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kc3-lang/angle/include/CL/cl_platform.h
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Author :
John Plate
Date : 2021-04-17 19:43:09
Hash : 908ead38
Message : Updated OpenCL headers Bug: angleproject:5761 Change-Id: I45e0f9a422a0dd94fec854d3387f676192e020eb Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/2831303 Reviewed-by: Jamie Madill <jmadill@chromium.org> Reviewed-by: Cody Northrop <cnorthrop@google.com> Commit-Queue: John Plate <jplate@google.com>
- include/CL/cl_platform.h
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/******************************************************************************* * Copyright (c) 2008-2020 The Khronos Group Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. ******************************************************************************/ #ifndef __CL_PLATFORM_H #define __CL_PLATFORM_H #include <CL/cl_version.h> #ifdef __cplusplus extern "C" { #endif #if defined(_WIN32) #if !defined(CL_API_ENTRY) #define CL_API_ENTRY #endif #if !defined(CL_API_CALL) #define CL_API_CALL __stdcall #endif #if !defined(CL_CALLBACK) #define CL_CALLBACK __stdcall #endif #else #if !defined(CL_API_ENTRY) #define CL_API_ENTRY #endif #if !defined(CL_API_CALL) #define CL_API_CALL #endif #if !defined(CL_CALLBACK) #define CL_CALLBACK #endif #endif /* * Deprecation flags refer to the last version of the header in which the * feature was not deprecated. * * E.g. VERSION_1_1_DEPRECATED means the feature is present in 1.1 without * deprecation but is deprecated in versions later than 1.1. */ #ifndef CL_API_SUFFIX_USER #define CL_API_SUFFIX_USER #endif #ifndef CL_API_PREFIX_USER #define CL_API_PREFIX_USER #endif #define CL_API_SUFFIX_COMMON CL_API_SUFFIX_USER #define CL_API_PREFIX_COMMON CL_API_PREFIX_USER #define CL_API_SUFFIX__VERSION_1_0 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__VERSION_1_1 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__VERSION_1_2 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__VERSION_2_0 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__VERSION_2_1 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__VERSION_2_2 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__VERSION_3_0 CL_API_SUFFIX_COMMON #define CL_API_SUFFIX__EXPERIMENTAL CL_API_SUFFIX_COMMON #ifdef __GNUC__ #define CL_API_SUFFIX_DEPRECATED __attribute__((deprecated)) #define CL_API_PREFIX_DEPRECATED #elif defined(_WIN32) #define CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX_DEPRECATED __declspec(deprecated) #else #define CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX_DEPRECATED #endif #ifdef CL_USE_DEPRECATED_OPENCL_1_0_APIS #define CL_API_SUFFIX__VERSION_1_0_DEPRECATED CL_API_SUFFIX_COMMON #define CL_API_PREFIX__VERSION_1_0_DEPRECATED CL_API_PREFIX_COMMON #else #define CL_API_SUFFIX__VERSION_1_0_DEPRECATED CL_API_SUFFIX_COMMON CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX__VERSION_1_0_DEPRECATED CL_API_PREFIX_COMMON CL_API_PREFIX_DEPRECATED #endif #ifdef CL_USE_DEPRECATED_OPENCL_1_1_APIS #define CL_API_SUFFIX__VERSION_1_1_DEPRECATED CL_API_SUFFIX_COMMON #define CL_API_PREFIX__VERSION_1_1_DEPRECATED CL_API_PREFIX_COMMON #else #define CL_API_SUFFIX__VERSION_1_1_DEPRECATED CL_API_SUFFIX_COMMON CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX__VERSION_1_1_DEPRECATED CL_API_PREFIX_COMMON CL_API_PREFIX_DEPRECATED #endif #ifdef CL_USE_DEPRECATED_OPENCL_1_2_APIS #define CL_API_SUFFIX__VERSION_1_2_DEPRECATED CL_API_SUFFIX_COMMON #define CL_API_PREFIX__VERSION_1_2_DEPRECATED CL_API_PREFIX_COMMON #else #define CL_API_SUFFIX__VERSION_1_2_DEPRECATED CL_API_SUFFIX_COMMON CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX__VERSION_1_2_DEPRECATED CL_API_PREFIX_COMMON CL_API_PREFIX_DEPRECATED #endif #ifdef CL_USE_DEPRECATED_OPENCL_2_0_APIS #define CL_API_SUFFIX__VERSION_2_0_DEPRECATED CL_API_SUFFIX_COMMON #define CL_API_PREFIX__VERSION_2_0_DEPRECATED CL_API_PREFIX_COMMON #else #define CL_API_SUFFIX__VERSION_2_0_DEPRECATED CL_API_SUFFIX_COMMON CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX__VERSION_2_0_DEPRECATED CL_API_PREFIX_COMMON CL_API_PREFIX_DEPRECATED #endif #ifdef CL_USE_DEPRECATED_OPENCL_2_1_APIS #define CL_API_SUFFIX__VERSION_2_1_DEPRECATED CL_API_SUFFIX_COMMON #define CL_API_PREFIX__VERSION_2_1_DEPRECATED CL_API_PREFIX_COMMON #else #define CL_API_SUFFIX__VERSION_2_1_DEPRECATED CL_API_SUFFIX_COMMON CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX__VERSION_2_1_DEPRECATED CL_API_PREFIX_COMMON CL_API_PREFIX_DEPRECATED #endif #ifdef CL_USE_DEPRECATED_OPENCL_2_2_APIS #define CL_API_SUFFIX__VERSION_2_2_DEPRECATED