godot/thirdparty/embree/common/sys/intrinsics.h

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// Copyright 2009-2021 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
#pragma once
#include "platform.h"
#if defined(__WIN32__)
#include <intrin.h>
#endif
#if defined(__ARM_NEON)
#include "../simd/arm/emulation.h"
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#else
#include <immintrin.h>
#endif
#if defined(__BMI__) && defined(__GNUC__) && !defined(__INTEL_COMPILER)
#if !defined(_tzcnt_u32)
#define _tzcnt_u32 __tzcnt_u32
#endif
#if !defined(_tzcnt_u64)
#define _tzcnt_u64 __tzcnt_u64
#endif
#endif
#if defined(__LZCNT__)
#if !defined(_lzcnt_u32)
#define _lzcnt_u32 __lzcnt32
#endif
#if !defined(_lzcnt_u64)
#define _lzcnt_u64 __lzcnt64
#endif
#endif
#if defined(__WIN32__)
// -- GODOT start --
#if !defined(NOMINMAX)
// -- GODOT end --
#define NOMINMAX
// -- GODOT start --
#endif
#include "windows.h"
// -- GODOT end --
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#endif
/* normally defined in pmmintrin.h, but we always need this */
#if !defined(_MM_SET_DENORMALS_ZERO_MODE)
#define _MM_DENORMALS_ZERO_ON (0x0040)
#define _MM_DENORMALS_ZERO_OFF (0x0000)
#define _MM_DENORMALS_ZERO_MASK (0x0040)
#define _MM_SET_DENORMALS_ZERO_MODE(x) (_mm_setcsr((_mm_getcsr() & ~_MM_DENORMALS_ZERO_MASK) | (x)))
#endif
namespace embree
{
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////////////////////////////////////////////////////////////////////////////////
/// Windows Platform
////////////////////////////////////////////////////////////////////////////////
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#if defined(__WIN32__)
__forceinline size_t read_tsc()
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{
LARGE_INTEGER li;
QueryPerformanceCounter(&li);
return (size_t)li.QuadPart;
}
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__forceinline int bsf(int v) {
#if defined(__AVX2__)
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return _tzcnt_u32(v);
#else
unsigned long r = 0; _BitScanForward(&r,v); return r;
#endif
}
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__forceinline unsigned bsf(unsigned v) {
#if defined(__AVX2__)
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return _tzcnt_u32(v);
#else
unsigned long r = 0; _BitScanForward(&r,v); return r;
#endif
}
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#if defined(__X86_64__)
__forceinline size_t bsf(size_t v) {
#if defined(__AVX2__)
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return _tzcnt_u64(v);
#else
unsigned long r = 0; _BitScanForward64(&r,v); return r;
#endif
}
#endif
__forceinline int bscf(int& v)
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{
int i = bsf(v);
v &= v-1;
return i;
}
__forceinline unsigned bscf(unsigned& v)
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{
unsigned i = bsf(v);
v &= v-1;
return i;
}
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#if defined(__X86_64__)
__forceinline size_t bscf(size_t& v)
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{
size_t i = bsf(v);
v &= v-1;
return i;
}
#endif
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__forceinline int bsr(int v) {
#if defined(__AVX2__)
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return 31 - _lzcnt_u32(v);
#else
unsigned long r = 0; _BitScanReverse(&r,v); return r;
#endif
}
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__forceinline unsigned bsr(unsigned v) {
#if defined(__AVX2__)
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return 31 - _lzcnt_u32(v);
#else
unsigned long r = 0; _BitScanReverse(&r,v); return r;
#endif
}
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#if defined(__X86_64__)
__forceinline size_t bsr(size_t v) {
#if defined(__AVX2__)
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return 63 -_lzcnt_u64(v);
#else
unsigned long r = 0; _BitScanReverse64(&r, v); return r;
#endif
}
#endif
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__forceinline int lzcnt(const int x)
{
#if defined(__AVX2__)
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return _lzcnt_u32(x);
#else
if (unlikely(x == 0)) return 32;
return 31 - bsr(x);
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#endif
}
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__forceinline int btc(int v, int i) {
long r = v; _bittestandcomplement(&r,i); return r;
}
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__forceinline int bts(int v, int i) {
