1e5dd7070Spatrick /*===--- __clang_cuda_intrinsics.h - Device-side CUDA intrinsic wrappers ---===
2e5dd7070Spatrick *
3e5dd7070Spatrick * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4e5dd7070Spatrick * See https://llvm.org/LICENSE.txt for license information.
5e5dd7070Spatrick * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6e5dd7070Spatrick *
7e5dd7070Spatrick *===-----------------------------------------------------------------------===
8e5dd7070Spatrick */
9e5dd7070Spatrick #ifndef __CLANG_CUDA_INTRINSICS_H__
10e5dd7070Spatrick #define __CLANG_CUDA_INTRINSICS_H__
11e5dd7070Spatrick #ifndef __CUDA__
12e5dd7070Spatrick #error "This file is for CUDA compilation only."
13e5dd7070Spatrick #endif
14e5dd7070Spatrick
15e5dd7070Spatrick // sm_30 intrinsics: __shfl_{up,down,xor}.
16e5dd7070Spatrick
17e5dd7070Spatrick #define __SM_30_INTRINSICS_H__
18e5dd7070Spatrick #define __SM_30_INTRINSICS_HPP__
19e5dd7070Spatrick
20e5dd7070Spatrick #if !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 300
21e5dd7070Spatrick
22e5dd7070Spatrick #pragma push_macro("__MAKE_SHUFFLES")
23e5dd7070Spatrick #define __MAKE_SHUFFLES(__FnName, __IntIntrinsic, __FloatIntrinsic, __Mask, \
24e5dd7070Spatrick __Type) \
25e5dd7070Spatrick inline __device__ int __FnName(int __val, __Type __offset, \
26e5dd7070Spatrick int __width = warpSize) { \
27e5dd7070Spatrick return __IntIntrinsic(__val, __offset, \
28e5dd7070Spatrick ((warpSize - __width) << 8) | (__Mask)); \
29e5dd7070Spatrick } \
30e5dd7070Spatrick inline __device__ float __FnName(float __val, __Type __offset, \
31e5dd7070Spatrick int __width = warpSize) { \
32e5dd7070Spatrick return __FloatIntrinsic(__val, __offset, \
33e5dd7070Spatrick ((warpSize - __width) << 8) | (__Mask)); \
34e5dd7070Spatrick } \
35e5dd7070Spatrick inline __device__ unsigned int __FnName(unsigned int __val, __Type __offset, \
36e5dd7070Spatrick int __width = warpSize) { \
37e5dd7070Spatrick return static_cast<unsigned int>( \
38e5dd7070Spatrick ::__FnName(static_cast<int>(__val), __offset, __width)); \
39e5dd7070Spatrick } \
40e5dd7070Spatrick inline __device__ long long __FnName(long long __val, __Type __offset, \
41e5dd7070Spatrick int __width = warpSize) { \
42e5dd7070Spatrick struct __Bits { \
43e5dd7070Spatrick int __a, __b; \
44e5dd7070Spatrick }; \
45e5dd7070Spatrick _Static_assert(sizeof(__val) == sizeof(__Bits)); \
46e5dd7070Spatrick _Static_assert(sizeof(__Bits) == 2 * sizeof(int)); \
47e5dd7070Spatrick __Bits __tmp; \
48e5dd7070Spatrick memcpy(&__tmp, &__val, sizeof(__val)); \
49e5dd7070Spatrick __tmp.__a = ::__FnName(__tmp.__a, __offset, __width); \
50e5dd7070Spatrick __tmp.__b = ::__FnName(__tmp.__b, __offset, __width); \
51e5dd7070Spatrick long long __ret; \
52e5dd7070Spatrick memcpy(&__ret, &__tmp, sizeof(__tmp)); \
53e5dd7070Spatrick return __ret; \
54e5dd7070Spatrick } \
55e5dd7070Spatrick inline __device__ long __FnName(long __val, __Type __offset, \
56e5dd7070Spatrick int __width = warpSize) { \
57e5dd7070Spatrick _Static_assert(sizeof(long) == sizeof(long long) || \
58e5dd7070Spatrick sizeof(long) == sizeof(int)); \
59e5dd7070Spatrick if (sizeof(long) == sizeof(long long)) { \
60e5dd7070Spatrick return static_cast<long>( \
61e5dd7070Spatrick ::__FnName(static_cast<long long>(__val), __offset, __width)); \
62e5dd7070Spatrick } else if (sizeof(long) == sizeof(int)) { \
63e5dd7070Spatrick return static_cast<long>( \
64e5dd7070Spatrick ::__FnName(static_cast<int>(__val), __offset, __width)); \
65e5dd7070Spatrick } \
66e5dd7070Spatrick } \
67e5dd7070Spatrick inline __device__ unsigned long __FnName( \
68e5dd7070Spatrick unsigned long __val, __Type __offset, int __width = warpSize) { \