CL_API_SUFFIX_COMMON #define CL_API_PREFIX__VERSION_2_2_DEPRECATED CL_API_PREFIX_COMMON #else #define CL_API_SUFFIX__VERSION_2_2_DEPRECATED CL_API_SUFFIX_COMMON CL_API_SUFFIX_DEPRECATED #define CL_API_PREFIX__VERSION_2_2_DEPRECATED CL_API_PREFIX_COMMON CL_API_PREFIX_DEPRECATED #endif #if (defined (_WIN32) && defined(_MSC_VER)) /* intptr_t is used in cl.h and provided by stddef.h in Visual C++, but not in clang */ /* stdint.h was missing before Visual Studio 2010, include it for later versions and for clang */ #if defined(__clang__) || _MSC_VER >= 1600 #include <stdint.h> #endif /* scalar types */ typedef signed __int8 cl_char; typedef unsigned __int8 cl_uchar; typedef signed __int16 cl_short; typedef unsigned __int16 cl_ushort; typedef signed __int32 cl_int; typedef unsigned __int32 cl_uint; typedef signed __int64 cl_long; typedef unsigned __int64 cl_ulong; typedef unsigned __int16 cl_half; typedef float cl_float; typedef double cl_double; /* Macro names and corresponding values defined by OpenCL */ #define CL_CHAR_BIT 8 #define CL_SCHAR_MAX 127 #define CL_SCHAR_MIN (-127-1) #define CL_CHAR_MAX CL_SCHAR_MAX #define CL_CHAR_MIN CL_SCHAR_MIN #define CL_UCHAR_MAX 255 #define CL_SHRT_MAX 32767 #define CL_SHRT_MIN (-32767-1) #define CL_USHRT_MAX 65535 #define CL_INT_MAX 2147483647 #define CL_INT_MIN (-2147483647-1) #define CL_UINT_MAX 0xffffffffU #define CL_LONG_MAX ((cl_long) 0x7FFFFFFFFFFFFFFFLL) #define CL_LONG_MIN ((cl_long) -0x7FFFFFFFFFFFFFFFLL - 1LL) #define CL_ULONG_MAX ((cl_ulong) 0xFFFFFFFFFFFFFFFFULL) #define CL_FLT_DIG 6 #define CL_FLT_MANT_DIG 24 #define CL_FLT_MAX_10_EXP +38 #define CL_FLT_MAX_EXP +128 #define CL_FLT_MIN_10_EXP -37 #define CL_FLT_MIN_EXP -125 #define CL_FLT_RADIX 2 #define CL_FLT_MAX 340282346638528859811704183484516925440.0f #define CL_FLT_MIN 1.175494350822287507969e-38f #define CL_FLT_EPSILON 1.1920928955078125e-7f #define CL_HALF_DIG 3 #define CL_HALF_MANT_DIG 11 #define CL_HALF_MAX_10_EXP +4 #define CL_HALF_MAX_EXP +16 #define CL_HALF_MIN_10_EXP -4 #define CL_HALF_MIN_EXP -13 #define CL_HALF_RADIX 2 #define CL_HALF_MAX 65504.0f #define CL_HALF_MIN 6.103515625e-05f #define CL_HALF_EPSILON 9.765625e-04f #define CL_DBL_DIG 15 #define CL_DBL_MANT_DIG 53 #define CL_DBL_MAX_10_EXP +308 #define CL_DBL_MAX_EXP +1024 #define CL_DBL_MIN_10_EXP -307 #define CL_DBL_MIN_EXP -1021 #define CL_DBL_RADIX 2 #define CL_DBL_MAX 1.7976931348623158e+308 #define CL_DBL_MIN 2.225073858507201383090e-308 #define CL_DBL_EPSILON 2.220446049250313080847e-16 #define CL_M_E 2.7182818284590452354 #define CL_M_LOG2E 1.4426950408889634074 #define CL_M_LOG10E 0.43429448190325182765 #define CL_M_LN2 0.69314718055994530942 #define CL_M_LN10 2.30258509299404568402 #define CL_M_PI 3.14159265358979323846 #define CL_M_PI_2 1.57079632679489661923 #define CL_M_PI_4 0.78539816339744830962 #define CL_M_1_PI 0.31830988618379067154 #define CL_M_2_PI 0.63661977236758134308 #define CL_M_2_SQRTPI 1.12837916709551257390 #define CL_M_SQRT2 1.41421356237309504880 #define CL_M_SQRT1_2 0.70710678118654752440 #define CL_M_E_F 2.718281828f #define CL_M_LOG2E_F 1.442695041f #define CL_M_LOG10E_F 0.434294482f #define CL_M_LN2_F 0.693147181f #define CL_M_LN10_F 2.302585093f #define CL_M_PI_F 3.141592654f #define CL_M_PI_2_F 1.570796327f #define CL_M_PI_4_F 0.785398163f #define CL_M_1_PI_F 0.318309886f #define CL_M_2_PI_F 0.636619772f #define CL_M_2_SQRTPI_F 1.128379167f #define CL_M_SQRT2_F 1.414213562f #define CL_M_SQRT1_2_F 0.707106781f #define CL_NAN (CL_INFINITY - CL_INFINITY) #define CL_HUGE_VALF ((cl_float) 1e50) #define CL_HUGE_VAL ((cl_double) 1e500) #define CL_MAXFLOAT CL_FLT_MAX #define CL_INFINITY CL_HUGE_VALF #else #include <stdint.h> /* scalar types */ typedef int8_t cl_char; typedef uint8_t cl_uchar; typedef int16_t cl_short; typedef uint16_t cl_ushort; typedef int32_t cl_int; typedef uint32_t cl_uint; typedef int64_t cl_long; typedef uint64_t cl_ulong; typedef uint16_t cl_half; typedef float cl_float; typedef double cl_double; /* Macro names and corresponding values defined by OpenCL */ #define CL_CHAR_BIT 8 #define CL_SCHAR_MAX 127 #define CL_SCHAR_MIN (-127-1) #define CL_CHAR_MAX CL_SCHAR_MAX #define CL_CHAR_MIN CL_SCHAR_MIN #define CL_UCHAR_MAX 255 #define CL_SHRT_MAX 32767 #define CL_SHRT_MIN (-32767-1) #define CL_USHRT_MAX 65535 #define CL_INT_MAX 2147483647 #define CL_INT_MIN (-2147483647-1) #define CL_UINT_MAX 0xffffffffU #define CL_LONG_MAX ((cl_long) 0x7FFFFFFFFFFFFFFFLL) #define CL_LONG_MIN ((cl_long) -0x7FFFFFFFFFFFFFFFLL - 1LL) #define CL_ULONG_MAX ((cl_ulong) 0xFFFFFFFFFFFFFFFFULL) #define CL_FLT_DIG 6 #define CL_FLT_MANT_DIG 24 #define CL_FLT_MAX_10_EXP +38 #define