//===-- AMDIL.h - Top-level interface for AMDIL representation --*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //==-----------------------------------------------------------------------===// // // This file contains the entry points for global functions defined in the LLVM // AMDIL back-end. // //===----------------------------------------------------------------------===// #ifndef AMDIL_H_ #define AMDIL_H_ #include "llvm/CodeGen/MachineFunction.h" #include "llvm/Target/TargetMachine.h" #define AMDIL_MAJOR_VERSION 2 #define AMDIL_MINOR_VERSION 0 #define AMDIL_REVISION_NUMBER 74 #define ARENA_SEGMENT_RESERVED_UAVS 12 #define DEFAULT_ARENA_UAV_ID 8 #define DEFAULT_RAW_UAV_ID 7 #define GLOBAL_RETURN_RAW_UAV_ID 11 #define HW_MAX_NUM_CB 8 #define MAX_NUM_UNIQUE_UAVS 8 #define OPENCL_MAX_NUM_ATOMIC_COUNTERS 8 #define OPENCL_MAX_READ_IMAGES 128 #define OPENCL_MAX_WRITE_IMAGES 8 #define OPENCL_MAX_SAMPLERS 16 // The next two values can never be zero, as zero is the ID that is // used to assert against. #define DEFAULT_LDS_ID 1 #define DEFAULT_GDS_ID 1 #define DEFAULT_SCRATCH_ID 1 #define DEFAULT_VEC_SLOTS 8 // SC->CAL version matchings. #define CAL_VERSION_SC_150 1700 #define CAL_VERSION_SC_149 1700 #define CAL_VERSION_SC_148 1525 #define CAL_VERSION_SC_147 1525 #define CAL_VERSION_SC_146 1525 #define CAL_VERSION_SC_145 1451 #define CAL_VERSION_SC_144 1451 #define CAL_VERSION_SC_143 1441 #define CAL_VERSION_SC_142 1441 #define CAL_VERSION_SC_141 1420 #define CAL_VERSION_SC_140 1400 #define CAL_VERSION_SC_139 1387 #define CAL_VERSION_SC_138 1387 #define CAL_APPEND_BUFFER_SUPPORT 1340 #define CAL_VERSION_SC_137 1331 #define CAL_VERSION_SC_136 982 #define CAL_VERSION_SC_135 950 #define CAL_VERSION_GLOBAL_RETURN_BUFFER 990 #define OCL_DEVICE_RV710 0x0001 #define OCL_DEVICE_RV730 0x0002 #define OCL_DEVICE_RV770 0x0004 #define OCL_DEVICE_CEDAR 0x0008 #define OCL_DEVICE_REDWOOD 0x0010 #define OCL_DEVICE_JUNIPER 0x0020 #define OCL_DEVICE_CYPRESS 0x0040 #define OCL_DEVICE_CAICOS 0x0080 #define OCL_DEVICE_TURKS 0x0100 #define OCL_DEVICE_BARTS 0x0200 #define OCL_DEVICE_CAYMAN 0x0400 #define OCL_DEVICE_ALL 0x3FFF /// The number of function ID's that are reserved for /// internal compiler usage. const unsigned int RESERVED_FUNCS = 1024; #define AMDIL_OPT_LEVEL_DECL #define AMDIL_OPT_LEVEL_VAR #define AMDIL_OPT_LEVEL_VAR_NO_COMMA namespace llvm { class AMDILInstrPrinter; class AMDILTargetMachine; class FunctionPass; class MCAsmInfo; class raw_ostream; class Target; class TargetMachine; /// Instruction selection passes. FunctionPass* createAMDILISelDag(AMDILTargetMachine &TM AMDIL_OPT_LEVEL_DECL); FunctionPass* createAMDILPeepholeOpt(TargetMachine &TM AMDIL_OPT_LEVEL_DECL); /// Pre emit passes. FunctionPass* createAMDILCFGPreparationPass(TargetMachine &TM AMDIL_OPT_LEVEL_DECL); FunctionPass* createAMDILCFGStructurizerPass(TargetMachine &TM AMDIL_OPT_LEVEL_DECL); extern Target TheAMDILTarget; extern Target TheAMDGPUTarget; } // end namespace llvm; #define GET_REGINFO_ENUM #include "AMDILGenRegisterInfo.inc" #define GET_INSTRINFO_ENUM #include "AMDILGenInstrInfo.inc" /// Include device information enumerations #include "AMDILDeviceInfo.h" namespace llvm { /// OpenCL uses address spaces to differentiate between /// various memory regions on the hardware. On the CPU /// all of the address spaces point to the same memory, /// however on the GPU, each address space points to /// a seperate piece of memory that is unique from other /// memory locations. namespace AMDILAS { enum AddressSpaces { PRIVATE_ADDRESS = 0, // Address space for private memory. GLOBAL_ADDRESS = 1, // Address space for global memory (RAT0, VTX0). CONSTANT_ADDRESS = 2, // Address space for constant memory. LOCAL_ADDRESS = 3, // Address space for local memory. REGION_ADDRESS = 4, // Address space for region memory. ADDRESS_NONE = 5, // Address space for unknown memory. PARAM_D_ADDRESS = 6, // Address space for direct addressible parameter memory (CONST0) PARAM_I_ADDRESS = 7, // Address space for indirect addressible parameter memory (VTX1) LAST_ADDRESS = 8 }; // This union/struct combination is an easy way to read out the // exact bits that are needed. typedef union ResourceRec { struct { #ifdef __BIG_ENDIAN__ unsigned short isImage : 1; // Reserved for future use/llvm. unsigned short ResourceID : 10; // Flag to specify the resourece ID for // the op. unsigned short HardwareInst : 1; // Flag to specify that this instruction // is a hardware instruction. unsigned short ConflictPtr : 1; // Flag to specify that the pointer has a // conflict. unsigned short ByteStore : 1; // Flag to specify if the op is a byte // store op. unsigned short PointerPath : 1; // Flag to specify if the op is on the // pointer path. unsigned short CacheableRead : 1; // Flag to specify if the read is // cacheable. #else unsigned short CacheableRead : 1; // Flag to specify if the read is // cacheable. unsigned short PointerPath : 1; // Flag to specify if the op is on the // pointer path. unsigned short ByteStore : 1; // Flag to specify if the op is byte // store op. unsigned short ConflictPtr : 1; // Flag to specify that the pointer has // a conflict. unsigned short HardwareInst : 1; // Flag to specify that this instruction // is a hardware instruction. unsigned short ResourceID : 10; // Flag to specify the resource ID for // the op. unsigned short isImage : 1; // Reserved for future use. #endif } bits; unsigned short u16all; } InstrResEnc; } // namespace AMDILAS // Enums corresponding to AMDIL condition codes for IL. These // values must be kept in sync with the ones in the .td file. namespace AMDILCC { enum CondCodes { // AMDIL specific condition codes. These correspond to the IL_CC_* // in AMDILInstrInfo.td and must be kept in the same order. IL_CC_D_EQ = 0, // DEQ instruction. IL_CC_D_GE = 1, // DGE instruction. IL_CC_D_LT = 2, // DLT instruction. IL_CC_D_NE = 3, // DNE instruction. IL_CC_F_EQ = 4, // EQ instruction. IL_CC_F_GE = 5, // GE instruction. IL_CC_F_LT = 6, // LT instruction. IL_CC_F_NE = 7, // NE instruction. IL_CC_I_EQ = 8, // IEQ instruction. IL_CC_I_GE = 9, // IGE instruction. IL_CC_I_LT = 10, // ILT instruction. IL_CC_I_NE = 11, // INE instruction. IL_CC_U_GE = 12, // UGE instruction. IL_CC_U_LT = 13, // ULE instruction. // Pseudo IL Comparison instructions here. IL_CC_F_GT = 14, // GT instruction. IL_CC_U_GT = 15, IL_CC_I_GT = 16, IL_CC_D_GT = 17, IL_CC_F_LE = 18, // LE instruction IL_CC_U_LE = 19, IL_CC_I_LE = 20, IL_CC_D_LE = 21, IL_CC_F_UNE = 22, IL_CC_F_UEQ = 23, IL_CC_F_ULT = 24, IL_CC_F_UGT = 25, IL_CC_F_ULE = 26, IL_CC_F_UGE = 27, IL_CC_F_ONE = 28, IL_CC_F_OEQ = 29, IL_CC_F_OLT = 30, IL_CC_F_OGT = 31, IL_CC_F_OLE = 32, IL_CC_F_OGE = 33, IL_CC_D_UNE = 34, IL_CC_D_UEQ = 35, IL_CC_D_ULT = 36, IL_CC_D_UGT = 37, IL_CC_D_ULE = 38, IL_CC_D_UGE = 39, IL_CC_D_ONE = 40, IL_CC_D_OEQ = 41, IL_CC_D_OLT = 42, IL_CC_D_OGT = 43, IL_CC_D_OLE = 44, IL_CC_D_OGE = 45, IL_CC_U_EQ = 46, IL_CC_U_NE = 47, IL_CC_F_O = 48, IL_CC_D_O = 49, IL_CC_F_UO = 50, IL_CC_D_UO = 51, IL_CC_L_LE = 52, IL_CC_L_GE = 53, IL_CC_L_EQ = 54, IL_CC_L_NE = 55, IL_CC_L_LT = 56, IL_CC_L_GT = 57, IL_CC_UL_LE = 58, IL_CC_UL_GE = 59, IL_CC_UL_EQ = 60, IL_CC_UL_NE = 61, IL_CC_UL_LT = 62, IL_CC_UL_GT = 63, COND_ERROR = 64 }; } // end namespace AMDILCC } // end namespace llvm #endif // AMDIL_H_