libclc/r600/lib/shared/vload.cl - third_party/github.com/llvm/llvm-project - Git at Google

 #include <clc/clc.h>

 #define VLOAD_VECTORIZE(PRIM_TYPE, ADDR_SPACE) \
   _CLC_OVERLOAD _CLC_DEF PRIM_TYPE##2 vload2(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
     return (PRIM_TYPE##2)(x[2*offset] , x[2*offset+1]); \
   } \
 \
   _CLC_OVERLOAD _CLC_DEF PRIM_TYPE##3 vload3(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
     return (PRIM_TYPE##3)(x[3*offset] , x[3*offset+1], x[3*offset+2]); \
   } \
 \
   _CLC_OVERLOAD _CLC_DEF PRIM_TYPE##4 vload4(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
     return (PRIM_TYPE##4)(x[4*offset], x[4*offset+1], x[4*offset+2], x[4*offset+3]); \
   } \
 \
   _CLC_OVERLOAD _CLC_DEF PRIM_TYPE##8 vload8(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
     return (PRIM_TYPE##8)(vload4(0, &x[8*offset]), vload4(1, &x[8*offset])); \
   } \
 \
   _CLC_OVERLOAD _CLC_DEF PRIM_TYPE##16 vload16(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
     return (PRIM_TYPE##16)(vload8(0, &x[16*offset]), vload8(1, &x[16*offset])); \
   } \

 #define VLOAD_ADDR_SPACES(SCALAR_GENTYPE) \
     VLOAD_VECTORIZE(SCALAR_GENTYPE, __private) \
     VLOAD_VECTORIZE(SCALAR_GENTYPE, __local) \
     VLOAD_VECTORIZE(SCALAR_GENTYPE, __constant) \
     VLOAD_VECTORIZE(SCALAR_GENTYPE, __global) \

 //int/uint are special... see below
 #define VLOAD_TYPES() \
     VLOAD_ADDR_SPACES(char) \
     VLOAD_ADDR_SPACES(uchar) \
     VLOAD_ADDR_SPACES(short) \
     VLOAD_ADDR_SPACES(ushort) \
     VLOAD_ADDR_SPACES(long) \
     VLOAD_ADDR_SPACES(ulong) \
     VLOAD_ADDR_SPACES(float) \

 VLOAD_TYPES()

 #ifdef cl_khr_fp64
 #pragma OPENCL EXTENSION cl_khr_fp64 : enable
     VLOAD_ADDR_SPACES(double)
 #endif

 //Assembly overrides start here

 VLOAD_VECTORIZE(int, __private)
 VLOAD_VECTORIZE(int, __local)
 VLOAD_VECTORIZE(uint, __private)
 VLOAD_VECTORIZE(uint, __local)

 //We only define functions for typeN vloadN(), and then just bitcast the result for unsigned types
 #define _CLC_VLOAD_ASM_DECL(PRIM_TYPE,LLVM_SCALAR_TYPE,ADDR_SPACE,ADDR_SPACE_ID) \
 _CLC_DECL PRIM_TYPE##2 __clc_vload2_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
 _CLC_DECL PRIM_TYPE##3 __clc_vload3_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
 _CLC_DECL PRIM_TYPE##4 __clc_vload4_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
 _CLC_DECL PRIM_TYPE##8 __clc_vload8_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
 _CLC_DECL PRIM_TYPE##16 __clc_vload16_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \

 #define _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE,S_PRIM_TYPE, LLVM_SCALAR_TYPE,VEC_WIDTH,ADDR_SPACE,ADDR_SPACE_ID) \
   _CLC_OVERLOAD _CLC_DEF PRIM_TYPE##VEC_WIDTH vload##VEC_WIDTH (size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
     return __builtin_astype(__clc_vload##VEC_WIDTH##_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID ((const ADDR_SPACE S_PRIM_TYPE *)&x[VEC_WIDTH * offset]), PRIM_TYPE##VEC_WIDTH); \
   } \

 #define _CLC_VLOAD_ASM_OVERLOAD_SIZES(PRIM_TYPE,S_PRIM_TYPE,LLVM_TYPE,ADDR_SPACE,ADDR_SPACE_ID) \
   _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 2, ADDR_SPACE, ADDR_SPACE_ID) \
   _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 3, ADDR_SPACE, ADDR_SPACE_ID) \
   _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 4, ADDR_SPACE, ADDR_SPACE_ID) \
   _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 8, ADDR_SPACE, ADDR_SPACE_ID) \
   _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 16, ADDR_SPACE, ADDR_SPACE_ID) \

 #define _CLC_VLOAD_ASM_OVERLOAD_ADDR_SPACES(PRIM_TYPE,S_PRIM_TYPE,LLVM_TYPE) \
   _CLC_VLOAD_ASM_OVERLOAD_SIZES(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, global, 1) \
   _CLC_VLOAD_ASM_OVERLOAD_SIZES(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, constant, 2) \

 #define _CLC_VLOAD_ASM_OVERLOADS() \
   _CLC_VLOAD_ASM_DECL(int,i32,__global,1) \
   _CLC_VLOAD_ASM_DECL(int,i32,__constant,2) \
   _CLC_VLOAD_ASM_OVERLOAD_ADDR_SPACES(int,int,i32) \
   _CLC_VLOAD_ASM_OVERLOAD_ADDR_SPACES(uint,int,i32) \