CL_FLT_MAX_EXP +128 #define CL_FLT_MIN_10_EXP -37 #define CL_FLT_MIN_EXP -125 #define CL_FLT_RADIX 2 #define CL_FLT_MAX 340282346638528859811704183484516925440.0f #define CL_FLT_MIN 1.175494350822287507969e-38f #define CL_FLT_EPSILON 1.1920928955078125e-7f #define CL_HALF_DIG 3 #define CL_HALF_MANT_DIG 11 #define CL_HALF_MAX_10_EXP +4 #define CL_HALF_MAX_EXP +16 #define CL_HALF_MIN_10_EXP -4 #define CL_HALF_MIN_EXP -13 #define CL_HALF_RADIX 2 #define CL_HALF_MAX 65504.0f #define CL_HALF_MIN 6.103515625e-05f #define CL_HALF_EPSILON 9.765625e-04f #define CL_DBL_DIG 15 #define CL_DBL_MANT_DIG 53 #define CL_DBL_MAX_10_EXP +308 #define CL_DBL_MAX_EXP +1024 #define CL_DBL_MIN_10_EXP -307 #define CL_DBL_MIN_EXP -1021 #define CL_DBL_RADIX 2 #define CL_DBL_MAX 179769313486231570814527423731704356798070567525844996598917476803157260780028538760589558632766878171540458953514382464234321326889464182768467546703537516986049910576551282076245490090389328944075868508455133942304583236903222948165808559332123348274797826204144723168738177180919299881250404026184124858368.0 #define CL_DBL_MIN 2.225073858507201383090e-308 #define CL_DBL_EPSILON 2.220446049250313080847e-16 #define CL_M_E 2.7182818284590452354 #define CL_M_LOG2E 1.4426950408889634074 #define CL_M_LOG10E 0.43429448190325182765 #define CL_M_LN2 0.69314718055994530942 #define CL_M_LN10 2.30258509299404568402 #define CL_M_PI 3.14159265358979323846 #define CL_M_PI_2 1.57079632679489661923 #define CL_M_PI_4 0.78539816339744830962 #define CL_M_1_PI 0.31830988618379067154 #define CL_M_2_PI 0.63661977236758134308 #define CL_M_2_SQRTPI 1.12837916709551257390 #define CL_M_SQRT2 1.41421356237309504880 #define CL_M_SQRT1_2 0.70710678118654752440 #define CL_M_E_F 2.718281828f #define CL_M_LOG2E_F 1.442695041f #define CL_M_LOG10E_F 0.434294482f #define CL_M_LN2_F 0.693147181f #define CL_M_LN10_F 2.302585093f #define CL_M_PI_F 3.141592654f #define CL_M_PI_2_F 1.570796327f #define CL_M_PI_4_F 0.785398163f #define CL_M_1_PI_F 0.318309886f #define CL_M_2_PI_F 0.636619772f #define CL_M_2_SQRTPI_F 1.128379167f #define CL_M_SQRT2_F 1.414213562f #define CL_M_SQRT1_2_F 0.707106781f #if defined( __GNUC__ ) #define CL_HUGE_VALF __builtin_huge_valf() #define CL_HUGE_VAL __builtin_huge_val() #define CL_NAN __builtin_nanf( "" ) #else #define CL_HUGE_VALF ((cl_float) 1e50) #define CL_HUGE_VAL ((cl_double) 1e500) float nanf( const char * ); #define CL_NAN nanf( "" ) #endif #define CL_MAXFLOAT CL_FLT_MAX #define CL_INFINITY CL_HUGE_VALF #endif #include <stddef.h> /* Mirror types to GL types. Mirror types allow us to avoid deciding which 87s to load based on whether we are using GL or GLES here. */ typedef unsigned int cl_GLuint; typedef int cl_GLint; typedef unsigned int cl_GLenum; /* * Vector types * * Note: OpenCL requires that all types be naturally aligned. * This means that vector types must be naturally aligned. * For example, a vector of four floats must be aligned to * a 16 byte boundary (calculated as 4 * the natural 4-byte * alignment of the float). The alignment qualifiers here * will only function properly if your compiler supports them * and if you don't actively work to defeat them. For example, * in order for a cl_float4 to be 16 byte aligned in a struct, * the start of the struct must itself be 16-byte aligned. * * Maintaining proper alignment is the user's responsibility. */ /* Define basic vector types */ #if defined( __VEC__ ) #if !defined(__clang__) #include <altivec.h> /* may be omitted depending on compiler. AltiVec spec provides no way to detect whether the header is required. */ #endif typedef __vector unsigned char __cl_uchar16; typedef __vector signed char __cl_char16; typedef __vector unsigned short __cl_ushort8; typedef __vector signed short __cl_short8; typedef __vector unsigned int __cl_uint4; typedef __vector signed int __cl_int4; typedef __vector float __cl_float4; #define __CL_UCHAR16__ 1 #define __CL_CHAR16__ 1 #define __CL_USHORT8__ 1 #define __CL_SHORT8__ 1 #define __CL_UINT4__ 1 #define __CL_INT4__ 1 #define __CL_FLOAT4__ 1 #endif #if defined( __SSE__ ) #if defined( __MINGW64__ ) #include <intrin.h> #else #include <xmmintrin.h> #endif #if defined( __GNUC__ ) typedef float __cl_float4 __attribute__((vector_size(16))); #else typedef __m128 __cl_float4; #endif #define __CL_FLOAT4__ 1 #endif #if defined( __SSE2__ ) #if defined( __MINGW64__ ) #include <intrin.h> #else #include <emmintrin.h> #endif #if defined( __GNUC__ ) typedef cl_uchar __cl_uchar16 __attribute__((vector_size(16))); typedef cl_char __cl_char16 __attribute__((vector_size(16))); typedef cl_ushort __cl_ushort8 __attribute__((vector_size(16))); typedef cl_short __cl_short8 __attribute__((vector_size(16))); typedef cl_uint __cl_uint4 __attribute__((vector_size(16))); typedef cl_int __cl_int4 __attribute__((vector_size(16))); typedef cl_ulong __cl_ulong2 __attribute__((vector_size(16))); typedef cl_long __cl_long2 __attribute__((vector_size(16))); typedef cl_double __cl_double2 __attribute__((vector_size(16))); #else typedef __m128i __cl_uchar16; typedef __m128i __cl_char16; typedef __m128i __cl_ushort8; typedef __m128i __cl_short8; typedef __m128i __cl_uint4; typedef __m128i __cl_int4; typedef __m128i __cl_ulong2; typedef __m128i __cl_long2; typedef __m128d __cl_double2; #endif #define __CL_UCHAR16__ 1 #define __CL_CHAR16__ 1 #define __CL_USHORT8__ 1 #define __CL_SHORT8__ 1 #define __CL_INT4__ 1 #define __CL_UINT4__ 1 #define __CL_ULONG2__ 1 #define __CL_LONG2__ 1 #define __CL_DOUBLE2__ 1 #endif #if defined( __MMX__ ) #include <mmintrin.h> #if defined( __GNUC__ ) typedef cl_uchar __cl_uchar8 __attribute__((vector_size(8))); typedef cl_char __cl_char8 __attribute__((vector_size(8))); typedef cl_ushort __cl_ushort4 __attribute__((vector_size(8))); typedef cl_short __cl_short4 __attribute__((vector_size(8))); typedef cl_uint __cl_uint2 __attribute__((vector_size(8))); typedef cl_int __cl_int2 __attribute__((vector_size(8))); typedef cl_ulong __cl_ulong1 __attribute__((vector_size(8))); typedef cl_long __cl_long1 __attribute__((vector_size(8))); typedef cl_float __cl_float2 __attribute__((vector_size(8))); #else typedef __m64 __cl_uchar8; typedef __m64 __cl_char8; typedef __m64 __cl_ushort4; typedef __m64 __cl_short4; typedef __m64 __cl_uint2; typedef __m64 __cl_int2; typedef __m64 __cl_ulong1; typedef __m64 __cl_long1; typedef __m64 __cl_float2; #endif #define __CL_UCHAR8__ 1 #define __CL_CHAR8__ 1 #define __CL_USHORT4__ 1 #define __CL_SHORT4__ 1 #define __CL_INT2__ 1 #define __CL_UINT2__ 1 #define __CL_ULONG1__ 1 #define __CL_LONG1__ 1 #define __CL_FLOAT2__ 1 #endif #if defined( __AVX__ ) #if defined( __MINGW64__ ) #include <intrin.h> #else #include <immintrin.h> #endif #if defined( __GNUC__ ) typedef cl_float __cl_float8 __attribute__((vector_size(32))); typedef cl_double __cl_double4 __attribute__((vector_size(32))); #else typedef __m256 __cl_float8; typedef __m256d __cl_double4; #endif #define __CL_FLOAT8__ 1 #define __CL_DOUBLE4__ 1 #endif /* Define capabilities for anonymous struct members. */ #if !defined(__cplusplus) && defined(__STDC_VERSION__) && __STDC_VERSION__ >= 201112L #define __CL_HAS_ANON_STRUCT__ 1 #define __CL_ANON_STRUCT__ #elif defined( __GNUC__) && ! defined( __STRICT_ANSI__ ) #define __CL_HAS_ANON_STRUCT__ 1 #define __CL_ANON_STRUCT__ __extension__ #elif defined( _WIN32) && defined(_MSC_VER) && ! defined(__STDC__) #if _MSC_VER >= 1500 /* Microsoft Developer Studio 2008 supports anonymous structs, but * complains by default. */ #define __CL_HAS_ANON_STRUCT__ 1 #define __CL_ANON_STRUCT__ /* Disable warning C4201: nonstandard extension used : nameless * struct/union */ #pragma warning( push ) #pragma warning( disable : 4201 ) #endif #else #define __CL_HAS_ANON_STRUCT__ 0 #define __CL_ANON_STRUCT__ #endif /* Define alignment keys */ #if defined( __GNUC__ ) || defined(__INTEGRITY) #define CL_ALIGNED(_x) __attribute__ ((aligned(_x))) #elif defined( _WIN32) && (_MSC_VER) /* Alignment keys neutered on windows because MSVC can't swallow function arguments with alignment requirements */ /* http://msdn.microsoft.com/en-us/library/373ak2y1%28VS.71%29.aspx */ /* #include <crtdefs.h> */ /* #define CL_ALIGNED(_x) _CRT_ALIGN(_x) */ #define CL_ALIGNED(_x) #else #warning Need to implement some method to align data here #define CL_ALIGNED(_x) #endif /* Indicate whether .xyzw, .s0123 and .hi.lo are supported */ #if __CL_HAS_ANON_STRUCT__ /* .xyzw and .s0123...{f|F} are supported */ #define CL_HAS_NAMED_VECTOR_FIELDS 1 /* .hi and .lo are supported */ #define CL_HAS_HI_LO_VECTOR_FIELDS 1 #endif /* Define cl_vector types */ /* ---- cl_charn ---- */ typedef union { cl_char CL_ALIGNED(2) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_char x, y; }; __CL_ANON_STRUCT__ struct{ cl_char s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_char lo, hi; }; #endif #if defined( __CL_CHAR2__) __cl_char2 v2; #endif }cl_char2; typedef union { cl_char CL_ALIGNED(4) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_char x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_char s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_char2 lo, hi; }; #endif #if defined( __CL_CHAR2__) __cl_char2 v2[2]; #endif #if defined( __CL_CHAR4__) __cl_char4 v4; #endif }cl_char4; /* cl_char3 is identical in size, alignment and behavior to