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|
/*
* Copyright 2016 Bas Nieuwenhuizen
*
* 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 AC_LLVM_BUILD_H
#define AC_LLVM_BUILD_H
#include <stdbool.h>
#include <llvm-c/Core.h>
#include "compiler/nir/nir.h"
#include "amd_family.h"
#ifdef __cplusplus
extern "C" {
#endif
enum {
AC_ADDR_SPACE_FLAT = 0, /* Slower than global. */
AC_ADDR_SPACE_GLOBAL = 1,
AC_ADDR_SPACE_GDS = 2,
AC_ADDR_SPACE_LDS = 3,
AC_ADDR_SPACE_CONST = 4, /* Global allowing SMEM. */
AC_ADDR_SPACE_CONST_32BIT = 6, /* same as CONST, but the pointer type has 32 bits */
};
/* Combine these with & instead of |. */
#define NOOP_WAITCNT 0xcf7f
#define LGKM_CNT 0xc07f
#define EXP_CNT 0xcf0f
#define VM_CNT 0x0f70 /* On GFX9, vmcnt has 6 bits in [0:3] and [14:15] */
struct ac_llvm_flow;
struct ac_llvm_context {
LLVMContextRef context;
LLVMModuleRef module;
LLVMBuilderRef builder;
LLVMTypeRef voidt;
LLVMTypeRef i1;
LLVMTypeRef i8;
LLVMTypeRef i16;
LLVMTypeRef i32;
LLVMTypeRef i64;
LLVMTypeRef intptr;
LLVMTypeRef f16;
LLVMTypeRef f32;
LLVMTypeRef f64;
LLVMTypeRef v2i16;
LLVMTypeRef v2i32;
LLVMTypeRef v3i32;
LLVMTypeRef v4i32;
LLVMTypeRef v2f32;
LLVMTypeRef v3f32;
LLVMTypeRef v4f32;
LLVMTypeRef v8i32;
LLVMValueRef i8_0;
LLVMValueRef i8_1;
LLVMValueRef i16_0;
LLVMValueRef i16_1;
LLVMValueRef i32_0;
LLVMValueRef i32_1;
LLVMValueRef i64_0;
LLVMValueRef i64_1;
LLVMValueRef f16_0;
LLVMValueRef f16_1;
LLVMValueRef f32_0;
LLVMValueRef f32_1;
LLVMValueRef f64_0;
LLVMValueRef f64_1;
LLVMValueRef i1true;
LLVMValueRef i1false;
struct ac_llvm_flow *flow;
unsigned flow_depth;
unsigned flow_depth_max;
unsigned range_md_kind;
unsigned invariant_load_md_kind;
unsigned uniform_md_kind;
unsigned fpmath_md_kind;
LLVMValueRef fpmath_md_2p5_ulp;
LLVMValueRef empty_md;
enum chip_class chip_class;
enum radeon_family family;
LLVMValueRef lds;
};
void
ac_llvm_context_init(struct ac_llvm_context *ctx,
enum chip_class chip_class, enum radeon_family family);
void
ac_llvm_context_dispose(struct ac_llvm_context *ctx);
int
ac_get_llvm_num_components(LLVMValueRef value);
int
ac_get_elem_bits(struct ac_llvm_context *ctx, LLVMTypeRef type);
LLVMValueRef
ac_llvm_extract_elem(struct ac_llvm_context *ac,
LLVMValueRef value,
int index);
unsigned ac_get_type_size(LLVMTypeRef type);
LLVMTypeRef ac_to_integer_type(struct ac_llvm_context *ctx, LLVMTypeRef t);
LLVMValueRef ac_to_integer(struct ac_llvm_context *ctx, LLVMValueRef v);
LLVMValueRef ac_to_integer_or_pointer(struct ac_llvm_context *ctx, LLVMValueRef v);
LLVMTypeRef ac_to_float_type(struct ac_llvm_context *ctx, LLVMTypeRef t);
LLVMValueRef ac_to_float(struct ac_llvm_context *ctx, LLVMValueRef v);
LLVMValueRef
ac_build_intrinsic(struct ac_llvm_context *ctx, const char *name,
LLVMTypeRef return_type, LLVMValueRef *params,
unsigned param_count, unsigned attrib_mask);
void ac_build_type_name_for_intr(LLVMTypeRef type, char *buf, unsigned bufsize);
LLVMValueRef
ac_build_phi(struct ac_llvm_context *ctx, LLVMTypeRef type,
unsigned count_incoming, LLVMValueRef *values,
LLVMBasicBlockRef *blocks);
void ac_build_s_barrier(struct ac_llvm_context *ctx);
void ac_build_optimization_barrier(struct ac_llvm_context *ctx,
LLVMValueRef *pvgpr);
