#ifndef __CLANG_CUDA_INTRINSICS_H__
#define __CLANG_CUDA_INTRINSICS_H__
#ifndef __CUDA__
#error "This file is for CUDA compilation only."
#endif
#define __SM_30_INTRINSICS_H__
#define __SM_30_INTRINSICS_HPP__
#if !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 300
#pragma push_macro("__MAKE_SHUFFLES")
#define __MAKE_SHUFFLES(__FnName, __IntIntrinsic, __FloatIntrinsic, __Mask, \
__Type) \
inline __device__ int __FnName(int __val, __Type __offset, \
int __width = warpSize) { \
return __IntIntrinsic(__val, __offset, \
((warpSize - __width) << 8) | (__Mask)); \
} \
inline __device__ float __FnName(float __val, __Type __offset, \
int __width = warpSize) { \
return __FloatIntrinsic(__val, __offset, \
((warpSize - __width) << 8) | (__Mask)); \
} \
inline __device__ unsigned int __FnName(unsigned int __val, __Type __offset, \
int __width = warpSize) { \
return static_cast<unsigned int>( \
::__FnName(static_cast<int>(__val), __offset, __width)); \
} \
inline __device__ long long __FnName(long long __val, __Type __offset, \
int __width = warpSize) { \
struct __Bits { \
int __a, __b; \
}; \
_Static_assert(sizeof(__val) == sizeof(__Bits)); \
_Static_assert(sizeof(__Bits) == 2 * sizeof(int)); \
__Bits __tmp; \
memcpy(&__tmp, &__val, sizeof(__val)); \
__tmp.__a = ::__FnName(__tmp.__a, __offset, __width); \
__tmp.__b = ::__FnName(__tmp.__b, __offset, __width); \
long long __ret; \
memcpy(&__ret, &__tmp, sizeof(__tmp)); \
return __ret; \
} \
inline __device__ long __FnName(long __val, __Type __offset, \
int __width = warpSize) { \
_Static_assert(sizeof(long) == sizeof(long long) || \
sizeof(long) == sizeof(int)); \
if (sizeof(long) == sizeof(long long)) { \
return static_cast<long>( \
::__FnName(static_cast<long long>(__val), __offset, __width)); \
} else if (sizeof(long) == sizeof(int)) { \
return static_cast<long>( \
::__FnName(static_cast<int>(__val), __offset, __width)); \
} \
} \
inline __device__ unsigned long __FnName( \
unsigned long __val, __Type __offset, int __width = warpSize) { \
return static_cast<unsigned long>( \
::__FnName(static_cast<long>(__val), __offset, __width)); \
} \
inline __device__ unsigned long long __FnName( \
unsigned long long __val, __Type __offset, int __width = warpSize) { \
return static_cast<unsigned long long>( \
::__FnName(static_cast<long long>(__val), __offset, __width)); \
} \
inline __device__ double __FnName(double __val, __Type __offset, \
int __width = warpSize) { \
long long __tmp; \
_Static_assert(sizeof(__tmp) == sizeof(__val)); \
memcpy(&__tmp, &__val, sizeof(__val)); \
__tmp = ::__FnName(__tmp, __offset, __width); \
double __ret; \
memcpy(&__ret, &__tmp, sizeof(__ret)); \
return __ret; \
}
__MAKE_SHUFFLES(__shfl, __nvvm_shfl_idx_i32, __nvvm_shfl_idx_f32, 0x1f, int);
__MAKE_SHUFFLES(__shfl_up, __nvvm_shfl_up_i32, __nvvm_shfl_up_f32, 0,
unsigned int);
__MAKE_SHUFFLES(__shfl_down, __nvvm_shfl_down_i32, __nvvm_shfl_down_f32, 0x1f,
unsigned int);
__MAKE_SHUFFLES(__shfl_xor, __nvvm_shfl_bfly_i32, __nvvm_shfl_bfly_f32, 0x1f,
int);
#pragma pop_macro("__MAKE_SHUFFLES")
#endif
#if CUDA_VERSION >= 9000
#if (!defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 300)
#pragma push_macro("__MAKE_SYNC_SHUFFLES")
#define __MAKE_SYNC_SHUFFLES(__FnName, __IntIntrinsic, __FloatIntrinsic, \
__Mask, __Type) \
inline __device__ int __FnName(unsigned int __mask, int __val, \
__Type __offset, int __width = warpSize) { \
return __IntIntrinsic(__mask, __val, __offset, \
((warpSize - __width) << 8) | (__Mask)); \
} \
inline __device__ float __FnName(unsigned int __mask, float __val, \
__Type __offset, int __width = warpSize) { \
return __FloatIntrinsic(__mask, __val, __offset, \
((warpSize - __width) << 8) | (__Mask)); \
} \
inline __device__ unsigned int __FnName(unsigned int __mask, \
unsigned int __val, __Type __offset, \