69e5dd7070Spatrick return static_cast<unsigned long>( \
70e5dd7070Spatrick ::__FnName(static_cast<long>(__val), __offset, __width)); \
71e5dd7070Spatrick } \
72e5dd7070Spatrick inline __device__ unsigned long long __FnName( \
73e5dd7070Spatrick unsigned long long __val, __Type __offset, int __width = warpSize) { \
74*12c85518Srobert return static_cast<unsigned long long>( \
75*12c85518Srobert ::__FnName(static_cast<long long>(__val), __offset, __width)); \
76e5dd7070Spatrick } \
77e5dd7070Spatrick inline __device__ double __FnName(double __val, __Type __offset, \
78e5dd7070Spatrick int __width = warpSize) { \
79e5dd7070Spatrick long long __tmp; \
80e5dd7070Spatrick _Static_assert(sizeof(__tmp) == sizeof(__val)); \
81e5dd7070Spatrick memcpy(&__tmp, &__val, sizeof(__val)); \
82e5dd7070Spatrick __tmp = ::__FnName(__tmp, __offset, __width); \
83e5dd7070Spatrick double __ret; \
84e5dd7070Spatrick memcpy(&__ret, &__tmp, sizeof(__ret)); \
85e5dd7070Spatrick return __ret; \
86e5dd7070Spatrick }
87e5dd7070Spatrick
88e5dd7070Spatrick __MAKE_SHUFFLES(__shfl, __nvvm_shfl_idx_i32, __nvvm_shfl_idx_f32, 0x1f, int);
89e5dd7070Spatrick // We use 0 rather than 31 as our mask, because shfl.up applies to lanes >=
90e5dd7070Spatrick // maxLane.
91e5dd7070Spatrick __MAKE_SHUFFLES(__shfl_up, __nvvm_shfl_up_i32, __nvvm_shfl_up_f32, 0,
92e5dd7070Spatrick unsigned int);
93e5dd7070Spatrick __MAKE_SHUFFLES(__shfl_down, __nvvm_shfl_down_i32, __nvvm_shfl_down_f32, 0x1f,
94e5dd7070Spatrick unsigned int);
95e5dd7070Spatrick __MAKE_SHUFFLES(__shfl_xor, __nvvm_shfl_bfly_i32, __nvvm_shfl_bfly_f32, 0x1f,
96e5dd7070Spatrick int);
97e5dd7070Spatrick #pragma pop_macro("__MAKE_SHUFFLES")
98e5dd7070Spatrick
99e5dd7070Spatrick #endif // !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 300
100e5dd7070Spatrick
101e5dd7070Spatrick #if CUDA_VERSION >= 9000
102e5dd7070Spatrick #if (!defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 300)
103e5dd7070Spatrick // __shfl_sync_* variants available in CUDA-9
104e5dd7070Spatrick #pragma push_macro("__MAKE_SYNC_SHUFFLES")
105e5dd7070Spatrick #define __MAKE_SYNC_SHUFFLES(__FnName, __IntIntrinsic, __FloatIntrinsic, \
106e5dd7070Spatrick __Mask, __Type) \
107e5dd7070Spatrick inline __device__ int __FnName(unsigned int __mask, int __val, \
108e5dd7070Spatrick __Type __offset, int __width = warpSize) { \
109e5dd7070Spatrick return __IntIntrinsic(__mask, __val, __offset, \
110e5dd7070Spatrick ((warpSize - __width) << 8) | (__Mask)); \
111e5dd7070Spatrick } \
112e5dd7070Spatrick inline __device__ float __FnName(unsigned int __mask, float __val, \
113e5dd7070Spatrick __Type __offset, int __width = warpSize) { \
114e5dd7070Spatrick return __FloatIntrinsic(__mask, __val, __offset, \
115e5dd7070Spatrick ((warpSize - __width) << 8) | (__Mask)); \
116e5dd7070Spatrick } \
117e5dd7070Spatrick inline __device__ unsigned int __FnName(unsigned int __mask, \
118e5dd7070Spatrick unsigned int __val, __Type __offset, \
119e5dd7070Spatrick int __width = warpSize) { \
120e5dd7070Spatrick return static_cast<unsigned int>( \
121e5dd7070Spatrick ::__FnName(__mask, static_cast<int>(__val), __offset, __width)); \
122e5dd7070Spatrick } \
123e5dd7070Spatrick inline __device__ long long __FnName(unsigned int __mask, long long __val, \
124e5dd7070Spatrick __Type __offset, \
125e5dd7070Spatrick int __width = warpSize) { \
126e5dd7070Spatrick struct __Bits { \
127e5dd7070Spatrick int __a, __b; \
128e5dd7070Spatrick }; \
129e5dd7070Spatrick _Static_assert(sizeof(__val) == sizeof(__Bits)); \
130e5dd7070Spatrick _Static_assert(sizeof(__Bits) == 2 * sizeof(int)); \
131e5dd7070Spatrick __Bits __tmp; \