LLVMValueRef ac_build_shader_clock(struct ac_llvm_context *ctx);
LLVMValueRef ac_build_ballot(struct ac_llvm_context *ctx, LLVMValueRef value);
LLVMValueRef ac_get_i1_sgpr_mask(struct ac_llvm_context *ctx,
LLVMValueRef value);
LLVMValueRef ac_build_vote_all(struct ac_llvm_context *ctx, LLVMValueRef value);
LLVMValueRef ac_build_vote_any(struct ac_llvm_context *ctx, LLVMValueRef value);
LLVMValueRef ac_build_vote_eq(struct ac_llvm_context *ctx, LLVMValueRef value);
LLVMValueRef
ac_build_varying_gather_values(struct ac_llvm_context *ctx, LLVMValueRef *values,
unsigned value_count, unsigned component);
LLVMValueRef
ac_build_gather_values_extended(struct ac_llvm_context *ctx,
LLVMValueRef *values,
unsigned value_count,
unsigned value_stride,
bool load,
bool always_vector);
LLVMValueRef
ac_build_gather_values(struct ac_llvm_context *ctx,
LLVMValueRef *values,
unsigned value_count);
LLVMValueRef ac_build_expand_to_vec4(struct ac_llvm_context *ctx,
LLVMValueRef value,
unsigned num_channels);
LLVMValueRef ac_build_round(struct ac_llvm_context *ctx, LLVMValueRef value);
LLVMValueRef
ac_build_fdiv(struct ac_llvm_context *ctx,
LLVMValueRef num,
LLVMValueRef den);
LLVMValueRef ac_build_fast_udiv(struct ac_llvm_context *ctx,
LLVMValueRef num,
LLVMValueRef multiplier,
LLVMValueRef pre_shift,
LLVMValueRef post_shift,
LLVMValueRef increment);
LLVMValueRef ac_build_fast_udiv_nuw(struct ac_llvm_context *ctx,
LLVMValueRef num,
LLVMValueRef multiplier,
LLVMValueRef pre_shift,
LLVMValueRef post_shift,
LLVMValueRef increment);
LLVMValueRef ac_build_fast_udiv_u31_d_not_one(struct ac_llvm_context *ctx,
LLVMValueRef num,
LLVMValueRef multiplier,
LLVMValueRef post_shift);
void
ac_prepare_cube_coords(struct ac_llvm_context *ctx,
bool is_deriv, bool is_array, bool is_lod,
LLVMValueRef *coords_arg,
LLVMValueRef *derivs_arg);
LLVMValueRef
ac_build_fs_interp(struct ac_llvm_context *ctx,
LLVMValueRef llvm_chan,
LLVMValueRef attr_number,
LLVMValueRef params,
LLVMValueRef i,
LLVMValueRef j);
LLVMValueRef
ac_build_fs_interp_f16(struct ac_llvm_context *ctx,
LLVMValueRef llvm_chan,
LLVMValueRef attr_number,
LLVMValueRef params,
LLVMValueRef i,
LLVMValueRef j);
LLVMValueRef
ac_build_fs_interp_mov(struct ac_llvm_context *ctx,
LLVMValueRef parameter,
LLVMValueRef llvm_chan,
LLVMValueRef attr_number,
LLVMValueRef params);
LLVMValueRef
ac_build_gep_ptr(struct ac_llvm_context *ctx,
LLVMValueRef base_ptr,
LLVMValueRef index);
LLVMValueRef
ac_build_gep0(struct ac_llvm_context *ctx,
LLVMValueRef base_ptr,
LLVMValueRef index);
LLVMValueRef ac_build_pointer_add(struct ac_llvm_context *ctx, LLVMValueRef ptr,
LLVMValueRef index);
void
ac_build_indexed_store(struct ac_llvm_context *ctx,
LLVMValueRef base_ptr, LLVMValueRef index,
LLVMValueRef value);
LLVMValueRef ac_build_load(struct ac_llvm_context *ctx, LLVMValueRef base_ptr,
LLVMValueRef index);
LLVMValueRef ac_build_load_invariant(struct ac_llvm_context *ctx,
LLVMValueRef base_ptr, LLVMValueRef index);
LLVMValueRef ac_build_load_to_sgpr(struct ac_llvm_context *ctx,
LLVMValueRef base_ptr, LLVMValueRef index);
LLVMValueRef ac_build_load_to_sgpr_uint_wraparound(struct ac_llvm_context *ctx,
LLVMValueRef base_ptr, LLVMValueRef index);
void
