Index: cfe/trunk/include/clang/Basic/Cuda.h =================================================================== --- cfe/trunk/include/clang/Basic/Cuda.h +++ cfe/trunk/include/clang/Basic/Cuda.h @@ -22,7 +22,8 @@ CUDA_75, CUDA_80, CUDA_90, - LATEST = CUDA_90, + CUDA_91, + LATEST = CUDA_91, }; const char *CudaVersionToString(CudaVersion V); @@ -44,6 +45,7 @@ SM_61, SM_62, SM_70, + SM_72, }; const char *CudaArchToString(CudaArch A); @@ -64,6 +66,7 @@ COMPUTE_61, COMPUTE_62, COMPUTE_70, + COMPUTE_72, }; const char *CudaVirtualArchToString(CudaVirtualArch A); Index: cfe/trunk/lib/Basic/Cuda.cpp =================================================================== --- cfe/trunk/lib/Basic/Cuda.cpp +++ cfe/trunk/lib/Basic/Cuda.cpp @@ -18,6 +18,8 @@ return "8.0"; case CudaVersion::CUDA_90: return "9.0"; + case CudaVersion::CUDA_91: + return "9.1"; } llvm_unreachable("invalid enum"); } @@ -52,6 +54,8 @@ return "sm_62"; case CudaArch::SM_70: return "sm_70"; + case CudaArch::SM_72: + return "sm_72"; } llvm_unreachable("invalid enum"); } @@ -71,6 +75,7 @@ .Case("sm_61", CudaArch::SM_61) .Case("sm_62", CudaArch::SM_62) .Case("sm_70", CudaArch::SM_70) + .Case("sm_72", CudaArch::SM_72) .Default(CudaArch::UNKNOWN); } @@ -102,6 +107,8 @@ return "compute_62"; case CudaVirtualArch::COMPUTE_70: return "compute_70"; + case CudaVirtualArch::COMPUTE_72: + return "compute_72"; } llvm_unreachable("invalid enum"); } @@ -120,6 +127,7 @@ .Case("compute_61", CudaVirtualArch::COMPUTE_61) .Case("compute_62", CudaVirtualArch::COMPUTE_62) .Case("compute_70", CudaVirtualArch::COMPUTE_70) + .Case("compute_72", CudaVirtualArch::COMPUTE_72) .Default(CudaVirtualArch::UNKNOWN); } @@ -152,6 +160,8 @@ return CudaVirtualArch::COMPUTE_62; case CudaArch::SM_70: return CudaVirtualArch::COMPUTE_70; + case CudaArch::SM_72: + return CudaVirtualArch::COMPUTE_72; } llvm_unreachable("invalid enum"); } @@ -176,6 +186,8 @@ return CudaVersion::CUDA_80; case CudaArch::SM_70: return CudaVersion::CUDA_90; + case CudaArch::SM_72: + return CudaVersion::CUDA_91; } llvm_unreachable("invalid enum"); } Index: cfe/trunk/lib/Basic/Targets/NVPTX.cpp =================================================================== --- cfe/trunk/lib/Basic/Targets/NVPTX.cpp +++ cfe/trunk/lib/Basic/Targets/NVPTX.cpp @@ -186,6 +186,8 @@ return "620"; case CudaArch::SM_70: return "700"; + case CudaArch::SM_72: + return "720"; } llvm_unreachable("unhandled CudaArch"); }(); Index: cfe/trunk/lib/Driver/ToolChains/Cuda.cpp =================================================================== --- cfe/trunk/lib/Driver/ToolChains/Cuda.cpp +++ cfe/trunk/lib/Driver/ToolChains/Cuda.cpp @@ -52,6 +52,8 @@ return CudaVersion::CUDA_80; if (Major == 9 && Minor == 0) return CudaVersion::CUDA_90; + if (Major == 9 && Minor == 1) + return CudaVersion::CUDA_91; return CudaVersion::UNKNOWN; } @@ -119,14 +121,18 @@ Version = ParseCudaVersionFile((*VersionFile)->getBuffer()); } - if (Version == CudaVersion::CUDA_90) { - // CUDA-9 uses single libdevice file for all GPU variants. + if (Version >= CudaVersion::CUDA_90) { + // CUDA-9+ uses single libdevice file for all GPU variants. std::string FilePath = LibDevicePath + "/libdevice.10.bc"; if (FS.exists(FilePath)) { - for (const char *GpuArch : + for (const char *GpuArchName : {"sm_20", "sm_30", "sm_32", "sm_35", "sm_50", "sm_52", "sm_53", - "sm_60", "sm_61", "sm_62", "sm_70"}) - LibDeviceMap[GpuArch] = FilePath; + "sm_60", "sm_61", "sm_62", "sm_70", "sm_72"}) { + const CudaArch GpuArch = StringToCudaArch(GpuArchName); + if (Version >= MinVersionForCudaArch(GpuArch) && + Version <= MaxVersionForCudaArch(GpuArch)) + LibDeviceMap[GpuArchName] = FilePath; + } } } else { std::error_code EC; Index: cfe/trunk/lib/Headers/CMakeLists.txt =================================================================== --- cfe/trunk/lib/Headers/CMakeLists.txt +++ cfe/trunk/lib/Headers/CMakeLists.txt @@ -34,7 +34,9 @@ __clang_cuda_builtin_vars.h __clang_cuda_cmath.h __clang_cuda_complex_builtins.h + __clang_cuda_device_functions.h __clang_cuda_intrinsics.h + __clang_cuda_libdevice_declares.h __clang_cuda_math_forward_declares.h __clang_cuda_runtime_wrapper.h cetintrin.h Index: cfe/trunk/lib/Headers/__clang_cuda_device_functions.h =================================================================== --- cfe/trunk/lib/Headers/__clang_cuda_device_functions.h +++ cfe/trunk/lib/Headers/__clang_cuda_device_functions.h @@ -0,0 +1,1318 @@ +/*===---- __clang_cuda_device_functions.h - CUDA runtime support -----------=== + * + * 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, sublicense, 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 above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * 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 NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS 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. + * + *===-----------------------------------------------------------------------=== + */ + +#ifndef __CLANG_CUDA_DEVICE_FUNCTIONS_H__ +#define __CLANG_CUDA_DEVICE_FUNCTIONS_H__ + +#if CUDA_VERSION < 9000 +#error This file is intended to be used with CUDA-9+ only. +#endif + +// __DEVICE__ is a helper macro with common set of attributes for the wrappers +// we implement in this file. We need static in order to avoid emitting unused +// functions and __forceinline__ helps inlining these wrappers at -O1. +#pragma push_macro("__DEVICE__") +#define __DEVICE__ static __device__ __forceinline__ + +// libdevice provides fast low precision and slow full-recision implementations +// for some functions. Which one gets selected depends on +// __CLANG_CUDA_APPROX_TRANSCENDENTALS__ which gets defined by clang if +// -ffast-math or -fcuda-approx-transcendentals are in effect. +#pragma push_macro("__FAST_OR_SLOW") +#if defined(__CLANG_CUDA_APPROX_TRANSCENDENTALS__) +#define __FAST_OR_SLOW(fast, slow) fast +#else +#define __FAST_OR_SLOW(fast, slow) slow +#endif + +__DEVICE__ int __all(int __a) { return __nvvm_vote_all(__a); } +__DEVICE__ int __any(int __a) { return __nvvm_vote_any(__a); } +__DEVICE__ unsigned int __ballot(int __a) { return __nvvm_vote_ballot(__a); } +__DEVICE__ unsigned int __brev(unsigned int __a) { return __nv_brev(__a); } +__DEVICE__ unsigned long long __brevll(unsigned long long __a) { + return __nv_brevll(__a); +} +__DEVICE__ void __brkpt() { asm volatile("brkpt;"); } +__DEVICE__ void __brkpt(int __a) { __brkpt(); } +__DEVICE__ unsigned int __byte_perm(unsigned int __a, unsigned int __b, + unsigned int __c) { + return __nv_byte_perm(__a, __b, __c); +} +__DEVICE__ int __clz(int __a) { return __nv_clz(__a); } +__DEVICE__ int __clzll(long long __a) { return __nv_clzll(__a); } +__DEVICE__ float __cosf(float __a) { return __nv_fast_cosf(__a); } +__DEVICE__ double __dAtomicAdd(double *__p, double __v) { + return __nvvm_atom_add_gen_d(__p, __v); +} +__DEVICE__ double __dAtomicAdd_block(double *__p, double __v) { + return __nvvm_atom_cta_add_gen_d(__p, __v); +} +__DEVICE__ double __dAtomicAdd_system(double *__p, double __v) { + return __nvvm_atom_sys_add_gen_d(__p, __v); +} +__DEVICE__ double __dadd_rd(double __a, double __b) { + return __nv_dadd_rd(__a, __b); +} +__DEVICE__ double __dadd_rn(double __a, double __b) { + return __nv_dadd_rn(__a, __b); +} +__DEVICE__ double __dadd_ru(double __a, double __b) { + return __nv_dadd_ru(__a, __b); +} +__DEVICE__ double __dadd_rz(double __a, double __b) { + return __nv_dadd_rz(__a, __b); +} +__DEVICE__ double __ddiv_rd(double __a, double __b) { + return __nv_ddiv_rd(__a, __b); +} +__DEVICE__ double __ddiv_rn(double __a, double __b) { + return __nv_ddiv_rn(__a, __b); +} +__DEVICE__ double __ddiv_ru(double __a, double __b) { + return __nv_ddiv_ru(__a, __b); +} +__DEVICE__ double __ddiv_rz(double __a, double __b) { + return __nv_ddiv_rz(__a, __b); +} +__DEVICE__ double __dmul_rd(double __a, double __b) { + return __nv_dmul_rd(__a, __b); +} +__DEVICE__ double __dmul_rn(double __a, double __b) { + return __nv_dmul_rn(__a, __b); +} +__DEVICE__ double __dmul_ru(double __a, double __b) { + return __nv_dmul_ru(__a, __b); +} +__DEVICE__ double __dmul_rz(double __a, double __b) { + return __nv_dmul_rz(__a, __b); +} +__DEVICE__ float __double2float_rd(double __a) { + return __nv_double2float_rd(__a); +} +__DEVICE__ float __double2float_rn(double __a) { + return __nv_double2float_rn(__a); +} +__DEVICE__ float __double2float_ru(double __a) { + return __nv_double2float_ru(__a); +} +__DEVICE__ float __double2float_rz(double __a) { + return __nv_double2float_rz(__a); +} +__DEVICE__ int __double2hiint(double __a) { return __nv_double2hiint(__a); } +__DEVICE__ int __double2int_rd(double __a) { return __nv_double2int_rd(__a); } +__DEVICE__ int __double2int_rn(double __a) { return __nv_double2int_rn(__a); } +__DEVICE__ int __double2int_ru(double __a) { return __nv_double2int_ru(__a); } +__DEVICE__ int __double2int_rz(double __a) { return __nv_double2int_rz(__a); } +__DEVICE__ long long __double2ll_rd(double __a) { + return __nv_double2ll_rd(__a); +} +__DEVICE__ long long __double2ll_rn(double __a) { + return __nv_double2ll_rn(__a); +} +__DEVICE__ long long __double2ll_ru(double __a) { + return __nv_double2ll_ru(__a); +} +__DEVICE__ long long __double2ll_rz(double __a) { + return __nv_double2ll_rz(__a); +} +__DEVICE__ int __double2loint(double __a) { return __nv_double2loint(__a); } +__DEVICE__ unsigned int __double2uint_rd(double __a) { + return __nv_double2uint_rd(__a); +} +__DEVICE__ unsigned int __double2uint_rn(double __a) { + return __nv_double2uint_rn(__a); +} +__DEVICE__ unsigned int __double2uint_ru(double __a) { + return __nv_double2uint_ru(__a); +} +__DEVICE__ unsigned int __double2uint_rz(double __a) { + return __nv_double2uint_rz(__a); +} +__DEVICE__ unsigned long long __double2ull_rd(double __a) { + return __nv_double2ull_rd(__a); +} +__DEVICE__ unsigned long long __double2ull_rn(double __a) { + return __nv_double2ull_rn(__a); +} +__DEVICE__ unsigned long long __double2ull_ru(double __a) { + return __nv_double2ull_ru(__a); +} +__DEVICE__ unsigned long long __double2ull_rz(double __a) { + return __nv_double2ull_rz(__a); +} +__DEVICE__ long long __double_as_longlong(double __a) { + return __nv_double_as_longlong(__a); +} +__DEVICE__ double __drcp_rd(double __a) { return __nv_drcp_rd(__a); } +__DEVICE__ double __drcp_rn(double __a) { return __nv_drcp_rn(__a); } +__DEVICE__ double __drcp_ru(double __a) { return __nv_drcp_ru(__a); } +__DEVICE__ double __drcp_rz(double __a) { return __nv_drcp_rz(__a); } +__DEVICE__ double __dsqrt_rd(double __a) { return __nv_dsqrt_rd(__a); } +__DEVICE__ double __dsqrt_rn(double __a) { return __nv_dsqrt_rn(__a); } +__DEVICE__ double __dsqrt_ru(double __a) { return __nv_dsqrt_ru(__a); } +__DEVICE__ double __dsqrt_rz(double __a) { return __nv_dsqrt_rz(__a); } +__DEVICE__ double __dsub_rd(double __a, double __b) { + return __nv_dsub_rd(__a, __b); +} +__DEVICE__ double __dsub_rn(double __a, double __b) { + return __nv_dsub_rn(__a, __b); +} +__DEVICE__ double __dsub_ru(double __a, double __b) { + return __nv_dsub_ru(__a, __b); +} +__DEVICE__ double __dsub_rz(double __a, double __b) { + return __nv_dsub_rz(__a, __b); +} +__DEVICE__ float __exp10f(float __a) { return __nv_fast_exp10f(__a); } +__DEVICE__ float __expf(float __a) { return __nv_fast_expf(__a); } +__DEVICE__ float __fAtomicAdd(float *__p, float __v) { + return __nvvm_atom_add_gen_f(__p, __v); +} +__DEVICE__ float __fAtomicAdd_block(float *__p, float __v) { + return __nvvm_atom_cta_add_gen_f(__p, __v); +} +__DEVICE__ float __fAtomicAdd_system(float *__p, float __v) { + return __nvvm_atom_sys_add_gen_f(__p, __v); +} +__DEVICE__ float __fAtomicExch(float *__p, float __v) { + return __nv_int_as_float( + __nvvm_atom_xchg_gen_i((int *)__p, __nv_float_as_int(__v))); +} +__DEVICE__ float __fAtomicExch_block(float *__p, float __v) { + return __nv_int_as_float( + __nvvm_atom_cta_xchg_gen_i((int *)__p, __nv_float_as_int(__v))); +} +__DEVICE__ float __fAtomicExch_system(float *__p, float __v) { + return __nv_int_as_float( + __nvvm_atom_sys_xchg_gen_i((int *)__p, __nv_float_as_int(__v))); +} +__DEVICE__ float __fadd_rd(float __a, float __b) { + return __nv_fadd_rd(__a, __b); +} +__DEVICE__ float __fadd_rn(float __a, float __b) { + return __nv_fadd_rn(__a, __b); +} +__DEVICE__ float __fadd_ru(float __a, float __b) { + return __nv_fadd_ru(__a, __b); +} +__DEVICE__ float __fadd_rz(float __a, float __b) { + return __nv_fadd_rz(__a, __b); +} +__DEVICE__ float __fdiv_rd(float __a, float __b) { + return __nv_fdiv_rd(__a, __b); +} +__DEVICE__ float __fdiv_rn(float __a, float __b) { + return __nv_fdiv_rn(__a, __b); +} +__DEVICE__ float __fdiv_ru(float __a, float __b) { + return __nv_fdiv_ru(__a, __b); +} +__DEVICE__ float __fdiv_rz(float __a, float __b) { + return __nv_fdiv_rz(__a, __b); +} +__DEVICE__ float __fdividef(float __a, float __b) { + return __nv_fast_fdividef(__a, __b); +} +__DEVICE__ int __ffs(int __a) { return __nv_ffs(__a); } +__DEVICE__ int __ffsll(long long __a) { return __nv_ffsll(__a); } +__DEVICE__ int __finite(double __a) { return __nv_isfinited(__a); } +__DEVICE__ int __finitef(float __a) { return __nv_finitef(__a); } +__DEVICE__ int __float2int_rd(float __a) { return __nv_float2int_rd(__a); } +__DEVICE__ int __float2int_rn(float __a) { return __nv_float2int_rn(__a); } +__DEVICE__ int __float2int_ru(float __a) { return __nv_float2int_ru(__a); } +__DEVICE__ int __float2int_rz(float __a) { return __nv_float2int_rz(__a); } +__DEVICE__ long long __float2ll_rd(float __a) { return __nv_float2ll_rd(__a); } +__DEVICE__ long long __float2ll_rn(float __a) { return __nv_float2ll_rn(__a); } +__DEVICE__ long long __float2ll_ru(float __a) { return __nv_float2ll_ru(__a); } +__DEVICE__ long long __float2ll_rz(float __a) { return __nv_float2ll_rz(__a); } +__DEVICE__ unsigned int __float2uint_rd(float __a) { + return __nv_float2uint_rd(__a); +} +__DEVICE__ unsigned int __float2uint_rn(float __a) { + return __nv_float2uint_rn(__a); +} +__DEVICE__ unsigned int __float2uint_ru(float __a) { + return __nv_float2uint_ru(__a); +} +__DEVICE__ unsigned int __float2uint_rz(float __a) { + return __nv_float2uint_rz(__a); +} +__DEVICE__ unsigned long long __float2ull_rd(float __a) { + return __nv_float2ull_rd(__a); +} +__DEVICE__ unsigned long long __float2ull_rn(float __a) { + return __nv_float2ull_rn(__a); +} +__DEVICE__ unsigned long long __float2ull_ru(float __a) { + return __nv_float2ull_ru(__a); +} +__DEVICE__ unsigned long long __float2ull_rz(float __a) { + return __nv_float2ull_rz(__a); +} +__DEVICE__ int __float_as_int(float __a) { return __nv_float_as_int(__a); } +__DEVICE__ unsigned int __float_as_uint(float __a) { + return __nv_float_as_uint(__a); +} +__DEVICE__ double __fma_rd(double __a, double __b, double __c) { + return __nv_fma_rd(__a, __b, __c); +} +__DEVICE__ double __fma_rn(double __a, double __b, double __c) { + return __nv_fma_rn(__a, __b, __c); +} +__DEVICE__ double __fma_ru(double __a, double __b, double __c) { + return __nv_fma_ru(__a, __b, __c); +} +__DEVICE__ double __fma_rz(double __a, double __b, double __c) { + return __nv_fma_rz(__a, __b, __c); +} +__DEVICE__ float __fmaf_ieee_rd(float __a, float __b, float __c) { + return __nv_fmaf_ieee_rd(__a, __b, __c); +} +__DEVICE__ float __fmaf_ieee_rn(float __a, float __b, float __c) { + return __nv_fmaf_ieee_rn(__a, __b, __c); +} +__DEVICE__ float __fmaf_ieee_ru(float __a, float __b, float __c) { + return __nv_fmaf_ieee_ru(__a, __b, __c); +} +__DEVICE__ float __fmaf_ieee_rz(float __a, float __b, float __c) { + return __nv_fmaf_ieee_rz(__a, __b, __c); +} +__DEVICE__ float __fmaf_rd(float __a, float __b, float __c) { + return __nv_fmaf_rd(__a, __b, __c); +} +__DEVICE__ float __fmaf_rn(float __a, float __b, float __c) { + return __nv_fmaf_rn(__a, __b, __c); +} +__DEVICE__ float __fmaf_ru(float __a, float __b, float __c) { + return __nv_fmaf_ru(__a, __b, __c); +} +__DEVICE__ float __fmaf_rz(float __a, float __b, float __c) { + return __nv_fmaf_rz(__a, __b, __c); +} +__DEVICE__ float __fmul_rd(float __a, float __b) { + return __nv_fmul_rd(__a, __b); +} +__DEVICE__ float __fmul_rn(float __a, float __b) { + return __nv_fmul_rn(__a, __b); +} +__DEVICE__ float __fmul_ru(float __a, float __b) { + return __nv_fmul_ru(__a, __b); +} +__DEVICE__ float __fmul_rz(float __a, float __b) { + return __nv_fmul_rz(__a, __b); +} +__DEVICE__ float __frcp_rd(float __a) { return __nv_frcp_rd(__a); } +__DEVICE__ float __frcp_rn(float __a) { return __nv_frcp_rn(__a); } +__DEVICE__ float __frcp_ru(float __a) { return __nv_frcp_ru(__a); } +__DEVICE__ float __frcp_rz(float __a) { return __nv_frcp_rz(__a); } +__DEVICE__ float __frsqrt_rn(float __a) { return __nv_frsqrt_rn(__a); } +__DEVICE__ float __fsqrt_rd(float __a) { return __nv_fsqrt_rd(__a); } +__DEVICE__ float __fsqrt_rn(float __a) { return __nv_fsqrt_rn(__a); } +__DEVICE__ float __fsqrt_ru(float __a) { return __nv_fsqrt_ru(__a); } +__DEVICE__ float __fsqrt_rz(float __a) { return __nv_fsqrt_rz(__a); } +__DEVICE__ float __fsub_rd(float __a, float __b) { + return __nv_fsub_rd(__a, __b); +} +__DEVICE__ float __fsub_rn(float __a, float __b) { + return __nv_fsub_rn(__a, __b); +} +__DEVICE__ float __fsub_ru(float __a, float __b) { + return __nv_fsub_ru(__a, __b); +} +__DEVICE__ float __fsub_rz(float __a, float __b) { + return __nv_fsub_rz(__a, __b); +} +__DEVICE__ int __hadd(int __a, int __b) { return __nv_hadd(__a, __b); } +__DEVICE__ double __hiloint2double(int __a, int __b) { + return __nv_hiloint2double(__a, __b); +} +__DEVICE__ int __iAtomicAdd(int *__p, int __v) { + return __nvvm_atom_add_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicAdd_block(int *__p, int __v) { + __nvvm_atom_cta_add_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicAdd_system(int *__p, int __v) { + __nvvm_atom_sys_add_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicAnd(int *__p, int __v) { + return __nvvm_atom_and_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicAnd_block(int *__p, int __v) { + return __nvvm_atom_cta_and_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicAnd_system(int *__p, int __v) { + return __nvvm_atom_sys_and_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicCAS(int *__p, int __cmp, int __v) { + return __nvvm_atom_cas_gen_i(__p, __cmp, __v); +} +__DEVICE__ int __iAtomicCAS_block(int *__p, int __cmp, int __v) { + return __nvvm_atom_cta_cas_gen_i(__p, __cmp, __v); +} +__DEVICE__ int __iAtomicCAS_system(int *__p, int __cmp, int __v) { + return __nvvm_atom_sys_cas_gen_i(__p, __cmp, __v); +} +__DEVICE__ int __iAtomicExch(int *__p, int __v) { + return __nvvm_atom_xchg_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicExch_block(int *__p, int __v) { + return __nvvm_atom_cta_xchg_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicExch_system(int *__p, int __v) { + return __nvvm_atom_sys_xchg_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicMax(int *__p, int __v) { + return __nvvm_atom_max_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicMax_block(int *__p, int __v) { + return __nvvm_atom_cta_max_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicMax_system(int *__p, int __v) { + return __nvvm_atom_sys_max_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicMin(int *__p, int __v) { + return __nvvm_atom_min_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicMin_block(int *__p, int __v) { + return __nvvm_atom_cta_min_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicMin_system(int *__p, int __v) { + return __nvvm_atom_sys_min_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicOr(int *__p, int __v) { + return __nvvm_atom_or_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicOr_block(int *__p, int __v) { + return __nvvm_atom_cta_or_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicOr_system(int *__p, int __v) { + return __nvvm_atom_sys_or_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicXor(int *__p, int __v) { + return __nvvm_atom_xor_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicXor_block(int *__p, int __v) { + return __nvvm_atom_cta_xor_gen_i(__p, __v); +} +__DEVICE__ int __iAtomicXor_system(int *__p, int __v) { + return __nvvm_atom_sys_xor_gen_i(__p, __v); +} +__DEVICE__ long long __illAtomicMax(long long *__p, long long __v) { + return __nvvm_atom_max_gen_ll(__p, __v); +} +__DEVICE__ long long __illAtomicMax_block(long long *__p, long long __v) { + return __nvvm_atom_cta_max_gen_ll(__p, __v); +} +__DEVICE__ long long __illAtomicMax_system(long long *__p, long long __v) { + return __nvvm_atom_sys_max_gen_ll(__p, __v); +} +__DEVICE__ long long __illAtomicMin(long long *__p, long long __v) { + return __nvvm_atom_min_gen_ll(__p, __v); +} +__DEVICE__ long long __illAtomicMin_block(long long *__p, long long __v) { + return __nvvm_atom_cta_min_gen_ll(__p, __v); +} +__DEVICE__ long long __illAtomicMin_system(long long *__p, long long __v) { + return __nvvm_atom_sys_min_gen_ll(__p, __v); +} +__DEVICE__ double __int2double_rn(int __a) { return __nv_int2double_rn(__a); } +__DEVICE__ float __int2float_rd(int __a) { return __nv_int2float_rd(__a); } +__DEVICE__ float __int2float_rn(int __a) { return __nv_int2float_rn(__a); } +__DEVICE__ float __int2float_ru(int __a) { return __nv_int2float_ru(__a); } +__DEVICE__ float __int2float_rz(int __a) { return __nv_int2float_rz(__a); } +__DEVICE__ float __int_as_float(int __a) { return __nv_int_as_float(__a); } +__DEVICE__ int __isfinited(double __a) { return __nv_isfinited(__a); } +__DEVICE__ int __isinf(double __a) { return __nv_isinfd(__a); } +__DEVICE__ int __isinff(float __a) { return __nv_isinff(__a); } +__DEVICE__ int __isnan(double __a) { return __nv_isnand(__a); } +__DEVICE__ int __isnanf(float __a) { return __nv_isnanf(__a); } +__DEVICE__ double __ll2double_rd(long long __a) { + return __nv_ll2double_rd(__a); +} +__DEVICE__ double __ll2double_rn(long long __a) { + return __nv_ll2double_rn(__a); +} +__DEVICE__ double __ll2double_ru(long long __a) { + return __nv_ll2double_ru(__a); +} +__DEVICE__ double __ll2double_rz(long long __a) { + return __nv_ll2double_rz(__a); +} +__DEVICE__ float __ll2float_rd(long long __a) { return __nv_ll2float_rd(__a); } +__DEVICE__ float __ll2float_rn(long long __a) { return __nv_ll2float_rn(__a); } +__DEVICE__ float __ll2float_ru(long long __a) { return __nv_ll2float_ru(__a); } +__DEVICE__ float __ll2float_rz(long long __a) { return __nv_ll2float_rz(__a); } +__DEVICE__ long long __llAtomicAnd(long long *__p, long long __v) { + return __nvvm_atom_and_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicAnd_block(long long *__p, long long __v) { + return __nvvm_atom_cta_and_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicAnd_system(long long *__p, long long __v) { + return __nvvm_atom_sys_and_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicOr(long long *__p, long long __v) { + return __nvvm_atom_or_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicOr_block(long long *__p, long long __v) { + return __nvvm_atom_cta_or_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicOr_system(long long *__p, long long __v) { + return __nvvm_atom_sys_or_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicXor(long long *__p, long long __v) { + return __nvvm_atom_xor_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicXor_block(long long *__p, long long __v) { + return __nvvm_atom_cta_xor_gen_ll(__p, __v); +} +__DEVICE__ long long __llAtomicXor_system(long long *__p, long long __v) { + return __nvvm_atom_sys_xor_gen_ll(__p, __v); +} +__DEVICE__ float __log10f(float __a) { return __nv_fast_log10f(__a); } +__DEVICE__ float __log2f(float __a) { return __nv_fast_log2f(__a); } +__DEVICE__ float __logf(float __a) { return __nv_fast_logf(__a); } +__DEVICE__ double __longlong_as_double(long long __a) { + return __nv_longlong_as_double(__a); +} +__DEVICE__ int __mul24(int __a, int __b) { return __nv_mul24(__a, __b); } +__DEVICE__ long long __mul64hi(long long __a, long long __b) { + return __nv_mul64hi(__a, __b); +} +__DEVICE__ int __mulhi(int __a, int __b) { return __nv_mulhi(__a, __b); } +__DEVICE__ unsigned int __pm0(void) { return __nvvm_read_ptx_sreg_pm0(); } +__DEVICE__ unsigned int __pm1(void) { return __nvvm_read_ptx_sreg_pm1(); } +__DEVICE__ unsigned int __pm2(void) { return __nvvm_read_ptx_sreg_pm2(); } +__DEVICE__ unsigned int __pm3(void) { return __nvvm_read_ptx_sreg_pm3(); } +__DEVICE__ int __popc(int __a) { return __nv_popc(__a); } +__DEVICE__ int __popcll(long long __a) { return __nv_popcll(__a); } +__DEVICE__ float __powf(float __a, float __b) { + return __nv_fast_powf(__a, __b); +} + +// Parameter must have a known integer value. +#define __prof_trigger(__a) asm __volatile__("pmevent \t%0;" ::"i"(__a)) +__DEVICE__ int __rhadd(int __a, int __b) { return __nv_rhadd(__a, __b); } +__DEVICE__ unsigned int __sad(int __a, int __b, unsigned int __c) { + return __nv_sad(__a, __b, __c); +} +__DEVICE__ float __saturatef(float __a) { return __nv_saturatef(__a); } +__DEVICE__ int __signbitd(double __a) { return __nv_signbitd(__a); } +__DEVICE__ int __signbitf(float __a) { return __nv_signbitf(__a); } +__DEVICE__ void __sincosf(float __a, float *__sptr, float *__cptr) { + return __nv_fast_sincosf(__a, __sptr, __cptr); +} +__DEVICE__ float __sinf(float __a) { return __nv_fast_sinf(__a); } +__DEVICE__ int __syncthreads_and(int __a) { return __nvvm_bar0_and(__a); } +__DEVICE__ int __syncthreads_count(int __a) { return __nvvm_bar0_popc(__a); } +__DEVICE__ int __syncthreads_or(int __a) { return __nvvm_bar0_or(__a); } +__DEVICE__ float __tanf(float __a) { return __nv_fast_tanf(__a); } +__DEVICE__ void __threadfence(void) { __nvvm_membar_gl(); } +__DEVICE__ void __threadfence_block(void) { __nvvm_membar_cta(); }; +__DEVICE__ void __trap(void) { asm volatile("trap;"); } +__DEVICE__ unsigned int __uAtomicAdd(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_add_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicAdd_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_add_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicAdd_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_add_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicAnd(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_and_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicAnd_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_and_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicAnd_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_and_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicCAS(unsigned int *__p, unsigned int __cmp, + unsigned int __v) { + return __nvvm_atom_cas_gen_i((int *)__p, __cmp, __v); +} +__DEVICE__ unsigned int +__uAtomicCAS_block(unsigned int *__p, unsigned int __cmp, unsigned int __v) { + return __nvvm_atom_cta_cas_gen_i((int *)__p, __cmp, __v); +} +__DEVICE__ unsigned int +__uAtomicCAS_system(unsigned int *__p, unsigned int __cmp, unsigned int __v) { + return __nvvm_atom_sys_cas_gen_i((int *)__p, __cmp, __v); +} +__DEVICE__ unsigned int __uAtomicDec(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_dec_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicDec_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_dec_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicDec_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_dec_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicExch(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_xchg_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicExch_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_xchg_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicExch_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_xchg_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicInc(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_inc_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicInc_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_inc_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicInc_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_inc_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicMax(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_max_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicMax_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_max_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicMax_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_max_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicMin(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_min_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicMin_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_min_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicMin_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_min_gen_ui(__p, __v); +} +__DEVICE__ unsigned int __uAtomicOr(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_or_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicOr_block(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_cta_or_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicOr_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_or_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicXor(unsigned int *__p, unsigned int __v) { + return __nvvm_atom_xor_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicXor_block(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_cta_xor_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uAtomicXor_system(unsigned int *__p, + unsigned int __v) { + return __nvvm_atom_sys_xor_gen_i((int *)__p, __v); +} +__DEVICE__ unsigned int __uhadd(unsigned int __a, unsigned int __b) { + return __nv_uhadd(__a, __b); +} +__DEVICE__ double __uint2double_rn(unsigned int __a) { + return __nv_uint2double_rn(__a); +} +__DEVICE__ float __uint2float_rd(unsigned int __a) { + return __nv_uint2float_rd(__a); +} +__DEVICE__ float __uint2float_rn(unsigned int __a) { + return __nv_uint2float_rn(__a); +} +__DEVICE__ float __uint2float_ru(unsigned int __a) { + return __nv_uint2float_ru(__a); +} +__DEVICE__ float __uint2float_rz(unsigned int __a) { + return __nv_uint2float_rz(__a); +} +__DEVICE__ float __uint_as_float(unsigned int __a) { + return __nv_uint_as_float(__a); +} // +__DEVICE__ double __ull2double_rd(unsigned long long __a) { + return __nv_ull2double_rd(__a); +} +__DEVICE__ double __ull2double_rn(unsigned long long __a) { + return __nv_ull2double_rn(__a); +} +__DEVICE__ double __ull2double_ru(unsigned long long __a) { + return __nv_ull2double_ru(__a); +} +__DEVICE__ double __ull2double_rz(unsigned long long __a) { + return __nv_ull2double_rz(__a); +} +__DEVICE__ float __ull2float_rd(unsigned long long __a) { + return __nv_ull2float_rd(__a); +} +__DEVICE__ float __ull2float_rn(unsigned long long __a) { + return __nv_ull2float_rn(__a); +} +__DEVICE__ float __ull2float_ru(unsigned long long __a) { + return __nv_ull2float_ru(__a); +} +__DEVICE__ float __ull2float_rz(unsigned long long __a) { + return __nv_ull2float_rz(__a); +} +__DEVICE__ unsigned long long __ullAtomicAdd_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_add_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicAdd_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_add_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicAnd(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_and_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicAnd_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_and_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicAnd_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_and_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicCAS_block(unsigned long long *__p, + unsigned long long __cmp, + unsigned long long __v) { + return __nvvm_atom_cta_cas_gen_ll((long long *)__p, __cmp, __v); +} +__DEVICE__ unsigned long long __ullAtomicCAS_system(unsigned long long *__p, + unsigned long long __cmp, + unsigned long long __v) { + return __nvvm_atom_sys_cas_gen_ll((long long *)__p, __cmp, __v); +} +__DEVICE__ unsigned long long __ullAtomicExch_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_xchg_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicExch_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_xchg_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicMax(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_max_gen_ull(__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicMax_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_max_gen_ull(__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicMax_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_max_gen_ull(__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicMin(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_min_gen_ull(__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicMin_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_min_gen_ull(__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicMin_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_min_gen_ull(__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicOr(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_or_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicOr_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_or_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicOr_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_or_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicXor(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_xor_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicXor_block(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_cta_xor_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned long long __ullAtomicXor_system(unsigned long long *__p, + unsigned long long __v) { + return __nvvm_atom_sys_xor_gen_ll((long long *)__p, __v); +} +__DEVICE__ unsigned int __umul24(unsigned int __a, unsigned int __b) { + return __nv_umul24(__a, __b); +} +__DEVICE__ unsigned long long __umul64hi(unsigned long long __a, + unsigned long long __b) { + return __nv_umul64hi(__a, __b); +} +__DEVICE__ unsigned int __umulhi(unsigned int __a, unsigned int __b) { + return __nv_umulhi(__a, __b); +} +__DEVICE__ unsigned int __urhadd(unsigned int __a, unsigned int __b) { + return __nv_urhadd(__a, __b); +} +__DEVICE__ unsigned int __usad(unsigned int __a, unsigned int __b, + unsigned int __c) { + return __nv_usad(__a, __b, __c); +} +__DEVICE__ unsigned int __vabs2(unsigned int __a) { return __nv_vabs2(__a); } +__DEVICE__ unsigned int __vabs4(unsigned int __a) { return __nv_vabs4(__a); } +__DEVICE__ unsigned int __vabsdiffs2(unsigned int __a, unsigned int __b) { + return __nv_vabsdiffs2(__a, __b); +} +__DEVICE__ unsigned int __vabsdiffs4(unsigned int __a, unsigned int __b) { + return __nv_vabsdiffs4(__a, __b); +} +__DEVICE__ unsigned int __vabsdiffu2(unsigned int __a, unsigned int __b) { + return __nv_vabsdiffu2(__a, __b); +} +__DEVICE__ unsigned int __vabsdiffu4(unsigned int __a, unsigned int __b) { + return __nv_vabsdiffu4(__a, __b); +} +__DEVICE__ unsigned int __vabsss2(unsigned int __a) { + return __nv_vabsss2(__a); +} +__DEVICE__ unsigned int __vabsss4(unsigned int __a) { + return __nv_vabsss4(__a); +} +__DEVICE__ unsigned int __vadd2(unsigned int __a, unsigned int __b) { + return __nv_vadd2(__a, __b); +} +__DEVICE__ unsigned int __vadd4(unsigned int __a, unsigned int __b) { + return __nv_vadd4(__a, __b); +} +__DEVICE__ unsigned int __vaddss2(unsigned int __a, unsigned int __b) { + return __nv_vaddss2(__a, __b); +} +__DEVICE__ unsigned int __vaddss4(unsigned int __a, unsigned int __b) { + return __nv_vaddss4(__a, __b); +} +__DEVICE__ unsigned int __vaddus2(unsigned int __a, unsigned int __b) { + return __nv_vaddus2(__a, __b); +} +__DEVICE__ unsigned int __vaddus4(unsigned int __a, unsigned int __b) { + return __nv_vaddus4(__a, __b); +} +__DEVICE__ unsigned int __vavgs2(unsigned int __a, unsigned int __b) { + return __nv_vavgs2(__a, __b); +} +__DEVICE__ unsigned int __vavgs4(unsigned int __a, unsigned int __b) { + return __nv_vavgs4(__a, __b); +} +__DEVICE__ unsigned int __vavgu2(unsigned int __a, unsigned int __b) { + return __nv_vavgu2(__a, __b); +} +__DEVICE__ unsigned int __vavgu4(unsigned int __a, unsigned int __b) { + return __nv_vavgu4(__a, __b); +} +__DEVICE__ unsigned int __vcmpeq2(unsigned int __a, unsigned int __b) { + return __nv_vcmpeq2(__a, __b); +} +__DEVICE__ unsigned int __vcmpeq4(unsigned int __a, unsigned int __b) { + return __nv_vcmpeq4(__a, __b); +} +__DEVICE__ unsigned int __vcmpges2(unsigned int __a, unsigned int __b) { + return __nv_vcmpges2(__a, __b); +} +__DEVICE__ unsigned int __vcmpges4(unsigned int __a, unsigned int __b) { + return __nv_vcmpges4(__a, __b); +} +__DEVICE__ unsigned int __vcmpgeu2(unsigned int __a, unsigned int __b) { + return __nv_vcmpgeu2(__a, __b); +} +__DEVICE__ unsigned int __vcmpgeu4(unsigned int __a, unsigned int __b) { + return __nv_vcmpgeu4(__a, __b); +} +__DEVICE__ unsigned int __vcmpgts2(unsigned int __a, unsigned int __b) { + return __nv_vcmpgts2(__a, __b); +} +__DEVICE__ unsigned int __vcmpgts4(unsigned int __a, unsigned int __b) { + return __nv_vcmpgts4(__a, __b); +} +__DEVICE__ unsigned int __vcmpgtu2(unsigned int __a, unsigned int __b) { + return __nv_vcmpgtu2(__a, __b); +} +__DEVICE__ unsigned int __vcmpgtu4(unsigned int __a, unsigned int __b) { + return __nv_vcmpgtu4(__a, __b); +} +__DEVICE__ unsigned int __vcmples2(unsigned int __a, unsigned int __b) { + return __nv_vcmples2(__a, __b); +} +__DEVICE__ unsigned int __vcmples4(unsigned int __a, unsigned int __b) { + return __nv_vcmples4(__a, __b); +} +__DEVICE__ unsigned int __vcmpleu2(unsigned int __a, unsigned int __b) { + return __nv_vcmpleu2(__a, __b); +} +__DEVICE__ unsigned int __vcmpleu4(unsigned int __a, unsigned int __b) { + return __nv_vcmpleu4(__a, __b); +} +__DEVICE__ unsigned int __vcmplts2(unsigned int __a, unsigned int __b) { + return __nv_vcmplts2(__a, __b); +} +__DEVICE__ unsigned int __vcmplts4(unsigned int __a, unsigned int __b) { + return __nv_vcmplts4(__a, __b); +} +__DEVICE__ unsigned int __vcmpltu2(unsigned int __a, unsigned int __b) { + return __nv_vcmpltu2(__a, __b); +} +__DEVICE__ unsigned int __vcmpltu4(unsigned int __a, unsigned int __b) { + return __nv_vcmpltu4(__a, __b); +} +__DEVICE__ unsigned int __vcmpne2(unsigned int __a, unsigned int __b) { + return __nv_vcmpne2(__a, __b); +} +__DEVICE__ unsigned int __vcmpne4(unsigned int __a, unsigned int __b) { + return __nv_vcmpne4(__a, __b); +} +__DEVICE__ unsigned int __vhaddu2(unsigned int __a, unsigned int __b) { + return __nv_vhaddu2(__a, __b); +} +__DEVICE__ unsigned int __vhaddu4(unsigned int __a, unsigned int __b) { + return __nv_vhaddu4(__a, __b); +} +__DEVICE__ unsigned int __vmaxs2(unsigned int __a, unsigned int __b) { + return __nv_vmaxs2(__a, __b); +} +__DEVICE__ unsigned int __vmaxs4(unsigned int __a, unsigned int __b) { + return __nv_vmaxs4(__a, __b); +} +__DEVICE__ unsigned int __vmaxu2(unsigned int __a, unsigned int __b) { + return __nv_vmaxu2(__a, __b); +} +__DEVICE__ unsigned int __vmaxu4(unsigned int __a, unsigned int __b) { + return __nv_vmaxu4(__a, __b); +} +__DEVICE__ unsigned int __vmins2(unsigned int __a, unsigned int __b) { + return __nv_vmins2(__a, __b); +} +__DEVICE__ unsigned int __vmins4(unsigned int __a, unsigned int __b) { + return __nv_vmins4(__a, __b); +} +__DEVICE__ unsigned int __vminu2(unsigned int __a, unsigned int __b) { + return __nv_vminu2(__a, __b); +} +__DEVICE__ unsigned int __vminu4(unsigned int __a, unsigned int __b) { + return __nv_vminu4(__a, __b); +} +__DEVICE__ unsigned int __vneg2(unsigned int __a) { return __nv_vneg2(__a); } +__DEVICE__ unsigned int __vneg4(unsigned int __a) { return __nv_vneg4(__a); } +__DEVICE__ unsigned int __vnegss2(unsigned int __a) { + return __nv_vnegss2(__a); +} +__DEVICE__ unsigned int __vnegss4(unsigned int __a) { + return __nv_vnegss4(__a); +} +__DEVICE__ unsigned int __vsads2(unsigned int __a, unsigned int __b) { + return __nv_vsads2(__a, __b); +} +__DEVICE__ unsigned int __vsads4(unsigned int __a, unsigned int __b) { + return __nv_vsads4(__a, __b); +} +__DEVICE__ unsigned int __vsadu2(unsigned int __a, unsigned int __b) { + return __nv_vsadu2(__a, __b); +} +__DEVICE__ unsigned int __vsadu4(unsigned int __a, unsigned int __b) { + return __nv_vsadu4(__a, __b); +} +__DEVICE__ unsigned int __vseteq2(unsigned int __a, unsigned int __b) { + return __nv_vseteq2(__a, __b); +} +__DEVICE__ unsigned int __vseteq4(unsigned int __a, unsigned int __b) { + return __nv_vseteq4(__a, __b); +} +__DEVICE__ unsigned int __vsetges2(unsigned int __a, unsigned int __b) { + return __nv_vsetges2(__a, __b); +} +__DEVICE__ unsigned int __vsetges4(unsigned int __a, unsigned int __b) { + return __nv_vsetges4(__a, __b); +} +__DEVICE__ unsigned int __vsetgeu2(unsigned int __a, unsigned int __b) { + return __nv_vsetgeu2(__a, __b); +} +__DEVICE__ unsigned int __vsetgeu4(unsigned int __a, unsigned int __b) { + return __nv_vsetgeu4(__a, __b); +} +__DEVICE__ unsigned int __vsetgts2(unsigned int __a, unsigned int __b) { + return __nv_vsetgts2(__a, __b); +} +__DEVICE__ unsigned int __vsetgts4(unsigned int __a, unsigned int __b) { + return __nv_vsetgts4(__a, __b); +} +__DEVICE__ unsigned int __vsetgtu2(unsigned int __a, unsigned int __b) { + return __nv_vsetgtu2(__a, __b); +} +__DEVICE__ unsigned int __vsetgtu4(unsigned int __a, unsigned int __b) { + return __nv_vsetgtu4(__a, __b); +} +__DEVICE__ unsigned int __vsetles2(unsigned int __a, unsigned int __b) { + return __nv_vsetles2(__a, __b); +} +__DEVICE__ unsigned int __vsetles4(unsigned int __a, unsigned int __b) { + return __nv_vsetles4(__a, __b); +} +__DEVICE__ unsigned int __vsetleu2(unsigned int __a, unsigned int __b) { + return __nv_vsetleu2(__a, __b); +} +__DEVICE__ unsigned int __vsetleu4(unsigned int __a, unsigned int __b) { + return __nv_vsetleu4(__a, __b); +} +__DEVICE__ unsigned int __vsetlts2(unsigned int __a, unsigned int __b) { + return __nv_vsetlts2(__a, __b); +} +__DEVICE__ unsigned int __vsetlts4(unsigned int __a, unsigned int __b) { + return __nv_vsetlts4(__a, __b); +} +__DEVICE__ unsigned int __vsetltu2(unsigned int __a, unsigned int __b) { + return __nv_vsetltu2(__a, __b); +} +__DEVICE__ unsigned int __vsetltu4(unsigned int __a, unsigned int __b) { + return __nv_vsetltu4(__a, __b); +} +__DEVICE__ unsigned int __vsetne2(unsigned int __a, unsigned int __b) { + return __nv_vsetne2(__a, __b); +} +__DEVICE__ unsigned int __vsetne4(unsigned int __a, unsigned int __b) { + return __nv_vsetne4(__a, __b); +} +__DEVICE__ unsigned int __vsub2(unsigned int __a, unsigned int __b) { + return __nv_vsub2(__a, __b); +} +__DEVICE__ unsigned int __vsub4(unsigned int __a, unsigned int __b) { + return __nv_vsub4(__a, __b); +} +__DEVICE__ unsigned int __vsubss2(unsigned int __a, unsigned int __b) { + return __nv_vsubss2(__a, __b); +} +__DEVICE__ unsigned int __vsubss4(unsigned int __a, unsigned int __b) { + return __nv_vsubss4(__a, __b); +} +__DEVICE__ unsigned int __vsubus2(unsigned int __a, unsigned int __b) { + return __nv_vsubus2(__a, __b); +} +__DEVICE__ unsigned int __vsubus4(unsigned int __a, unsigned int __b) { + return __nv_vsubus4(__a, __b); +} +__DEVICE__ int abs(int __a) { return __nv_abs(__a); } +__DEVICE__ double acos(double __a) { return __nv_acos(__a); } +__DEVICE__ float acosf(float __a) { return __nv_acosf(__a); } +__DEVICE__ double acosh(double __a) { return __nv_acosh(__a); } +__DEVICE__ float acoshf(float __a) { return __nv_acoshf(__a); } +__DEVICE__ double asin(double __a) { return __nv_asin(__a); } +__DEVICE__ float asinf(float __a) { return __nv_asinf(__a); } +__DEVICE__ double asinh(double __a) { return __nv_asinh(__a); } +__DEVICE__ float asinhf(float __a) { return __nv_asinhf(__a); } +__DEVICE__ double atan(double __a) { return __nv_atan(__a); } +__DEVICE__ double atan2(double __a, double __b) { return __nv_atan2(__a, __b); } +__DEVICE__ float atan2f(float __a, float __b) { return __nv_atan2f(__a, __b); } +__DEVICE__ float atanf(float __a) { return __nv_atanf(__a); } +__DEVICE__ double atanh(double __a) { return __nv_atanh(__a); } +__DEVICE__ float atanhf(float __a) { return __nv_atanhf(__a); } +__DEVICE__ double cbrt(double __a) { return __nv_cbrt(__a); } +__DEVICE__ float cbrtf(float __a) { return __nv_cbrtf(__a); } +__DEVICE__ double ceil(double __a) { return __nv_ceil(__a); } +__DEVICE__ float ceilf(float __a) { return __nv_ceilf(__a); } +__DEVICE__ int clock() { return __nvvm_read_ptx_sreg_clock(); } +__DEVICE__ long long clock64() { return __nvvm_read_ptx_sreg_clock64(); } +__DEVICE__ double copysign(double __a, double __b) { + return __nv_copysign(__a, __b); +} +__DEVICE__ float copysignf(float __a, float __b) { + return __nv_copysignf(__a, __b); +} +__DEVICE__ double cos(double __a) { return __nv_cos(__a); } +__DEVICE__ float cosf(float __a) { + return __FAST_OR_SLOW(__nv_fast_cosf, __nv_cosf)(__a); +} +__DEVICE__ double cosh(double __a) { return __nv_cosh(__a); } +__DEVICE__ float coshf(float __a) { return __nv_coshf(__a); } +__DEVICE__ double cospi(double __a) { return __nv_cospi(__a); } +__DEVICE__ float cospif(float __a) { return __nv_cospif(__a); } +__DEVICE__ double cyl_bessel_i0(double __a) { return __nv_cyl_bessel_i0(__a); } +__DEVICE__ float cyl_bessel_i0f(float __a) { return __nv_cyl_bessel_i0f(__a); } +__DEVICE__ double cyl_bessel_i1(double __a) { return __nv_cyl_bessel_i1(__a); } +__DEVICE__ float cyl_bessel_i1f(float __a) { return __nv_cyl_bessel_i1f(__a); } +__DEVICE__ double erf(double __a) { return __nv_erf(__a); } +__DEVICE__ double erfc(double __a) { return __nv_erfc(__a); } +__DEVICE__ float erfcf(float __a) { return __nv_erfcf(__a); } +__DEVICE__ double erfcinv(double __a) { return __nv_erfcinv(__a); } +__DEVICE__ float erfcinvf(float __a) { return __nv_erfcinvf(__a); } +__DEVICE__ double erfcx(double __a) { return __nv_erfcx(__a); } +__DEVICE__ float erfcxf(float __a) { return __nv_erfcxf(__a); } +__DEVICE__ float erff(float __a) { return __nv_erff(__a); } +__DEVICE__ double erfinv(double __a) { return __nv_erfinv(__a); } +__DEVICE__ float erfinvf(float __a) { return __nv_erfinvf(__a); } +__DEVICE__ double exp(double __a) { return __nv_exp(__a); } +__DEVICE__ double exp10(double __a) { return __nv_exp10(__a); } +__DEVICE__ float exp10f(float __a) { return __nv_exp10f(__a); } +__DEVICE__ double exp2(double __a) { return __nv_exp2(__a); } +__DEVICE__ float exp2f(float __a) { return __nv_exp2f(__a); } +__DEVICE__ float expf(float __a) { return __nv_expf(__a); } +__DEVICE__ double expm1(double __a) { return __nv_expm1(__a); } +__DEVICE__ float expm1f(float __a) { return __nv_expm1f(__a); } +__DEVICE__ double fabs(double __a) { return __nv_fabs(__a); } +__DEVICE__ float fabsf(float __a) { return __nv_fabsf(__a); } +__DEVICE__ double fdim(double __a, double __b) { return __nv_fdim(__a, __b); } +__DEVICE__ float fdimf(float __a, float __b) { return __nv_fdimf(__a, __b); } +__DEVICE__ double fdivide(double __a, double __b) { return __a / __b; } +__DEVICE__ float fdividef(float __a, float __b) { +#if __FAST_MATH__ && !__CUDA_PREC_DIV + return __nv_fast_fdividef(__a, __b); +#else + return __a / __b; +#endif +} +__DEVICE__ double floor(double __f) { return __nv_floor(__f); } +__DEVICE__ float floorf(float __f) { return __nv_floorf(__f); } +__DEVICE__ double fma(double __a, double __b, double __c) { + return __nv_fma(__a, __b, __c); +} +__DEVICE__ float fmaf(float __a, float __b, float __c) { + return __nv_fmaf(__a, __b, __c); +} +__DEVICE__ double fmax(double __a, double __b) { return __nv_fmax(__a, __b); } +__DEVICE__ float fmaxf(float __a, float __b) { return __nv_fmaxf(__a, __b); } +__DEVICE__ double fmin(double __a, double __b) { return __nv_fmin(__a, __b); } +__DEVICE__ float fminf(float __a, float __b) { return __nv_fminf(__a, __b); } +__DEVICE__ double fmod(double __a, double __b) { return __nv_fmod(__a, __b); } +__DEVICE__ float fmodf(float __a, float __b) { return __nv_fmodf(__a, __b); } +__DEVICE__ double frexp(double __a, int *__b) { return __nv_frexp(__a, __b); } +__DEVICE__ float frexpf(float __a, int *__b) { return __nv_frexpf(__a, __b); } +__DEVICE__ double hypot(double __a, double __b) { return __nv_hypot(__a, __b); } +__DEVICE__ float hypotf(float __a, float __b) { return __nv_hypotf(__a, __b); } +__DEVICE__ int ilogb(double __a) { return __nv_ilogb(__a); } +__DEVICE__ int ilogbf(float __a) { return __nv_ilogbf(__a); } +__DEVICE__ double j0(double __a) { return __nv_j0(__a); } +__DEVICE__ float j0f(float __a) { return __nv_j0f(__a); } +__DEVICE__ double j1(double __a) { return __nv_j1(__a); } +__DEVICE__ float j1f(float __a) { return __nv_j1f(__a); } +__DEVICE__ double jn(int __n, double __a) { return __nv_jn(__n, __a); } +__DEVICE__ float jnf(int __n, float __a) { return __nv_jnf(__n, __a); } +__DEVICE__ double ldexp(double __a, int __b) { return __nv_ldexp(__a, __b); } +__DEVICE__ float ldexpf(float __a, int __b) { return __nv_ldexpf(__a, __b); } +__DEVICE__ double lgamma(double __a) { return __nv_lgamma(__a); } +__DEVICE__ float lgammaf(float __a) { return __nv_lgammaf(__a); } +__DEVICE__ long long llmax(long long __a, long long __b) { + return __nv_llmax(__a, __b); +} +__DEVICE__ long long llmin(long long __a, long long __b) { + return __nv_llmin(__a, __b); +} +__DEVICE__ long long llrint(double __a) { return __nv_llrint(__a); } +__DEVICE__ long long llrintf(float __a) { return __nv_llrintf(__a); } +__DEVICE__ long long llround(double __a) { return __nv_llround(__a); } +__DEVICE__ long long llroundf(float __a) { return __nv_llroundf(__a); } +__DEVICE__ double log(double __a) { return __nv_log(__a); } +__DEVICE__ double log10(double __a) { return __nv_log10(__a); } +__DEVICE__ float log10f(float __a) { return __nv_log10f(__a); } +__DEVICE__ double log1p(double __a) { return __nv_log1p(__a); } +__DEVICE__ float log1pf(float __a) { return __nv_log1pf(__a); } +__DEVICE__ double log2(double __a) { return __nv_log2(__a); } +__DEVICE__ float log2f(float __a) { + return __FAST_OR_SLOW(__nv_fast_log2f, __nv_log2f)(__a); +} +__DEVICE__ double logb(double __a) { return __nv_logb(__a); } +__DEVICE__ float logbf(float __a) { return __nv_logbf(__a); } +__DEVICE__ float logf(float __a) { + return __FAST_OR_SLOW(__nv_fast_logf, __nv_logf)(__a); +} +#if defined(__LP64__) +__DEVICE__ long lrint(double __a) { return llrint(__a); } +__DEVICE__ long lrintf(float __a) { return __float2ll_rn(__a); } +__DEVICE__ long lround(double __a) { return llround(__a); } +__DEVICE__ long lroundf(float __a) { return llroundf(__a); } +#else +__DEVICE__ long lrint(double __a) { return (long)rint(__a); } +__DEVICE__ long lrintf(float __a) { return __float2int_rn(__a); } +__DEVICE__ long lround(double __a) { return round(__a); } +__DEVICE__ long lroundf(float __a) { return roundf(__a); } +#endif +__DEVICE__ int max(int __a, int __b) { return __nv_max(__a, __b); } +__DEVICE__ void *memcpy(void *__a, const void *__b, size_t __c) { + return __builtin_memcpy(__a, __b, __c); +} +__DEVICE__ void *memset(void *__a, int __b, size_t __c) { + return __builtin_memset(__a, __b, __c); +} +__DEVICE__ int min(int __a, int __b) { return __nv_min(__a, __b); } +__DEVICE__ double modf(double __a, double *__b) { return __nv_modf(__a, __b); } +__DEVICE__ float modff(float __a, float *__b) { return __nv_modff(__a, __b); } +__DEVICE__ double nearbyint(double __a) { return __nv_nearbyint(__a); } +__DEVICE__ float nearbyintf(float __a) { return __nv_nearbyintf(__a); } +__DEVICE__ double nextafter(double __a, double __b) { + return __nv_nextafter(__a, __b); +} +__DEVICE__ float nextafterf(float __a, float __b) { + return __nv_nextafterf(__a, __b); +} +__DEVICE__ double norm(int __dim, const double *__t) { + return __nv_norm(__dim, __t); +} +__DEVICE__ double norm3d(double __a, double __b, double __c) { + return __nv_norm3d(__a, __b, __c); +} +__DEVICE__ float norm3df(float __a, float __b, float __c) { + return __nv_norm3df(__a, __b, __c); +} +__DEVICE__ double norm4d(double __a, double __b, double __c, double __d) { + return __nv_norm4d(__a, __b, __c, __d); +} +__DEVICE__ float norm4df(float __a, float __b, float __c, float __d) { + return __nv_norm4df(__a, __b, __c, __d); +} +__DEVICE__ double normcdf(double __a) { return __nv_normcdf(__a); } +__DEVICE__ float normcdff(float __a) { return __nv_normcdff(__a); } +__DEVICE__ double normcdfinv(double __a) { return __nv_normcdfinv(__a); } +__DEVICE__ float normcdfinvf(float __a) { return __nv_normcdfinvf(__a); } +__DEVICE__ float normf(int __dim, const float *__t) { + return __nv_normf(__dim, __t); +} +__DEVICE__ double pow(double __a, double __b) { return __nv_pow(__a, __b); } +__DEVICE__ float powf(float __a, float __b) { return __nv_powf(__a, __b); } +__DEVICE__ double powi(double __a, int __b) { return __nv_powi(__a, __b); } +__DEVICE__ float powif(float __a, int __b) { return __nv_powif(__a, __b); } +__DEVICE__ double rcbrt(double __a) { return __nv_rcbrt(__a); } +__DEVICE__ float rcbrtf(float __a) { return __nv_rcbrtf(__a); } +__DEVICE__ double remainder(double __a, double __b) { + return __nv_remainder(__a, __b); +} +__DEVICE__ float remainderf(float __a, float __b) { + return __nv_remainderf(__a, __b); +} +__DEVICE__ double remquo(double __a, double __b, int *__c) { + return __nv_remquo(__a, __b, __c); +} +__DEVICE__ float remquof(float __a, float __b, int *__c) { + return __nv_remquof(__a, __b, __c); +} +__DEVICE__ double rhypot(double __a, double __b) { + return __nv_rhypot(__a, __b); +} +__DEVICE__ float rhypotf(float __a, float __b) { + return __nv_rhypotf(__a, __b); +} +__DEVICE__ double rint(double __a) { return __nv_rint(__a); } +__DEVICE__ float rintf(float __a) { return __nv_rintf(__a); } +__DEVICE__ double rnorm(int __a, const double *__b) { + return __nv_rnorm(__a, __b); +} +__DEVICE__ double rnorm3d(double __a, double __b, double __c) { + return __nv_rnorm3d(__a, __b, __c); +} +__DEVICE__ float rnorm3df(float __a, float __b, float __c) { + return __nv_rnorm3df(__a, __b, __c); +} +__DEVICE__ double rnorm4d(double __a, double __b, double __c, double __d) { + return __nv_rnorm4d(__a, __b, __c, __d); +} +__DEVICE__ float rnorm4df(float __a, float __b, float __c, float __d) { + return __nv_rnorm4df(__a, __b, __c, __d); +} +__DEVICE__ float rnormf(int __dim, const float *__t) { + return __nv_rnormf(__dim, __t); +} +__DEVICE__ double round(double __a) { return __nv_round(__a); } +__DEVICE__ float roundf(float __a) { return __nv_roundf(__a); } +__DEVICE__ double rsqrt(double __a) { return __nv_rsqrt(__a); } +__DEVICE__ float rsqrtf(float __a) { return __nv_rsqrtf(__a); } +__DEVICE__ double scalbn(double __a, int __b) { return __nv_scalbn(__a, __b); } +__DEVICE__ float scalbnf(float __a, int __b) { return __nv_scalbnf(__a, __b); } +__DEVICE__ double scalbln(double __a, long __b) { + if (__b > INT_MAX) + return __a > 0 ? HUGE_VAL : -HUGE_VAL; + if (__b < INT_MIN) + return __a > 0 ? 