132e5dd7070Spatrick memcpy(&__tmp, &__val, sizeof(__val)); \
133e5dd7070Spatrick __tmp.__a = ::__FnName(__mask, __tmp.__a, __offset, __width); \
134e5dd7070Spatrick __tmp.__b = ::__FnName(__mask, __tmp.__b, __offset, __width); \
135e5dd7070Spatrick long long __ret; \
136e5dd7070Spatrick memcpy(&__ret, &__tmp, sizeof(__tmp)); \
137e5dd7070Spatrick return __ret; \
138e5dd7070Spatrick } \
139e5dd7070Spatrick inline __device__ unsigned long long __FnName( \
140e5dd7070Spatrick unsigned int __mask, unsigned long long __val, __Type __offset, \
141e5dd7070Spatrick int __width = warpSize) { \
142*12c85518Srobert return static_cast<unsigned long long>( \
143*12c85518Srobert ::__FnName(__mask, static_cast<long long>(__val), __offset, __width)); \
144e5dd7070Spatrick } \
145e5dd7070Spatrick inline __device__ long __FnName(unsigned int __mask, long __val, \
146e5dd7070Spatrick __Type __offset, int __width = warpSize) { \
147e5dd7070Spatrick _Static_assert(sizeof(long) == sizeof(long long) || \
148e5dd7070Spatrick sizeof(long) == sizeof(int)); \
149e5dd7070Spatrick if (sizeof(long) == sizeof(long long)) { \
150e5dd7070Spatrick return static_cast<long>(::__FnName( \
151e5dd7070Spatrick __mask, static_cast<long long>(__val), __offset, __width)); \
152e5dd7070Spatrick } else if (sizeof(long) == sizeof(int)) { \
153e5dd7070Spatrick return static_cast<long>( \
154e5dd7070Spatrick ::__FnName(__mask, static_cast<int>(__val), __offset, __width)); \
155e5dd7070Spatrick } \
156e5dd7070Spatrick } \
157e5dd7070Spatrick inline __device__ unsigned long __FnName( \
158e5dd7070Spatrick unsigned int __mask, unsigned long __val, __Type __offset, \
159e5dd7070Spatrick int __width = warpSize) { \
160e5dd7070Spatrick return static_cast<unsigned long>( \
161e5dd7070Spatrick ::__FnName(__mask, static_cast<long>(__val), __offset, __width)); \
162e5dd7070Spatrick } \
163e5dd7070Spatrick inline __device__ double __FnName(unsigned int __mask, double __val, \
164e5dd7070Spatrick __Type __offset, int __width = warpSize) { \
165e5dd7070Spatrick long long __tmp; \
166e5dd7070Spatrick _Static_assert(sizeof(__tmp) == sizeof(__val)); \
167e5dd7070Spatrick memcpy(&__tmp, &__val, sizeof(__val)); \
168e5dd7070Spatrick __tmp = ::__FnName(__mask, __tmp, __offset, __width); \
169e5dd7070Spatrick double __ret; \
170e5dd7070Spatrick memcpy(&__ret, &__tmp, sizeof(__ret)); \
171e5dd7070Spatrick return __ret; \
172e5dd7070Spatrick }
173e5dd7070Spatrick __MAKE_SYNC_SHUFFLES(__shfl_sync, __nvvm_shfl_sync_idx_i32,
174e5dd7070Spatrick __nvvm_shfl_sync_idx_f32, 0x1f, int);
175e5dd7070Spatrick // We use 0 rather than 31 as our mask, because shfl.up applies to lanes >=
176e5dd7070Spatrick // maxLane.
177e5dd7070Spatrick __MAKE_SYNC_SHUFFLES(__shfl_up_sync, __nvvm_shfl_sync_up_i32,
178e5dd7070Spatrick __nvvm_shfl_sync_up_f32, 0, unsigned int);
179e5dd7070Spatrick __MAKE_SYNC_SHUFFLES(__shfl_down_sync, __nvvm_shfl_sync_down_i32,
180e5dd7070Spatrick __nvvm_shfl_sync_down_f32, 0x1f, unsigned int);
181e5dd7070Spatrick __MAKE_SYNC_SHUFFLES(__shfl_xor_sync, __nvvm_shfl_sync_bfly_i32,
182e5dd7070Spatrick __nvvm_shfl_sync_bfly_f32, 0x1f, int);
183e5dd7070Spatrick #pragma pop_macro("__MAKE_SYNC_SHUFFLES")
184e5dd7070Spatrick
185e5dd7070Spatrick inline __device__ void __syncwarp(unsigned int mask = 0xffffffff) {
186e5dd7070Spatrick return __nvvm_bar_warp_sync(mask);
187e5dd7070Spatrick }
188e5dd7070Spatrick
__barrier_sync(unsigned int id)189e5dd7070Spatrick inline __device__ void __barrier_sync(unsigned int id) {
190e5dd7070Spatrick __nvvm_barrier_sync(id);
191e5dd7070Spatrick }
192e5dd7070Spatrick
__barrier_sync_count(unsigned int id,unsigned int count)193e5dd7070Spatrick inline __device__ void __barrier_sync_count(unsigned int id,
194e5dd7070Spatrick unsigned int count) {