ac_build_buffer_store_dword(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vdata,
unsigned num_channels,
LLVMValueRef voffset,
LLVMValueRef soffset,
unsigned inst_offset,
bool glc,
bool slc,
bool writeonly_memory,
bool swizzle_enable_hint);
void
ac_build_buffer_store_format(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef data,
LLVMValueRef vindex,
LLVMValueRef voffset,
unsigned num_channels,
bool glc,
bool slc,
bool writeonly_memory);
LLVMValueRef
ac_build_buffer_load(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
int num_channels,
LLVMValueRef vindex,
LLVMValueRef voffset,
LLVMValueRef soffset,
unsigned inst_offset,
unsigned glc,
unsigned slc,
bool can_speculate,
bool allow_smem);
LLVMValueRef ac_build_buffer_load_format(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vindex,
LLVMValueRef voffset,
unsigned num_channels,
bool glc,
bool can_speculate);
/* load_format that handles the stride & element count better if idxen is
* disabled by LLVM. */
LLVMValueRef ac_build_buffer_load_format_gfx9_safe(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vindex,
LLVMValueRef voffset,
unsigned num_channels,
bool glc,
bool can_speculate);
LLVMValueRef
ac_build_tbuffer_load_short(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef voffset,
LLVMValueRef soffset,
LLVMValueRef immoffset,
bool glc);
LLVMValueRef
ac_build_tbuffer_load_byte(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef voffset,
LLVMValueRef soffset,
LLVMValueRef immoffset,
bool glc);
LLVMValueRef
ac_build_struct_tbuffer_load(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vindex,
LLVMValueRef voffset,
LLVMValueRef soffset,
LLVMValueRef immoffset,
unsigned num_channels,
unsigned dfmt,
unsigned nfmt,
bool glc,
bool slc,
bool can_speculate);
LLVMValueRef
ac_build_raw_tbuffer_load(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef voffset,
LLVMValueRef soffset,
LLVMValueRef immoffset,
unsigned num_channels,
unsigned dfmt,
unsigned nfmt,
bool glc,
bool slc,
bool can_speculate);
/* For ac_build_fetch_format.
*
* Note: FLOAT must be 0 (used for convenience of encoding in radeonsi).
*/
enum {
AC_FETCH_FORMAT_FLOAT = 0,
AC_FETCH_FORMAT_FIXED,
AC_FETCH_FORMAT_UNORM,
AC_FETCH_FORMAT_SNORM,
AC_FETCH_FORMAT_USCALED,
AC_FETCH_FORMAT_SSCALED,
AC_FETCH_FORMAT_UINT,
AC_FETCH_FORMAT_SINT,
};
LLVMValueRef
ac_build_opencoded_load_format(struct ac_llvm_context *ctx,
unsigned log_size,
unsigned num_channels,
unsigned format,
bool reverse,
bool known_aligned,
LLVMValueRef rsrc,
LLVMValueRef vindex,
LLVMValueRef voffset,
LLVMValueRef soffset,
bool glc,
bool slc,
bool can_speculate);
void
ac_build_tbuffer_store_short(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vdata,
LLVMValueRef voffset,
LLVMValueRef soffset,
bool glc,
bool writeonly_memory);
void
ac_build_tbuffer_store_byte(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vdata,
LLVMValueRef voffset,
LLVMValueRef soffset,
bool glc,
bool writeonly_memory);
void
ac_build_struct_tbuffer_store(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vdata,
LLVMValueRef vindex,
LLVMValueRef voffset,
LLVMValueRef soffset,
LLVMValueRef immoffset,
unsigned num_channels,
unsigned dfmt,
unsigned nfmt,
bool glc,
bool slc,
bool writeonly_memory);
