1 /*===---- __clang_cuda_device_functions.h - CUDA runtime support -----------===
2 *
3 * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 * See https://llvm.org/LICENSE.txt for license information.
5 * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 *
7 *===-----------------------------------------------------------------------===
8 */
9
10 #ifndef __CLANG_CUDA_DEVICE_FUNCTIONS_H__
11 #define __CLANG_CUDA_DEVICE_FUNCTIONS_H__
12
13 #ifndef __OPENMP_NVPTX__
14 #if CUDA_VERSION < 9000
15 #error This file is intended to be used with CUDA-9+ only.
16 #endif
17 #endif
18
19 // __DEVICE__ is a helper macro with common set of attributes for the wrappers
20 // we implement in this file. We need static in order to avoid emitting unused
21 // functions and __forceinline__ helps inlining these wrappers at -O1.
22 #pragma push_macro("__DEVICE__")
23 #ifdef __OPENMP_NVPTX__
24 #define __DEVICE__ static __attribute__((always_inline, nothrow))
25 #else
26 #define __DEVICE__ static __device__ __forceinline__
27 #endif
28
__all(int __a)29 __DEVICE__ int __all(int __a) { return __nvvm_vote_all(__a); }
__any(int __a)30 __DEVICE__ int __any(int __a) { return __nvvm_vote_any(__a); }
__ballot(int __a)31 __DEVICE__ unsigned int __ballot(int __a) { return __nvvm_vote_ballot(__a); }
__brev(unsigned int __a)32 __DEVICE__ unsigned int __brev(unsigned int __a) { return __nv_brev(__a); }
__brevll(unsigned long long __a)33 __DEVICE__ unsigned long long __brevll(unsigned long long __a) {
34 return __nv_brevll(__a);
35 }
36 #if defined(__cplusplus)
__brkpt()37 __DEVICE__ void __brkpt() { asm volatile("brkpt;"); }
__brkpt(int __a)38 __DEVICE__ void __brkpt(int __a) { __brkpt(); }
39 #else
__brkpt(void)40 __DEVICE__ void __attribute__((overloadable)) __brkpt(void) { asm volatile("brkpt;"); }
__brkpt(int __a)41 __DEVICE__ void __attribute__((overloadable)) __brkpt(int __a) { __brkpt(); }
42 #endif
__byte_perm(unsigned int __a,unsigned int __b,unsigned int __c)43 __DEVICE__ unsigned int __byte_perm(unsigned int __a, unsigned int __b,
44 unsigned int __c) {
45 return __nv_byte_perm(__a, __b, __c);
46 }
__clz(int __a)47 __DEVICE__ int __clz(int __a) { return __nv_clz(__a); }
__clzll(long long __a)48 __DEVICE__ int __clzll(long long __a) { return __nv_clzll(__a); }
__cosf(float __a)49 __DEVICE__ float __cosf(float __a) { return __nv_fast_cosf(__a); }
__dAtomicAdd(double * __p,double __v)50 __DEVICE__ double __dAtomicAdd(double *__p, double __v) {
51 return __nvvm_atom_add_gen_d(__p, __v);
52 }
__dAtomicAdd_block(double * __p,double __v)53 __DEVICE__ double __dAtomicAdd_block(double *__p, double __v) {
54 return __nvvm_atom_cta_add_gen_d(__p, __v);
55 }
__dAtomicAdd_system(double * __p,double __v)56 __DEVICE__ double __dAtomicAdd_system(double *__p, double __v) {
57 return __nvvm_atom_sys_add_gen_d(__p, __v);
58 }
__dadd_rd(double __a,double __b)59 __DEVICE__ double __dadd_rd(double __a, double __b) {
60 return __nv_dadd_rd(__a, __b);
61 }
__dadd_rn(double __a,double __b)62 __DEVICE__ double __dadd_rn(double __a, double __b) {
63 return __nv_dadd_rn(__a, __b);
64 }
__dadd_ru(double __a,double __b)65 __DEVICE__ double __dadd_ru(double __a, double __b) {
66 return __nv_dadd_ru(__a, __b);
67 }
__dadd_rz(double __a,double __b)68 __DEVICE__ double __dadd_rz(double __a, double __b) {
69 return __nv_dadd_rz(__a, __b);
70 }
__ddiv_rd(double __a,double __b)71 __DEVICE__ double __ddiv_rd(double __a, double __b) {
72 return __nv_ddiv_rd(__a, __b);
73 }
__ddiv_rn(double __a,double __b)74 __DEVICE__ double __ddiv_rn(double __a, double __b) {
75 return __nv_ddiv_rn(__a, __b);
76 }
__ddiv_ru(double __a,double __b)77 __DEVICE__ double __ddiv_ru(double __a, double __b) {
78 return __nv_ddiv_ru(__a, __b);
79 }
__ddiv_rz(double __a,double __b)80 __DEVICE__ double __ddiv_rz(double __a, double __b) {
81 return __nv_ddiv_rz(__a, __b);
82 }
__dmul_rd(double __a,double __b)83 __DEVICE__ double __dmul_rd(double __a, double __b) {
84 return __nv_dmul_rd(__a, __b);
85 }
__dmul_rn(double __a,double __b)86 __DEVICE__ double __dmul_rn(double __a, double __b) {
87 return __nv_dmul_rn(__a, __b);
88 }
__dmul_ru(double __a,double __b)89 __DEVICE__ double __dmul_ru(double __a, double __b) {
90 return __nv_dmul_ru(__a, __b);
91 }
__dmul_rz(double __a,double __b)92 __DEVICE__ double __dmul_rz(double __a, double __b) {
93 return __nv_dmul_rz(__a, __b);
94 }
__double2float_rd(double __a)95 __DEVICE__ float __double2float_rd(double __a) {
96 return __nv_double2float_rd(__a);
97 }