int __width = warpSize) { \
return static_cast<unsigned int>( \
::__FnName(__mask, static_cast<int>(__val), __offset, __width)); \
} \
inline __device__ long long __FnName(unsigned int __mask, long long __val, \
__Type __offset, \
int __width = warpSize) { \
struct __Bits { \
int __a, __b; \
}; \
_Static_assert(sizeof(__val) == sizeof(__Bits)); \
_Static_assert(sizeof(__Bits) == 2 * sizeof(int)); \
__Bits __tmp; \
memcpy(&__tmp, &__val, sizeof(__val)); \
__tmp.__a = ::__FnName(__mask, __tmp.__a, __offset, __width); \
__tmp.__b = ::__FnName(__mask, __tmp.__b, __offset, __width); \
long long __ret; \
memcpy(&__ret, &__tmp, sizeof(__tmp)); \
return __ret; \
} \
inline __device__ unsigned long long __FnName( \
unsigned int __mask, unsigned long long __val, __Type __offset, \
int __width = warpSize) { \
return static_cast<unsigned long long>( \
::__FnName(__mask, static_cast<long long>(__val), __offset, __width)); \
} \
inline __device__ long __FnName(unsigned int __mask, long __val, \
__Type __offset, int __width = warpSize) { \
_Static_assert(sizeof(long) == sizeof(long long) || \
sizeof(long) == sizeof(int)); \
if (sizeof(long) == sizeof(long long)) { \
return static_cast<long>(::__FnName( \
__mask, static_cast<long long>(__val), __offset, __width)); \
} else if (sizeof(long) == sizeof(int)) { \
return static_cast<long>( \
::__FnName(__mask, static_cast<int>(__val), __offset, __width)); \
} \
} \
inline __device__ unsigned long __FnName( \
unsigned int __mask, unsigned long __val, __Type __offset, \
int __width = warpSize) { \
return static_cast<unsigned long>( \
::__FnName(__mask, static_cast<long>(__val), __offset, __width)); \
} \
inline __device__ double __FnName(unsigned int __mask, double __val, \
__Type __offset, int __width = warpSize) { \
long long __tmp; \
_Static_assert(sizeof(__tmp) == sizeof(__val)); \
memcpy(&__tmp, &__val, sizeof(__val)); \
__tmp = ::__FnName(__mask, __tmp, __offset, __width); \
double __ret; \
memcpy(&__ret, &__tmp, sizeof(__ret)); \
return __ret; \
}
__MAKE_SYNC_SHUFFLES(__shfl_sync, __nvvm_shfl_sync_idx_i32,
__nvvm_shfl_sync_idx_f32, 0x1f, int);
__MAKE_SYNC_SHUFFLES(__shfl_up_sync, __nvvm_shfl_sync_up_i32,
__nvvm_shfl_sync_up_f32, 0, unsigned int);
__MAKE_SYNC_SHUFFLES(__shfl_down_sync, __nvvm_shfl_sync_down_i32,
__nvvm_shfl_sync_down_f32, 0x1f, unsigned int);
__MAKE_SYNC_SHUFFLES(__shfl_xor_sync, __nvvm_shfl_sync_bfly_i32,
__nvvm_shfl_sync_bfly_f32, 0x1f, int);
#pragma pop_macro("__MAKE_SYNC_SHUFFLES")
inline __device__ void __syncwarp(unsigned int mask = 0xffffffff) {
return __nvvm_bar_warp_sync(mask);
}
inline __device__ void __barrier_sync(unsigned int id) {
__nvvm_barrier_sync(id);
}
inline __device__ void __barrier_sync_count(unsigned int id,
unsigned int count) {
__nvvm_barrier_sync_cnt(id, count);
}
inline __device__ int __all_sync(unsigned int mask, int pred) {
return __nvvm_vote_all_sync(mask, pred);
}
inline __device__ int __any_sync(unsigned int mask, int pred) {
return __nvvm_vote_any_sync(mask, pred);
}
inline __device__ int __uni_sync(unsigned int mask, int pred) {
return __nvvm_vote_uni_sync(mask, pred);
}
inline __device__ unsigned int __ballot_sync(unsigned int mask, int pred) {
return __nvvm_vote_ballot_sync(mask, pred);
}
inline __device__ unsigned int __activemask() {
#if CUDA_VERSION < 9020
return __nvvm_vote_ballot(1);
#else
unsigned int mask;
asm volatile("activemask.b32 %0;" : "=r"(mask));
return mask;
#endif
}
inline __device__ unsigned int __fns(unsigned mask, unsigned base, int offset) {
return __nvvm_fns(mask, base, offset);
}
#endif
#if !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 700
inline __device__ unsigned int __match32_any_sync(unsigned int mask,
unsigned int value) {
return __nvvm_match_any_sync_i32(mask, value);
}
inline __device__ unsigned int