195e5dd7070Spatrick __nvvm_barrier_sync_cnt(id, count);
196e5dd7070Spatrick }
197e5dd7070Spatrick
__all_sync(unsigned int mask,int pred)198e5dd7070Spatrick inline __device__ int __all_sync(unsigned int mask, int pred) {
199e5dd7070Spatrick return __nvvm_vote_all_sync(mask, pred);
200e5dd7070Spatrick }
201e5dd7070Spatrick
__any_sync(unsigned int mask,int pred)202e5dd7070Spatrick inline __device__ int __any_sync(unsigned int mask, int pred) {
203e5dd7070Spatrick return __nvvm_vote_any_sync(mask, pred);
204e5dd7070Spatrick }
205e5dd7070Spatrick
__uni_sync(unsigned int mask,int pred)206e5dd7070Spatrick inline __device__ int __uni_sync(unsigned int mask, int pred) {
207e5dd7070Spatrick return __nvvm_vote_uni_sync(mask, pred);
208e5dd7070Spatrick }
209e5dd7070Spatrick
__ballot_sync(unsigned int mask,int pred)210e5dd7070Spatrick inline __device__ unsigned int __ballot_sync(unsigned int mask, int pred) {
211e5dd7070Spatrick return __nvvm_vote_ballot_sync(mask, pred);
212e5dd7070Spatrick }
213e5dd7070Spatrick
__activemask()214e5dd7070Spatrick inline __device__ unsigned int __activemask() {
215e5dd7070Spatrick #if CUDA_VERSION < 9020
216e5dd7070Spatrick return __nvvm_vote_ballot(1);
217e5dd7070Spatrick #else
218e5dd7070Spatrick unsigned int mask;
219e5dd7070Spatrick asm volatile("activemask.b32 %0;" : "=r"(mask));
220e5dd7070Spatrick return mask;
221e5dd7070Spatrick #endif
222e5dd7070Spatrick }
223e5dd7070Spatrick
__fns(unsigned mask,unsigned base,int offset)224e5dd7070Spatrick inline __device__ unsigned int __fns(unsigned mask, unsigned base, int offset) {
225e5dd7070Spatrick return __nvvm_fns(mask, base, offset);
226e5dd7070Spatrick }
227e5dd7070Spatrick
228e5dd7070Spatrick #endif // !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 300
229e5dd7070Spatrick
230e5dd7070Spatrick // Define __match* builtins CUDA-9 headers expect to see.
231e5dd7070Spatrick #if !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 700
__match32_any_sync(unsigned int mask,unsigned int value)232e5dd7070Spatrick inline __device__ unsigned int __match32_any_sync(unsigned int mask,
233e5dd7070Spatrick unsigned int value) {
234e5dd7070Spatrick return __nvvm_match_any_sync_i32(mask, value);
235e5dd7070Spatrick }
236e5dd7070Spatrick
237*12c85518Srobert inline __device__ unsigned int
__match64_any_sync(unsigned int mask,unsigned long long value)238e5dd7070Spatrick __match64_any_sync(unsigned int mask, unsigned long long value) {
239e5dd7070Spatrick return __nvvm_match_any_sync_i64(mask, value);
240e5dd7070Spatrick }
241e5dd7070Spatrick
242e5dd7070Spatrick inline __device__ unsigned int
__match32_all_sync(unsigned int mask,unsigned int value,int * pred)243e5dd7070Spatrick __match32_all_sync(unsigned int mask, unsigned int value, int *pred) {
244e5dd7070Spatrick return __nvvm_match_all_sync_i32p(mask, value, pred);
245e5dd7070Spatrick }
246e5dd7070Spatrick
247*12c85518Srobert inline __device__ unsigned int
__match64_all_sync(unsigned int mask,unsigned long long value,int * pred)248e5dd7070Spatrick __match64_all_sync(unsigned int mask, unsigned long long value, int *pred) {
249e5dd7070Spatrick return __nvvm_match_all_sync_i64p(mask, value, pred);
250e5dd7070Spatrick }
251e5dd7070Spatrick #include "crt/sm_70_rt.hpp"
252e5dd7070Spatrick
253e5dd7070Spatrick #endif // !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 700
254e5dd7070Spatrick #endif // __CUDA_VERSION >= 9000
255e5dd7070Spatrick
256e5dd7070Spatrick // sm_32 intrinsics: __ldg and __funnelshift_{l,lc,r,rc}.
257e5dd7070Spatrick
258e5dd7070Spatrick // Prevent the vanilla sm_32 intrinsics header from being included.