cl_char4. See section 6.1.5. */ typedef cl_char4 cl_char3; typedef union { cl_char CL_ALIGNED(8) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_char x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_char s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_char4 lo, hi; }; #endif #if defined( __CL_CHAR2__) __cl_char2 v2[4]; #endif #if defined( __CL_CHAR4__) __cl_char4 v4[2]; #endif #if defined( __CL_CHAR8__ ) __cl_char8 v8; #endif }cl_char8; typedef union { cl_char CL_ALIGNED(16) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_char x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_char s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_char8 lo, hi; }; #endif #if defined( __CL_CHAR2__) __cl_char2 v2[8]; #endif #if defined( __CL_CHAR4__) __cl_char4 v4[4]; #endif #if defined( __CL_CHAR8__ ) __cl_char8 v8[2]; #endif #if defined( __CL_CHAR16__ ) __cl_char16 v16; #endif }cl_char16; /* ---- cl_ucharn ---- */ typedef union { cl_uchar CL_ALIGNED(2) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uchar x, y; }; __CL_ANON_STRUCT__ struct{ cl_uchar s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_uchar lo, hi; }; #endif #if defined( __cl_uchar2__) __cl_uchar2 v2; #endif }cl_uchar2; typedef union { cl_uchar CL_ALIGNED(4) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uchar x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_uchar s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_uchar2 lo, hi; }; #endif #if defined( __CL_UCHAR2__) __cl_uchar2 v2[2]; #endif #if defined( __CL_UCHAR4__) __cl_uchar4 v4; #endif }cl_uchar4; /* cl_uchar3 is identical in size, alignment and behavior to cl_uchar4. See section 6.1.5. */ typedef cl_uchar4 cl_uchar3; typedef union { cl_uchar CL_ALIGNED(8) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uchar x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_uchar s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_uchar4 lo, hi; }; #endif #if defined( __CL_UCHAR2__) __cl_uchar2 v2[4]; #endif #if defined( __CL_UCHAR4__) __cl_uchar4 v4[2]; #endif #if defined( __CL_UCHAR8__ ) __cl_uchar8 v8; #endif }cl_uchar8; typedef union { cl_uchar CL_ALIGNED(16) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uchar x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_uchar s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_uchar8 lo, hi; }; #endif #if defined( __CL_UCHAR2__) __cl_uchar2 v2[8]; #endif #if defined( __CL_UCHAR4__) __cl_uchar4 v4[4]; #endif #if defined( __CL_UCHAR8__ ) __cl_uchar8 v8[2]; #endif #if defined( __CL_UCHAR16__ ) __cl_uchar16 v16; #endif }cl_uchar16; /* ---- cl_shortn ---- */ typedef union { cl_short CL_ALIGNED(4) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_short x, y; }; __CL_ANON_STRUCT__ struct{ cl_short s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_short lo, hi; }; #endif #if defined( __CL_SHORT2__) __cl_short2 v2; #endif }cl_short2; typedef union { cl_short CL_ALIGNED(8) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_short x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_short s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_short2 lo, hi; }; #endif #if defined( __CL_SHORT2__) __cl_short2 v2[2]; #endif #if defined( __CL_SHORT4__) __cl_short4 v4; #endif }cl_short4; /* cl_short3 is identical in size, alignment and behavior to cl_short4. See section 6.1.5. */ typedef cl_short4 cl_short3; typedef union { cl_short CL_ALIGNED(16) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_short x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_short s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_short4 lo, hi; }; #endif #if defined( __CL_SHORT2__) __cl_short2 v2[4]; #endif #if defined( __CL_SHORT4__) __cl_short4 v4[2]; #endif #if defined( __CL_SHORT8__ ) __cl_short8 v8; #endif }cl_short8; typedef union { cl_short CL_ALIGNED(32) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_short x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_short s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_short8 lo, hi; }; #endif #if defined( __CL_SHORT2__) __cl_short2 v2[8]; #endif #if defined( __CL_SHORT4__) __cl_short4 v4[4]; #endif #if defined( __CL_SHORT8__ ) __cl_short8 v8[2]; #endif #if defined( __CL_SHORT16__ ) __cl_short16 v16; #endif }cl_short16; /* ---- cl_ushortn ---- */ typedef union { cl_ushort CL_ALIGNED(4) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ushort x, y; }; __CL_ANON_STRUCT__ struct{ cl_ushort s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_ushort lo, hi; }; #endif #if defined( __CL_USHORT2__) __cl_ushort2 v2; #endif }cl_ushort2; typedef union { cl_ushort CL_ALIGNED(8) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ushort