__double2float_rn(double __a)98 __DEVICE__ float __double2float_rn(double __a) {
99 return __nv_double2float_rn(__a);
100 }
__double2float_ru(double __a)101 __DEVICE__ float __double2float_ru(double __a) {
102 return __nv_double2float_ru(__a);
103 }
__double2float_rz(double __a)104 __DEVICE__ float __double2float_rz(double __a) {
105 return __nv_double2float_rz(__a);
106 }
__double2hiint(double __a)107 __DEVICE__ int __double2hiint(double __a) { return __nv_double2hiint(__a); }
__double2int_rd(double __a)108 __DEVICE__ int __double2int_rd(double __a) { return __nv_double2int_rd(__a); }
__double2int_rn(double __a)109 __DEVICE__ int __double2int_rn(double __a) { return __nv_double2int_rn(__a); }
__double2int_ru(double __a)110 __DEVICE__ int __double2int_ru(double __a) { return __nv_double2int_ru(__a); }
__double2int_rz(double __a)111 __DEVICE__ int __double2int_rz(double __a) { return __nv_double2int_rz(__a); }
__double2ll_rd(double __a)112 __DEVICE__ long long __double2ll_rd(double __a) {
113 return __nv_double2ll_rd(__a);
114 }
__double2ll_rn(double __a)115 __DEVICE__ long long __double2ll_rn(double __a) {
116 return __nv_double2ll_rn(__a);
117 }
__double2ll_ru(double __a)118 __DEVICE__ long long __double2ll_ru(double __a) {
119 return __nv_double2ll_ru(__a);
120 }
__double2ll_rz(double __a)121 __DEVICE__ long long __double2ll_rz(double __a) {
122 return __nv_double2ll_rz(__a);
123 }
__double2loint(double __a)124 __DEVICE__ int __double2loint(double __a) { return __nv_double2loint(__a); }
__double2uint_rd(double __a)125 __DEVICE__ unsigned int __double2uint_rd(double __a) {
126 return __nv_double2uint_rd(__a);
127 }
__double2uint_rn(double __a)128 __DEVICE__ unsigned int __double2uint_rn(double __a) {
129 return __nv_double2uint_rn(__a);
130 }
__double2uint_ru(double __a)131 __DEVICE__ unsigned int __double2uint_ru(double __a) {
132 return __nv_double2uint_ru(__a);
133 }
__double2uint_rz(double __a)134 __DEVICE__ unsigned int __double2uint_rz(double __a) {
135 return __nv_double2uint_rz(__a);
136 }
__double2ull_rd(double __a)137 __DEVICE__ unsigned long long __double2ull_rd(double __a) {
138 return __nv_double2ull_rd(__a);
139 }
__double2ull_rn(double __a)140 __DEVICE__ unsigned long long __double2ull_rn(double __a) {
141 return __nv_double2ull_rn(__a);
142 }
__double2ull_ru(double __a)143 __DEVICE__ unsigned long long __double2ull_ru(double __a) {
144 return __nv_double2ull_ru(__a);
145 }
__double2ull_rz(double __a)146 __DEVICE__ unsigned long long __double2ull_rz(double __a) {
147 return __nv_double2ull_rz(__a);
148 }
__double_as_longlong(double __a)149 __DEVICE__ long long __double_as_longlong(double __a) {
150 return __nv_double_as_longlong(__a);
151 }
__drcp_rd(double __a)152 __DEVICE__ double __drcp_rd(double __a) { return __nv_drcp_rd(__a); }
__drcp_rn(double __a)153 __DEVICE__ double __drcp_rn(double __a) { return __nv_drcp_rn(__a); }
__drcp_ru(double __a)154 __DEVICE__ double __drcp_ru(double __a) { return __nv_drcp_ru(__a); }
__drcp_rz(double __a)155 __DEVICE__ double __drcp_rz(double __a) { return __nv_drcp_rz(__a); }
__dsqrt_rd(double __a)156 __DEVICE__ double __dsqrt_rd(double __a) { return __nv_dsqrt_rd(__a); }
__dsqrt_rn(double __a)157 __DEVICE__ double __dsqrt_rn(double __a) { return __nv_dsqrt_rn(__a); }
__dsqrt_ru(double __a)158 __DEVICE__ double __dsqrt_ru(double __a) { return __nv_dsqrt_ru(__a); }
__dsqrt_rz(double __a)159 __DEVICE__ double __dsqrt_rz(double __a) { return __nv_dsqrt_rz(__a); }
__dsub_rd(double __a,double __b)160 __DEVICE__ double __dsub_rd(double __a, double __b) {
161 return __nv_dsub_rd(__a, __b);
162 }
__dsub_rn(double __a,double __b)163 __DEVICE__ double __dsub_rn(double __a, double __b) {
164 return __nv_dsub_rn(__a, __b);
165 }
__dsub_ru(double __a,double __b)166 __DEVICE__ double __dsub_ru(double __a, double __b) {
167 return __nv_dsub_ru(__a, __b);
168 }
__dsub_rz(double __a,double __b)169 __DEVICE__ double __dsub_rz(double __a, double __b) {
170 return __nv_dsub_rz(__a, __b);
171 }
__exp10f(float __a)172 __DEVICE__ float __exp10f(float __a) { return __nv_fast_exp10f(__a); }
__expf(float __a)173 __DEVICE__ float __expf(float __a) { return __nv_fast_expf(__a); }
__fAtomicAdd(float * __p,float __v)174 __DEVICE__ float __fAtomicAdd(float *__p, float __v) {
175 return __nvvm_atom_add_gen_f(__p, __v);
176 }
__fAtomicAdd_block(float * __p,float __v)177 __DEVICE__ float __fAtomicAdd_block(float *__p, float __v) {
178 return __nvvm_atom_cta_add_gen_f(__p, __v);
179 }
__fAtomicAdd_system(float * __p,float __v)180 __DEVICE__ float __fAtomicAdd_system(float *__p, float __v) {
181 return __nvvm_atom_sys_add_gen_f(__p, __v);