__match64_any_sync(unsigned int mask, unsigned long long value) {
return __nvvm_match_any_sync_i64(mask, value);
}
inline __device__ unsigned int
__match32_all_sync(unsigned int mask, unsigned int value, int *pred) {
return __nvvm_match_all_sync_i32p(mask, value, pred);
}
inline __device__ unsigned int
__match64_all_sync(unsigned int mask, unsigned long long value, int *pred) {
return __nvvm_match_all_sync_i64p(mask, value, pred);
}
#include "crt/sm_70_rt.hpp"
#endif #endif
#define __SM_32_INTRINSICS_H__
#define __SM_32_INTRINSICS_HPP__
#if !defined(__CUDA_ARCH__) || __CUDA_ARCH__ >= 320
inline __device__ char __ldg(const char *ptr) { return __nvvm_ldg_c(ptr); }
inline __device__ short __ldg(const short *ptr) { return __nvvm_ldg_s(ptr); }
inline __device__ int __ldg(const int *ptr) { return __nvvm_ldg_i(ptr); }
inline __device__ long __ldg(const long *ptr) { return __nvvm_ldg_l(ptr); }
inline __device__ long long __ldg(const long long *ptr) {
return __nvvm_ldg_ll(ptr);
}
inline __device__ unsigned char __ldg(const unsigned char *ptr) {
return __nvvm_ldg_uc(ptr);
}
inline __device__ signed char __ldg(const signed char *ptr) {
return __nvvm_ldg_uc((const unsigned char *)ptr);
}
inline __device__ unsigned short __ldg(const unsigned short *ptr) {
return __nvvm_ldg_us(ptr);
}
inline __device__ unsigned int __ldg(const unsigned int *ptr) {
return __nvvm_ldg_ui(ptr);
}
inline __device__ unsigned long __ldg(const unsigned long *ptr) {
return __nvvm_ldg_ul(ptr);
}
inline __device__ unsigned long long __ldg(const unsigned long long *ptr) {
return __nvvm_ldg_ull(ptr);
}
inline __device__ float __ldg(const float *ptr) { return __nvvm_ldg_f(ptr); }
inline __device__ double __ldg(const double *ptr) { return __nvvm_ldg_d(ptr); }
inline __device__ char2 __ldg(const char2 *ptr) {
typedef char c2 __attribute__((ext_vector_type(2)));
c2 rv = __nvvm_ldg_c2(reinterpret_cast<const c2 *>(ptr));
char2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ char4 __ldg(const char4 *ptr) {
typedef char c4 __attribute__((ext_vector_type(4)));
c4 rv = __nvvm_ldg_c4(reinterpret_cast<const c4 *>(ptr));
char4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ short2 __ldg(const short2 *ptr) {
typedef short s2 __attribute__((ext_vector_type(2)));
s2 rv = __nvvm_ldg_s2(reinterpret_cast<const s2 *>(ptr));
short2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ short4 __ldg(const short4 *ptr) {
typedef short s4 __attribute__((ext_vector_type(4)));
s4 rv = __nvvm_ldg_s4(reinterpret_cast<const s4 *>(ptr));
short4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ int2 __ldg(const int2 *ptr) {
typedef int i2 __attribute__((ext_vector_type(2)));
i2 rv = __nvvm_ldg_i2(reinterpret_cast<const i2 *>(ptr));
int2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ int4 __ldg(const int4 *ptr) {
typedef int i4 __attribute__((ext_vector_type(4)));
i4 rv = __nvvm_ldg_i4(reinterpret_cast<const i4 *>(ptr));
int4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ longlong2 __ldg(const longlong2 *ptr) {
typedef long long ll2 __attribute__((ext_vector_type(2)));
ll2 rv = __nvvm_ldg_ll2(reinterpret_cast<const ll2 *>(ptr));
longlong2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ uchar2 __ldg(const uchar2 *ptr) {
typedef unsigned char uc2 __attribute__((ext_vector_type(2)));
uc2 rv = __nvvm_ldg_uc2(reinterpret_cast<const uc2 *>(ptr));
uchar2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ uchar4 __ldg(const uchar4 *ptr) {
typedef unsigned char uc4 __attribute__((ext_vector_type(4)));
uc4 rv = __nvvm_ldg_uc4(reinterpret_cast<const uc4 *>(ptr));
uchar4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ ushort2 __ldg(const ushort2 *ptr) {
typedef unsigned short us2 __attribute__((ext_vector_type(2)));
us2 rv = __nvvm_ldg_us2(reinterpret_cast<const us2 *>(ptr));
