [in] chip revision defined in "asic_family"_id.h +{ + ChipFamily family = ADDR_CHIP_FAMILY_SI; + + switch (uChipFamily) + { + case FAMILY_SI: + m_settings.isSouthernIsland = 1; + m_settings.isTahiti = ASICREV_IS_TAHITI_P(uChipRevision); + m_settings.isPitCairn = ASICREV_IS_PITCAIRN_PM(uChipRevision); + m_settings.isCapeVerde = ASICREV_IS_CAPEVERDE_M(uChipRevision); + m_settings.isOland = ASICREV_IS_OLAND_M(uChipRevision); + m_settings.isHainan = ASICREV_IS_HAINAN_V(uChipRevision); + break; + default: + ADDR_ASSERT(!"This should be a Fusion"); + break; + } + + return family; +} + +/** +**************************************************************************************************** +* SiLib::HwlSetupTileInfo +* +* @brief +* Setup default value of tile info for SI +**************************************************************************************************** +*/ +VOID SiLib::HwlSetupTileInfo( + AddrTileMode tileMode, ///< [in] Tile mode + ADDR_SURFACE_FLAGS flags, ///< [in] Surface type flags + UINT_32 bpp, ///< [in] Bits per pixel + UINT_32 pitch, ///< [in] Pitch in pixels + UINT_32 height, ///< [in] Height in pixels + UINT_32 numSamples, ///< [in] Number of samples + ADDR_TILEINFO* pTileInfoIn, ///< [in] Tile info input: NULL for default + ADDR_TILEINFO* pTileInfoOut, ///< [out] Tile info output + AddrTileType inTileType, ///< [in] Tile type + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] Output + ) const +{ + UINT_32 thickness = Thickness(tileMode); + ADDR_TILEINFO* pTileInfo = pTileInfoOut; + INT index = TileIndexInvalid; + + // Fail-safe code + if (IsLinear(tileMode) == FALSE) + { + // 128 bpp/thick tiling must be non-displayable. + // Fmask reuse color buffer's entry but bank-height field can be from another entry + // To simplify the logic, fmask entry should be picked from non-displayable ones + if (bpp == 128 || thickness > 1 || flags.fmask || flags.prt) + { + inTileType = ADDR_NON_DISPLAYABLE; + } + + if (flags.depth || flags.stencil) + { + inTileType = ADDR_DEPTH_SAMPLE_ORDER; + } + } + + // Partial valid fields are not allowed for SI. + if (IsTileInfoAllZero(pTileInfo)) + { + if (IsMacroTiled(tileMode)) + { + if (flags.prt) + { + if (numSamples == 1) + { + if (flags.depth) + { + switch (bpp) + { + case 16: + index = 3; + break; + case 32: + index = 6; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + else + { + switch (bpp) + { + case 8: + index = 21; + break; + case 16: + index = 22; + break; + case 32: + index = 23; + break; + case 64: + index = 24; + break; + case 128: + index = 25; + break; + default: + break; + } + + if (thickness > 1) + { + ADDR_ASSERT(bpp != 128); + index += 5; + } + } + } + else + { + ADDR_ASSERT(numSamples == 4); + + if (flags.depth) + { + switch (bpp) + { + case 16: + index = 5; + break; + case 32: + index = 7; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + else + { + switch (bpp) + { + case 8: + index = 23; + break; + case 16: + index = 24; + break; + case 32: + index = 25; + break; + case 64: + index = 30; + break; + default: + ADDR_ASSERT_ALWAYS(); + break; + } + } + } + }//end of PRT part + // See table entries 0-7 + else if (flags.depth || flags.stencil) + { + if (flags.compressZ) + { + if (flags.stencil) + { + index = 0; + } + else + { + // optimal tile index for compressed depth/stencil. + switch (numSamples) + { + case 1: + index = 0; + break; + case 2: + case 4: + index = 1; + break; + case 8: + index = 2; + break; + default: + break; + } + } + } + else // unCompressZ + { + index = 3; + } + } + else //non PRT & non Depth & non Stencil + { + // See table entries 9-12 + if (inTileType == ADDR_DISPLAYABLE) + { + switch (bpp) + { + case 8: + index = 10; + break; + case 16: + index = 11; + break; + case 32: + index = 12; + break; + case 64: + index = 12; + break; + default: + break; + } + } + else + { + // See table entries 13-17 + if (thickness == 1) + { + if (flags.fmask) + { + UINT_32 fmaskPixelSize = bpp * numSamples; + + switch (fmaskPixelSize) + { + case 8: + index = 14; + break; + case 16: + index = 15; + break; + case 32: + index = 16; + break; + case 64: + index = 17; + break; + default: + ADDR_ASSERT_ALWAYS(); + } + } + else + { + switch (bpp) + { + case 8: + index = 14; + break; + case 16: + index = 15; + break; + case 32: + index = 16; + break; + case 64: + index = 17; + break; + case 128: + index = 17; + break; + default: + break; + } + } + } + else // thick tiling - entries 18-20 + { + switch (thickness) + { + case 4: + index = 20; + break; + case 8: + index = 19; + break; + default: + break; + } + } + } + } + } + else + { + if (tileMode == ADDR_TM_LINEAR_ALIGNED) + { + index = 8; + } + else if (tileMode == ADDR_TM_LINEAR_GENERAL) + { + index = TileIndexLinearGeneral; + } + else + { + if (flags.depth || flags.stencil) + { + index = 4; + } + else if (inTileType == ADDR_DISPLAYABLE) + { + index = 9; + } + else if (thickness == 1) + { + index = 13; + } + else + { + index = 18; + } + } + } + + if (index >= 0 && index <= 31) + { + *pTileInfo = m_tileTable[index].info; + pOut->tileType = m_tileTable[index].type; + } + + if (index == TileIndexLinearGeneral) + { + *pTileInfo = m_tileTable[8].info; + pOut->tileType = m_tileTable[8].type; + } + } + else + { + if (pTileInfoIn) + { + if (flags.stencil && pTileInfoIn->tileSplitBytes == 0) + { + // Stencil always uses index 0 + *pTileInfo = m_tileTable[0].info; + } + } + // Pass through tile type + pOut->tileType = inTileType; + } + + pOut->tileIndex = index; + pOut->prtTileIndex = flags.prt; +} + +/** +**************************************************************************************************** +* SiLib::DecodeGbRegs +* +* @brief +* Decodes GB_ADDR_CONFIG and noOfBanks/noOfRanks +* +* @return +* TRUE if all settings are valid +* +**************************************************************************************************** +*/ +BOOL_32 SiLib::DecodeGbRegs( + const ADDR_REGISTER_VALUE* pRegValue) ///< [in] create input +{ + GB_ADDR_CONFIG reg; + BOOL_32 valid = TRUE; + + reg.val = pRegValue->gbAddrConfig; + + switch (reg.f.pipe_interleave_size) + { + case ADDR_CONFIG_PIPE_INTERLEAVE_256B: + m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_256B; + break; + case ADDR_CONFIG_PIPE_INTERLEAVE_512B: + m_pipeInterleaveBytes = ADDR_PIPEINTERLEAVE_512B; + break; + default: + valid = FALSE; + ADDR_UNHANDLED_CASE(); + break; + } + + switch (reg.f.row_size) + { + case ADDR_CONFIG_1KB_ROW: + m_rowSize = ADDR_ROWSIZE_1KB; + break; + case ADDR_CONFIG_2KB_ROW: + m_rowSize = ADDR_ROWSIZE_2KB; + break; + case ADDR_CONFIG_4KB_ROW: + m_rowSize = ADDR_ROWSIZE_4KB; + break; + default: + valid = FALSE; + ADDR_UNHANDLED_CASE(); + break; + } + + switch (pRegValue->noOfBanks) + { + case 0: + m_banks = 4; + break; + case 1: + m_banks = 8; + break; + case 2: + m_banks = 16; + break; + default: + valid = FALSE; + ADDR_UNHANDLED_CASE(); + break; + } + + switch (pRegValue->noOfRanks) + { + case 0: + m_ranks = 1; + break; + case 1: + m_ranks = 2; + break; + default: + valid = FALSE; + ADDR_UNHANDLED_CASE(); + break; + } + + m_logicalBanks = m_banks * m_ranks; + + ADDR_ASSERT(m_logicalBanks <= 16); + + return valid; +} + +/** +**************************************************************************************************** +* SiLib::HwlInitGlobalParams +* +* @brief +* Initializes global parameters +* +* @return +* TRUE if all settings are valid +* +**************************************************************************************************** +*/ +BOOL_32 SiLib::HwlInitGlobalParams( + const ADDR_CREATE_INPUT* pCreateIn) ///< [in] create input +{ + BOOL_32 valid = TRUE; + const ADDR_REGISTER_VALUE* pRegValue = &pCreateIn->regValue; + + valid = DecodeGbRegs(pRegValue); + + if (valid) + { + if (m_settings.isTahiti || m_settings.isPitCairn) + { + m_pipes = 8; + } + else if (m_settings.isCapeVerde || m_settings.isOland) + { + m_pipes = 4; + } + else + { + // Hainan is 2-pipe (m_settings.isHainan == 1) + m_pipes = 2; + } + + valid = InitTileSettingTable(pRegValue->pTileConfig, pRegValue->noOfEntries); + + if (valid) + { + InitEquationTable(); + } + + m_maxSamples = 16; + } + + return valid; +} + +/** +**************************************************************************************************** +* SiLib::HwlConvertTileInfoToHW +* @brief +* Entry of si's ConvertTileInfoToHW +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE SiLib::HwlConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, ///< [in] input structure + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut ///< [out] output structure + ) const +{ + ADDR_E_RETURNCODE retCode = ADDR_OK; + + retCode = EgBasedLib::HwlConvertTileInfoToHW(pIn, pOut); + + if (retCode == ADDR_OK) + { + if (pIn->reverse == FALSE) + { + if (pIn->pTileInfo->pipeConfig == ADDR_PIPECFG_INVALID) + { + retCode = ADDR_INVALIDPARAMS; + } + else + { + pOut->pTileInfo->pipeConfig = + static_cast(pIn->pTileInfo->pipeConfig - 1); + } + } + else + { + pOut->pTileInfo->pipeConfig = + static_cast(pIn->pTileInfo->pipeConfig + 1); + } + } + + return retCode; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeXmaskCoordYFrom8Pipe +* +* @brief +* Compute the Y coord which will be added to Xmask Y +* coord. +* @return +* Y coord +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlComputeXmaskCoordYFrom8Pipe( + UINT_32 pipe, ///< [in] pipe id + UINT_32 x ///< [in] tile coord x, which is original x coord / 8 + ) const +{ + // This function should never be called since it is 6xx/8xx specfic. + // Keep this empty implementation to avoid any mis-use. + ADDR_ASSERT_ALWAYS(); + + return 0; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeSurfaceCoord2DFromBankPipe +* +* @brief +* Compute surface x,y coordinates from bank/pipe info +* @return +* N/A +**************************************************************************************************** +*/ +VOID SiLib::HwlComputeSurfaceCoord2DFromBankPipe( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32* pX, ///< [in,out] x coordinate + UINT_32* pY, ///< [in,out] y coordinate + UINT_32 slice, ///< [in] slice index + UINT_32 bank, ///< [in] bank number + UINT_32 pipe, ///< [in] pipe number + UINT_32 bankSwizzle,///< [in] bank swizzle + UINT_32 pipeSwizzle,///< [in] pipe swizzle + UINT_32 tileSlices, ///< [in] slices in a micro tile + BOOL_32 ignoreSE, ///< [in] TRUE if shader engines are ignored + ADDR_TILEINFO* pTileInfo ///< [in] bank structure. **All fields to be valid on entry** + ) const +{ + UINT_32 xBit; + UINT_32 yBit; + UINT_32 yBit3 = 0; + UINT_32 yBit4 = 0; + UINT_32 yBit5 = 0; + UINT_32 yBit6 = 0; + + UINT_32 xBit3 = 0; + UINT_32 xBit4 = 0; + UINT_32 xBit5 = 0; + + UINT_32 numPipes = GetPipePerSurf(pTileInfo->pipeConfig); + + CoordFromBankPipe xyBits = {0}; + ComputeSurfaceCoord2DFromBankPipe(tileMode, *pX, *pY, slice, bank, pipe, + bankSwizzle, pipeSwizzle, tileSlices, pTileInfo, + &xyBits); + yBit3 = xyBits.yBit3; + yBit4 = xyBits.yBit4; + yBit5 = xyBits.yBit5; + yBit6 = xyBits.yBit6; + + xBit3 = xyBits.xBit3; + xBit4 = xyBits.xBit4; + xBit5 = xyBits.xBit5; + + yBit = xyBits.yBits; + + UINT_32 yBitTemp = 0; + + if ((pTileInfo->pipeConfig == ADDR_PIPECFG_P4_32x32) || + (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32)) + { + ADDR_ASSERT(pTileInfo->bankWidth == 1 && pTileInfo->macroAspectRatio > 1); + UINT_32 yBitToCheck = QLog2(pTileInfo->banks) - 1; + + ADDR_ASSERT(yBitToCheck <= 3); + + yBitTemp = _BIT(yBit, yBitToCheck); + + xBit3 = 0; + } + + yBit = Bits2Number(4, yBit6, yBit5, yBit4, yBit3); + xBit = Bits2Number(3, xBit5, xBit4, xBit3); + + *pY += yBit * pTileInfo->bankHeight * MicroTileHeight; + *pX += xBit * numPipes * pTileInfo->bankWidth * MicroTileWidth; + + //calculate the bank and pipe bits in x, y + UINT_32 xTile; //x in micro tile + UINT_32 x3 = 0; + UINT_32 x4 = 0; + UINT_32 x5 = 0; + UINT_32 x6 = 0; + UINT_32 y = *pY; + + UINT_32 pipeBit0 = _BIT(pipe,0); + UINT_32 pipeBit1 = _BIT(pipe,1); + UINT_32 pipeBit2 = _BIT(pipe,2); + + UINT_32 y3 = _BIT(y, 3); + UINT_32 y4 = _BIT(y, 4); + UINT_32 y5 = _BIT(y, 5); + UINT_32 y6 = _BIT(y, 6); + + // bankbit0 after ^x4^x5 + UINT_32 bankBit00 = _BIT(bank,0); + UINT_32 bankBit0 = 0; + + switch (pTileInfo->pipeConfig) + { + case ADDR_PIPECFG_P2: + x3 = pipeBit0 ^ y3; + break; + case ADDR_PIPECFG_P4_8x16: + x4 = pipeBit0 ^ y3; + x3 = pipeBit0 ^ y4; + break; + case ADDR_PIPECFG_P4_16x16: + x4 = pipeBit1 ^ y4; + x3 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P4_16x32: + x4 = pipeBit1 ^ y4; + x3 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P4_32x32: + x5 = pipeBit1 ^ y5; + x3 = pipeBit0 ^ y3 ^ x5; + bankBit0 = yBitTemp ^ x5; + x4 = bankBit00 ^ x5 ^ bankBit0; + *pX += x5 * 4 * 1 * 8; // x5 * num_pipes * bank_width * 8; + break; + case ADDR_PIPECFG_P8_16x16_8x16: + x3 = pipeBit1 ^ y5; + x4 = pipeBit2 ^ y4; + x5 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P8_16x32_8x16: + x3 = pipeBit1 ^ y4; + x4 = pipeBit2 ^ y5; + x5 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P8_32x32_8x16: + x3 = pipeBit1 ^ y4; + x5 = pipeBit2 ^ y5; + x4 = pipeBit0 ^ y3 ^ x5; + break; + case ADDR_PIPECFG_P8_16x32_16x16: + x4 = pipeBit2 ^ y5; + x5 = pipeBit1 ^ y4; + x3 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P8_32x32_16x16: + x5 = pipeBit2 ^ y5; + x4 = pipeBit1 ^ y4; + x3 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P8_32x32_16x32: + x5 = pipeBit2 ^ y5; + x4 = pipeBit1 ^ y6; + x3 = pipeBit0 ^ y3 ^ x4; + break; + case ADDR_PIPECFG_P8_32x64_32x32: + x6 = pipeBit1 ^ y5; + x5 = pipeBit2 ^ y6; + x3 = pipeBit0 ^ y3 ^ x5; + bankBit0 = yBitTemp ^ x6; + x4 = bankBit00 ^ x5 ^ bankBit0; + *pX += x6 * 8 * 1 * 8; // x6 * num_pipes * bank_width * 8; + break; + default: + ADDR_ASSERT_ALWAYS(); + } + + xTile = Bits2Number(3, x5, x4, x3); + + *pX += xTile << 3; +} + +/** +**************************************************************************************************** +* SiLib::HwlPreAdjustBank +* +* @brief +* Adjust bank before calculating address acoording to bank/pipe +* @return +* Adjusted bank +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlPreAdjustBank( + UINT_32 tileX, ///< [in] x coordinate in unit of tile + UINT_32 bank, ///< [in] bank + ADDR_TILEINFO* pTileInfo ///< [in] tile info + ) const +{ + if (((pTileInfo->pipeConfig == ADDR_PIPECFG_P4_32x32) || + (pTileInfo->pipeConfig == ADDR_PIPECFG_P8_32x64_32x32)) && (pTileInfo->bankWidth == 1)) + { + UINT_32 bankBit0 = _BIT(bank, 0); + UINT_32 x4 = _BIT(tileX, 1); + UINT_32 x5 = _BIT(tileX, 2); + + bankBit0 = bankBit0 ^ x4 ^ x5; + bank |= bankBit0; + + ADDR_ASSERT(pTileInfo->macroAspectRatio > 1); + } + + return