182 }
__fAtomicExch(float * __p,float __v)183 __DEVICE__ float __fAtomicExch(float *__p, float __v) {
184 return __nv_int_as_float(
185 __nvvm_atom_xchg_gen_i((int *)__p, __nv_float_as_int(__v)));
186 }
__fAtomicExch_block(float * __p,float __v)187 __DEVICE__ float __fAtomicExch_block(float *__p, float __v) {
188 return __nv_int_as_float(
189 __nvvm_atom_cta_xchg_gen_i((int *)__p, __nv_float_as_int(__v)));
190 }
__fAtomicExch_system(float * __p,float __v)191 __DEVICE__ float __fAtomicExch_system(float *__p, float __v) {
192 return __nv_int_as_float(
193 __nvvm_atom_sys_xchg_gen_i((int *)__p, __nv_float_as_int(__v)));
194 }
__fadd_rd(float __a,float __b)195 __DEVICE__ float __fadd_rd(float __a, float __b) {
196 return __nv_fadd_rd(__a, __b);
197 }
__fadd_rn(float __a,float __b)198 __DEVICE__ float __fadd_rn(float __a, float __b) {
199 return __nv_fadd_rn(__a, __b);
200 }
__fadd_ru(float __a,float __b)201 __DEVICE__ float __fadd_ru(float __a, float __b) {
202 return __nv_fadd_ru(__a, __b);
203 }
__fadd_rz(float __a,float __b)204 __DEVICE__ float __fadd_rz(float __a, float __b) {
205 return __nv_fadd_rz(__a, __b);
206 }
__fdiv_rd(float __a,float __b)207 __DEVICE__ float __fdiv_rd(float __a, float __b) {
208 return __nv_fdiv_rd(__a, __b);
209 }
__fdiv_rn(float __a,float __b)210 __DEVICE__ float __fdiv_rn(float __a, float __b) {
211 return __nv_fdiv_rn(__a, __b);
212 }
__fdiv_ru(float __a,float __b)213 __DEVICE__ float __fdiv_ru(float __a, float __b) {
214 return __nv_fdiv_ru(__a, __b);
215 }
__fdiv_rz(float __a,float __b)216 __DEVICE__ float __fdiv_rz(float __a, float __b) {
217 return __nv_fdiv_rz(__a, __b);
218 }
__fdividef(float __a,float __b)219 __DEVICE__ float __fdividef(float __a, float __b) {
220 return __nv_fast_fdividef(__a, __b);
221 }
__ffs(int __a)222 __DEVICE__ int __ffs(int __a) { return __nv_ffs(__a); }
__ffsll(long long __a)223 __DEVICE__ int __ffsll(long long __a) { return __nv_ffsll(__a); }
__finite(double __a)224 __DEVICE__ int __finite(double __a) { return __nv_isfinited(__a); }
__finitef(float __a)225 __DEVICE__ int __finitef(float __a) { return __nv_finitef(__a); }
226 #ifdef _MSC_VER
227 __DEVICE__ int __finitel(long double __a);
228 #endif
__float2int_rd(float __a)229 __DEVICE__ int __float2int_rd(float __a) { return __nv_float2int_rd(__a); }
__float2int_rn(float __a)230 __DEVICE__ int __float2int_rn(float __a) { return __nv_float2int_rn(__a); }
__float2int_ru(float __a)231 __DEVICE__ int __float2int_ru(float __a) { return __nv_float2int_ru(__a); }
__float2int_rz(float __a)232 __DEVICE__ int __float2int_rz(float __a) { return __nv_float2int_rz(__a); }
__float2ll_rd(float __a)233 __DEVICE__ long long __float2ll_rd(float __a) { return __nv_float2ll_rd(__a); }
__float2ll_rn(float __a)234 __DEVICE__ long long __float2ll_rn(float __a) { return __nv_float2ll_rn(__a); }
__float2ll_ru(float __a)235 __DEVICE__ long long __float2ll_ru(float __a) { return __nv_float2ll_ru(__a); }
__float2ll_rz(float __a)236 __DEVICE__ long long __float2ll_rz(float __a) { return __nv_float2ll_rz(__a); }
__float2uint_rd(float __a)237 __DEVICE__ unsigned int __float2uint_rd(float __a) {
238 return __nv_float2uint_rd(__a);
239 }
__float2uint_rn(float __a)240 __DEVICE__ unsigned int __float2uint_rn(float __a) {
241 return __nv_float2uint_rn(__a);
242 }
__float2uint_ru(float __a)243 __DEVICE__ unsigned int __float2uint_ru(float __a) {
244 return __nv_float2uint_ru(__a);
245 }
__float2uint_rz(float __a)246 __DEVICE__ unsigned int __float2uint_rz(float __a) {
247 return __nv_float2uint_rz(__a);
248 }
__float2ull_rd(float __a)249 __DEVICE__ unsigned long long __float2ull_rd(float __a) {
250 return __nv_float2ull_rd(__a);
251 }
__float2ull_rn(float __a)252 __DEVICE__ unsigned long long __float2ull_rn(float __a) {
253 return __nv_float2ull_rn(__a);
254 }
__float2ull_ru(float __a)255 __DEVICE__ unsigned long long __float2ull_ru(float __a) {
256 return __nv_float2ull_ru(__a);
257 }
__float2ull_rz(float __a)258 __DEVICE__ unsigned long long __float2ull_rz(float __a) {
259 return __nv_float2ull_rz(__a);
260 }
__float_as_int(float __a)261 __DEVICE__ int __float_as_int(float __a) { return __nv_float_as_int(__a); }
__float_as_uint(float __a)262 __DEVICE__ unsigned int __float_as_uint(float __a) {
263 return __nv_float_as_uint(__a);
264 }
__fma_rd(double __a,double __b,double __c)265 __DEVICE__ double __fma_rd(double __a, double __b, double __c) {
266 return __nv_fma_rd(__a, __b, __c);
267 }