long r = v; _bittestandset(&r,i); return r;
}
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__forceinline int btr(int v, int i) {
long r = v; _bittestandreset(&r,i); return r;
}
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#if defined(__X86_64__)
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__forceinline size_t btc(size_t v, size_t i) {
size_t r = v; _bittestandcomplement64((__int64*)&r,i); return r;
}
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__forceinline size_t bts(size_t v, size_t i) {
__int64 r = v; _bittestandset64(&r,i); return r;
}
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__forceinline size_t btr(size_t v, size_t i) {
__int64 r = v; _bittestandreset64(&r,i); return r;
}
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#endif
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__forceinline int32_t atomic_cmpxchg(volatile int32_t* p, const int32_t c, const int32_t v) {
return _InterlockedCompareExchange((volatile long*)p,v,c);
}
////////////////////////////////////////////////////////////////////////////////
/// Unix Platform
////////////////////////////////////////////////////////////////////////////////
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#else
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#if defined(__i386__) && defined(__PIC__)
__forceinline void __cpuid(int out[4], int op)
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{
asm volatile ("xchg{l}\t{%%}ebx, %1\n\t"
"cpuid\n\t"
"xchg{l}\t{%%}ebx, %1\n\t"
: "=a"(out[0]), "=r"(out[1]), "=c"(out[2]), "=d"(out[3])
: "0"(op));
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}
__forceinline void __cpuid_count(int out[4], int op1, int op2)
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{
asm volatile ("xchg{l}\t{%%}ebx, %1\n\t"
"cpuid\n\t"
"xchg{l}\t{%%}ebx, %1\n\t"
: "=a" (out[0]), "=r" (out[1]), "=c" (out[2]), "=d" (out[3])
: "0" (op1), "2" (op2));
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}
#elif defined(__X86_ASM__)
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__forceinline void __cpuid(int out[4], int op) {
asm volatile ("cpuid" : "=a"(out[0]), "=b"(out[1]), "=c"(out[2]), "=d"(out[3]) : "a"(op));
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}
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__forceinline void __cpuid_count(int out[4], int op1, int op2) {
asm volatile ("cpuid" : "=a"(out[0]), "=b"(out[1]), "=c"(out[2]), "=d"(out[3]) : "a"(op1), "c"(op2));
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}
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#endif
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__forceinline uint64_t read_tsc() {
#if defined(__X86_ASM__)
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uint32_t high,low;
asm volatile ("rdtsc" : "=d"(high), "=a"(low));
return (((uint64_t)high) << 32) + (uint64_t)low;
#else
/* Not supported yet, meaning measuring traversal cost per pixel does not work. */
return 0;
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#endif
}
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__forceinline int bsf(int v) {
#if defined(__AVX2__)
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return _tzcnt_u32(v);
#elif defined(__X86_ASM__)
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int r = 0; asm ("bsf %1,%0" : "=r"(r) : "r"(v)); return r;
#else
return __builtin_ctz(v);
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#endif
}
#if defined(__64BIT__)
__forceinline unsigned bsf(unsigned v)
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{
#if defined(__AVX2__)
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return _tzcnt_u32(v);
#elif defined(__X86_ASM__)
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unsigned r = 0; asm ("bsf %1,%0" : "=r"(r) : "r"(v)); return r;
#else
return __builtin_ctz(v);
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#endif
}
#endif
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__forceinline size_t bsf(size_t v) {
#if defined(__AVX2__)
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#if defined(__X86_64__)
return _tzcnt_u64(v);
#else
return _tzcnt_u32(v);
#endif
#elif defined(__X86_ASM__)
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size_t r = 0; asm ("bsf %1,%0" : "=r"(r) : "r"(v)); return r;
#else
return __builtin_ctzl(v);
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#endif
}