x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_ushort s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_ushort2 lo, hi; }; #endif #if defined( __CL_USHORT2__) __cl_ushort2 v2[2]; #endif #if defined( __CL_USHORT4__) __cl_ushort4 v4; #endif }cl_ushort4; /* cl_ushort3 is identical in size, alignment and behavior to cl_ushort4. See section 6.1.5. */ typedef cl_ushort4 cl_ushort3; typedef union { cl_ushort CL_ALIGNED(16) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ushort x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_ushort s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_ushort4 lo, hi; }; #endif #if defined( __CL_USHORT2__) __cl_ushort2 v2[4]; #endif #if defined( __CL_USHORT4__) __cl_ushort4 v4[2]; #endif #if defined( __CL_USHORT8__ ) __cl_ushort8 v8; #endif }cl_ushort8; typedef union { cl_ushort CL_ALIGNED(32) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ushort x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_ushort s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_ushort8 lo, hi; }; #endif #if defined( __CL_USHORT2__) __cl_ushort2 v2[8]; #endif #if defined( __CL_USHORT4__) __cl_ushort4 v4[4]; #endif #if defined( __CL_USHORT8__ ) __cl_ushort8 v8[2]; #endif #if defined( __CL_USHORT16__ ) __cl_ushort16 v16; #endif }cl_ushort16; /* ---- cl_halfn ---- */ typedef union { cl_half CL_ALIGNED(4) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_half x, y; }; __CL_ANON_STRUCT__ struct{ cl_half s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_half lo, hi; }; #endif #if defined( __CL_HALF2__) __cl_half2 v2; #endif }cl_half2; typedef union { cl_half CL_ALIGNED(8) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_half x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_half s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_half2 lo, hi; }; #endif #if defined( __CL_HALF2__) __cl_half2 v2[2]; #endif #if defined( __CL_HALF4__) __cl_half4 v4; #endif }cl_half4; /* cl_half3 is identical in size, alignment and behavior to cl_half4. See section 6.1.5. */ typedef cl_half4 cl_half3; typedef union { cl_half CL_ALIGNED(16) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_half x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_half s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_half4 lo, hi; }; #endif #if defined( __CL_HALF2__) __cl_half2 v2[4]; #endif #if defined( __CL_HALF4__) __cl_half4 v4[2]; #endif #if defined( __CL_HALF8__ ) __cl_half8 v8; #endif }cl_half8; typedef union { cl_half CL_ALIGNED(32) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_half x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_half s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_half8 lo, hi; }; #endif #if defined( __CL_HALF2__) __cl_half2 v2[8]; #endif #if defined( __CL_HALF4__) __cl_half4 v4[4]; #endif #if defined( __CL_HALF8__ ) __cl_half8 v8[2]; #endif #if defined( __CL_HALF16__ ) __cl_half16 v16; #endif }cl_half16; /* ---- cl_intn ---- */ typedef union { cl_int CL_ALIGNED(8) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_int x, y; }; __CL_ANON_STRUCT__ struct{ cl_int s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_int lo, hi; }; #endif #if defined( __CL_INT2__) __cl_int2 v2; #endif }cl_int2; typedef union { cl_int CL_ALIGNED(16) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_int x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_int s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_int2 lo, hi; }; #endif #if defined( __CL_INT2__) __cl_int2 v2[2]; #endif #if defined( __CL_INT4__) __cl_int4 v4; #endif }cl_int4; /* cl_int3 is identical in size, alignment and behavior to cl_int4. See section 6.1.5. */ typedef cl_int4 cl_int3; typedef union { cl_int CL_ALIGNED(32) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_int x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_int s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_int4 lo, hi; }; #endif #if defined( __CL_INT2__) __cl_int2 v2[4]; #endif #if defined( __CL_INT4__) __cl_int4 v4[2]; #endif #if defined( __CL_INT8__ ) __cl_int8 v8; #endif }cl_int8; typedef union { cl_int CL_ALIGNED(64) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_int x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_int s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_int8 lo, hi; }; #endif #if defined( __CL_INT2__) __cl_int2 v2[8]; #endif #if defined( __CL_INT4__) __cl_int4 v4[4]; #endif #if defined( __CL_INT8__ ) __cl_int8 v8[2]; #endif #if defined( __CL_INT16__ ) __cl_int16 v16; #endif }cl_int16; /* ---- cl_uintn ---- */ typedef union { cl_uint CL_ALIGNED(8) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uint