259e5dd7070Spatrick #define __SM_32_INTRINSICS_H__
260e5dd7070Spatrick #define __SM_32_INTRINSICS_HPP__
261e5dd7070Spatrick
262e5dd7070Spatrick #if !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 320
263e5dd7070Spatrick
__ldg(const char * ptr)264e5dd7070Spatrick inline __device__ char __ldg(const char *ptr) { return __nvvm_ldg_c(ptr); }
__ldg(const short * ptr)265e5dd7070Spatrick inline __device__ short __ldg(const short *ptr) { return __nvvm_ldg_s(ptr); }
__ldg(const int * ptr)266e5dd7070Spatrick inline __device__ int __ldg(const int *ptr) { return __nvvm_ldg_i(ptr); }
__ldg(const long * ptr)267e5dd7070Spatrick inline __device__ long __ldg(const long *ptr) { return __nvvm_ldg_l(ptr); }
__ldg(const long long * ptr)268e5dd7070Spatrick inline __device__ long long __ldg(const long long *ptr) {
269e5dd7070Spatrick return __nvvm_ldg_ll(ptr);
270e5dd7070Spatrick }
__ldg(const unsigned char * ptr)271e5dd7070Spatrick inline __device__ unsigned char __ldg(const unsigned char *ptr) {
272e5dd7070Spatrick return __nvvm_ldg_uc(ptr);
273e5dd7070Spatrick }
__ldg(const signed char * ptr)274e5dd7070Spatrick inline __device__ signed char __ldg(const signed char *ptr) {
275e5dd7070Spatrick return __nvvm_ldg_uc((const unsigned char *)ptr);
276e5dd7070Spatrick }
__ldg(const unsigned short * ptr)277e5dd7070Spatrick inline __device__ unsigned short __ldg(const unsigned short *ptr) {
278e5dd7070Spatrick return __nvvm_ldg_us(ptr);
279e5dd7070Spatrick }
__ldg(const unsigned int * ptr)280e5dd7070Spatrick inline __device__ unsigned int __ldg(const unsigned int *ptr) {
281e5dd7070Spatrick return __nvvm_ldg_ui(ptr);
282e5dd7070Spatrick }
__ldg(const unsigned long * ptr)283e5dd7070Spatrick inline __device__ unsigned long __ldg(const unsigned long *ptr) {
284e5dd7070Spatrick return __nvvm_ldg_ul(ptr);
285e5dd7070Spatrick }
__ldg(const unsigned long long * ptr)286e5dd7070Spatrick inline __device__ unsigned long long __ldg(const unsigned long long *ptr) {
287e5dd7070Spatrick return __nvvm_ldg_ull(ptr);
288e5dd7070Spatrick }
__ldg(const float * ptr)289e5dd7070Spatrick inline __device__ float __ldg(const float *ptr) { return __nvvm_ldg_f(ptr); }
__ldg(const double * ptr)290e5dd7070Spatrick inline __device__ double __ldg(const double *ptr) { return __nvvm_ldg_d(ptr); }
291e5dd7070Spatrick
__ldg(const char2 * ptr)292e5dd7070Spatrick inline __device__ char2 __ldg(const char2 *ptr) {
293e5dd7070Spatrick typedef char c2 __attribute__((ext_vector_type(2)));
294e5dd7070Spatrick // We can assume that ptr is aligned at least to char2's alignment, but the
295e5dd7070Spatrick // load will assume that ptr is aligned to char2's alignment. This is only
296e5dd7070Spatrick // safe if alignof(c2) <= alignof(char2).
297e5dd7070Spatrick c2 rv = __nvvm_ldg_c2(reinterpret_cast<const c2 *>(ptr));
298e5dd7070Spatrick char2 ret;
299e5dd7070Spatrick ret.x = rv[0];
300e5dd7070Spatrick ret.y = rv[1];
301e5dd7070Spatrick return ret;
302e5dd7070Spatrick }
__ldg(const char4 * ptr)303e5dd7070Spatrick inline __device__ char4 __ldg(const char4 *ptr) {
304e5dd7070Spatrick typedef char c4 __attribute__((ext_vector_type(4)));
305e5dd7070Spatrick c4 rv = __nvvm_ldg_c4(reinterpret_cast<const c4 *>(ptr));
306e5dd7070Spatrick char4 ret;
307e5dd7070Spatrick ret.x = rv[0];
308e5dd7070Spatrick ret.y = rv[1];
309e5dd7070Spatrick ret.z = rv[2];
310e5dd7070Spatrick ret.w = rv[3];
311e5dd7070Spatrick return ret;
312e5dd7070Spatrick }