__fma_rn(double __a,double __b,double __c)268 __DEVICE__ double __fma_rn(double __a, double __b, double __c) {
269 return __nv_fma_rn(__a, __b, __c);
270 }
__fma_ru(double __a,double __b,double __c)271 __DEVICE__ double __fma_ru(double __a, double __b, double __c) {
272 return __nv_fma_ru(__a, __b, __c);
273 }
__fma_rz(double __a,double __b,double __c)274 __DEVICE__ double __fma_rz(double __a, double __b, double __c) {
275 return __nv_fma_rz(__a, __b, __c);
276 }
__fmaf_ieee_rd(float __a,float __b,float __c)277 __DEVICE__ float __fmaf_ieee_rd(float __a, float __b, float __c) {
278 return __nv_fmaf_ieee_rd(__a, __b, __c);
279 }
__fmaf_ieee_rn(float __a,float __b,float __c)280 __DEVICE__ float __fmaf_ieee_rn(float __a, float __b, float __c) {
281 return __nv_fmaf_ieee_rn(__a, __b, __c);
282 }
__fmaf_ieee_ru(float __a,float __b,float __c)283 __DEVICE__ float __fmaf_ieee_ru(float __a, float __b, float __c) {
284 return __nv_fmaf_ieee_ru(__a, __b, __c);
285 }
__fmaf_ieee_rz(float __a,float __b,float __c)286 __DEVICE__ float __fmaf_ieee_rz(float __a, float __b, float __c) {
287 return __nv_fmaf_ieee_rz(__a, __b, __c);
288 }
__fmaf_rd(float __a,float __b,float __c)289 __DEVICE__ float __fmaf_rd(float __a, float __b, float __c) {
290 return __nv_fmaf_rd(__a, __b, __c);
291 }
__fmaf_rn(float __a,float __b,float __c)292 __DEVICE__ float __fmaf_rn(float __a, float __b, float __c) {
293 return __nv_fmaf_rn(__a, __b, __c);
294 }
__fmaf_ru(float __a,float __b,float __c)295 __DEVICE__ float __fmaf_ru(float __a, float __b, float __c) {
296 return __nv_fmaf_ru(__a, __b, __c);
297 }
__fmaf_rz(float __a,float __b,float __c)298 __DEVICE__ float __fmaf_rz(float __a, float __b, float __c) {
299 return __nv_fmaf_rz(__a, __b, __c);
300 }
__fmul_rd(float __a,float __b)301 __DEVICE__ float __fmul_rd(float __a, float __b) {
302 return __nv_fmul_rd(__a, __b);
303 }
__fmul_rn(float __a,float __b)304 __DEVICE__ float __fmul_rn(float __a, float __b) {
305 return __nv_fmul_rn(__a, __b);
306 }
__fmul_ru(float __a,float __b)307 __DEVICE__ float __fmul_ru(float __a, float __b) {
308 return __nv_fmul_ru(__a, __b);
309 }
__fmul_rz(float __a,float __b)310 __DEVICE__ float __fmul_rz(float __a, float __b) {
311 return __nv_fmul_rz(__a, __b);
312 }
__frcp_rd(float __a)313 __DEVICE__ float __frcp_rd(float __a) { return __nv_frcp_rd(__a); }
__frcp_rn(float __a)314 __DEVICE__ float __frcp_rn(float __a) { return __nv_frcp_rn(__a); }
__frcp_ru(float __a)315 __DEVICE__ float __frcp_ru(float __a) { return __nv_frcp_ru(__a); }
__frcp_rz(float __a)316 __DEVICE__ float __frcp_rz(float __a) { return __nv_frcp_rz(__a); }
__frsqrt_rn(float __a)317 __DEVICE__ float __frsqrt_rn(float __a) { return __nv_frsqrt_rn(__a); }
__fsqrt_rd(float __a)318 __DEVICE__ float __fsqrt_rd(float __a) { return __nv_fsqrt_rd(__a); }
__fsqrt_rn(float __a)319 __DEVICE__ float __fsqrt_rn(float __a) { return __nv_fsqrt_rn(__a); }
__fsqrt_ru(float __a)320 __DEVICE__ float __fsqrt_ru(float __a) { return __nv_fsqrt_ru(__a); }
__fsqrt_rz(float __a)321 __DEVICE__ float __fsqrt_rz(float __a) { return __nv_fsqrt_rz(__a); }
__fsub_rd(float __a,float __b)322 __DEVICE__ float __fsub_rd(float __a, float __b) {
323 return __nv_fsub_rd(__a, __b);
324 }
__fsub_rn(float __a,float __b)325 __DEVICE__ float __fsub_rn(float __a, float __b) {
326 return __nv_fsub_rn(__a, __b);
327 }
__fsub_ru(float __a,float __b)328 __DEVICE__ float __fsub_ru(float __a, float __b) {
329 return __nv_fsub_ru(__a, __b);
330 }
__fsub_rz(float __a,float __b)331 __DEVICE__ float __fsub_rz(float __a, float __b) {
332 return __nv_fsub_rz(__a, __b);
333 }
__hadd(int __a,int __b)334 __DEVICE__ int __hadd(int __a, int __b) { return __nv_hadd(__a, __b); }
__hiloint2double(int __a,int __b)335 __DEVICE__ double __hiloint2double(int __a, int __b) {
336 return __nv_hiloint2double(__a, __b);
337 }
__iAtomicAdd(int * __p,int __v)338 __DEVICE__ int __iAtomicAdd(int *__p, int __v) {
339 return __nvvm_atom_add_gen_i(__p, __v);
340 }
__iAtomicAdd_block(int * __p,int __v)341 __DEVICE__ int __iAtomicAdd_block(int *__p, int __v) {
342 return __nvvm_atom_cta_add_gen_i(__p, __v);
343 }
__iAtomicAdd_system(int * __p,int __v)344 __DEVICE__ int __iAtomicAdd_system(int *__p, int __v) {
345 return __nvvm_atom_sys_add_gen_i(__p, __v);
346 }
__iAtomicAnd(int * __p,int __v)347 __DEVICE__ int __iAtomicAnd(int *__p, int __v) {
348 return __nvvm_atom_and_gen_i(__p, __v);
349 }
__iAtomicAnd_block(int * __p,int __v)350 __DEVICE__ int __iAtomicAnd_block(int *__p, int __v) {
351 return __nvvm_atom_cta_and_gen_i(__p, __v);
352 }