ushort2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ ushort4 __ldg(const ushort4 *ptr) {
typedef unsigned short us4 __attribute__((ext_vector_type(4)));
us4 rv = __nvvm_ldg_us4(reinterpret_cast<const us4 *>(ptr));
ushort4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ uint2 __ldg(const uint2 *ptr) {
typedef unsigned int ui2 __attribute__((ext_vector_type(2)));
ui2 rv = __nvvm_ldg_ui2(reinterpret_cast<const ui2 *>(ptr));
uint2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ uint4 __ldg(const uint4 *ptr) {
typedef unsigned int ui4 __attribute__((ext_vector_type(4)));
ui4 rv = __nvvm_ldg_ui4(reinterpret_cast<const ui4 *>(ptr));
uint4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ ulonglong2 __ldg(const ulonglong2 *ptr) {
typedef unsigned long long ull2 __attribute__((ext_vector_type(2)));
ull2 rv = __nvvm_ldg_ull2(reinterpret_cast<const ull2 *>(ptr));
ulonglong2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ float2 __ldg(const float2 *ptr) {
typedef float f2 __attribute__((ext_vector_type(2)));
f2 rv = __nvvm_ldg_f2(reinterpret_cast<const f2 *>(ptr));
float2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ float4 __ldg(const float4 *ptr) {
typedef float f4 __attribute__((ext_vector_type(4)));
f4 rv = __nvvm_ldg_f4(reinterpret_cast<const f4 *>(ptr));
float4 ret;
ret.x = rv[0];
ret.y = rv[1];
ret.z = rv[2];
ret.w = rv[3];
return ret;
}
inline __device__ double2 __ldg(const double2 *ptr) {
typedef double d2 __attribute__((ext_vector_type(2)));
d2 rv = __nvvm_ldg_d2(reinterpret_cast<const d2 *>(ptr));
double2 ret;
ret.x = rv[0];
ret.y = rv[1];
return ret;
}
inline __device__ unsigned __funnelshift_l(unsigned low32, unsigned high32,
unsigned shiftWidth) {
unsigned result;
asm("shf.l.wrap.b32 %0, %1, %2, %3;"
: "=r"(result)
: "r"(low32), "r"(high32), "r"(shiftWidth));
return result;
}
inline __device__ unsigned __funnelshift_lc(unsigned low32, unsigned high32,
unsigned shiftWidth) {
unsigned result;
asm("shf.l.clamp.b32 %0, %1, %2, %3;"
: "=r"(result)
: "r"(low32), "r"(high32), "r"(shiftWidth));
return result;
}
inline __device__ unsigned __funnelshift_r(unsigned low32, unsigned high32,
unsigned shiftWidth) {
unsigned result;
asm("shf.r.wrap.b32 %0, %1, %2, %3;"
: "=r"(result)
: "r"(low32), "r"(high32), "r"(shiftWidth));
return result;
}
inline __device__ unsigned __funnelshift_rc(unsigned low32, unsigned high32,
unsigned shiftWidth) {
unsigned ret;
asm("shf.r.clamp.b32 %0, %1, %2, %3;"
: "=r"(ret)
: "r"(low32), "r"(high32), "r"(shiftWidth));
return ret;
}
#endif
#if CUDA_VERSION >= 11000
extern "C" {
__device__ inline size_t __nv_cvta_generic_to_global_impl(const void *__ptr) {
return (size_t)(void __attribute__((address_space(1))) *)__ptr;
}
__device__ inline size_t __nv_cvta_generic_to_shared_impl(const void *__ptr) {
return (size_t)(void __attribute__((address_space(3))) *)__ptr;
}
__device__ inline size_t __nv_cvta_generic_to_constant_impl(const void *__ptr) {
return (size_t)(void __attribute__((address_space(4))) *)__ptr;
}
__device__ inline size_t __nv_cvta_generic_to_local_impl(const void *__ptr) {
return (size_t)(void __attribute__((address_space(5))) *)__ptr;
}
__device__ inline void *__nv_cvta_global_to_generic_impl(size_t __ptr) {
return (void *)(void __attribute__((address_space(1))) *)__ptr;
}
__device__ inline void *__nv_cvta_shared_to_generic_impl(size_t __ptr) {
return (void *)(void __attribute__((address_space(3))) *)__ptr;
}
__device__ inline void *__nv_cvta_constant_to_generic_impl(size_t __ptr) {
return (void *)(void __attribute__((address_space(4))) *)__ptr;
}
__device__ inline void *__nv_cvta_local_to_generic_impl(size_t __ptr) {
return (void *)(void __attribute__((address_space(5))) *)__ptr;
}
__device__ inline cuuint32_t __nvvm_get_smem_pointer(void *__ptr) {
return __nv_cvta_generic_to_shared_impl(__ptr);
}
} #endif
#endif