bank; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeSurfaceInfo +* +* @brief +* Entry of si's ComputeSurfaceInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE SiLib::HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [out] output structure + ) const +{ + pOut->tileIndex = pIn->tileIndex; + + ADDR_E_RETURNCODE retCode = EgBasedLib::HwlComputeSurfaceInfo(pIn, pOut); + + UINT_32 tileIndex = static_cast(pOut->tileIndex); + + if (((pIn->flags.needEquation == TRUE) || + (pIn->flags.preferEquation == TRUE)) && + (pIn->numSamples <= 1) && + (tileIndex < TileTableSize)) + { + static const UINT_32 SiUncompressDepthTileIndex = 3; + + if ((pIn->numSlices > 1) && + (IsMacroTiled(pOut->tileMode) == TRUE) && + ((m_chipFamily == ADDR_CHIP_FAMILY_SI) || + (IsPrtTileMode(pOut->tileMode) == FALSE))) + { + pOut->equationIndex = ADDR_INVALID_EQUATION_INDEX; + } + else if ((pIn->flags.prt == FALSE) && + (m_uncompressDepthEqIndex != 0) && + (tileIndex == SiUncompressDepthTileIndex)) + { + pOut->equationIndex = m_uncompressDepthEqIndex + Log2(pIn->bpp >> 3); + } + else + { + + pOut->equationIndex = m_equationLookupTable[Log2(pIn->bpp >> 3)][tileIndex]; + } + + if (pOut->equationIndex != ADDR_INVALID_EQUATION_INDEX) + { + pOut->blockWidth = m_blockWidth[pOut->equationIndex]; + + pOut->blockHeight = m_blockHeight[pOut->equationIndex]; + + pOut->blockSlices = m_blockSlices[pOut->equationIndex]; + } + } + else + { + pOut->equationIndex = ADDR_INVALID_EQUATION_INDEX; + } + + return retCode; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeMipLevel +* @brief +* Compute MipLevel info (including level 0) +* @return +* TRUE if HWL's handled +**************************************************************************************************** +*/ +BOOL_32 SiLib::HwlComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn ///< [in,out] Input structure + ) const +{ + // basePitch is calculated from level 0 so we only check this for mipLevel > 0 + if (pIn->mipLevel > 0) + { + // Note: Don't check expand 3x formats(96 bit) as the basePitch is not pow2 even if + // we explicity set pow2Pad flag. The 3x base pitch is padded to pow2 but after being + // divided by expandX factor (3) - to program texture pitch, the basePitch is never pow2. + if (ElemLib::IsExpand3x(pIn->format) == FALSE) + { + // Sublevel pitches are generated from base level pitch instead of width on SI + // If pow2Pad is 0, we don't assert - as this is not really used for a mip chain + ADDR_ASSERT((pIn->flags.pow2Pad == FALSE) || + ((pIn->basePitch != 0) && IsPow2(pIn->basePitch))); + } + + if (pIn->basePitch != 0) + { + pIn->width = Max(1u, pIn->basePitch >> pIn->mipLevel); + } + } + + // pow2Pad is done in PostComputeMipLevel + + return TRUE; +} + +/** +**************************************************************************************************** +* SiLib::HwlCheckLastMacroTiledLvl +* +* @brief +* Sets pOut->last2DLevel to TRUE if it is +* @note +* +**************************************************************************************************** +*/ +VOID SiLib::HwlCheckLastMacroTiledLvl( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ///< [in] Input structure + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Output structure (used as input, too) + ) const +{ + // pow2Pad covers all mipmap cases + if (pIn->flags.pow2Pad) + { + ADDR_ASSERT(IsMacroTiled(pIn->tileMode)); + + UINT_32 nextPitch; + UINT_32 nextHeight; + UINT_32 nextSlices; + + AddrTileMode nextTileMode; + + if (pIn->mipLevel == 0 || pIn->basePitch == 0) + { + // Base level or fail-safe case (basePitch == 0) + nextPitch = pOut->pitch >> 1; + } + else + { + // Sub levels + nextPitch = pIn->basePitch >> (pIn->mipLevel + 1); + } + + // nextHeight must be shifted from this level's original height rather than a pow2 padded + // one but this requires original height stored somewhere (pOut->height) + ADDR_ASSERT(pOut->height != 0); + + // next level's height is just current level's >> 1 in pixels + nextHeight = pOut->height >> 1; + // Special format such as FMT_1 and FMT_32_32_32 can be linear only so we consider block + // compressed foramts + if (ElemLib::IsBlockCompressed(pIn->format)) + { + nextHeight = (nextHeight + 3) / 4; + } + nextHeight = NextPow2(nextHeight); + + // nextSlices may be 0 if this level's is 1 + if (pIn->flags.volume) + { + nextSlices = Max(1u, pIn->numSlices >> 1); + } + else + { + nextSlices = pIn->numSlices; + } + + nextTileMode = ComputeSurfaceMipLevelTileMode(pIn->tileMode, + pIn->bpp, + nextPitch, + nextHeight, + nextSlices, + pIn->numSamples, + pOut->blockWidth, + pOut->blockHeight, + pOut->pTileInfo); + + pOut->last2DLevel = IsMicroTiled(nextTileMode); + } +} + +/** +**************************************************************************************************** +* SiLib::HwlDegradeThickTileMode +* +* @brief +* Degrades valid tile mode for thick modes if needed +* +* @return +* Suitable tile mode +**************************************************************************************************** +*/ +AddrTileMode SiLib::HwlDegradeThickTileMode( + AddrTileMode baseTileMode, ///< base tile mode + UINT_32 numSlices, ///< current number of slices + UINT_32* pBytesPerTile ///< [in,out] pointer to bytes per slice + ) const +{ + return EgBasedLib::HwlDegradeThickTileMode(baseTileMode, numSlices, pBytesPerTile); +} + +/** +**************************************************************************************************** +* SiLib::HwlTileInfoEqual +* +* @brief +* Return TRUE if all field are equal +* @note +* Only takes care of current HWL's data +**************************************************************************************************** +*/ +BOOL_32 SiLib::HwlTileInfoEqual( + const ADDR_TILEINFO* pLeft, ///<[in] Left compare operand + const ADDR_TILEINFO* pRight ///<[in] Right compare operand + ) const +{ + BOOL_32 equal = FALSE; + + if (pLeft->pipeConfig == pRight->pipeConfig) + { + equal = EgBasedLib::HwlTileInfoEqual(pLeft, pRight); + } + + return equal; +} + +/** +**************************************************************************************************** +* SiLib::GetTileSettings +* +* @brief +* Get tile setting infos by index. +* @return +* Tile setting info. +**************************************************************************************************** +*/ +const TileConfig* SiLib::GetTileSetting( + UINT_32 index ///< [in] Tile index + ) const +{ + ADDR_ASSERT(index < m_noOfEntries); + return &m_tileTable[index]; +} + +/** +**************************************************************************************************** +* SiLib::HwlPostCheckTileIndex +* +* @brief +* Map a tile setting to index if curIndex is invalid, otherwise check if curIndex matches +* tile mode/type/info and change the index if needed +* @return +* Tile index. +**************************************************************************************************** +*/ +INT_32 SiLib::HwlPostCheckTileIndex( + const ADDR_TILEINFO* pInfo, ///< [in] Tile Info + AddrTileMode mode, ///< [in] Tile mode + AddrTileType type, ///< [in] Tile type + INT curIndex ///< [in] Current index assigned in HwlSetupTileInfo + ) const +{ + INT_32 index = curIndex; + + if (mode == ADDR_TM_LINEAR_GENERAL) + { + index = TileIndexLinearGeneral; + } + else + { + BOOL_32 macroTiled = IsMacroTiled(mode); + + // We need to find a new index if either of them is true + // 1. curIndex is invalid + // 2. tile mode is changed + // 3. tile info does not match for macro tiled + if ((index == TileIndexInvalid || + (mode != m_tileTable[index].mode) || + (macroTiled && (HwlTileInfoEqual(pInfo, &m_tileTable[index].info) == FALSE)))) + { + for (index = 0; index < static_cast(m_noOfEntries); index++) + { + if (macroTiled) + { + // macro tile modes need all to match + if (HwlTileInfoEqual(pInfo, &m_tileTable[index].info) && + (mode == m_tileTable[index].mode) && + (type == m_tileTable[index].type)) + { + break; + } + } + else if (mode == ADDR_TM_LINEAR_ALIGNED) + { + // linear mode only needs tile mode to match + if (mode == m_tileTable[index].mode) + { + break; + } + } + else + { + // micro tile modes only need tile mode and tile type to match + if (mode == m_tileTable[index].mode && + type == m_tileTable[index].type) + { + break; + } + } + } + } + } + + ADDR_ASSERT(index < static_cast(m_noOfEntries)); + + if (index >= static_cast(m_noOfEntries)) + { + index = TileIndexInvalid; + } + + return index; +} + +/** +**************************************************************************************************** +* SiLib::HwlSetupTileCfg +* +* @brief +* Map tile index to tile setting. +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE SiLib::HwlSetupTileCfg( + UINT_32 bpp, ///< Bits per pixel + INT_32 index, ///< Tile index + INT_32 macroModeIndex, ///< Index in macro tile mode table(CI) + ADDR_TILEINFO* pInfo, ///< [out] Tile Info + AddrTileMode* pMode, ///< [out] Tile mode + AddrTileType* pType ///< [out] Tile type + ) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + // Global flag to control usage of tileIndex + if (UseTileIndex(index)) + { + if (index == TileIndexLinearGeneral) + { + if (pMode) + { + *pMode = ADDR_TM_LINEAR_GENERAL; + } + + if (pType) + { + *pType = ADDR_DISPLAYABLE; + } + + if (pInfo) + { + pInfo->banks = 2; + pInfo->bankWidth = 1; + pInfo->bankHeight = 1; + pInfo->macroAspectRatio = 1; + pInfo->tileSplitBytes = 64; + pInfo->pipeConfig = ADDR_PIPECFG_P2; + } + } + else if (static_cast(index) >= m_noOfEntries) + { + returnCode = ADDR_INVALIDPARAMS; + } + else + { + const TileConfig* pCfgTable = GetTileSetting(index); + + if (pInfo) + { + *pInfo = pCfgTable->info; + } + else + { + if (IsMacroTiled(pCfgTable->mode)) + { + returnCode = ADDR_INVALIDPARAMS; + } + } + + if (pMode) + { + *pMode = pCfgTable->mode; + } + + if (pType) + { + *pType = pCfgTable->type; + } + } + } + + return returnCode; +} + +/** +**************************************************************************************************** +* SiLib::ReadGbTileMode +* +* @brief +* Convert GB_TILE_MODE HW value to TileConfig. +* @return +* NA. +**************************************************************************************************** +*/ +VOID SiLib::ReadGbTileMode( + UINT_32 regValue, ///< [in] GB_TILE_MODE register + TileConfig* pCfg ///< [out] output structure + ) const +{ + GB_TILE_MODE gbTileMode; + gbTileMode.val = regValue; + + pCfg->type = static_cast(gbTileMode.f.micro_tile_mode); + pCfg->info.bankHeight = 1 << gbTileMode.f.bank_height; + pCfg->info.bankWidth = 1 << gbTileMode.f.bank_width; + pCfg->info.banks = 1 << (gbTileMode.f.num_banks + 1); + pCfg->info.macroAspectRatio = 1 << gbTileMode.f.macro_tile_aspect; + pCfg->info.tileSplitBytes = 64 << gbTileMode.f.tile_split; + pCfg->info.pipeConfig = static_cast(gbTileMode.f.pipe_config + 1); + + UINT_32 regArrayMode = gbTileMode.f.array_mode; + + pCfg->mode = static_cast(regArrayMode); + + if (regArrayMode == 8) //ARRAY_2D_TILED_XTHICK + { + pCfg->mode = ADDR_TM_2D_TILED_XTHICK; + } + else if (regArrayMode >= 14) //ARRAY_3D_TILED_XTHICK + { + pCfg->mode = static_cast(pCfg->mode + 3); + } +} + +/** +**************************************************************************************************** +* SiLib::InitTileSettingTable +* +* @brief +* Initialize the ADDR_TILE_CONFIG table. +* @return +* TRUE if tile table is correctly initialized +**************************************************************************************************** +*/ +BOOL_32 SiLib::InitTileSettingTable( + const UINT_32* pCfg, ///< [in] Pointer to table of tile configs + UINT_32 noOfEntries ///< [in] Numbe of entries in the table above + ) +{ + BOOL_32 initOk = TRUE; + + ADDR_ASSERT(noOfEntries <= TileTableSize); + + memset(m_tileTable, 0, sizeof(m_tileTable)); + + if (noOfEntries != 0) + { + m_noOfEntries = noOfEntries; + } + else + { + m_noOfEntries = TileTableSize; + } + + if (pCfg) // From Client + { + for (UINT_32 i = 0; i < m_noOfEntries; i++) + { + ReadGbTileMode(*(pCfg + i), &m_tileTable[i]); + } + } + else + { + ADDR_ASSERT_ALWAYS(); + initOk = FALSE; + } + + if (initOk) + { + ADDR_ASSERT(m_tileTable[TILEINDEX_LINEAR_ALIGNED].mode == ADDR_TM_LINEAR_ALIGNED); + } + + return initOk; +} + +/** +**************************************************************************************************** +* SiLib::HwlGetTileIndex +* +* @brief +* Return the virtual/real index for given mode/type/info +* @return +* ADDR_OK if successful. +**************************************************************************************************** +*/ +ADDR_E_RETURNCODE SiLib::HwlGetTileIndex( + const ADDR_GET_TILEINDEX_INPUT* pIn, + ADDR_GET_TILEINDEX_OUTPUT* pOut) const +{ + ADDR_E_RETURNCODE returnCode = ADDR_OK; + + pOut->index = HwlPostCheckTileIndex(pIn->pTileInfo, pIn->tileMode, pIn->tileType); + + return returnCode; +} + +/** +**************************************************************************************************** +* SiLib::HwlFmaskPreThunkSurfInfo +* +* @brief +* Some preparation before thunking a ComputeSurfaceInfo call for Fmask +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +VOID SiLib::HwlFmaskPreThunkSurfInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, ///< [in] Input of fmask info + const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, ///< [in] Output of fmask info + ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, ///< [out] Input of thunked surface info + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut ///< [out] Output of thunked surface info + ) const +{ + pSurfIn->tileIndex = pFmaskIn->tileIndex; +} + +/** +**************************************************************************************************** +* SiLib::HwlFmaskPostThunkSurfInfo +* +* @brief +* Copy hwl extra field after calling thunked ComputeSurfaceInfo +* @return +* ADDR_E_RETURNCODE +**************************************************************************************************** +*/ +VOID SiLib::HwlFmaskPostThunkSurfInfo( + const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, ///< [in] Output of surface info + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut ///< [out] Output of fmask info + ) const +{ + pFmaskOut->macroModeIndex = TileIndexInvalid; + pFmaskOut->tileIndex = pSurfOut->tileIndex; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeFmaskBits +* @brief +* Computes fmask bits +* @return +* Fmask bits +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlComputeFmaskBits( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + UINT_32* pNumSamples + ) const +{ + UINT_32 numSamples = pIn->numSamples; + UINT_32 numFrags = GetNumFragments(numSamples, pIn->numFrags); + UINT_32 bpp; + + if (numFrags != numSamples) // EQAA + { + ADDR_ASSERT(numFrags <= 8); + + if (pIn->resolved == FALSE) + { + if (numFrags == 1) + { + bpp = 1; + numSamples = numSamples == 16 ? 