void
ac_build_raw_tbuffer_store(struct ac_llvm_context *ctx,
LLVMValueRef rsrc,
LLVMValueRef vdata,
LLVMValueRef voffset,
LLVMValueRef soffset,
LLVMValueRef immoffset,
unsigned num_channels,
unsigned dfmt,
unsigned nfmt,
bool glc,
bool slc,
bool writeonly_memory);
LLVMValueRef
ac_get_thread_id(struct ac_llvm_context *ctx);
#define AC_TID_MASK_TOP_LEFT 0xfffffffc
#define AC_TID_MASK_TOP 0xfffffffd
#define AC_TID_MASK_LEFT 0xfffffffe
LLVMValueRef
ac_build_ddxy(struct ac_llvm_context *ctx,
uint32_t mask,
int idx,
LLVMValueRef val);
#define AC_SENDMSG_GS 2
#define AC_SENDMSG_GS_DONE 3
#define AC_SENDMSG_GS_OP_NOP (0 << 4)
#define AC_SENDMSG_GS_OP_CUT (1 << 4)
#define AC_SENDMSG_GS_OP_EMIT (2 << 4)
#define AC_SENDMSG_GS_OP_EMIT_CUT (3 << 4)
void ac_build_sendmsg(struct ac_llvm_context *ctx,
uint32_t msg,
LLVMValueRef wave_id);
LLVMValueRef ac_build_imsb(struct ac_llvm_context *ctx,
LLVMValueRef arg,
LLVMTypeRef dst_type);
LLVMValueRef ac_build_umsb(struct ac_llvm_context *ctx,
LLVMValueRef arg,
LLVMTypeRef dst_type);
LLVMValueRef ac_build_fmin(struct ac_llvm_context *ctx, LLVMValueRef a,
LLVMValueRef b);
LLVMValueRef ac_build_fmax(struct ac_llvm_context *ctx, LLVMValueRef a,
LLVMValueRef b);
LLVMValueRef ac_build_imin(struct ac_llvm_context *ctx, LLVMValueRef a,
LLVMValueRef b);
LLVMValueRef ac_build_imax(struct ac_llvm_context *ctx, LLVMValueRef a,
LLVMValueRef b);
LLVMValueRef ac_build_umin(struct ac_llvm_context *ctx, LLVMValueRef a, LLVMValueRef b);
LLVMValueRef ac_build_umax(struct ac_llvm_context *ctx, LLVMValueRef a, LLVMValueRef b);
LLVMValueRef ac_build_clamp(struct ac_llvm_context *ctx, LLVMValueRef value);
struct ac_export_args {
LLVMValueRef out[4];
unsigned target;
unsigned enabled_channels;
bool compr;
bool done;
bool valid_mask;
};
void ac_build_export(struct ac_llvm_context *ctx, struct ac_export_args *a);
void ac_build_export_null(struct ac_llvm_context *ctx);
enum ac_image_opcode {
ac_image_sample,
ac_image_gather4,
ac_image_load,
ac_image_load_mip,
ac_image_store,
ac_image_store_mip,
ac_image_get_lod,
ac_image_get_resinfo,
ac_image_atomic,
ac_image_atomic_cmpswap,
};
enum ac_atomic_op {
ac_atomic_swap,
ac_atomic_add,
ac_atomic_sub,
ac_atomic_smin,
ac_atomic_umin,
ac_atomic_smax,
ac_atomic_umax,
ac_atomic_and,
ac_atomic_or,
ac_atomic_xor,
};
enum ac_image_dim {
ac_image_1d,
ac_image_2d,
ac_image_3d,
ac_image_cube, // includes cube arrays
ac_image_1darray,
ac_image_2darray,
ac_image_2dmsaa,
ac_image_2darraymsaa,
};
/* These cache policy bits match the definitions used by the LLVM intrinsics. */
enum ac_image_cache_policy {
ac_glc = 1 << 0,
ac_slc = 1 << 1,
};
struct ac_image_args {
enum ac_image_opcode opcode : 4;
enum ac_atomic_op atomic : 4; /* for the ac_image_atomic opcode */
enum ac_image_dim dim : 3;
unsigned dmask : 4;
unsigned cache_policy : 2;
bool unorm : 1;
bool level_zero : 1;
unsigned attributes; /* additional call-site specific AC_FUNC_ATTRs */
LLVMValueRef resource;
LLVMValueRef sampler;
LLVMValueRef data[2]; /* data[0] is source data (vector); data[1] is cmp for cmpswap */
LLVMValueRef offset;
LLVMValueRef bias;
LLVMValueRef compare;
LLVMValueRef derivs[6];
LLVMValueRef coords[4];
LLVMValueRef lod; // also used by ac_image_get_resinfo