x, y; }; __CL_ANON_STRUCT__ struct{ cl_uint s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_uint lo, hi; }; #endif #if defined( __CL_UINT2__) __cl_uint2 v2; #endif }cl_uint2; typedef union { cl_uint CL_ALIGNED(16) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uint x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_uint s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_uint2 lo, hi; }; #endif #if defined( __CL_UINT2__) __cl_uint2 v2[2]; #endif #if defined( __CL_UINT4__) __cl_uint4 v4; #endif }cl_uint4; /* cl_uint3 is identical in size, alignment and behavior to cl_uint4. See section 6.1.5. */ typedef cl_uint4 cl_uint3; typedef union { cl_uint CL_ALIGNED(32) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uint x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_uint s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_uint4 lo, hi; }; #endif #if defined( __CL_UINT2__) __cl_uint2 v2[4]; #endif #if defined( __CL_UINT4__) __cl_uint4 v4[2]; #endif #if defined( __CL_UINT8__ ) __cl_uint8 v8; #endif }cl_uint8; typedef union { cl_uint CL_ALIGNED(64) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_uint x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_uint s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_uint8 lo, hi; }; #endif #if defined( __CL_UINT2__) __cl_uint2 v2[8]; #endif #if defined( __CL_UINT4__) __cl_uint4 v4[4]; #endif #if defined( __CL_UINT8__ ) __cl_uint8 v8[2]; #endif #if defined( __CL_UINT16__ ) __cl_uint16 v16; #endif }cl_uint16; /* ---- cl_longn ---- */ typedef union { cl_long CL_ALIGNED(16) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_long x, y; }; __CL_ANON_STRUCT__ struct{ cl_long s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_long lo, hi; }; #endif #if defined( __CL_LONG2__) __cl_long2 v2; #endif }cl_long2; typedef union { cl_long CL_ALIGNED(32) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_long x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_long s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_long2 lo, hi; }; #endif #if defined( __CL_LONG2__) __cl_long2 v2[2]; #endif #if defined( __CL_LONG4__) __cl_long4 v4; #endif }cl_long4; /* cl_long3 is identical in size, alignment and behavior to cl_long4. See section 6.1.5. */ typedef cl_long4 cl_long3; typedef union { cl_long CL_ALIGNED(64) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_long x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_long s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_long4 lo, hi; }; #endif #if defined( __CL_LONG2__) __cl_long2 v2[4]; #endif #if defined( __CL_LONG4__) __cl_long4 v4[2]; #endif #if defined( __CL_LONG8__ ) __cl_long8 v8; #endif }cl_long8; typedef union { cl_long CL_ALIGNED(128) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_long x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_long s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_long8 lo, hi; }; #endif #if defined( __CL_LONG2__) __cl_long2 v2[8]; #endif #if defined( __CL_LONG4__) __cl_long4 v4[4]; #endif #if defined( __CL_LONG8__ ) __cl_long8 v8[2]; #endif #if defined( __CL_LONG16__ ) __cl_long16 v16; #endif }cl_long16; /* ---- cl_ulongn ---- */ typedef union { cl_ulong CL_ALIGNED(16) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ulong x, y; }; __CL_ANON_STRUCT__ struct{ cl_ulong s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_ulong lo, hi; }; #endif #if defined( __CL_ULONG2__) __cl_ulong2 v2; #endif }cl_ulong2; typedef union { cl_ulong CL_ALIGNED(32) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ulong x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_ulong s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_ulong2 lo, hi; }; #endif #if defined( __CL_ULONG2__) __cl_ulong2 v2[2]; #endif #if defined( __CL_ULONG4__) __cl_ulong4 v4; #endif }cl_ulong4; /* cl_ulong3 is identical in size, alignment and behavior to cl_ulong4. See section 6.1.5. */ typedef cl_ulong4 cl_ulong3; typedef union { cl_ulong CL_ALIGNED(64) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ulong x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_ulong s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_ulong4 lo, hi; }; #endif #if defined( __CL_ULONG2__) __cl_ulong2 v2[4]; #endif #if defined( __CL_ULONG4__) __cl_ulong4 v4[2]; #endif #if defined( __CL_ULONG8__ ) __cl_ulong8 v8; #endif }cl_ulong8; typedef union { cl_ulong CL_ALIGNED(128) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_ulong x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_ulong s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_ulong8 lo, hi; }; #endif #if defined( __CL_ULONG2__) __cl_ulong2 v2[8]; #endif #if