__ldg(const short2 * ptr)313e5dd7070Spatrick inline __device__ short2 __ldg(const short2 *ptr) {
314e5dd7070Spatrick typedef short s2 __attribute__((ext_vector_type(2)));
315e5dd7070Spatrick s2 rv = __nvvm_ldg_s2(reinterpret_cast<const s2 *>(ptr));
316e5dd7070Spatrick short2 ret;
317e5dd7070Spatrick ret.x = rv[0];
318e5dd7070Spatrick ret.y = rv[1];
319e5dd7070Spatrick return ret;
320e5dd7070Spatrick }
__ldg(const short4 * ptr)321e5dd7070Spatrick inline __device__ short4 __ldg(const short4 *ptr) {
322e5dd7070Spatrick typedef short s4 __attribute__((ext_vector_type(4)));
323e5dd7070Spatrick s4 rv = __nvvm_ldg_s4(reinterpret_cast<const s4 *>(ptr));
324e5dd7070Spatrick short4 ret;
325e5dd7070Spatrick ret.x = rv[0];
326e5dd7070Spatrick ret.y = rv[1];
327e5dd7070Spatrick ret.z = rv[2];
328e5dd7070Spatrick ret.w = rv[3];
329e5dd7070Spatrick return ret;
330e5dd7070Spatrick }
__ldg(const int2 * ptr)331e5dd7070Spatrick inline __device__ int2 __ldg(const int2 *ptr) {
332e5dd7070Spatrick typedef int i2 __attribute__((ext_vector_type(2)));
333e5dd7070Spatrick i2 rv = __nvvm_ldg_i2(reinterpret_cast<const i2 *>(ptr));
334e5dd7070Spatrick int2 ret;
335e5dd7070Spatrick ret.x = rv[0];
336e5dd7070Spatrick ret.y = rv[1];
337e5dd7070Spatrick return ret;
338e5dd7070Spatrick }
__ldg(const int4 * ptr)339e5dd7070Spatrick inline __device__ int4 __ldg(const int4 *ptr) {
340e5dd7070Spatrick typedef int i4 __attribute__((ext_vector_type(4)));
341e5dd7070Spatrick i4 rv = __nvvm_ldg_i4(reinterpret_cast<const i4 *>(ptr));
342e5dd7070Spatrick int4 ret;
343e5dd7070Spatrick ret.x = rv[0];
344e5dd7070Spatrick ret.y = rv[1];
345e5dd7070Spatrick ret.z = rv[2];
346e5dd7070Spatrick ret.w = rv[3];
347e5dd7070Spatrick return ret;
348e5dd7070Spatrick }
__ldg(const longlong2 * ptr)349e5dd7070Spatrick inline __device__ longlong2 __ldg(const longlong2 *ptr) {
350e5dd7070Spatrick typedef long long ll2 __attribute__((ext_vector_type(2)));
351e5dd7070Spatrick ll2 rv = __nvvm_ldg_ll2(reinterpret_cast<const ll2 *>(ptr));
352e5dd7070Spatrick longlong2 ret;
353e5dd7070Spatrick ret.x = rv[0];
354e5dd7070Spatrick ret.y = rv[1];
355e5dd7070Spatrick return ret;
356e5dd7070Spatrick }
357e5dd7070Spatrick
__ldg(const uchar2 * ptr)358e5dd7070Spatrick inline __device__ uchar2 __ldg(const uchar2 *ptr) {
359e5dd7070Spatrick typedef unsigned char uc2 __attribute__((ext_vector_type(2)));
360e5dd7070Spatrick uc2 rv = __nvvm_ldg_uc2(reinterpret_cast<const uc2 *>(ptr));
361e5dd7070Spatrick uchar2 ret;
362e5dd7070Spatrick ret.x = rv[0];
363e5dd7070Spatrick ret.y = rv[1];
364e5dd7070Spatrick return ret;
365e5dd7070Spatrick }
__ldg(const uchar4 * ptr)366e5dd7070Spatrick inline __device__ uchar4 __ldg(const uchar4 *ptr) {
367e5dd7070Spatrick typedef unsigned char uc4 __attribute__((ext_vector_type(4)));
368e5dd7070Spatrick uc4 rv = __nvvm_ldg_uc4(reinterpret_cast<const uc4 *>(ptr));
369e5dd7070Spatrick uchar4 ret;
370e5dd7070Spatrick ret.x = rv[0];
371e5dd7070Spatrick ret.y = rv[1];
372e5dd7070Spatrick ret.z = rv[2];
373e5dd7070Spatrick ret.w = rv[3];
374e5dd7070Spatrick return ret;
375e5dd7070Spatrick }
__ldg(const ushort2 * ptr)376e5dd7070Spatrick inline __device__ ushort2 __ldg(const ushort2 *ptr) {
377e5dd7070Spatrick typedef unsigned short us2 __attribute__((ext_vector_type(2)));
378e5dd7070Spatrick us2 rv = __nvvm_ldg_us2(reinterpret_cast<const us2 *>(ptr));
379e5dd7070Spatrick ushort2 ret;
380e5dd7070Spatrick ret.x = rv[0];
381e5dd7070Spatrick ret.y = rv[1];
382e5dd7070Spatrick return ret;