__iAtomicAnd_system(int * __p,int __v)353 __DEVICE__ int __iAtomicAnd_system(int *__p, int __v) {
354 return __nvvm_atom_sys_and_gen_i(__p, __v);
355 }
__iAtomicCAS(int * __p,int __cmp,int __v)356 __DEVICE__ int __iAtomicCAS(int *__p, int __cmp, int __v) {
357 return __nvvm_atom_cas_gen_i(__p, __cmp, __v);
358 }
__iAtomicCAS_block(int * __p,int __cmp,int __v)359 __DEVICE__ int __iAtomicCAS_block(int *__p, int __cmp, int __v) {
360 return __nvvm_atom_cta_cas_gen_i(__p, __cmp, __v);
361 }
__iAtomicCAS_system(int * __p,int __cmp,int __v)362 __DEVICE__ int __iAtomicCAS_system(int *__p, int __cmp, int __v) {
363 return __nvvm_atom_sys_cas_gen_i(__p, __cmp, __v);
364 }
__iAtomicExch(int * __p,int __v)365 __DEVICE__ int __iAtomicExch(int *__p, int __v) {
366 return __nvvm_atom_xchg_gen_i(__p, __v);
367 }
__iAtomicExch_block(int * __p,int __v)368 __DEVICE__ int __iAtomicExch_block(int *__p, int __v) {
369 return __nvvm_atom_cta_xchg_gen_i(__p, __v);
370 }
__iAtomicExch_system(int * __p,int __v)371 __DEVICE__ int __iAtomicExch_system(int *__p, int __v) {
372 return __nvvm_atom_sys_xchg_gen_i(__p, __v);
373 }
__iAtomicMax(int * __p,int __v)374 __DEVICE__ int __iAtomicMax(int *__p, int __v) {
375 return __nvvm_atom_max_gen_i(__p, __v);
376 }
__iAtomicMax_block(int * __p,int __v)377 __DEVICE__ int __iAtomicMax_block(int *__p, int __v) {
378 return __nvvm_atom_cta_max_gen_i(__p, __v);
379 }
__iAtomicMax_system(int * __p,int __v)380 __DEVICE__ int __iAtomicMax_system(int *__p, int __v) {
381 return __nvvm_atom_sys_max_gen_i(__p, __v);
382 }
__iAtomicMin(int * __p,int __v)383 __DEVICE__ int __iAtomicMin(int *__p, int __v) {
384 return __nvvm_atom_min_gen_i(__p, __v);
385 }
__iAtomicMin_block(int * __p,int __v)386 __DEVICE__ int __iAtomicMin_block(int *__p, int __v) {
387 return __nvvm_atom_cta_min_gen_i(__p, __v);
388 }
__iAtomicMin_system(int * __p,int __v)389 __DEVICE__ int __iAtomicMin_system(int *__p, int __v) {
390 return __nvvm_atom_sys_min_gen_i(__p, __v);
391 }
__iAtomicOr(int * __p,int __v)392 __DEVICE__ int __iAtomicOr(int *__p, int __v) {
393 return __nvvm_atom_or_gen_i(__p, __v);
394 }
__iAtomicOr_block(int * __p,int __v)395 __DEVICE__ int __iAtomicOr_block(int *__p, int __v) {
396 return __nvvm_atom_cta_or_gen_i(__p, __v);
397 }
__iAtomicOr_system(int * __p,int __v)398 __DEVICE__ int __iAtomicOr_system(int *__p, int __v) {
399 return __nvvm_atom_sys_or_gen_i(__p, __v);
400 }
__iAtomicXor(int * __p,int __v)401 __DEVICE__ int __iAtomicXor(int *__p, int __v) {
402 return __nvvm_atom_xor_gen_i(__p, __v);
403 }
__iAtomicXor_block(int * __p,int __v)404 __DEVICE__ int __iAtomicXor_block(int *__p, int __v) {
405 return __nvvm_atom_cta_xor_gen_i(__p, __v);
406 }
__iAtomicXor_system(int * __p,int __v)407 __DEVICE__ int __iAtomicXor_system(int *__p, int __v) {
408 return __nvvm_atom_sys_xor_gen_i(__p, __v);
409 }
__illAtomicMax(long long * __p,long long __v)410 __DEVICE__ long long __illAtomicMax(long long *__p, long long __v) {
411 return __nvvm_atom_max_gen_ll(__p, __v);
412 }
__illAtomicMax_block(long long * __p,long long __v)413 __DEVICE__ long long __illAtomicMax_block(long long *__p, long long __v) {
414 return __nvvm_atom_cta_max_gen_ll(__p, __v);
415 }
__illAtomicMax_system(long long * __p,long long __v)416 __DEVICE__ long long __illAtomicMax_system(long long *__p, long long __v) {
417 return __nvvm_atom_sys_max_gen_ll(__p, __v);
418 }
__illAtomicMin(long long * __p,long long __v)419 __DEVICE__ long long __illAtomicMin(long long *__p, long long __v) {
420 return __nvvm_atom_min_gen_ll(__p, __v);
421 }
__illAtomicMin_block(long long * __p,long long __v)422 __DEVICE__ long long __illAtomicMin_block(long long *__p, long long __v) {
423 return __nvvm_atom_cta_min_gen_ll(__p, __v);
424 }
__illAtomicMin_system(long long * __p,long long __v)425 __DEVICE__ long long __illAtomicMin_system(long long *__p, long long __v) {
426 return __nvvm_atom_sys_min_gen_ll(__p, __v);
427 }
__int2double_rn(int __a)428 __DEVICE__ double __int2double_rn(int __a) { return __nv_int2double_rn(__a); }
__int2float_rd(int __a)429 __DEVICE__ float __int2float_rd(int __a) { return __nv_int2float_rd(__a); }
__int2float_rn(int __a)430 __DEVICE__ float __int2float_rn(int __a) { return __nv_int2float_rn(__a); }
__int2float_ru(int __a)431 __DEVICE__ float __int2float_ru(int __a) { return __nv_int2float_ru(__a); }
__int2float_rz(int __a)432 __DEVICE__ float __int2float_rz(int __a) { return __nv_int2float_rz(__a); }
__int_as_float(int __a)433 __DEVICE__ float __int_as_float(int __a) { return __nv_int_as_float(__a); }
__isfinited(double __a)434 __DEVICE__ int __isfinited(double __a) { return __nv_isfinited(__a); }
__isinf(double __a)435 __DEVICE__ int __isinf(double __a) { return __nv_isinfd(__a); }
__isinff(float __a)436 __DEVICE__ int __isinff(float __a) { return __nv_isinff(__a); }
437 #ifdef _MSC_VER