16 : 8; + } + else if (numFrags == 2) + { + ADDR_ASSERT(numSamples >= 4); + + bpp = 2; + numSamples = numSamples; + } + else if (numFrags == 4) + { + ADDR_ASSERT(numSamples >= 4); + + bpp = 4; + numSamples = numSamples; + } + else // numFrags == 8 + { + ADDR_ASSERT(numSamples == 16); + + bpp = 4; + numSamples = numSamples; + } + } + else + { + if (numFrags == 1) + { + bpp = (numSamples == 16) ? 16 : 8; + numSamples = 1; + } + else if (numFrags == 2) + { + ADDR_ASSERT(numSamples >= 4); + + bpp = numSamples*2; + numSamples = 1; + } + else if (numFrags == 4) + { + ADDR_ASSERT(numSamples >= 4); + + bpp = numSamples*4; + numSamples = 1; + } + else // numFrags == 8 + { + ADDR_ASSERT(numSamples >= 16); + + bpp = 16*4; + numSamples = 1; + } + } + } + else // Normal AA + { + if (pIn->resolved == FALSE) + { + bpp = ComputeFmaskNumPlanesFromNumSamples(numSamples); + numSamples = numSamples == 2 ? 8 : numSamples; + } + else + { + // The same as 8XX + bpp = ComputeFmaskResolvedBppFromNumSamples(numSamples); + numSamples = 1; // 1x sample + } + } + + SafeAssign(pNumSamples, numSamples); + + return bpp; +} + +/** +**************************************************************************************************** +* SiLib::HwlOptimizeTileMode +* +* @brief +* Optimize tile mode on SI +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID SiLib::HwlOptimizeTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode = pInOut->tileMode; + + if ((pInOut->flags.needEquation == TRUE) && + (IsMacroTiled(tileMode) == TRUE) && + (pInOut->numSamples <= 1)) + { + UINT_32 thickness = Thickness(tileMode); + + if (thickness > 1) + { + tileMode = ADDR_TM_1D_TILED_THICK; + } + else if (pInOut->numSlices > 1) + { + tileMode = ADDR_TM_1D_TILED_THIN1; + } + else + { + tileMode = ADDR_TM_2D_TILED_THIN1; + } + } + + if (tileMode != pInOut->tileMode) + { + pInOut->tileMode = tileMode; + } +} + +/** +**************************************************************************************************** +* SiLib::HwlOverrideTileMode +* +* @brief +* Override tile modes (for PRT only, avoid client passes in an invalid PRT mode for SI. +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID SiLib::HwlOverrideTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode = pInOut->tileMode; + + switch (tileMode) + { + case ADDR_TM_PRT_TILED_THIN1: + tileMode = ADDR_TM_2D_TILED_THIN1; + break; + + case ADDR_TM_PRT_TILED_THICK: + tileMode = ADDR_TM_2D_TILED_THICK; + break; + + case ADDR_TM_PRT_2D_TILED_THICK: + tileMode = ADDR_TM_2D_TILED_THICK; + break; + + case ADDR_TM_PRT_3D_TILED_THICK: + tileMode = ADDR_TM_3D_TILED_THICK; + break; + + default: + break; + } + + if (tileMode != pInOut->tileMode) + { + pInOut->tileMode = tileMode; + // Only PRT tile modes are overridden for now. Revisit this once new modes are added above. + pInOut->flags.prt = TRUE; + } +} + +/** +**************************************************************************************************** +* SiLib::HwlSetPrtTileMode +* +* @brief +* Set prt tile modes. +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID SiLib::HwlSetPrtTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + pInOut->tileMode = ADDR_TM_2D_TILED_THIN1; + pInOut->tileType = (pInOut->tileType == ADDR_DEPTH_SAMPLE_ORDER) ? + ADDR_DEPTH_SAMPLE_ORDER : ADDR_NON_DISPLAYABLE; + pInOut->flags.prt = TRUE; +} + +/** +**************************************************************************************************** +* SiLib::HwlSelectTileMode +* +* @brief +* Select tile modes. +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID SiLib::HwlSelectTileMode( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut ///< [in,out] input output structure + ) const +{ + AddrTileMode tileMode; + AddrTileType tileType; + + if (pInOut->flags.volume) + { + if (pInOut->numSlices >= 8) + { + tileMode = ADDR_TM_2D_TILED_XTHICK; + } + else if (pInOut->numSlices >= 4) + { + tileMode = ADDR_TM_2D_TILED_THICK; + } + else + { + tileMode = ADDR_TM_2D_TILED_THIN1; + } + tileType = ADDR_NON_DISPLAYABLE; + } + else + { + tileMode = ADDR_TM_2D_TILED_THIN1; + + if (pInOut->flags.depth || pInOut->flags.stencil) + { + tileType = ADDR_DEPTH_SAMPLE_ORDER; + } + else if ((pInOut->bpp <= 32) || + (pInOut->flags.display == TRUE) || + (pInOut->flags.overlay == TRUE)) + { + tileType = ADDR_DISPLAYABLE; + } + else + { + tileType = ADDR_NON_DISPLAYABLE; + } + } + + if (pInOut->flags.prt) + { + tileMode = ADDR_TM_2D_TILED_THIN1; + tileType = (tileType == ADDR_DISPLAYABLE) ? ADDR_NON_DISPLAYABLE : tileType; + } + + pInOut->tileMode = tileMode; + pInOut->tileType = tileType; + + // Optimize tile mode if possible + pInOut->flags.opt4Space = TRUE; + + // Optimize tile mode if possible + OptimizeTileMode(pInOut); + + HwlOverrideTileMode(pInOut); +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeMaxBaseAlignments +* +* @brief +* Gets maximum alignments +* @return +* maximum alignments +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlComputeMaxBaseAlignments() const +{ + const UINT_32 pipes = HwlGetPipes(&m_tileTable[0].info); + + // Initial size is 64 KiB for PRT. + UINT_32 maxBaseAlign = 64 * 1024; + + for (UINT_32 i = 0; i < m_noOfEntries; i++) + { + if ((IsMacroTiled(m_tileTable[i].mode) == TRUE) && + (IsPrtTileMode(m_tileTable[i].mode) == FALSE)) + { + // The maximum tile size is 16 byte-per-pixel and either 8-sample or 8-slice. + UINT_32 tileSize = Min(m_tileTable[i].info.tileSplitBytes, + MicroTilePixels * 8 * 16); + + UINT_32 baseAlign = tileSize * pipes * m_tileTable[i].info.banks * + m_tileTable[i].info.bankWidth * m_tileTable[i].info.bankHeight; + + if (baseAlign > maxBaseAlign) + { + maxBaseAlign = baseAlign; + } + } + } + + return maxBaseAlign; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeMaxMetaBaseAlignments +* +* @brief +* Gets maximum alignments for metadata +* @return +* maximum alignments for metadata +**************************************************************************************************** +*/ +UINT_32 SiLib::HwlComputeMaxMetaBaseAlignments() const +{ + UINT_32 maxPipe = 1; + + for (UINT_32 i = 0; i < m_noOfEntries; i++) + { + maxPipe = Max(maxPipe, HwlGetPipes(&m_tileTable[i].info)); + } + + return m_pipeInterleaveBytes * maxPipe; +} + +/** +**************************************************************************************************** +* SiLib::HwlComputeSurfaceAlignmentsMacroTiled +* +* @brief +* Hardware layer function to compute alignment request for macro tile mode +* +* @return +* N/A +* +**************************************************************************************************** +*/ +VOID SiLib::HwlComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, ///< [in] tile mode + UINT_32 bpp, ///< [in] bits per pixel + ADDR_SURFACE_FLAGS flags, ///< [in] surface flags + UINT_32 mipLevel, ///< [in] mip level + UINT_32 numSamples, ///< [in] number of samples + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut ///< [in,out] Surface output + ) const +{ + if ((mipLevel == 0) && (flags.prt)) + { + UINT_32 macroTileSize = pOut->blockWidth * pOut->blockHeight * numSamples * bpp / 8; + + if (macroTileSize < PrtTileSize) + { + UINT_32 numMacroTiles = PrtTileSize / macroTileSize; + + ADDR_ASSERT((PrtTileSize % macroTileSize) == 0); + + pOut->pitchAlign *= numMacroTiles; + pOut->baseAlign *= numMacroTiles; + } + } +} + +/** +**************************************************************************************************** +* SiLib::InitEquationTable +* +* @brief +* Initialize Equation table. +* +* @return +* N/A +**************************************************************************************************** +*/ +VOID SiLib::InitEquationTable() +{ + ADDR_EQUATION_KEY equationKeyTable[EquationTableSize]; + memset(equationKeyTable, 0, sizeof(equationKeyTable)); + + memset(m_equationTable, 0, sizeof(m_equationTable)); + + memset(m_blockWidth, 0, sizeof(m_blockWidth)); + + memset(m_blockHeight, 0, sizeof(m_blockHeight)); + + memset(m_blockSlices, 0, sizeof(m_blockSlices)); + + // Loop all possible bpp + for (UINT_32 log2ElementBytes = 0; log2ElementBytes < MaxNumElementBytes; log2ElementBytes++) + { + // Get bits per pixel + UINT_32 bpp = 1 << (log2ElementBytes + 3); + + // Loop all possible tile index + for (INT_32 tileIndex = 0; tileIndex < static_cast(m_noOfEntries); tileIndex++) + { + UINT_32 equationIndex = ADDR_INVALID_EQUATION_INDEX; + + TileConfig tileConfig = m_tileTable[tileIndex]; + + ADDR_SURFACE_FLAGS flags = {{0}}; + + // Compute tile info, hardcode numSamples to 1 because MSAA is not supported + // in swizzle pattern equation + HwlComputeMacroModeIndex(tileIndex, flags, bpp, 1, &tileConfig.info, NULL, NULL); + + // Check if the input is supported + if (IsEquationSupported(bpp, tileConfig, tileIndex, log2ElementBytes) == TRUE) + { + ADDR_EQUATION_KEY key = {{0}}; + + // Generate swizzle equation key from bpp and tile config + key.fields.log2ElementBytes = log2ElementBytes; + key.fields.tileMode = tileConfig.mode; + // Treat depth micro tile type and non-display micro tile type as the same key + // because they have the same equation actually + key.fields.microTileType = (tileConfig.type == ADDR_DEPTH_SAMPLE_ORDER) ? + ADDR_NON_DISPLAYABLE : tileConfig.type; + key.fields.pipeConfig = tileConfig.info.pipeConfig; + key.fields.numBanksLog2 = Log2(tileConfig.info.banks); + key.fields.bankWidth = tileConfig.info.bankWidth; + key.fields.bankHeight = tileConfig.info.bankHeight; + key.fields.macroAspectRatio = tileConfig.info.macroAspectRatio; + key.fields.prt = ((m_chipFamily == ADDR_CHIP_FAMILY_SI) && + ((1 << tileIndex) & SiPrtTileIndexMask)) ? 1 : 0; + + // Find in the table if the equation has been built based on the key + for (UINT_32 i = 0; i < m_numEquations; i++) + { + if (key.value == equationKeyTable[i].value) + { + equationIndex = i; + break; + } + } + + // If found, just fill the index into the lookup table and no need + // to generate the equation again. Otherwise, generate the equation. + if (equationIndex == ADDR_INVALID_EQUATION_INDEX) + { + ADDR_EQUATION equation; + ADDR_E_RETURNCODE retCode; + + memset(&equation, 0, sizeof(ADDR_EQUATION)); + + // Generate the equation + if (IsMicroTiled(tileConfig.mode)) + { + retCode = ComputeMicroTileEquation(log2ElementBytes, + tileConfig.mode, + tileConfig.type, + &equation); + } + else + { + retCode = ComputeMacroTileEquation(log2ElementBytes, + tileConfig.mode, + tileConfig.type, + &tileConfig.info, + &equation); + } + // Only fill the equation into the table if the return code is ADDR_OK, + // otherwise if the return code is not ADDR_OK, it indicates this is not + // a valid input, we do nothing but just fill invalid equation index + // into the lookup table. + if (retCode == ADDR_OK) + { + equationIndex = m_numEquations; + ADDR_ASSERT(equationIndex < EquationTableSize); + + m_blockSlices[equationIndex] = Thickness(tileConfig.mode); + + if (IsMicroTiled(tileConfig.mode)) + { + m_blockWidth[equationIndex] = MicroTileWidth; + m_blockHeight[equationIndex] = MicroTileHeight; + } + else + { + const ADDR_TILEINFO* pTileInfo = &tileConfig.info; + + m_blockWidth[equationIndex] = + HwlGetPipes(pTileInfo) * MicroTileWidth * pTileInfo->bankWidth * + pTileInfo->macroAspectRatio; + m_blockHeight[equationIndex] = + MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks / + pTileInfo->macroAspectRatio; + + if (key.fields.prt) + { + UINT_32 macroTileSize = + m_blockWidth[equationIndex] * m_blockHeight[equationIndex] * + bpp / 8; + + if (macroTileSize < PrtTileSize) + { + UINT_32 numMacroTiles = PrtTileSize / macroTileSize; + + ADDR_ASSERT(macroTileSize == (1u << equation.numBits)); + ADDR_ASSERT((PrtTileSize % macroTileSize) == 0); + + UINT_32 numBits = Log2(numMacroTiles); + + UINT_32 xStart = Log2(m_blockWidth[equationIndex]) + + log2ElementBytes; + + m_blockWidth[equationIndex] *= numMacroTiles; + + for (UINT_32 i = 0; i < numBits; i++) + { + equation.addr[equation.numBits + i].valid = 1; + equation.addr[equation.numBits + i].index = xStart + i; + } + + equation.numBits += numBits; + } + } + } + + equationKeyTable[equationIndex] = key; + m_equationTable[equationIndex] = equation; + + m_numEquations++; + } + } + } + + // Fill the index into the lookup table, if the combination is not supported + // fill the invalid equation index + m_equationLookupTable[log2ElementBytes][tileIndex] = equationIndex; + } + + if (m_chipFamily == ADDR_CHIP_FAMILY_SI) + { + // For tile index 3 which is shared between PRT depth and uncompressed depth + m_uncompressDepthEqIndex = m_numEquations; + + for (UINT_32 log2ElemBytes = 0; log2ElemBytes < MaxNumElementBytes; log2ElemBytes++) + { + TileConfig tileConfig = m_tileTable[3]; + ADDR_EQUATION equation; + ADDR_E_RETURNCODE retCode; + + memset(&equation, 0, sizeof(ADDR_EQUATION)); + + retCode = ComputeMacroTileEquation(log2ElemBytes, + tileConfig.mode, + tileConfig.type, + &tileConfig.info, + &equation); + + if (retCode == ADDR_OK) + { + UINT_32 equationIndex = m_numEquations; + ADDR_ASSERT(equationIndex < EquationTableSize); + + m_blockSlices[equationIndex] = 1; + + const ADDR_TILEINFO* pTileInfo = &tileConfig.info; + + m_blockWidth[equationIndex] = + HwlGetPipes(pTileInfo) * MicroTileWidth * pTileInfo->bankWidth * + pTileInfo->macroAspectRatio; + m_blockHeight[equationIndex] = + MicroTileHeight * pTileInfo->bankHeight * pTileInfo->banks / + pTileInfo->macroAspectRatio; + + m_equationTable[equationIndex] = equation; + + m_numEquations++; + } + } + } + } +} + +/** +**************************************************************************************************** +* SiLib::IsEquationSupported +* +* @brief +* Check if it is supported for given bpp and tile config to generate a equation. +* +* @return +* TRUE if supported +**************************************************************************************************** +*/ +BOOL_32 SiLib::IsEquationSupported( + UINT_32 bpp, ///< Bits per pixel + TileConfig tileConfig, ///< Tile config + INT_32 tileIndex, ///< Tile index + UINT_32 elementBytesLog2 ///< Log2 of element bytes + ) const +{ + BOOL_32 supported = TRUE; + + // Linear tile mode is not supported in swizzle pattern equation + if (IsLinear(tileConfig.mode)) + { + supported = FALSE; + } + // These tile modes are for Tex2DArray and Tex3D