__forceinline int bscf(int& v)
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{
int i = bsf(v);
v &= v-1;
return i;
}
#if defined(__64BIT__)
__forceinline unsigned int bscf(unsigned int& v)
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{
unsigned int i = bsf(v);
v &= v-1;
return i;
}
#endif
__forceinline size_t bscf(size_t& v)
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{
size_t i = bsf(v);
v &= v-1;
return i;
}
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__forceinline int bsr(int v) {
#if defined(__AVX2__)
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return 31 - _lzcnt_u32(v);
#elif defined(__X86_ASM__)
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int r = 0; asm ("bsr %1,%0" : "=r"(r) : "r"(v)); return r;
#else
return __builtin_clz(v) ^ 31;
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#endif
}
#if defined(__64BIT__)
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__forceinline unsigned bsr(unsigned v) {
#if defined(__AVX2__)
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return 31 - _lzcnt_u32(v);
#elif defined(__X86_ASM__)
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unsigned r = 0; asm ("bsr %1,%0" : "=r"(r) : "r"(v)); return r;
#else
return __builtin_clz(v) ^ 31;
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#endif
}
#endif
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__forceinline size_t bsr(size_t v) {
#if defined(__AVX2__)
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#if defined(__X86_64__)
return 63 - _lzcnt_u64(v);
#else
return 31 - _lzcnt_u32(v);
#endif
#elif defined(__X86_ASM__)
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size_t r = 0; asm ("bsr %1,%0" : "=r"(r) : "r"(v)); return r;
#else
return (sizeof(v) * 8 - 1) - __builtin_clzl(v);
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#endif
}
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__forceinline int lzcnt(const int x)
{
#if defined(__AVX2__)
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return _lzcnt_u32(x);
#else
if (unlikely(x == 0)) return 32;
return 31 - bsr(x);
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#endif
}
__forceinline size_t blsr(size_t v) {
#if defined(__AVX2__)
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#if defined(__INTEL_COMPILER)
return _blsr_u64(v);
#else
#if defined(__X86_64__)
return __blsr_u64(v);
#else
return __blsr_u32(v);
#endif
#endif
#else
return v & (v-1);
#endif
}
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__forceinline int btc(int v, int i) {
#if defined(__X86_ASM__)
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int r = 0; asm ("btc %1,%0" : "=r"(r) : "r"(i), "0"(v) : "flags" ); return r;
#else
return (v ^ (1 << i));
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#endif
}
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__forceinline int bts(int v, int i) {
#if defined(__X86_ASM__)
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int r = 0; asm ("bts %1,%0" : "=r"(r) : "r"(i), "0"(v) : "flags"); return r;
#else
return (v | (v << i));
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#endif
}
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__forceinline int btr(int v, int i) {
#if defined(__X86_ASM__)
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int r = 0; asm ("btr %1,%0" : "=r"(r) : "r"(i), "0"(v) : "flags"); return r;
#else
return (v & ~(v << i));
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#endif
}
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__forceinline size_t btc(size_t v, size_t i) {
#if defined(__X86_ASM__)
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size_t r = 0; asm ("btc %1,%0" : "=r"(r) : "r"(i), "0"(v) : "flags" ); return r;
#else
return (v ^ (1 << i));
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#endif
}
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__forceinline size_t bts(size_t v, size_t i) {
#if defined(__X86_ASM__)
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size_t r = 0; asm ("bts %1,%0" : "=r"(r) : "r"(i), "0"(v) : "flags"); return r;
#else
return (v | (v << i));
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#endif
}
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__forceinline size_t btr(size_t v, size_t i) {
#if defined(__X86_ASM__)
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size_t r = 0; asm ("btr %1,%0" : "=r"(r) : "r"(i), "0"(v) : "flags"); return r;
#else
return (v & ~(v << i));
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#endif