438 __DEVICE__ int __isinfl(long double __a);
439 #endif
__isnan(double __a)440 __DEVICE__ int __isnan(double __a) { return __nv_isnand(__a); }
__isnanf(float __a)441 __DEVICE__ int __isnanf(float __a) { return __nv_isnanf(__a); }
442 #ifdef _MSC_VER
443 __DEVICE__ int __isnanl(long double __a);
444 #endif
__ll2double_rd(long long __a)445 __DEVICE__ double __ll2double_rd(long long __a) {
446 return __nv_ll2double_rd(__a);
447 }
__ll2double_rn(long long __a)448 __DEVICE__ double __ll2double_rn(long long __a) {
449 return __nv_ll2double_rn(__a);
450 }
__ll2double_ru(long long __a)451 __DEVICE__ double __ll2double_ru(long long __a) {
452 return __nv_ll2double_ru(__a);
453 }
__ll2double_rz(long long __a)454 __DEVICE__ double __ll2double_rz(long long __a) {
455 return __nv_ll2double_rz(__a);
456 }
__ll2float_rd(long long __a)457 __DEVICE__ float __ll2float_rd(long long __a) { return __nv_ll2float_rd(__a); }
__ll2float_rn(long long __a)458 __DEVICE__ float __ll2float_rn(long long __a) { return __nv_ll2float_rn(__a); }
__ll2float_ru(long long __a)459 __DEVICE__ float __ll2float_ru(long long __a) { return __nv_ll2float_ru(__a); }
__ll2float_rz(long long __a)460 __DEVICE__ float __ll2float_rz(long long __a) { return __nv_ll2float_rz(__a); }
__llAtomicAnd(long long * __p,long long __v)461 __DEVICE__ long long __llAtomicAnd(long long *__p, long long __v) {
462 return __nvvm_atom_and_gen_ll(__p, __v);
463 }
__llAtomicAnd_block(long long * __p,long long __v)464 __DEVICE__ long long __llAtomicAnd_block(long long *__p, long long __v) {
465 return __nvvm_atom_cta_and_gen_ll(__p, __v);
466 }
__llAtomicAnd_system(long long * __p,long long __v)467 __DEVICE__ long long __llAtomicAnd_system(long long *__p, long long __v) {
468 return __nvvm_atom_sys_and_gen_ll(__p, __v);
469 }
__llAtomicOr(long long * __p,long long __v)470 __DEVICE__ long long __llAtomicOr(long long *__p, long long __v) {
471 return __nvvm_atom_or_gen_ll(__p, __v);
472 }
__llAtomicOr_block(long long * __p,long long __v)473 __DEVICE__ long long __llAtomicOr_block(long long *__p, long long __v) {
474 return __nvvm_atom_cta_or_gen_ll(__p, __v);
475 }
__llAtomicOr_system(long long * __p,long long __v)476 __DEVICE__ long long __llAtomicOr_system(long long *__p, long long __v) {
477 return __nvvm_atom_sys_or_gen_ll(__p, __v);
478 }
__llAtomicXor(long long * __p,long long __v)479 __DEVICE__ long long __llAtomicXor(long long *__p, long long __v) {
480 return __nvvm_atom_xor_gen_ll(__p, __v);
481 }
__llAtomicXor_block(long long * __p,long long __v)482 __DEVICE__ long long __llAtomicXor_block(long long *__p, long long __v) {
483 return __nvvm_atom_cta_xor_gen_ll(__p, __v);
484 }
__llAtomicXor_system(long long * __p,long long __v)485 __DEVICE__ long long __llAtomicXor_system(long long *__p, long long __v) {
486 return __nvvm_atom_sys_xor_gen_ll(__p, __v);
487 }
__log10f(float __a)488 __DEVICE__ float __log10f(float __a) { return __nv_fast_log10f(__a); }
__log2f(float __a)489 __DEVICE__ float __log2f(float __a) { return __nv_fast_log2f(__a); }
__logf(float __a)490 __DEVICE__ float __logf(float __a) { return __nv_fast_logf(__a); }
__longlong_as_double(long long __a)491 __DEVICE__ double __longlong_as_double(long long __a) {
492 return __nv_longlong_as_double(__a);
493 }
__mul24(int __a,int __b)494 __DEVICE__ int __mul24(int __a, int __b) { return __nv_mul24(__a, __b); }
__mul64hi(long long __a,long long __b)495 __DEVICE__ long long __mul64hi(long long __a, long long __b) {
496 return __nv_mul64hi(__a, __b);
497 }
__mulhi(int __a,int __b)498 __DEVICE__ int __mulhi(int __a, int __b) { return __nv_mulhi(__a, __b); }
__pm0(void)499 __DEVICE__ unsigned int __pm0(void) { return __nvvm_read_ptx_sreg_pm0(); }
__pm1(void)500 __DEVICE__ unsigned int __pm1(void) { return __nvvm_read_ptx_sreg_pm1(); }
__pm2(void)501 __DEVICE__ unsigned int __pm2(void) { return __nvvm_read_ptx_sreg_pm2(); }
__pm3(void)502 __DEVICE__ unsigned int __pm3(void) { return __nvvm_read_ptx_sreg_pm3(); }
__popc(int __a)503 __DEVICE__ int __popc(int __a) { return __nv_popc(__a); }
__popcll(long long __a)504 __DEVICE__ int __popcll(long long __a) { return __nv_popcll(__a); }
__powf(float __a,float __b)505 __DEVICE__ float __powf(float __a, float __b) {
506 return __nv_fast_powf(__a, __b);
507 }
508
509 // Parameter must have a known integer value.