which has depth (num_slice > 1) use, + // which is not supported in swizzle pattern equation due to slice rotation + else if ((tileConfig.mode == ADDR_TM_2D_TILED_THICK) || + (tileConfig.mode == ADDR_TM_2D_TILED_XTHICK) || + (tileConfig.mode == ADDR_TM_3D_TILED_THIN1) || + (tileConfig.mode == ADDR_TM_3D_TILED_THICK) || + (tileConfig.mode == ADDR_TM_3D_TILED_XTHICK)) + { + supported = FALSE; + } + // Only 8bpp(stencil), 16bpp and 32bpp is supported for depth + else if ((tileConfig.type == ADDR_DEPTH_SAMPLE_ORDER) && (bpp > 32)) + { + supported = FALSE; + } + // Tile split is not supported in swizzle pattern equation + else if (IsMacroTiled(tileConfig.mode)) + { + UINT_32 thickness = Thickness(tileConfig.mode); + if (((bpp >> 3) * MicroTilePixels * thickness) > tileConfig.info.tileSplitBytes) + { + supported = FALSE; + } + + if ((supported == TRUE) && (m_chipFamily == ADDR_CHIP_FAMILY_SI)) + { + supported = m_EquationSupport[tileIndex][elementBytesLog2]; + } + } + + return supported; +} + +} // V1 +} // Addr diff --git a/src/amd/addrlib/src/r800/siaddrlib.h b/src/amd/addrlib/src/r800/siaddrlib.h new file mode 100644 index 00000000000..705141161db --- /dev/null +++ b/src/amd/addrlib/src/r800/siaddrlib.h @@ -0,0 +1,347 @@ +/* + * Copyright © 2007-2018 Advanced Micro Devices, Inc. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES + * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS + * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, + * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + */ + +/** +**************************************************************************************************** +* @file siaddrlib.h +* @brief Contains the R800Lib class definition. +**************************************************************************************************** +*/ + +#ifndef __SI_ADDR_LIB_H__ +#define __SI_ADDR_LIB_H__ + +#include "addrlib1.h" +#include "egbaddrlib.h" + +namespace Addr +{ +namespace V1 +{ + +/** +**************************************************************************************************** +* @brief Describes the information in tile mode table +**************************************************************************************************** +*/ +struct TileConfig +{ + AddrTileMode mode; + AddrTileType type; + ADDR_TILEINFO info; +}; + +/** +**************************************************************************************************** +* @brief SI specific settings structure. +**************************************************************************************************** +*/ +struct SiChipSettings +{ + UINT_32 isSouthernIsland : 1; + UINT_32 isTahiti : 1; + UINT_32 isPitCairn : 1; + UINT_32 isCapeVerde : 1; + // Oland/Hainan are of GFXIP 6.0, similar with SI + UINT_32 isOland : 1; + UINT_32 isHainan : 1; + + // CI + UINT_32 isSeaIsland : 1; + UINT_32 isBonaire : 1; + UINT_32 isKaveri : 1; + UINT_32 isSpectre : 1; + UINT_32 isSpooky : 1; + UINT_32 isKalindi : 1; + // Hawaii is GFXIP 7.2 + UINT_32 isHawaii : 1; + + // VI + UINT_32 isVolcanicIslands : 1; + UINT_32 isIceland : 1; + UINT_32 isTonga : 1; + UINT_32 isFiji : 1; + UINT_32 isPolaris10 : 1; + UINT_32 isPolaris11 : 1; + UINT_32 isPolaris12 : 1; + UINT_32 isVegaM : 1; + UINT_32 isCarrizo : 1; +}; + +/** +**************************************************************************************************** +* @brief This class is the SI specific address library +* function set. +**************************************************************************************************** +*/ +class SiLib : public EgBasedLib +{ +public: + /// Creates SiLib object + static Addr::Lib* CreateObj(const Client* pClient) + { + VOID* pMem = Object::ClientAlloc(sizeof(SiLib), pClient); + return (pMem != NULL) ? new (pMem) SiLib(pClient) : NULL; + } + +protected: + SiLib(const Client* pClient); + virtual ~SiLib(); + + // Hwl interface - defined in AddrLib1 + virtual ADDR_E_RETURNCODE HwlComputeSurfaceInfo( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual ADDR_E_RETURNCODE HwlConvertTileInfoToHW( + const ADDR_CONVERT_TILEINFOTOHW_INPUT* pIn, + ADDR_CONVERT_TILEINFOTOHW_OUTPUT* pOut) const; + + virtual UINT_64 HwlComputeXmaskAddrFromCoord( + UINT_32 pitch, UINT_32 height, UINT_32 x, UINT_32 y, UINT_32 slice, UINT_32 numSlices, + UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, + ADDR_TILEINFO* pTileInfo, UINT_32* pBitPosition) const; + + virtual VOID HwlComputeXmaskCoordFromAddr( + UINT_64 addr, UINT_32 bitPosition, UINT_32 pitch, UINT_32 height, UINT_32 numSlices, + UINT_32 factor, BOOL_32 isLinear, BOOL_32 isWidth8, BOOL_32 isHeight8, + ADDR_TILEINFO* pTileInfo, UINT_32* pX, UINT_32* pY, UINT_32* pSlice) const; + + virtual ADDR_E_RETURNCODE HwlGetTileIndex( + const ADDR_GET_TILEINDEX_INPUT* pIn, + ADDR_GET_TILEINDEX_OUTPUT* pOut) const; + + virtual BOOL_32 HwlComputeMipLevel( + ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn) const; + + virtual ChipFamily HwlConvertChipFamily( + UINT_32 uChipFamily, UINT_32 uChipRevision); + + virtual BOOL_32 HwlInitGlobalParams( + const ADDR_CREATE_INPUT* pCreateIn); + + virtual ADDR_E_RETURNCODE HwlSetupTileCfg( + UINT_32 bpp, INT_32 index, INT_32 macroModeIndex, + ADDR_TILEINFO* pInfo, AddrTileMode* pMode = 0, AddrTileType* pType = 0) const; + + virtual VOID HwlComputeTileDataWidthAndHeightLinear( + UINT_32* pMacroWidth, UINT_32* pMacroHeight, + UINT_32 bpp, ADDR_TILEINFO* pTileInfo) const; + + virtual UINT_64 HwlComputeHtileBytes( + UINT_32 pitch, UINT_32 height, UINT_32 bpp, + BOOL_32 isLinear, UINT_32 numSlices, UINT_64* pSliceBytes, UINT_32 baseAlign) const; + + virtual ADDR_E_RETURNCODE ComputeBankEquation( + UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, + ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const; + + virtual ADDR_E_RETURNCODE ComputePipeEquation( + UINT_32 log2BytesPP, UINT_32 threshX, UINT_32 threshY, + ADDR_TILEINFO* pTileInfo, ADDR_EQUATION* pEquation) const; + + virtual UINT_32 ComputePipeFromCoord( + UINT_32 x, UINT_32 y, UINT_32 slice, + AddrTileMode tileMode, UINT_32 pipeSwizzle, BOOL_32 ignoreSE, + ADDR_TILEINFO* pTileInfo) const; + + virtual UINT_32 HwlGetPipes(const ADDR_TILEINFO* pTileInfo) const; + + /// Pre-handler of 3x pitch (96 bit) adjustment + virtual UINT_32 HwlPreHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; + /// Post-handler of 3x pitch adjustment + virtual UINT_32 HwlPostHandleBaseLvl3xPitch( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, UINT_32 expPitch) const; + + /// Dummy function to finalize the inheritance + virtual UINT_32 HwlComputeXmaskCoordYFrom8Pipe( + UINT_32 pipe, UINT_32 x) const; + + // Sub-hwl interface - defined in EgBasedLib + virtual VOID HwlSetupTileInfo( + AddrTileMode tileMode, ADDR_SURFACE_FLAGS flags, + UINT_32 bpp, UINT_32 pitch, UINT_32 height, UINT_32 numSamples, + ADDR_TILEINFO* inputTileInfo, ADDR_TILEINFO* outputTileInfo, + AddrTileType inTileType, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual UINT_32 HwlGetPitchAlignmentMicroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples) const; + + virtual UINT_64 HwlGetSizeAdjustmentMicroTiled( + UINT_32 thickness, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, + UINT_32 baseAlign, UINT_32 pitchAlign, + UINT_32 *pPitch, UINT_32 *pHeight) const; + + virtual