0.0 : -0.0; + return scalbn(__a, (int)__b); +} +__DEVICE__ float scalblnf(float __a, long __b) { + if (__b > INT_MAX) + return __a > 0 ? HUGE_VALF : -HUGE_VALF; + if (__b < INT_MIN) + return __a > 0 ? 0.f : -0.f; + return scalbnf(__a, (int)__b); +} +__DEVICE__ double sin(double __a) { return __nv_sin(__a); } +__DEVICE__ void sincosf(float __a, float *__sptr, float *__cptr) { + return __FAST_OR_SLOW(__nv_fast_sincosf, __nv_sincosf)(__a, __sptr, __cptr); +} +__DEVICE__ void sincospi(double __a, double *__sptr, double *__cptr) { + return __nv_sincospi(__a, __sptr, __cptr); +} +__DEVICE__ void sincospif(float __a, float *__sptr, float *__cptr) { + return __nv_sincospif(__a, __sptr, __cptr); +} +__DEVICE__ float sinf(float __a) { + return __FAST_OR_SLOW(__nv_fast_sinf, __nv_sinf)(__a); +} +__DEVICE__ double sinh(double __a) { return __nv_sinh(__a); } +__DEVICE__ float sinhf(float __a) { return __nv_sinhf(__a); } +__DEVICE__ double sinpi(double __a) { return __nv_sinpi(__a); } +__DEVICE__ float sinpif(float __a) { return __nv_sinpif(__a); } +__DEVICE__ double sqrt(double __a) { return __nv_sqrt(__a); } +__DEVICE__ float sqrtf(float __a) { return __nv_sqrtf(__a); } +__DEVICE__ double tan(double __a) { return __nv_tan(__a); } +__DEVICE__ float tanf(float __a) { return __nv_tanf(__a); } +__DEVICE__ double tanh(double __a) { return __nv_tanh(__a); } +__DEVICE__ float tanhf(float __a) { return __nv_tanhf(__a); } +__DEVICE__ double tgamma(double __a) { return __nv_tgamma(__a); } +__DEVICE__ float tgammaf(float __a) { return __nv_tgammaf(__a); } +__DEVICE__ double trunc(double __a) { return __nv_trunc(__a); } +__DEVICE__ float truncf(float __a) { return __nv_truncf(__a); } +__DEVICE__ unsigned long long ullmax(unsigned long long __a, + unsigned long long __b) { + return __nv_ullmax(__a, __b); +} +__DEVICE__ unsigned long long ullmin(unsigned long long __a, + unsigned long long __b) { + return __nv_ullmin(__a, __b); +} +__DEVICE__ unsigned int umax(unsigned int __a, unsigned int __b) { + return __nv_umax(__a, __b); +} +__DEVICE__ unsigned int umin(unsigned int __a, unsigned int __b) { + return __nv_umin(__a, __b); +} +__DEVICE__ double y0(double __a) { return __nv_y0(__a); } +__DEVICE__ float y0f(float __a) { return __nv_y0f(__a); } +__DEVICE__ double y1(double __a) { return __nv_y1(__a); } +__DEVICE__ float y1f(float __a) { return __nv_y1f(__a); } +__DEVICE__ double yn(int __a, double __b) { return __nv_yn(__a, __b); } +__DEVICE__ float ynf(int __a, float __b) { return __nv_ynf(__a, __b); } + +#pragma pop_macro("__DEVICE__") +#pragma pop_macro("__FAST_OR_SLOW") +#endif // __CLANG_CUDA_DEVICE_FUNCTIONS_H__ Index: cfe/trunk/lib/Headers/__clang_cuda_libdevice_declares.h =================================================================== --- cfe/trunk/lib/Headers/__clang_cuda_libdevice_declares.h +++ cfe/trunk/lib/Headers/__clang_cuda_libdevice_declares.h @@ -0,0 +1,465 @@ +/*===-- __clang_cuda_libdevice_declares.h - decls for libdevice functions --=== + * + * 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, sublicense, 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 above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * 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 NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS 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. + * + *===-----------------------------------------------------------------------=== + */ + +#ifndef __CLANG_CUDA_LIBDEVICE_DECLARES_H__ +#define __CLANG_CUDA_LIBDEVICE_DECLARES_H__ + +extern "C" { + +__device__ int __nv_abs(int __a); +__device__ double __nv_acos(double __a); +__device__ float __nv_acosf(float __a); +__device__ double __nv_acosh(double __a); +__device__ float __nv_acoshf(float __a); +__device__ double __nv_asin(double __a); +__device__ float __nv_asinf(float __a); +__device__ double __nv_asinh(double __a); +__device__ float __nv_asinhf(float __a); +__device__ double __nv_atan2(double __a, double __b); +__device__ float __nv_atan2f(float __a, float __b); +__device__ double __nv_atan(double __a); +__device__ float __nv_atanf(float __a); +__device__ double __nv_atanh(double __a); +__device__ float __nv_atanhf(float __a); +__device__ int __nv_brev(int __a); +__device__ long long __nv_brevll(long long __a); +__device__ int __nv_byte_perm(int __a, int __b, int __c); +__device__ double __nv_cbrt(double __a); +__device__ float __nv_cbrtf(float __a); +__device__ double __nv_ceil(double __a); +__device__ float __nv_ceilf(float __a); +__device__ int __nv_clz(int __a); +__device__ int __nv_clzll(long long __a); +__device__ double __nv_copysign(double __a, double __b); +__device__ float __nv_copysignf(float __a, float __b); +__device__ double __nv_cos(double __a); +__device__ float __nv_cosf(float __a); +__device__ double __nv_cosh(double __a); +__device__ float __nv_coshf(float __a); +__device__ double __nv_cospi(double __a); +__device__ float __nv_cospif(float __a); +__device__ double __nv_cyl_bessel_i0(double __a); +__device__ float __nv_cyl_bessel_i0f(float __a); +__device__ double __nv_cyl_bessel_i1(double __a); +__device__ float __nv_cyl_bessel_i1f(float __a); +__device__ double __nv_dadd_rd(double __a, double __b); +__device__ double __nv_dadd_rn(double __a, double __b); +__device__ double __nv_dadd_ru(double __a, double __b); +__device__ double __nv_dadd_rz(double __a, double __b); +__device__ double __nv_ddiv_rd(double __a, double __b); +__device__ double __nv_ddiv_rn(double __a, double __b); +__device__ double __nv_ddiv_ru(double __a, double __b); +__device__ double __nv_ddiv_rz(double __a, double __b); +__device__ double __nv_dmul_rd(double __a, double __b); +__device__ double __nv_dmul_rn(double __a, double __b); +__device__ double __nv_dmul_ru(double __a, double __b); +__device__ double __nv_dmul_rz(double __a, double __b); +__device__ float __nv_double2float_rd(double __a); +__device__ float __nv_double2float_rn(double __a); +__device__ float __nv_double2float_ru(double __a); +__device__ float __nv_double2float_rz(double __a); +__device__ int __nv_double2hiint(double __a); +__device__ int __nv_double2int_rd(double __a); +__device__ int __nv_double2int_rn(double __a); +__device__ int __nv_double2int_ru(double __a); +__device__ int __nv_double2int_rz(double __a); +__device__ long long __nv_double2ll_rd(double __a); +__device__ long long __nv_double2ll_rn(double __a); +__device__ long long __nv_double2ll_ru(double __a); +__device__ long long __nv_double2ll_rz(double __a); +__device__ int __nv_double2loint(double __a); +__device__ unsigned int __nv_double2uint_rd(double __a); +__device__ unsigned int __nv_double2uint_rn(double __a); +__device__ unsigned int __nv_double2uint_ru(double __a); +__device__ unsigned int __nv_double2uint_rz(double __a); +__device__ unsigned long long __nv_double2ull_rd(double __a); +__device__ unsigned long long __nv_double2ull_rn(double __a); +__device__ unsigned long long __nv_double2ull_ru(double __a); +__device__ unsigned long long __nv_double2ull_rz(double __a); +__device__ unsigned long long __nv_double_as_longlong(double __a); +__device__ double __nv_drcp_rd(double __a); +__device__ double __nv_drcp_rn(double __a); +__device__ double __nv_drcp_ru(double __a); +__device__ double __nv_drcp_rz(double __a); +__device__ double __nv_dsqrt_rd(double __a); +__device__ double __nv_dsqrt_rn(double __a); +__device__ double __nv_dsqrt_ru(double __a); +__device__ double __nv_dsqrt_rz(double __a); +__device__ double __nv_dsub_rd(double __a, double __b); +__device__ double __nv_dsub_rn(double __a, double __b); +__device__ double __nv_dsub_ru(double __a, double __b); +__device__ double __nv_dsub_rz(double __a, double __b); +__device__ double __nv_erfc(double __a); +__device__ float __nv_erfcf(float __a); +__device__ double __nv_erfcinv(double __a); +__device__ float __nv_erfcinvf(float __a); +__device__ double __nv_erfcx(double __a); +__device__ float __nv_erfcxf(float __a); +__device__ double __nv_erf(double __a); +__device__ float __nv_erff(float __a); +__device__ double __nv_erfinv(double __a); +__device__ float __nv_erfinvf(float __a); +__device__ double __nv_exp10(double __a); +__device__ float __nv_exp10f(float __a); +__device__ double __nv_exp2(double __a); +__device__ float __nv_exp2f(float __a); +__device__ double __nv_exp(double __a); +__device__ float __nv_expf(float __a); +__device__ double __nv_expm1(double __a); +__device__ float __nv_expm1f(float __a); +__device__ double __nv_fabs(double __a); +__device__ float __nv_fabsf(float __a); +__device__ float __nv_fadd_rd(float __a, float __b); +__device__ float __nv_fadd_rn(float __a, float __b); +__device__ float __nv_fadd_ru(float __a, float __b); +__device__ float __nv_fadd_rz(float __a, float __b); +__device__ float __nv_fast_cosf(float __a); +__device__ float __nv_fast_exp10f(float __a); +__device__ float __nv_fast_expf(float __a); +__device__ float __nv_fast_fdividef(float __a, float __b); +__device__ float __nv_fast_log10f(float __a); +__device__ float __nv_fast_log2f(float __a); +__device__ float __nv_fast_logf(float __a); +__device__ float __nv_fast_powf(float __a, float __b); +__device__ void __nv_fast_sincosf(float __a, float *__sptr, float *__cptr); +__device__ float __nv_fast_sinf(float __a); +__device__ float __nv_fast_tanf(float __a); +__device__ double __nv_fdim(double __a, double __b); +__device__ float __nv_fdimf(float __a, float __b); +__device__ float __nv_fdiv_rd(float __a, float __b); +__device__ float __nv_fdiv_rn(float __a, float __b); +__device__ float __nv_fdiv_ru(float __a, float __b); +__device__ float __nv_fdiv_rz(float __a, float __b); +__device__ int __nv_ffs(int __a); +__device__ int __nv_ffsll(long long __a); +__device__ int __nv_finitef(float __a); +__device__ unsigned short __nv_float2half_rn(float __a); +__device__ int __nv_float2int_rd(float __a); +__device__ int __nv_float2int_rn(float __a); +__device__ int __nv_float2int_ru(float __a); +__device__ int __nv_float2int_rz(float __a); +__device__ long long __nv_float2ll_rd(float __a); +__device__ long long __nv_float2ll_rn(float __a); +__device__ long long __nv_float2ll_ru(float __a); +__device__ long long __nv_float2ll_rz(float __a); +__device__ unsigned int __nv_float2uint_rd(float __a); +__device__ unsigned int __nv_float2uint_rn(float __a); +__device__ unsigned int __nv_float2uint_ru(float __a); +__device__ unsigned int __nv_float2uint_rz(float __a); +__device__ unsigned long long __nv_float2ull_rd(float __a); +__device__ unsigned long long __nv_float2ull_rn(float __a); +__device__ unsigned long long __nv_float2ull_ru(float __a); +__device__ unsigned long long __nv_float2ull_rz(float __a); +__device__ int __nv_float_as_int(float __a); +__device__ unsigned int __nv_float_as_uint(float __a); +__device__ double __nv_floor(double __a); +__device__ float __nv_floorf(float __a); +__device__ double __nv_fma(double __a, double __b, double __c); +__device__ float __nv_fmaf(float __a, float __b, float __c); +__device__ float __nv_fmaf_ieee_rd(float __a, float __b, float __c); +__device__ float __nv_fmaf_ieee_rn(float __a, float __b, float __c); +__device__ float __nv_fmaf_ieee_ru(float __a, float __b, float __c); +__device__ float __nv_fmaf_ieee_rz(float __a, float __b, float __c); +__device__ float __nv_fmaf_rd(float __a, float __b, float __c); +__device__ float __nv_fmaf_rn(float __a, float __b, float __c); +__device__ float __nv_fmaf_ru(float __a, float __b, float __c); +__device__ float __nv_fmaf_rz(float __a, float __b, float __c); +__device__ double __nv_fma_rd(double __a, double __b, double __c); +__device__ double __nv_fma_rn(double __a, double __b, double __c); +__device__ double __nv_fma_ru(double __a, double __b, double __c); +__device__ double __nv_fma_rz(double __a, double __b, double __c); +__device__ double __nv_fmax(double __a, double __b); +__device__ float __nv_fmaxf(float __a, float __b); +__device__ double __nv_fmin(double __a, double __b); +__device__ float __nv_fminf(float __a, float __b); +__device__ double __nv_fmod(double __a, double __b); +__device__ float __nv_fmodf(float __a, float __b); +__device__ float __nv_fmul_rd(float __a, float __b); +__device__ float __nv_fmul_rn(float __a, float __b); +__device__ float __nv_fmul_ru(float __a, float __b); +__device__ float __nv_fmul_rz(float __a, float __b); +__device__ float __nv_frcp_rd(float __a); +__device__ float __nv_frcp_rn(float __a); +__device__ float __nv_frcp_ru(float __a); +__device__ float __nv_frcp_rz(float __a); +__device__ double __nv_frexp(double __a, int *__b); +__device__ float __nv_frexpf(float __a, int *__b); +__device__ float __nv_frsqrt_rn(float __a); +__device__ float __nv_fsqrt_rd(float __a); +__device__ float __nv_fsqrt_rn(float __a); +__device__ float __nv_fsqrt_ru(float __a); +__device__ float __nv_fsqrt_rz(float __a); +__device__ float __nv_fsub_rd(float __a, float __b); +__device__ float __nv_fsub_rn(float __a, float __b); +__device__ float __nv_fsub_ru(float __a, float __b); +__device__ float __nv_fsub_rz(float __a, float __b); +__device__ int __nv_hadd(int __a, int __b); +__device__ float __nv_half2float(unsigned short __h); +__device__ double __nv_hiloint2double(int __a, int __b); +__device__ double __nv_hypot(double __a, double __b); +__device__ float __nv_hypotf(float __a, float __b); +__device__ int __nv_ilogb(double __a); +__device__ int __nv_ilogbf(float __a); +__device__ double __nv_int2double_rn(int __a); +__device__ float __nv_int2float_rd(int __a); +__device__ float __nv_int2float_rn(int __a); +__device__ float __nv_int2float_ru(int __a); +__device__ float __nv_int2float_rz(int __a); +__device__ float __nv_int_as_float(int __a); +__device__ int __nv_isfinited(double __a); +__device__ int __nv_isinfd(double __a); +__device__ int __nv_isinff(float __a); +__device__ int __nv_isnand(double __a); +__device__ int __nv_isnanf(float __a); +__device__ double __nv_j0(double __a); +__device__ float __nv_j0f(float __a); +__device__ double __nv_j1(double __a); +__device__ float __nv_j1f(float __a); +__device__ float __nv_jnf(int __a, float __b); +__device__ double __nv_jn(int __a, double __b); +__device__ double __nv_ldexp(double __a, int __b); +__device__ float __nv_ldexpf(float __a, int __b); +__device__ double __nv_lgamma(double __a); +__device__ float __nv_lgammaf(float __a); +__device__ double __nv_ll2double_rd(long long __a); +__device__ double __nv_ll2double_rn(long long __a); +__device__ double __nv_ll2double_ru(long long __a); +__device__ double __nv_ll2double_rz(long long __a); +__device__ float __nv_ll2float_rd(long long __a); +__device__ float __nv_ll2float_rn(long long __a); +__device__ float __nv_ll2float_ru(long long __a); +__device__ float __nv_ll2float_rz(long long __a); +__device__ long long __nv_llabs(long long __a); +__device__ long long __nv_llmax(long long __a, long long __b); +__device__ long long __nv_llmin(long long __a, long long __b); +__device__ long long __nv_llrint(double __a); +__device__ long long __nv_llrintf(float __a); +__device__ long long __nv_llround(double __a); +__device__ long long __nv_llroundf(float __a); +__device__ double __nv_log10(double __a); +__device__ float __nv_log10f(float __a); +__device__ double __nv_log1p(double __a); +__device__ float __nv_log1pf(float __a); +__device__ double __nv_log2(double __a); +__device__ float __nv_log2f(float __a); +__device__ double __nv_logb(double __a); +__device__ float __nv_logbf(float __a); +__device__ double __nv_log(double __a); +__device__ float __nv_logf(float __a); +__device__ double __nv_longlong_as_double(long long __a); +__device__ int __nv_max(int __a, int __b); +__device__ int __nv_min(int __a, int __b); +__device__ double __nv_modf(double __a, double *__b); +__device__ float __nv_modff(float __a, float *__b); +__device__ int __nv_mul24(int __a, int __b); +__device__ long long __nv_mul64hi(long long __a, long long __b); +__device__ int __nv_mulhi(int __a, int __b); +__device__ double __nv_nan(const signed char *__a); +__device__ float __nv_nanf(const signed char *__a); +__device__ double __nv_nearbyint(double __a); +__device__ float __nv_nearbyintf(float __a); +__device__ double __nv_nextafter(double __a, double __b); +__device__ float __nv_nextafterf(float __a, float __b); +__device__ double __nv_norm3d(double __a, double __b, double __c); +__device__ float __nv_norm3df(float __a, float __b, float __c); +__device__ double __nv_norm4d(double __a, double __b, double __c, double __d); +__device__ float __nv_norm4df(float __a, float __b, float __c, float __d); +__device__ double __nv_normcdf(double __a); +__device__ float __nv_normcdff(float __a); +__device__ double __nv_normcdfinv(double __a); +__device__ float __nv_normcdfinvf(float __a); +__device__ float __nv_normf(int __a, const float *__b); +__device__ double __nv_norm(int __a, const double *__b); +__device__ int __nv_popc(int __a); +__device__ int __nv_popcll(long long __a); +__device__ double __nv_pow(double __a, double __b); +__device__ float __nv_powf(float __a, float __b); +__device__ double __nv_powi(double __a, int __b); +__device__ float __nv_powif(float __a, int __b); +__device__ double __nv_rcbrt(double __a); +__device__ float __nv_rcbrtf(float __a); +__device__ double __nv_rcp64h(double __a); +__device__ double __nv_remainder(double __a, double __b); +__device__ float __nv_remainderf(float __a, float __b); +__device__ double __nv_remquo(double __a, double __b, int *__c); +__device__ float __nv_remquof(float __a, float __b, int *__c); +__device__ int __nv_rhadd(int __a, int __b); +__device__ double __nv_rhypot(double __a, double __b); +__device__ float __nv_rhypotf(float __a, float __b); +__device__ double __nv_rint(double __a); +__device__ float __nv_rintf(float __a); +__device__ double __nv_rnorm3d(double __a, double __b, double __c); +__device__ float __nv_rnorm3df(float __a, float __b, float __c); +__device__ double __nv_rnorm4d(double __a, double __b, double __c, double __d); +__device__ float __nv_rnorm4df(float __a, float __b, float __c, float __d); +__device__ float __nv_rnormf(int __a, const float *__b); +__device__ double __nv_rnorm(int __a, const double *__b); +__device__ double __nv_round(double __a); +__device__ float __nv_roundf(float __a); +__device__ double __nv_rsqrt(double __a); +__device__ float __nv_rsqrtf(float __a); +__device__ int __nv_sad(int __a, int __b, int __c); +__device__ float __nv_saturatef(float __a); +__device__ double __nv_scalbn(double __a, int __b); +__device__ float __nv_scalbnf(float __a, int __b); +__device__ int __nv_signbitd(double __a); +__device__ int __nv_signbitf(float __a); +__device__ void __nv_sincos(double __a, double *__b, double *__c); +__device__ void __nv_sincosf(float __a, float *__b, float *__c); +__device__ void __nv_sincospi(double __a, double *__b, double *__c); +__device__ void __nv_sincospif(float __a, float *__b, float *__c); +__device__ double __nv_sin(double __a); +__device__ float __nv_sinf(float __a); +__device__ double __nv_sinh(double __a); +__device__ float __nv_sinhf(float __a); +__device__ double __nv_sinpi(double __a); +__device__ float __nv_sinpif(float __a); +__device__ double __nv_sqrt(double __a); +__device__ float __nv_sqrtf(float __a); +__device__ double __nv_tan(double __a); +__device__ float __nv_tanf(float __a); +__device__ double __nv_tanh(double __a); +__device__ float __nv_tanhf(float __a); +__device__ double __nv_tgamma(double __a); +__device__ float __nv_tgammaf(float __a); +__device__ double __nv_trunc(double __a); +__device__ float __nv_truncf(float __a); +__device__ int __nv_uhadd(unsigned int __a, unsigned int __b); +__device__ double __nv_uint2double_rn(unsigned int __i); +__device__ float __nv_uint2float_rd(unsigned int __a); +__device__ float __nv_uint2float_rn(unsigned int __a); +__device__ float __nv_uint2float_ru(unsigned int __a); +__device__ float __nv_uint2float_rz(unsigned int __a); +__device__ float __nv_uint_as_float(unsigned int __a); +__device__ double __nv_ull2double_rd(unsigned long long __a); +__device__ double __nv_ull2double_rn(unsigned long long __a); +__device__ double __nv_ull2double_ru(unsigned long long __a); +__device__ double __nv_ull2double_rz(unsigned long long __a); +__device__ float __nv_ull2float_rd(unsigned long long __a); +__device__ float __nv_ull2float_rn(unsigned long long __a); +__device__ float __nv_ull2float_ru(unsigned long long __a); +__device__ float __nv_ull2float_rz(unsigned long long __a); +__device__ unsigned long long __nv_ullmax(unsigned long long __a, + unsigned long long __b); +__device__ unsigned long