510 #define __prof_trigger(__a) asm __volatile__("pmevent \t%0;" ::"i"(__a))
__rhadd(int __a,int __b)511 __DEVICE__ int __rhadd(int __a, int __b) { return __nv_rhadd(__a, __b); }
__sad(int __a,int __b,unsigned int __c)512 __DEVICE__ unsigned int __sad(int __a, int __b, unsigned int __c) {
513 return __nv_sad(__a, __b, __c);
514 }
__saturatef(float __a)515 __DEVICE__ float __saturatef(float __a) { return __nv_saturatef(__a); }
__signbitd(double __a)516 __DEVICE__ int __signbitd(double __a) { return __nv_signbitd(__a); }
__signbitf(float __a)517 __DEVICE__ int __signbitf(float __a) { return __nv_signbitf(__a); }
__sincosf(float __a,float * __s,float * __c)518 __DEVICE__ void __sincosf(float __a, float *__s, float *__c) {
519 return __nv_fast_sincosf(__a, __s, __c);
520 }
__sinf(float __a)521 __DEVICE__ float __sinf(float __a) { return __nv_fast_sinf(__a); }
__syncthreads_and(int __a)522 __DEVICE__ int __syncthreads_and(int __a) { return __nvvm_bar0_and(__a); }
__syncthreads_count(int __a)523 __DEVICE__ int __syncthreads_count(int __a) { return __nvvm_bar0_popc(__a); }
__syncthreads_or(int __a)524 __DEVICE__ int __syncthreads_or(int __a) { return __nvvm_bar0_or(__a); }
__tanf(float __a)525 __DEVICE__ float __tanf(float __a) { return __nv_fast_tanf(__a); }
__threadfence(void)526 __DEVICE__ void __threadfence(void) { __nvvm_membar_gl(); }
__threadfence_block(void)527 __DEVICE__ void __threadfence_block(void) { __nvvm_membar_cta(); };
__threadfence_system(void)528 __DEVICE__ void __threadfence_system(void) { __nvvm_membar_sys(); };
__trap(void)529 __DEVICE__ void __trap(void) { asm volatile("trap;"); }
__uAtomicAdd(unsigned int * __p,unsigned int __v)530 __DEVICE__ unsigned int __uAtomicAdd(unsigned int *__p, unsigned int __v) {
531 return __nvvm_atom_add_gen_i((int *)__p, __v);
532 }
__uAtomicAdd_block(unsigned int * __p,unsigned int __v)533 __DEVICE__ unsigned int __uAtomicAdd_block(unsigned int *__p,
534 unsigned int __v) {
535 return __nvvm_atom_cta_add_gen_i((int *)__p, __v);
536 }
__uAtomicAdd_system(unsigned int * __p,unsigned int __v)537 __DEVICE__ unsigned int __uAtomicAdd_system(unsigned int *__p,
538 unsigned int __v) {
539 return __nvvm_atom_sys_add_gen_i((int *)__p, __v);
540 }
__uAtomicAnd(unsigned int * __p,unsigned int __v)541 __DEVICE__ unsigned int __uAtomicAnd(unsigned int *__p, unsigned int __v) {
542 return __nvvm_atom_and_gen_i((int *)__p, __v);
543 }
__uAtomicAnd_block(unsigned int * __p,unsigned int __v)544 __DEVICE__ unsigned int __uAtomicAnd_block(unsigned int *__p,
545 unsigned int __v) {
546 return __nvvm_atom_cta_and_gen_i((int *)__p, __v);
547 }
__uAtomicAnd_system(unsigned int * __p,unsigned int __v)548 __DEVICE__ unsigned int __uAtomicAnd_system(unsigned int *__p,
549 unsigned int __v) {
550 return __nvvm_atom_sys_and_gen_i((int *)__p, __v);
551 }
__uAtomicCAS(unsigned int * __p,unsigned int __cmp,unsigned int __v)552 __DEVICE__ unsigned int __uAtomicCAS(unsigned int *__p, unsigned int __cmp,
553 unsigned int __v) {
554 return __nvvm_atom_cas_gen_i((int *)__p, __cmp, __v);
555 }
556 __DEVICE__ unsigned int
__uAtomicCAS_block(unsigned int * __p,unsigned int __cmp,unsigned int __v)557 __uAtomicCAS_block(unsigned int *__p, unsigned int __cmp, unsigned int __v) {
558 return __nvvm_atom_cta_cas_gen_i((int *)__p, __cmp, __v);
559 }
560 __DEVICE__ unsigned int
__uAtomicCAS_system(unsigned int * __p,unsigned int __cmp,unsigned int __v)561 __uAtomicCAS_system(unsigned int *__p, unsigned int __cmp, unsigned int __v) {
562 return __nvvm_atom_sys_cas_gen_i((int *)__p, __cmp, __v);
563 }
__uAtomicDec(unsigned int * __p,unsigned int __v)564 __DEVICE__ unsigned int __uAtomicDec(unsigned int *__p, unsigned int __v) {
565 return __nvvm_atom_dec_gen_ui(__p, __v);
566 }
__uAtomicDec_block(unsigned int * __p,unsigned int __v)567 __DEVICE__ unsigned int __uAtomicDec_block(unsigned int *__p,
568 unsigned int __v) {
569 return __nvvm_atom_cta_dec_gen_ui(__p, __v);
570 }
__uAtomicDec_system(unsigned int * __p,unsigned int __v)571 __DEVICE__ unsigned int __uAtomicDec_system(unsigned int *__p,
572 unsigned int __v) {
573 return __nvvm_atom_sys_dec_gen_ui(__p, __v);
574 }
__uAtomicExch(unsigned int * __p,unsigned int __v)575 __DEVICE__ unsigned int __uAtomicExch(unsigned int *__p, unsigned int __v) {
576 return __nvvm_atom_xchg_gen_i((int *)__p, __v);
577 }