}
__forceinline int32_t atomic_cmpxchg(int32_t volatile* value, int32_t comparand, const int32_t input) {
return __sync_val_compare_and_swap(value, comparand, input);
}
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#endif
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////////////////////////////////////////////////////////////////////////////////
/// All Platforms
////////////////////////////////////////////////////////////////////////////////
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#if defined(__clang__) || defined(__GNUC__)
#if !defined(_mm_undefined_ps)
__forceinline __m128 _mm_undefined_ps() { return _mm_setzero_ps(); }
#endif
#if !defined(_mm_undefined_si128)
__forceinline __m128i _mm_undefined_si128() { return _mm_setzero_si128(); }
#endif
#if !defined(_mm256_undefined_ps) && defined(__AVX__)
__forceinline __m256 _mm256_undefined_ps() { return _mm256_setzero_ps(); }
#endif
#if !defined(_mm256_undefined_si256) && defined(__AVX__)
__forceinline __m256i _mm256_undefined_si256() { return _mm256_setzero_si256(); }
#endif
#if !defined(_mm512_undefined_ps) && defined(__AVX512F__)
__forceinline __m512 _mm512_undefined_ps() { return _mm512_setzero_ps(); }
#endif
#if !defined(_mm512_undefined_epi32) && defined(__AVX512F__)
__forceinline __m512i _mm512_undefined_epi32() { return _mm512_setzero_si512(); }
#endif
#endif
#if defined(__SSE4_2__)
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__forceinline int popcnt(int in) {
return _mm_popcnt_u32(in);
}
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__forceinline unsigned popcnt(unsigned in) {
return _mm_popcnt_u32(in);
}
#if defined(__64BIT__)
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__forceinline size_t popcnt(size_t in) {
return _mm_popcnt_u64(in);
}
#endif
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#endif
#if defined(__X86_ASM__)
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__forceinline uint64_t rdtsc()
{
int dummy[4];
__cpuid(dummy,0);
uint64_t clock = read_tsc();
__cpuid(dummy,0);
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return clock;
}
#endif
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__forceinline void pause_cpu(const size_t N = 8)
{
for (size_t i=0; i<N; i++)
_mm_pause();
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}
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/* prefetches */
__forceinline void prefetchL1 (const void* ptr) { _mm_prefetch((const char*)ptr,_MM_HINT_T0); }
__forceinline void prefetchL2 (const void* ptr) { _mm_prefetch((const char*)ptr,_MM_HINT_T1); }
__forceinline void prefetchL3 (const void* ptr) { _mm_prefetch((const char*)ptr,_MM_HINT_T2); }
__forceinline void prefetchNTA(const void* ptr) { _mm_prefetch((const char*)ptr,_MM_HINT_NTA); }
__forceinline void prefetchEX (const void* ptr) {
#if defined(__INTEL_COMPILER)
_mm_prefetch((const char*)ptr,_MM_HINT_ET0);
#else
_mm_prefetch((const char*)ptr,_MM_HINT_T0);
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#endif
}
__forceinline void prefetchL1EX(const void* ptr) {
prefetchEX(ptr);
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}
__forceinline void prefetchL2EX(const void* ptr) {
prefetchEX(ptr);
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}
#if defined(__AVX2__)
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__forceinline unsigned int pext(unsigned int a, unsigned int b) { return _pext_u32(a, b); }
__forceinline unsigned int pdep(unsigned int a, unsigned int b) { return _pdep_u32(a, b); }
#if defined(__X86_64__)
__forceinline size_t pext(size_t a, size_t b) { return _pext_u64(a, b); }
__forceinline size_t pdep(size_t a, size_t b) { return _pdep_u64(a, b); }
#endif
#endif
#if defined(__AVX512F__)
#if defined(__INTEL_COMPILER)
__forceinline float mm512_cvtss_f32(__m512 v) {
return _mm512_cvtss_f32(v);
}
__forceinline int mm512_mask2int(__mmask16 k1) {
return _mm512_mask2int(k1);
}
__forceinline __mmask16 mm512_int2mask(int mask) {
return _mm512_int2mask(mask);
}
#else
__forceinline float mm512_cvtss_f32(__m512 v) { // FIXME: _mm512_cvtss_f32 neither supported by clang v4.0.0 nor GCC 6.3
return _mm_cvtss_f32(_mm512_castps512_ps128(v));
}
__forceinline int mm512_mask2int(__mmask16 k1) { // FIXME: _mm512_mask2int not yet supported by GCC 6.3
return (int)k1;
}
__forceinline __mmask16 mm512_int2mask(int mask) { // FIXME: _mm512_int2mask not yet supported by GCC 6.3
return (__mmask16)mask;
}
#endif
#endif
}