 _CLC_VLOAD_ASM_OVERLOADS()
	#include <clc/clc.h>

	#define VLOAD_VECTORIZE(PRIM_TYPE, ADDR_SPACE) \
	_CLC_OVERLOAD _CLC_DEF PRIM_TYPE##2 vload2(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
	return (PRIM_TYPE##2)(x[2offset] , x[2offset+1]); \
	} \
	\
	_CLC_OVERLOAD _CLC_DEF PRIM_TYPE##3 vload3(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
	return (PRIM_TYPE##3)(x[3offset] , x[3offset+1], x[3*offset+2]); \
	} \
	\
	_CLC_OVERLOAD _CLC_DEF PRIM_TYPE##4 vload4(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
	return (PRIM_TYPE##4)(x[4offset], x[4offset+1], x[4offset+2], x[4offset+3]); \
	} \
	\
	_CLC_OVERLOAD _CLC_DEF PRIM_TYPE##8 vload8(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
	return (PRIM_TYPE##8)(vload4(0, &x[8offset]), vload4(1, &x[8offset])); \
	} \
	\
	_CLC_OVERLOAD _CLC_DEF PRIM_TYPE##16 vload16(size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
	return (PRIM_TYPE##16)(vload8(0, &x[16offset]), vload8(1, &x[16offset])); \
	} \

	#define VLOAD_ADDR_SPACES(SCALAR_GENTYPE) \
	VLOAD_VECTORIZE(SCALAR_GENTYPE, __private) \
	VLOAD_VECTORIZE(SCALAR_GENTYPE, __local) \
	VLOAD_VECTORIZE(SCALAR_GENTYPE, __constant) \
	VLOAD_VECTORIZE(SCALAR_GENTYPE, __global) \

	//int/uint are special... see below
	#define VLOAD_TYPES() \
	VLOAD_ADDR_SPACES(char) \
	VLOAD_ADDR_SPACES(uchar) \
	VLOAD_ADDR_SPACES(short) \
	VLOAD_ADDR_SPACES(ushort) \
	VLOAD_ADDR_SPACES(long) \
	VLOAD_ADDR_SPACES(ulong) \
	VLOAD_ADDR_SPACES(float) \

	VLOAD_TYPES()

	#ifdef cl_khr_fp64
	#pragma OPENCL EXTENSION cl_khr_fp64 : enable
	VLOAD_ADDR_SPACES(double)
	#endif

	//Assembly overrides start here

	VLOAD_VECTORIZE(int, __private)
	VLOAD_VECTORIZE(int, __local)
	VLOAD_VECTORIZE(uint, __private)
	VLOAD_VECTORIZE(uint, __local)

	//We only define functions for typeN vloadN(), and then just bitcast the result for unsigned types
	#define _CLC_VLOAD_ASM_DECL(PRIM_TYPE,LLVM_SCALAR_TYPE,ADDR_SPACE,ADDR_SPACE_ID) \
	_CLC_DECL PRIM_TYPE##2 __clc_vload2_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
	_CLC_DECL PRIM_TYPE##3 __clc_vload3_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
	_CLC_DECL PRIM_TYPE##4 __clc_vload4_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
	_CLC_DECL PRIM_TYPE##8 __clc_vload8_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \
	_CLC_DECL PRIM_TYPE##16 __clc_vload16_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID (const ADDR_SPACE PRIM_TYPE *); \

	#define _CLC_VLOAD_ASM_DEFINE(PRIM_TYPE,S_PRIM_TYPE, LLVM_SCALAR_TYPE,VEC_WIDTH,ADDR_SPACE,ADDR_SPACE_ID) \
	_CLC_OVERLOAD _CLC_DEF PRIM_TYPE##VEC_WIDTH vload##VEC_WIDTH (size_t offset, const ADDR_SPACE PRIM_TYPE *x) { \
	return __builtin_astype(__clc_vload##VEC_WIDTH##_##LLVM_SCALAR_TYPE##__addr##ADDR_SPACE_ID ((const ADDR_SPACE S_PRIM_TYPE )&x[VEC_WIDTH offset]), PRIM_TYPE##VEC_WIDTH); \
	} \

	#define _CLC_VLOAD_ASM_OVERLOAD_SIZES(PRIM_TYPE,S_PRIM_TYPE,LLVM_TYPE,ADDR_SPACE,ADDR_SPACE_ID) \
	_CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 2, ADDR_SPACE, ADDR_SPACE_ID) \
	_CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 3, ADDR_SPACE, ADDR_SPACE_ID) \
	_CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 4, ADDR_SPACE, ADDR_SPACE_ID) \
	_CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 8, ADDR_SPACE, ADDR_SPACE_ID) \
	_CLC_VLOAD_ASM_DEFINE(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, 16, ADDR_SPACE, ADDR_SPACE_ID) \

	#define _CLC_VLOAD_ASM_OVERLOAD_ADDR_SPACES(PRIM_TYPE,S_PRIM_TYPE,LLVM_TYPE) \
	_CLC_VLOAD_ASM_OVERLOAD_SIZES(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, global, 1) \
	_CLC_VLOAD_ASM_OVERLOAD_SIZES(PRIM_TYPE, S_PRIM_TYPE, LLVM_TYPE, constant, 2) \

	#define _CLC_VLOAD_ASM_OVERLOADS() \
	_CLC_VLOAD_ASM_DECL(int,i32,__global,1) \
	_CLC_VLOAD_ASM_DECL(int,i32,__constant,2) \
	_CLC_VLOAD_ASM_OVERLOAD_ADDR_SPACES(int,int,i32) \
	_CLC_VLOAD_ASM_OVERLOAD_ADDR_SPACES(uint,int,i32) \

	_CLC_VLOAD_ASM_OVERLOADS()