defined( __CL_ULONG4__) __cl_ulong4 v4[4]; #endif #if defined( __CL_ULONG8__ ) __cl_ulong8 v8[2]; #endif #if defined( __CL_ULONG16__ ) __cl_ulong16 v16; #endif }cl_ulong16; /* --- cl_floatn ---- */ typedef union { cl_float CL_ALIGNED(8) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_float x, y; }; __CL_ANON_STRUCT__ struct{ cl_float s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_float lo, hi; }; #endif #if defined( __CL_FLOAT2__) __cl_float2 v2; #endif }cl_float2; typedef union { cl_float CL_ALIGNED(16) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_float x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_float s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_float2 lo, hi; }; #endif #if defined( __CL_FLOAT2__) __cl_float2 v2[2]; #endif #if defined( __CL_FLOAT4__) __cl_float4 v4; #endif }cl_float4; /* cl_float3 is identical in size, alignment and behavior to cl_float4. See section 6.1.5. */ typedef cl_float4 cl_float3; typedef union { cl_float CL_ALIGNED(32) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_float x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_float s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_float4 lo, hi; }; #endif #if defined( __CL_FLOAT2__) __cl_float2 v2[4]; #endif #if defined( __CL_FLOAT4__) __cl_float4 v4[2]; #endif #if defined( __CL_FLOAT8__ ) __cl_float8 v8; #endif }cl_float8; typedef union { cl_float CL_ALIGNED(64) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_float x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_float s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_float8 lo, hi; }; #endif #if defined( __CL_FLOAT2__) __cl_float2 v2[8]; #endif #if defined( __CL_FLOAT4__) __cl_float4 v4[4]; #endif #if defined( __CL_FLOAT8__ ) __cl_float8 v8[2]; #endif #if defined( __CL_FLOAT16__ ) __cl_float16 v16; #endif }cl_float16; /* --- cl_doublen ---- */ typedef union { cl_double CL_ALIGNED(16) s[2]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_double x, y; }; __CL_ANON_STRUCT__ struct{ cl_double s0, s1; }; __CL_ANON_STRUCT__ struct{ cl_double lo, hi; }; #endif #if defined( __CL_DOUBLE2__) __cl_double2 v2; #endif }cl_double2; typedef union { cl_double CL_ALIGNED(32) s[4]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_double x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_double s0, s1, s2, s3; }; __CL_ANON_STRUCT__ struct{ cl_double2 lo, hi; }; #endif #if defined( __CL_DOUBLE2__) __cl_double2 v2[2]; #endif #if defined( __CL_DOUBLE4__) __cl_double4 v4; #endif }cl_double4; /* cl_double3 is identical in size, alignment and behavior to cl_double4. See section 6.1.5. */ typedef cl_double4 cl_double3; typedef union { cl_double CL_ALIGNED(64) s[8]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_double x, y, z, w; }; __CL_ANON_STRUCT__ struct{ cl_double s0, s1, s2, s3, s4, s5, s6, s7; }; __CL_ANON_STRUCT__ struct{ cl_double4 lo, hi; }; #endif #if defined( __CL_DOUBLE2__) __cl_double2 v2[4]; #endif #if defined( __CL_DOUBLE4__) __cl_double4 v4[2]; #endif #if defined( __CL_DOUBLE8__ ) __cl_double8 v8; #endif }cl_double8; typedef union { cl_double CL_ALIGNED(128) s[16]; #if __CL_HAS_ANON_STRUCT__ __CL_ANON_STRUCT__ struct{ cl_double x, y, z, w, __spacer4, __spacer5, __spacer6, __spacer7, __spacer8, __spacer9, sa, sb, sc, sd, se, sf; }; __CL_ANON_STRUCT__ struct{ cl_double s0, s1, s2, s3, s4, s5, s6, s7, s8, s9, sA, sB, sC, sD, sE, sF; }; __CL_ANON_STRUCT__ struct{ cl_double8 lo, hi; }; #endif #if defined( __CL_DOUBLE2__) __cl_double2 v2[8]; #endif #if defined( __CL_DOUBLE4__) __cl_double4 v4[4]; #endif #if defined( __CL_DOUBLE8__ ) __cl_double8 v8[2]; #endif #if defined( __CL_DOUBLE16__ ) __cl_double16 v16; #endif }cl_double16; /* Macro to facilitate debugging * Usage: * Place CL_PROGRAM_STRING_DEBUG_INFO on the line before the first line of your source. * The first line ends with: CL_PROGRAM_STRING_DEBUG_INFO \" * Each line thereafter of OpenCL C source must end with: \n\ * The last line ends in "; * * Example: * * const char *my_program = CL_PROGRAM_STRING_DEBUG_INFO "\ * kernel void foo( int a, float * b ) \n\ * { \n\ * // my comment \n\ * *b[ get_global_id(0)] = a; \n\ * } \n\ * "; * * This should correctly set up the line, (column) and file information for your source * string so you can do source level debugging. */ #define __CL_STRINGIFY( _x ) # _x #define _CL_STRINGIFY( _x ) __CL_STRINGIFY( _x ) #define CL_PROGRAM_STRING_DEBUG_INFO "#line " _CL_STRINGIFY(__LINE__) " \"" __FILE__ "\" \n\n" #ifdef __cplusplus } #endif #if defined( _WIN32) && defined(_MSC_VER) && ! defined(__STDC__) #if _MSC_VER >=1500 #pragma warning( pop ) #endif #endif #endif /* __CL_PLATFORM_H */