383e5dd7070Spatrick }
__ldg(const ushort4 * ptr)384e5dd7070Spatrick inline __device__ ushort4 __ldg(const ushort4 *ptr) {
385e5dd7070Spatrick typedef unsigned short us4 __attribute__((ext_vector_type(4)));
386e5dd7070Spatrick us4 rv = __nvvm_ldg_us4(reinterpret_cast<const us4 *>(ptr));
387e5dd7070Spatrick ushort4 ret;
388e5dd7070Spatrick ret.x = rv[0];
389e5dd7070Spatrick ret.y = rv[1];
390e5dd7070Spatrick ret.z = rv[2];
391e5dd7070Spatrick ret.w = rv[3];
392e5dd7070Spatrick return ret;
393e5dd7070Spatrick }
__ldg(const uint2 * ptr)394e5dd7070Spatrick inline __device__ uint2 __ldg(const uint2 *ptr) {
395e5dd7070Spatrick typedef unsigned int ui2 __attribute__((ext_vector_type(2)));
396e5dd7070Spatrick ui2 rv = __nvvm_ldg_ui2(reinterpret_cast<const ui2 *>(ptr));
397e5dd7070Spatrick uint2 ret;
398e5dd7070Spatrick ret.x = rv[0];
399e5dd7070Spatrick ret.y = rv[1];
400e5dd7070Spatrick return ret;
401e5dd7070Spatrick }
__ldg(const uint4 * ptr)402e5dd7070Spatrick inline __device__ uint4 __ldg(const uint4 *ptr) {
403e5dd7070Spatrick typedef unsigned int ui4 __attribute__((ext_vector_type(4)));
404e5dd7070Spatrick ui4 rv = __nvvm_ldg_ui4(reinterpret_cast<const ui4 *>(ptr));
405e5dd7070Spatrick uint4 ret;
406e5dd7070Spatrick ret.x = rv[0];
407e5dd7070Spatrick ret.y = rv[1];
408e5dd7070Spatrick ret.z = rv[2];
409e5dd7070Spatrick ret.w = rv[3];
410e5dd7070Spatrick return ret;
411e5dd7070Spatrick }
__ldg(const ulonglong2 * ptr)412e5dd7070Spatrick inline __device__ ulonglong2 __ldg(const ulonglong2 *ptr) {
413e5dd7070Spatrick typedef unsigned long long ull2 __attribute__((ext_vector_type(2)));
414e5dd7070Spatrick ull2 rv = __nvvm_ldg_ull2(reinterpret_cast<const ull2 *>(ptr));
415e5dd7070Spatrick ulonglong2 ret;
416e5dd7070Spatrick ret.x = rv[0];
417e5dd7070Spatrick ret.y = rv[1];
418e5dd7070Spatrick return ret;
419e5dd7070Spatrick }
420e5dd7070Spatrick
__ldg(const float2 * ptr)421e5dd7070Spatrick inline __device__ float2 __ldg(const float2 *ptr) {
422e5dd7070Spatrick typedef float f2 __attribute__((ext_vector_type(2)));
423e5dd7070Spatrick f2 rv = __nvvm_ldg_f2(reinterpret_cast<const f2 *>(ptr));
424e5dd7070Spatrick float2 ret;
425e5dd7070Spatrick ret.x = rv[0];
426e5dd7070Spatrick ret.y = rv[1];
427e5dd7070Spatrick return ret;
428e5dd7070Spatrick }
__ldg(const float4 * ptr)429e5dd7070Spatrick inline __device__ float4 __ldg(const float4 *ptr) {
430e5dd7070Spatrick typedef float f4 __attribute__((ext_vector_type(4)));
431e5dd7070Spatrick f4 rv = __nvvm_ldg_f4(reinterpret_cast<const f4 *>(ptr));
432e5dd7070Spatrick float4 ret;
433e5dd7070Spatrick ret.x = rv[0];
434e5dd7070Spatrick ret.y = rv[1];
435e5dd7070Spatrick ret.z = rv[2];
436e5dd7070Spatrick ret.w = rv[3];
437e5dd7070Spatrick return ret;
438e5dd7070Spatrick }
__ldg(const double2 * ptr)439e5dd7070Spatrick inline __device__ double2 __ldg(const double2 *ptr) {
440e5dd7070Spatrick typedef double d2 __attribute__((ext_vector_type(2)));
441e5dd7070Spatrick d2 rv = __nvvm_ldg_d2(reinterpret_cast<const d2 *>(ptr));
442e5dd7070Spatrick double2 ret;
443e5dd7070Spatrick ret.x = rv[0];
444e5dd7070Spatrick ret.y = rv[1];
445e5dd7070Spatrick return ret;
446e5dd7070Spatrick }
447e5dd7070Spatrick
448e5dd7070Spatrick // TODO: Implement these as intrinsics, so the backend can work its magic on
449e5dd7070Spatrick // these. Alternatively, we could implement these as plain C and try to get
450e5dd7070Spatrick // llvm to recognize the relevant patterns.