VOID HwlCheckLastMacroTiledLvl( + const ADDR_COMPUTE_SURFACE_INFO_INPUT* pIn, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + virtual BOOL_32 HwlTileInfoEqual( + const ADDR_TILEINFO* pLeft, const ADDR_TILEINFO* pRight) const; + + virtual AddrTileMode HwlDegradeThickTileMode( + AddrTileMode baseTileMode, UINT_32 numSlices, UINT_32* pBytesPerTile) const; + + virtual VOID HwlOverrideTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + virtual VOID HwlOptimizeTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + virtual VOID HwlSelectTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + /// Overwrite tile setting to PRT + virtual VOID HwlSetPrtTileMode(ADDR_COMPUTE_SURFACE_INFO_INPUT* pInOut) const; + + virtual BOOL_32 HwlSanityCheckMacroTiled( + ADDR_TILEINFO* pTileInfo) const + { + return TRUE; + } + + virtual UINT_32 HwlGetPitchAlignmentLinear(UINT_32 bpp, ADDR_SURFACE_FLAGS flags) const; + + virtual UINT_64 HwlGetSizeAdjustmentLinear( + AddrTileMode tileMode, + UINT_32 bpp, UINT_32 numSamples, UINT_32 baseAlign, UINT_32 pitchAlign, + UINT_32 *pPitch, UINT_32 *pHeight, UINT_32 *pHeightAlign) const; + + virtual VOID HwlComputeSurfaceCoord2DFromBankPipe( + AddrTileMode tileMode, UINT_32* pX, UINT_32* pY, UINT_32 slice, + UINT_32 bank, UINT_32 pipe, + UINT_32 bankSwizzle, UINT_32 pipeSwizzle, UINT_32 tileSlices, + BOOL_32 ignoreSE, + ADDR_TILEINFO* pTileInfo) const; + + virtual UINT_32 HwlPreAdjustBank( + UINT_32 tileX, UINT_32 bank, ADDR_TILEINFO* pTileInfo) const; + + virtual INT_32 HwlPostCheckTileIndex( + const ADDR_TILEINFO* pInfo, AddrTileMode mode, AddrTileType type, + INT curIndex = TileIndexInvalid) const; + + virtual VOID HwlFmaskPreThunkSurfInfo( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pFmaskIn, + const ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut, + ADDR_COMPUTE_SURFACE_INFO_INPUT* pSurfIn, + ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut) const; + + virtual VOID HwlFmaskPostThunkSurfInfo( + const ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pSurfOut, + ADDR_COMPUTE_FMASK_INFO_OUTPUT* pFmaskOut) const; + + virtual UINT_32 HwlComputeFmaskBits( + const ADDR_COMPUTE_FMASK_INFO_INPUT* pIn, + UINT_32* pNumSamples) const; + + virtual BOOL_32 HwlReduceBankWidthHeight( + UINT_32 tileSize, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, UINT_32 numSamples, + UINT_32 bankHeightAlign, UINT_32 pipes, + ADDR_TILEINFO* pTileInfo) const + { + return TRUE; + } + + virtual UINT_32 HwlComputeMaxBaseAlignments() const; + + virtual UINT_32 HwlComputeMaxMetaBaseAlignments() const; + + virtual VOID HwlComputeSurfaceAlignmentsMacroTiled( + AddrTileMode tileMode, UINT_32 bpp, ADDR_SURFACE_FLAGS flags, + UINT_32 mipLevel, UINT_32 numSamples, ADDR_COMPUTE_SURFACE_INFO_OUTPUT* pOut) const; + + // Get equation table pointer and number of equations + virtual UINT_32 HwlGetEquationTableInfo(const ADDR_EQUATION** ppEquationTable) const + { + *ppEquationTable = m_equationTable; + + return m_numEquations; + } + + // Check if it is supported for given bpp and tile config to generate an equation + BOOL_32 IsEquationSupported( + UINT_32 bpp, TileConfig tileConfig, INT_32 tileIndex, UINT_32 elementBytesLog2) const; + + // Protected non-virtual functions + VOID ComputeTileCoordFromPipeAndElemIdx( + UINT_32 elemIdx, UINT_32 pipe, AddrPipeCfg pipeCfg, UINT_32 pitchInMacroTile, + UINT_32 x, UINT_32 y, UINT_32* pX, UINT_32* pY) const; + + UINT_32 TileCoordToMaskElementIndex( + UINT_32 tx, UINT_32 ty, AddrPipeCfg pipeConfig, + UINT_32 *macroShift, UINT_32 *elemIdxBits) const; + + BOOL_32 DecodeGbRegs( + const ADDR_REGISTER_VALUE* pRegValue); + + const TileConfig* GetTileSetting( + UINT_32 index) const; + + // Initialize equation table + VOID InitEquationTable(); + + UINT_32 GetPipePerSurf(AddrPipeCfg pipeConfig) const; + + static const UINT_32 TileTableSize = 32; + TileConfig m_tileTable[TileTableSize]; + UINT_32 m_noOfEntries; + + // Max number of bpp (8bpp/16bpp/32bpp/64bpp/128bpp) + static const UINT_32 MaxNumElementBytes = 5; + + static const BOOL_32 m_EquationSupport[TileTableSize][MaxNumElementBytes]; + + // Prt tile mode index mask + static const UINT_32 SiPrtTileIndexMask = ((1 << 3) | (1 << 5) | (1 << 6) | (1 << 7) | + (1 << 21) | (1 << 22) | (1 << 23) | (1 << 24) | + (1 << 25) | (1 << 30)); + + // More than half slots in tile mode table can't support equation + static const UINT_32 EquationTableSize = (MaxNumElementBytes * TileTableSize) / 2; + // Equation table + ADDR_EQUATION m_equationTable[EquationTableSize]; + UINT_32 m_numMacroBits[EquationTableSize]; + UINT_32 m_blockWidth[EquationTableSize]; + UINT_32 m_blockHeight[EquationTableSize]; + UINT_32 m_blockSlices[EquationTableSize]; + // Number of equation entries in the table + UINT_32 m_numEquations; + // Equation lookup table according to bpp and tile index + UINT_32 m_equationLookupTable[MaxNumElementBytes][TileTableSize]; + + UINT_32 m_uncompressDepthEqIndex; + + SiChipSettings m_settings; + +private: + + VOID ReadGbTileMode(UINT_32 regValue, TileConfig* pCfg) const; + BOOL_32 InitTileSettingTable(const UINT_32 *pSetting, UINT_32 noOfEntries); +}; + +} // V1 +} // Addr + +#endif + diff --git a/src/amd/common/ac_surface.c b/src/amd/common/ac_surface.c index 4a79765d004..d8d927ee1c5 100644 --- a/src/amd/common/ac_surface.c +++ b/src/amd/common/ac_surface.c @@ -27,7 +27,7 @@ #include "ac_surface.h" #include "amd_family.h" -#include "addrlib/amdgpu_asic_addr.h" +#include "addrlib/src/amdgpu_asic_addr.h" #include "ac_gpu_info.h" #include "util/macros.h" #include "util/u_atomic.h" @@ -39,7 +39,7 @@ #include #include -#include "addrlib/addrinterface.h" +#include "addrlib/inc/addrinterface.h" #ifndef CIASICIDGFXENGINE_SOUTHERNISLAND #define CIASICIDGFXENGINE_SOUTHERNISLAND 0x0000000A diff --git a/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_surface.c b/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_surface.c index 875ac70de1a..3f4cad861c2 100644 --- a/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_surface.c +++ b/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_surface.c @@ -29,7 +29,6 @@ #include #include "radv_private.h" -#include "addrlib/addrinterface.h" #include "util/bitset.h" #include "radv_amdgpu_winsys.h" #include "radv_amdgpu_surface.h" diff --git a/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_winsys.h b/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_winsys.h index 40d35d557be..80a1c6f2926 100644 --- a/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_winsys.h +++ b/src/amd/vulkan/winsys/amdgpu/radv_amdgpu_winsys.h @@ -30,7 +30,7 @@ #include "radv_radeon_winsys.h" #include "ac_gpu_info.h" -#include "addrlib/addrinterface.h" +#include "addrlib/inc/addrinterface.h" #include #include "util/list.h" #include diff --git a/src/gallium/winsys/amdgpu/drm/amdgpu_winsys.h b/src/gallium/winsys/amdgpu/drm/amdgpu_winsys.h index 5ae1d3e55a3..4f0b1262e30 100644 --- a/src/gallium/winsys/amdgpu/drm/amdgpu_winsys.h +++ b/src/gallium/winsys/amdgpu/drm/amdgpu_winsys.h @@ -31,7 +31,7 @@ #include "pipebuffer/pb_cache.h" #include "pipebuffer/pb_slab.h" #include "gallium/drivers/radeon/radeon_winsys.h" -#include "addrlib/addrinterface.h" +#include "addrlib/inc/addrinterface.h" #include "util/simple_mtx.h" #include "util/u_queue.h" #include -- cgit v1.2.3