long __nv_ullmin(unsigned long long __a, + unsigned long long __b); +__device__ unsigned int __nv_umax(unsigned int __a, unsigned int __b); +__device__ unsigned int __nv_umin(unsigned int __a, unsigned int __b); +__device__ unsigned int __nv_umul24(unsigned int __a, unsigned int __b); +__device__ unsigned long long __nv_umul64hi(unsigned long long __a, + unsigned long long __b); +__device__ unsigned int __nv_umulhi(unsigned int __a, unsigned int __b); +__device__ unsigned int __nv_urhadd(unsigned int __a, unsigned int __b); +__device__ unsigned int __nv_usad(unsigned int __a, unsigned int __b, + unsigned int __c); +__device__ int __nv_vabs2(int __a); +__device__ int __nv_vabs4(int __a); +__device__ int __nv_vabsdiffs2(int __a, int __b); +__device__ int __nv_vabsdiffs4(int __a, int __b); +__device__ int __nv_vabsdiffu2(int __a, int __b); +__device__ int __nv_vabsdiffu4(int __a, int __b); +__device__ int __nv_vabsss2(int __a); +__device__ int __nv_vabsss4(int __a); +__device__ int __nv_vadd2(int __a, int __b); +__device__ int __nv_vadd4(int __a, int __b); +__device__ int __nv_vaddss2(int __a, int __b); +__device__ int __nv_vaddss4(int __a, int __b); +__device__ int __nv_vaddus2(int __a, int __b); +__device__ int __nv_vaddus4(int __a, int __b); +__device__ int __nv_vavgs2(int __a, int __b); +__device__ int __nv_vavgs4(int __a, int __b); +__device__ int __nv_vavgu2(int __a, int __b); +__device__ int __nv_vavgu4(int __a, int __b); +__device__ int __nv_vcmpeq2(int __a, int __b); +__device__ int __nv_vcmpeq4(int __a, int __b); +__device__ int __nv_vcmpges2(int __a, int __b); +__device__ int __nv_vcmpges4(int __a, int __b); +__device__ int __nv_vcmpgeu2(int __a, int __b); +__device__ int __nv_vcmpgeu4(int __a, int __b); +__device__ int __nv_vcmpgts2(int __a, int __b); +__device__ int __nv_vcmpgts4(int __a, int __b); +__device__ int __nv_vcmpgtu2(int __a, int __b); +__device__ int __nv_vcmpgtu4(int __a, int __b); +__device__ int __nv_vcmples2(int __a, int __b); +__device__ int __nv_vcmples4(int __a, int __b); +__device__ int __nv_vcmpleu2(int __a, int __b); +__device__ int __nv_vcmpleu4(int __a, int __b); +__device__ int __nv_vcmplts2(int __a, int __b); +__device__ int __nv_vcmplts4(int __a, int __b); +__device__ int __nv_vcmpltu2(int __a, int __b); +__device__ int __nv_vcmpltu4(int __a, int __b); +__device__ int __nv_vcmpne2(int __a, int __b); +__device__ int __nv_vcmpne4(int __a, int __b); +__device__ int __nv_vhaddu2(int __a, int __b); +__device__ int __nv_vhaddu4(int __a, int __b); +__device__ int __nv_vmaxs2(int __a, int __b); +__device__ int __nv_vmaxs4(int __a, int __b); +__device__ int __nv_vmaxu2(int __a, int __b); +__device__ int __nv_vmaxu4(int __a, int __b); +__device__ int __nv_vmins2(int __a, int __b); +__device__ int __nv_vmins4(int __a, int __b); +__device__ int __nv_vminu2(int __a, int __b); +__device__ int __nv_vminu4(int __a, int __b); +__device__ int __nv_vneg2(int __a); +__device__ int __nv_vneg4(int __a); +__device__ int __nv_vnegss2(int __a); +__device__ int __nv_vnegss4(int __a); +__device__ int __nv_vsads2(int __a, int __b); +__device__ int __nv_vsads4(int __a, int __b); +__device__ int __nv_vsadu2(int __a, int __b); +__device__ int __nv_vsadu4(int __a, int __b); +__device__ int __nv_vseteq2(int __a, int __b); +__device__ int __nv_vseteq4(int __a, int __b); +__device__ int __nv_vsetges2(int __a, int __b); +__device__ int __nv_vsetges4(int __a, int __b); +__device__ int __nv_vsetgeu2(int __a, int __b); +__device__ int __nv_vsetgeu4(int __a, int __b); +__device__ int __nv_vsetgts2(int __a, int __b); +__device__ int __nv_vsetgts4(int __a, int __b); +__device__ int __nv_vsetgtu2(int __a, int __b); +__device__ int __nv_vsetgtu4(int __a, int __b); +__device__ int __nv_vsetles2(int __a, int __b); +__device__ int __nv_vsetles4(int __a, int __b); +__device__ int __nv_vsetleu2(int __a, int __b); +__device__ int __nv_vsetleu4(int __a, int __b); +__device__ int __nv_vsetlts2(int __a, int __b); +__device__ int __nv_vsetlts4(int __a, int __b); +__device__ int __nv_vsetltu2(int __a, int __b); +__device__ int __nv_vsetltu4(int __a, int __b); +__device__ int __nv_vsetne2(int __a, int __b); +__device__ int __nv_vsetne4(int __a, int __b); +__device__ int __nv_vsub2(int __a, int __b); +__device__ int __nv_vsub4(int __a, int __b); +__device__ int __nv_vsubss2(int __a, int __b); +__device__ int __nv_vsubss4(int __a, int __b); +__device__ int __nv_vsubus2(int __a, int __b); +__device__ int __nv_vsubus4(int __a, int __b); +__device__ double __nv_y0(double __a); +__device__ float __nv_y0f(float __a); +__device__ double __nv_y1(double __a); +__device__ float __nv_y1f(float __a); +__device__ float __nv_ynf(int __a, float __b); +__device__ double __nv_yn(int __a, double __b); + +} // extern "C" +#endif // __CLANG_CUDA_LIBDEVICE_DECLARES_H__ Index: cfe/trunk/lib/Headers/__clang_cuda_runtime_wrapper.h =================================================================== --- cfe/trunk/lib/Headers/__clang_cuda_runtime_wrapper.h +++ cfe/trunk/lib/Headers/__clang_cuda_runtime_wrapper.h @@ -62,7 +62,7 @@ #include "cuda.h" #if !defined(CUDA_VERSION) #error "cuda.h did not define CUDA_VERSION" -#elif CUDA_VERSION < 7000 || CUDA_VERSION > 9000 +#elif CUDA_VERSION < 7000 || CUDA_VERSION > 9010 #error "Unsupported CUDA version!" #endif @@ -84,6 +84,9 @@ #define __DEVICE_FUNCTIONS_H__ #define __MATH_FUNCTIONS_H__ #define __COMMON_FUNCTIONS_H__ +// device_functions_decls is replaced by __clang_cuda_device_functions.h +// included below. +#define __DEVICE_FUNCTIONS_DECLS_H__ #undef __CUDACC__ #if CUDA_VERSION < 9000 @@ -137,20 +140,22 @@ } #endif -// We need decls for functions in CUDA's libdevice with __device__ -// attribute only. Alas they come either as __host__ __device__ or -// with no attributes at all. To work around that, define __CUDA_RTC__ -// which produces HD variant and undef __host__ which gives us desided -// decls with __device__ attribute. -#pragma push_macro("__host__") -#define __host__ -#define __CUDACC_RTC__ -#include "device_functions_decls.h" -#undef __CUDACC_RTC__ +// CUDA 9.1 no longer provides declarations for libdevice functions, so we need +// to provide our own. +#include <__clang_cuda_libdevice_declares.h> + +// Wrappers for many device-side standard library functions became compiler +// builtins in CUDA-9 and have been removed from the CUDA headers. Clang now +// provides its own implementation of the wrappers. +#if CUDA_VERSION >= 9000 +#include <__clang_cuda_device_functions.h> +#endif -// Temporarily poison __host__ macro to ensure it's not used by any of -// the headers we're about to include. -#define __host__ UNEXPECTED_HOST_ATTRIBUTE +// __THROW is redefined to be empty by device_functions_decls.h in CUDA. Clang's +// counterpart does not do it, so we need to make it empty here to keep +// following CUDA includes happy. +#undef __THROW +#define __THROW // CUDA 8.0.41 relies on __USE_FAST_MATH__ and __CUDA_PREC_DIV's values. // Previous versions used to check whether they are defined or not. @@ -167,24 +172,20 @@ #endif #endif +// Temporarily poison __host__ macro to ensure it's not used by any of +// the headers we're about to include. +#pragma push_macro("__host__") +#define __host__ UNEXPECTED_HOST_ATTRIBUTE + // device_functions.hpp and math_functions*.hpp use 'static // __forceinline__' (with no __device__) for definitions of device // functions. Temporarily redefine __forceinline__ to include // __device__. #pragma push_macro("__forceinline__") #define __forceinline__ __device__ __inline__ __attribute__((always_inline)) - -#pragma push_macro("__float2half_rn") -#if CUDA_VERSION >= 9000 -// CUDA-9 has conflicting prototypes for __float2half_rn(float f) in -// cuda_fp16.h[pp] and device_functions.hpp. We need to get the one in -// device_functions.hpp out of the way. -#define __float2half_rn __float2half_rn_disabled -#endif - +#if CUDA_VERSION < 9000 #include "device_functions.hpp" -#pragma pop_macro("__float2half_rn") - +#endif // math_function.hpp uses the __USE_FAST_MATH__ macro to determine whether we // get the slow-but-accurate or fast-but-inaccurate versions of functions like @@ -196,17 +197,27 @@ #if defined(__CLANG_CUDA_APPROX_TRANSCENDENTALS__) #define __USE_FAST_MATH__ 1 #endif + +#if CUDA_VERSION >= 9000 +#include "crt/math_functions.hpp" +#else #include "math_functions.hpp" +#endif + #pragma pop_macro("__USE_FAST_MATH__") +#if CUDA_VERSION < 9000 #include "math_functions_dbl_ptx3.hpp" +#endif #pragma pop_macro("__forceinline__") // Pull in host-only functions that are only available when neither // __CUDACC__ nor __CUDABE__ are defined. #undef __MATH_FUNCTIONS_HPP__ #undef __CUDABE__ +#if CUDA_VERSION < 9000 #include "math_functions.hpp" +#endif // Alas, additional overloads for these functions are hard to get to. // Considering that we only need these overloads for a few functions, // we can provide them here. @@ -222,22 +233,36 @@ static inline float normcdf(float __a) { return normcdff(__a); } static inline float erfcx(float __a) { return erfcxf(__a); } +#if CUDA_VERSION < 9000 // For some reason single-argument variant is not always declared by // CUDA headers. Alas, device_functions.hpp included below needs it. static inline __device__ void __brkpt(int __c) { __brkpt(); } +#endif // Now include *.hpp with definitions of various GPU functions. Alas, // a lot of thins get declared/defined with __host__ attribute which // we don't want and we have to define it out. We also have to include // {device,math}_functions.hpp again in order to extract the other // branch of #if/else inside. - #define __host__ #undef __CUDABE__ #define __CUDACC__ +#if CUDA_VERSION >= 9000 +// Some atomic functions became compiler builtins in CUDA-9 , so we need their +// declarations. +#include "device_atomic_functions.h" +#endif #undef __DEVICE_FUNCTIONS_HPP__ #include "device_atomic_functions.hpp" +#if CUDA_VERSION >= 9000 +#include "crt/device_functions.hpp" +#include "crt/device_double_functions.hpp" +#else #include "device_functions.hpp" +#define __CUDABE__ +#include "device_double_functions.h" +#undef __CUDABE__ +#endif #include "sm_20_atomic_functions.hpp" #include "sm_20_intrinsics.hpp" #include "sm_32_atomic_functions.hpp" @@ -251,8 +276,11 @@ // reason about our code. #if CUDA_VERSION >= 8000 +#pragma push_macro("__CUDA_ARCH__") +#undef __CUDA_ARCH__ #include "sm_60_atomic_functions.hpp" #include "sm_61_intrinsics.hpp" +#pragma pop_macro("__CUDA_ARCH__") #endif #undef __MATH_FUNCTIONS_HPP__ @@ -279,7 +307,11 @@ #endif #endif +#if CUDA_VERSION >= 9000 +#include "crt/math_functions.hpp" +#else #include "math_functions.hpp" +#endif #pragma pop_macro("_GLIBCXX_MATH_H") #pragma pop_macro("_LIBCPP_VERSION") #pragma pop_macro("__GNUC__")