__funnelshift_l(unsigned low32,unsigned high32,unsigned shiftWidth)451e5dd7070Spatrick inline __device__ unsigned __funnelshift_l(unsigned low32, unsigned high32,
452e5dd7070Spatrick unsigned shiftWidth) {
453e5dd7070Spatrick unsigned result;
454e5dd7070Spatrick asm("shf.l.wrap.b32 %0, %1, %2, %3;"
455e5dd7070Spatrick : "=r"(result)
456e5dd7070Spatrick : "r"(low32), "r"(high32), "r"(shiftWidth));
457e5dd7070Spatrick return result;
458e5dd7070Spatrick }
__funnelshift_lc(unsigned low32,unsigned high32,unsigned shiftWidth)459e5dd7070Spatrick inline __device__ unsigned __funnelshift_lc(unsigned low32, unsigned high32,
460e5dd7070Spatrick unsigned shiftWidth) {
461e5dd7070Spatrick unsigned result;
462e5dd7070Spatrick asm("shf.l.clamp.b32 %0, %1, %2, %3;"
463e5dd7070Spatrick : "=r"(result)
464e5dd7070Spatrick : "r"(low32), "r"(high32), "r"(shiftWidth));
465e5dd7070Spatrick return result;
466e5dd7070Spatrick }
__funnelshift_r(unsigned low32,unsigned high32,unsigned shiftWidth)467e5dd7070Spatrick inline __device__ unsigned __funnelshift_r(unsigned low32, unsigned high32,
468e5dd7070Spatrick unsigned shiftWidth) {
469e5dd7070Spatrick unsigned result;
470e5dd7070Spatrick asm("shf.r.wrap.b32 %0, %1, %2, %3;"
471e5dd7070Spatrick : "=r"(result)
472e5dd7070Spatrick : "r"(low32), "r"(high32), "r"(shiftWidth));
473e5dd7070Spatrick return result;
474e5dd7070Spatrick }
__funnelshift_rc(unsigned low32,unsigned high32,unsigned shiftWidth)475e5dd7070Spatrick inline __device__ unsigned __funnelshift_rc(unsigned low32, unsigned high32,
476e5dd7070Spatrick unsigned shiftWidth) {
477e5dd7070Spatrick unsigned ret;
478e5dd7070Spatrick asm("shf.r.clamp.b32 %0, %1, %2, %3;"
479e5dd7070Spatrick : "=r"(ret)
480e5dd7070Spatrick : "r"(low32), "r"(high32), "r"(shiftWidth));
481e5dd7070Spatrick return ret;
482e5dd7070Spatrick }
483e5dd7070Spatrick
484e5dd7070Spatrick #endif // !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 320
485e5dd7070Spatrick
486*12c85518Srobert #if CUDA_VERSION >= 11000
487*12c85518Srobert extern "C" {
__nv_cvta_generic_to_global_impl(const void * __ptr)488*12c85518Srobert __device__ inline size_t __nv_cvta_generic_to_global_impl(const void *__ptr) {
489*12c85518Srobert return (size_t)(void __attribute__((address_space(1))) *)__ptr;
490*12c85518Srobert }
__nv_cvta_generic_to_shared_impl(const void * __ptr)491*12c85518Srobert __device__ inline size_t __nv_cvta_generic_to_shared_impl(const void *__ptr) {
492*12c85518Srobert return (size_t)(void __attribute__((address_space(3))) *)__ptr;
493*12c85518Srobert }
__nv_cvta_generic_to_constant_impl(const void * __ptr)494*12c85518Srobert __device__ inline size_t __nv_cvta_generic_to_constant_impl(const void *__ptr) {
495*12c85518Srobert return (size_t)(void __attribute__((address_space(4))) *)__ptr;
496*12c85518Srobert }
__nv_cvta_generic_to_local_impl(const void * __ptr)497*12c85518Srobert __device__ inline size_t __nv_cvta_generic_to_local_impl(const void *__ptr) {
498*12c85518Srobert return (size_t)(void __attribute__((address_space(5))) *)__ptr;
499*12c85518Srobert }
__nv_cvta_global_to_generic_impl(size_t __ptr)500*12c85518Srobert __device__ inline void *__nv_cvta_global_to_generic_impl(size_t __ptr) {
501*12c85518Srobert return (void *)(void __attribute__((address_space(1))) *)__ptr;
502*12c85518Srobert }
__nv_cvta_shared_to_generic_impl(size_t __ptr)503*12c85518Srobert __device__ inline void *__nv_cvta_shared_to_generic_impl(size_t __ptr) {
504*12c85518Srobert return (void *)(void __attribute__((address_space(3))) *)__ptr;
505*12c85518Srobert }
__nv_cvta_constant_to_generic_impl(size_t __ptr)506*12c85518Srobert __device__ inline void *__nv_cvta_constant_to_generic_impl(size_t __ptr) {
507*12c85518Srobert return (void *)(void __attribute__((address_space(4))) *)__ptr;
508*12c85518Srobert }
__nv_cvta_local_to_generic_impl(size_t __ptr)509*12c85518Srobert __device__ inline void *__nv_cvta_local_to_generic_impl(size_t __ptr) {
510*12c85518Srobert return (void *)(void __attribute__((address_space(5))) *)__ptr;
511*12c85518Srobert }
__nvvm_get_smem_pointer(void * __ptr)512*12c85518Srobert __device__ inline cuuint32_t __nvvm_get_smem_pointer(void *__ptr) {
513*12c85518Srobert return __nv_cvta_generic_to_shared_impl(__ptr);
514*12c85518Srobert }
515*12c85518Srobert } // extern "C"
516*12c85518Srobert #endif // CUDA_VERSION >= 11000
517*12c85518Srobert
518e5dd7070Spatrick #endif // defined(__CLANG_CUDA_INTRINSICS_H__)
519