};
LLVMValueRef ac_build_image_opcode(struct ac_llvm_context *ctx,
struct ac_image_args *a);
LLVMValueRef ac_build_cvt_pkrtz_f16(struct ac_llvm_context *ctx,
LLVMValueRef args[2]);
LLVMValueRef ac_build_cvt_pknorm_i16(struct ac_llvm_context *ctx,
LLVMValueRef args[2]);
LLVMValueRef ac_build_cvt_pknorm_u16(struct ac_llvm_context *ctx,
LLVMValueRef args[2]);
LLVMValueRef ac_build_cvt_pk_i16(struct ac_llvm_context *ctx,
LLVMValueRef args[2], unsigned bits, bool hi);
LLVMValueRef ac_build_cvt_pk_u16(struct ac_llvm_context *ctx,
LLVMValueRef args[2], unsigned bits, bool hi);
LLVMValueRef ac_build_wqm_vote(struct ac_llvm_context *ctx, LLVMValueRef i1);
void ac_build_kill_if_false(struct ac_llvm_context *ctx, LLVMValueRef i1);
LLVMValueRef ac_build_bfe(struct ac_llvm_context *ctx, LLVMValueRef input,
LLVMValueRef offset, LLVMValueRef width,
bool is_signed);
LLVMValueRef ac_build_imad(struct ac_llvm_context *ctx, LLVMValueRef s0,
LLVMValueRef s1, LLVMValueRef s2);
LLVMValueRef ac_build_fmad(struct ac_llvm_context *ctx, LLVMValueRef s0,
LLVMValueRef s1, LLVMValueRef s2);
void ac_build_waitcnt(struct ac_llvm_context *ctx, unsigned simm16);
LLVMValueRef ac_build_fract(struct ac_llvm_context *ctx, LLVMValueRef src0,
unsigned bitsize);
LLVMValueRef ac_build_fmed3(struct ac_llvm_context *ctx, LLVMValueRef src0,
LLVMValueRef src1, LLVMValueRef src2,
unsigned bitsize);
LLVMValueRef ac_build_isign(struct ac_llvm_context *ctx, LLVMValueRef src0,
unsigned bitsize);
LLVMValueRef ac_build_fsign(struct ac_llvm_context *ctx, LLVMValueRef src0,
unsigned bitsize);
LLVMValueRef ac_build_bit_count(struct ac_llvm_context *ctx, LLVMValueRef src0);
LLVMValueRef ac_build_bitfield_reverse(struct ac_llvm_context *ctx,
LLVMValueRef src0);
void ac_optimize_vs_outputs(struct ac_llvm_context *ac,
LLVMValueRef main_fn,
uint8_t *vs_output_param_offset,
uint32_t num_outputs,
uint8_t *num_param_exports);
void ac_init_exec_full_mask(struct ac_llvm_context *ctx);
void ac_declare_lds_as_pointer(struct ac_llvm_context *ac);
LLVMValueRef ac_lds_load(struct ac_llvm_context *ctx,
LLVMValueRef dw_addr);
void ac_lds_store(struct ac_llvm_context *ctx,
LLVMValueRef dw_addr, LLVMValueRef value);
LLVMValueRef ac_find_lsb(struct ac_llvm_context *ctx,
LLVMTypeRef dst_type,
LLVMValueRef src0);
LLVMTypeRef ac_array_in_const_addr_space(LLVMTypeRef elem_type);
LLVMTypeRef ac_array_in_const32_addr_space(LLVMTypeRef elem_type);
void ac_build_bgnloop(struct ac_llvm_context *ctx, int lable_id);
void ac_build_break(struct ac_llvm_context *ctx);
void ac_build_continue(struct ac_llvm_context *ctx);
void ac_build_else(struct ac_llvm_context *ctx, int lable_id);
void ac_build_endif(struct ac_llvm_context *ctx, int lable_id);
void ac_build_endloop(struct ac_llvm_context *ctx, int lable_id);
void ac_build_ifcc(struct ac_llvm_context *ctx, LLVMValueRef cond, int label_id);
void ac_build_if(struct ac_llvm_context *ctx, LLVMValueRef value,
int lable_id);
void ac_build_uif(struct ac_llvm_context *ctx, LLVMValueRef value,
int lable_id);
LLVMValueRef ac_build_alloca(struct ac_llvm_context *ac, LLVMTypeRef type,
const char *name);
LLVMValueRef ac_build_alloca_undef(struct ac_llvm_context *ac, LLVMTypeRef type,