__uAtomicExch_block(unsigned int * __p,unsigned int __v)578 __DEVICE__ unsigned int __uAtomicExch_block(unsigned int *__p,
579 unsigned int __v) {
580 return __nvvm_atom_cta_xchg_gen_i((int *)__p, __v);
581 }
__uAtomicExch_system(unsigned int * __p,unsigned int __v)582 __DEVICE__ unsigned int __uAtomicExch_system(unsigned int *__p,
583 unsigned int __v) {
584 return __nvvm_atom_sys_xchg_gen_i((int *)__p, __v);
585 }
__uAtomicInc(unsigned int * __p,unsigned int __v)586 __DEVICE__ unsigned int __uAtomicInc(unsigned int *__p, unsigned int __v) {
587 return __nvvm_atom_inc_gen_ui(__p, __v);
588 }
__uAtomicInc_block(unsigned int * __p,unsigned int __v)589 __DEVICE__ unsigned int __uAtomicInc_block(unsigned int *__p,
590 unsigned int __v) {
591 return __nvvm_atom_cta_inc_gen_ui(__p, __v);
592 }
__uAtomicInc_system(unsigned int * __p,unsigned int __v)593 __DEVICE__ unsigned int __uAtomicInc_system(unsigned int *__p,
594 unsigned int __v) {
595 return __nvvm_atom_sys_inc_gen_ui(__p, __v);
596 }
__uAtomicMax(unsigned int * __p,unsigned int __v)597 __DEVICE__ unsigned int __uAtomicMax(unsigned int *__p, unsigned int __v) {
598 return __nvvm_atom_max_gen_ui(__p, __v);
599 }
__uAtomicMax_block(unsigned int * __p,unsigned int __v)600 __DEVICE__ unsigned int __uAtomicMax_block(unsigned int *__p,
601 unsigned int __v) {
602 return __nvvm_atom_cta_max_gen_ui(__p, __v);
603 }
__uAtomicMax_system(unsigned int * __p,unsigned int __v)604 __DEVICE__ unsigned int __uAtomicMax_system(unsigned int *__p,
605 unsigned int __v) {
606 return __nvvm_atom_sys_max_gen_ui(__p, __v);
607 }
__uAtomicMin(unsigned int * __p,unsigned int __v)608 __DEVICE__ unsigned int __uAtomicMin(unsigned int *__p, unsigned int __v) {
609 return __nvvm_atom_min_gen_ui(__p, __v);
610 }
__uAtomicMin_block(unsigned int * __p,unsigned int __v)611 __DEVICE__ unsigned int __uAtomicMin_block(unsigned int *__p,
612 unsigned int __v) {
613 return __nvvm_atom_cta_min_gen_ui(__p, __v);
614 }
__uAtomicMin_system(unsigned int * __p,unsigned int __v)615 __DEVICE__ unsigned int __uAtomicMin_system(unsigned int *__p,
616 unsigned int __v) {
617 return __nvvm_atom_sys_min_gen_ui(__p, __v);
618 }
__uAtomicOr(unsigned int * __p,unsigned int __v)619 __DEVICE__ unsigned int __uAtomicOr(unsigned int *__p, unsigned int __v) {
620 return __nvvm_atom_or_gen_i((int *)__p, __v);
621 }
__uAtomicOr_block(unsigned int * __p,unsigned int __v)622 __DEVICE__ unsigned int __uAtomicOr_block(unsigned int *__p, unsigned int __v) {
623 return __nvvm_atom_cta_or_gen_i((int *)__p, __v);
624 }
__uAtomicOr_system(unsigned int * __p,unsigned int __v)625 __DEVICE__ unsigned int __uAtomicOr_system(unsigned int *__p,
626 unsigned int __v) {
627 return __nvvm_atom_sys_or_gen_i((int *)__p, __v);
628 }
__uAtomicXor(unsigned int * __p,unsigned int __v)629 __DEVICE__ unsigned int __uAtomicXor(unsigned int *__p, unsigned int __v) {
630 return __nvvm_atom_xor_gen_i((int *)__p, __v);
631 }
__uAtomicXor_block(unsigned int * __p,unsigned int __v)632 __DEVICE__ unsigned int __uAtomicXor_block(unsigned int *__p,
633 unsigned int __v) {
634 return __nvvm_atom_cta_xor_gen_i((int *)__p, __v);
635 }
__uAtomicXor_system(unsigned int * __p,unsigned int __v)636 __DEVICE__ unsigned int __uAtomicXor_system(unsigned int *__p,
637 unsigned int __v) {
638 return __nvvm_atom_sys_xor_gen_i((int *)__p, __v);
639 }
__uhadd(unsigned int __a,unsigned int __b)640 __DEVICE__ unsigned int __uhadd(unsigned int __a, unsigned int __b) {
641 return __nv_uhadd(__a, __b);
642 }
__uint2double_rn(unsigned int __a)643 __DEVICE__ double __uint2double_rn(unsigned int __a) {
644 return __nv_uint2double_rn(__a);
645 }
__uint2float_rd(unsigned int __a)646 __DEVICE__ float __uint2float_rd(unsigned int __a) {
647 return __nv_uint2float_rd(__a);
648 }
__uint2float_rn(unsigned int __a)649 __DEVICE__ float __uint2float_rn(unsigned int __a) {
650 return __nv_uint2float_rn(__a);
651 }
__uint2float_ru(unsigned int __a)652 __DEVICE__ float __uint2float_ru(unsigned int __a) {
653 return __nv_uint2float_ru(__a);
654 }
__uint2float_rz(unsigned int __a)655 __DEVICE__ float __uint2float_rz(unsigned int __a) {
656 return __nv_uint2float_rz(__a);
657 }
__uint_as_float(unsigned int __a)658 __DEVICE__ float __uint_as_float(unsigned int __a) {
659 return __nv_uint_as_float(__a);
660 } //
__ull2double_rd(unsigned long long __a)661