const char *name);
LLVMValueRef ac_cast_ptr(struct ac_llvm_context *ctx, LLVMValueRef ptr,
LLVMTypeRef type);
LLVMValueRef ac_trim_vector(struct ac_llvm_context *ctx, LLVMValueRef value,
unsigned count);
LLVMValueRef ac_unpack_param(struct ac_llvm_context *ctx, LLVMValueRef param,
unsigned rshift, unsigned bitwidth);
void ac_apply_fmask_to_sample(struct ac_llvm_context *ac, LLVMValueRef fmask,
LLVMValueRef *addr, bool is_array_tex);
LLVMValueRef
ac_build_ds_swizzle(struct ac_llvm_context *ctx, LLVMValueRef src, unsigned mask);
LLVMValueRef
ac_build_readlane(struct ac_llvm_context *ctx, LLVMValueRef src, LLVMValueRef lane);
LLVMValueRef
ac_build_writelane(struct ac_llvm_context *ctx, LLVMValueRef src, LLVMValueRef value, LLVMValueRef lane);
LLVMValueRef
ac_build_mbcnt(struct ac_llvm_context *ctx, LLVMValueRef mask);
LLVMValueRef
ac_build_inclusive_scan(struct ac_llvm_context *ctx, LLVMValueRef src, nir_op op);
LLVMValueRef
ac_build_exclusive_scan(struct ac_llvm_context *ctx, LLVMValueRef src, nir_op op);
LLVMValueRef
ac_build_reduce(struct ac_llvm_context *ctx, LLVMValueRef src, nir_op op, unsigned cluster_size);
/**
* Common arguments for a scan/reduce operation that accumulates per-wave
* values across an entire workgroup, while respecting the order of waves.
*/
struct ac_wg_scan {
bool enable_reduce;
bool enable_exclusive;
bool enable_inclusive;
nir_op op;
LLVMValueRef src; /* clobbered! */
LLVMValueRef result_reduce;
LLVMValueRef result_exclusive;
LLVMValueRef result_inclusive;
LLVMValueRef extra;
LLVMValueRef waveidx;
LLVMValueRef numwaves; /* only needed for "reduce" operations */
/* T addrspace(LDS) pointer to the same type as value, at least maxwaves entries */
LLVMValueRef scratch;
unsigned maxwaves;
};
void
ac_build_wg_wavescan_top(struct ac_llvm_context *ctx, struct ac_wg_scan *ws);
void
ac_build_wg_wavescan_bottom(struct ac_llvm_context *ctx, struct ac_wg_scan *ws);
void
ac_build_wg_wavescan(struct ac_llvm_context *ctx, struct ac_wg_scan *ws);
void
ac_build_wg_scan_top(struct ac_llvm_context *ctx, struct ac_wg_scan *ws);
void
ac_build_wg_scan_bottom(struct ac_llvm_context *ctx, struct ac_wg_scan *ws);
void
ac_build_wg_scan(struct ac_llvm_context *ctx, struct ac_wg_scan *ws);
LLVMValueRef
ac_build_quad_swizzle(struct ac_llvm_context *ctx, LLVMValueRef src,
unsigned lane0, unsigned lane1, unsigned lane2, unsigned lane3);
LLVMValueRef
ac_build_shuffle(struct ac_llvm_context *ctx, LLVMValueRef src, LLVMValueRef index);
LLVMValueRef
ac_build_frexp_exp(struct ac_llvm_context *ctx, LLVMValueRef src0,
unsigned bitsize);
LLVMValueRef
ac_build_frexp_mant(struct ac_llvm_context *ctx, LLVMValueRef src0,
unsigned bitsize);
LLVMValueRef
ac_build_ddxy_interp(struct ac_llvm_context *ctx, LLVMValueRef interp_ij);
LLVMValueRef
ac_build_load_helper_invocation(struct ac_llvm_context *ctx);
LLVMValueRef ac_build_atomic_rmw(struct ac_llvm_context *ctx, LLVMAtomicRMWBinOp op,
LLVMValueRef ptr, LLVMValueRef val,
const char *sync_scope);
LLVMValueRef ac_build_atomic_cmp_xchg(struct ac_llvm_context *ctx, LLVMValueRef ptr,
LLVMValueRef cmp, LLVMValueRef val,
const char *sync_scope);
#ifdef __cplusplus
}
#endif
#endif
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