// ======================================================================== // // Copyright 2009-2017 Intel Corporation // // // // Licensed under the Apache License, Version 2.0 (the "License"); // // you may not use this file except in compliance with the License. // // You may obtain a copy of the License at // // // // http://www.apache.org/licenses/LICENSE-2.0 // // // // Unless required by applicable law or agreed to in writing, software // // distributed under the License is distributed on an "AS IS" BASIS, // // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // // See the License for the specific language governing permissions and // // limitations under the License. // // ======================================================================== // #pragma once namespace embree { /* 16-wide AVX-512 unsigned integer type */ template<> struct vuint<16> { typedef vboolf16 Bool; typedef vuint16 UInt; typedef vfloat16 Float; enum { size = 16 }; // number of SIMD elements union { // data __m512i v; unsigned int i[16]; }; //////////////////////////////////////////////////////////////////////////////// /// Constructors, Assignment & Cast Operators //////////////////////////////////////////////////////////////////////////////// __forceinline vuint() {} __forceinline vuint(const vuint16& t) { v = t.v; } __forceinline vuint16& operator=(const vuint16& f) { v = f.v; return *this; } __forceinline vuint(const __m512i& t) { v = t; } __forceinline operator __m512i () const { return v; } __forceinline operator __m256i () const { return _mm512_castsi512_si256(v); } __forceinline vuint(const unsigned int i) { v = _mm512_set_1to16_epi32(i); } __forceinline vuint(const unsigned int a, const unsigned int b, const unsigned int c, const unsigned int d) { v = _mm512_set_4to16_epi32(d,c,b,a); } __forceinline vuint(const unsigned int a0 , const unsigned int a1 , const unsigned int a2 , const unsigned int a3, const unsigned int a4 , const unsigned int a5 , const unsigned int a6 , const unsigned int a7, const unsigned int a8 , const unsigned int a9 , const unsigned int a10, const unsigned int a11, const unsigned int a12, const unsigned int a13, const unsigned int a14, const unsigned int a15) { v = _mm512_set_16to16_epi32(a15,a14,a13,a12,a11,a10,a9,a8,a7,a6,a5,a4,a3,a2,a1,a0); } __forceinline explicit vuint(const __m512& f) { v = _mm512_cvtps_epu32(f); } //////////////////////////////////////////////////////////////////////////////// /// Constants //////////////////////////////////////////////////////////////////////////////// __forceinline vuint( ZeroTy ) : v(_mm512_setzero_epi32()) {} __forceinline vuint( OneTy ) : v(_mm512_set_1to16_epi32(1)) {} __forceinline vuint( StepTy ) : v(_mm512_set_16to16_epi32(15,14,13,12,11,10,9,8,7,6,5,4,3,2,1,0)) {} __forceinline vuint( ReverseStepTy ) : v(_mm512_setr_epi32(15,14,13,12,11,10,9,8,7,6,5,4,3,2,1,0)) {} __forceinline static vuint16 zero() { return _mm512_setzero_epi32(); } __forceinline static vuint16 one () { return _mm512_set_1to16_epi32(1); } __forceinline static vuint16 neg_one () { return _mm512_set_1to16_epi32(-1); } //////////////////////////////////////////////////////////////////////////////// /// Loads and Stores //////////////////////////////////////////////////////////////////////////////// static __forceinline void store_nt(void *__restrict__ ptr, const vuint16& a) { _mm512_stream_si512(ptr,a); } static __forceinline vuint16 loadu(const void* addr) { return _mm512_loadu_si512(addr); } static __forceinline vuint16 load(const vuint16* addr) { return _mm512_load_si512(addr); } static __forceinline vuint16 load(const unsigned int* addr) { return _mm512_load_si512(addr); } static __forceinline void store(void* ptr, const vuint16& v) { _mm512_store_si512(ptr,v); } static __forceinline void storeu(void* ptr, const vuint16& v ) { _mm512_storeu_si512(ptr,v); } static __forceinline void storeu(const vboolf16& mask, int* ptr, const vuint16& f ) { _mm512_mask_storeu_epi32(ptr,mask,f); } static __forceinline void store(const vboolf16& mask, void* addr, const vuint16& v2) { _mm512_mask_store_epi32(addr,mask,v2); } /* pass by value to avoid compiler generating inefficient code */ static __forceinline void storeu_compact(const vboolf16 mask,void * addr, const vuint16 reg) { _mm512_mask_compressstoreu_epi32(addr,mask,reg); } static __forceinline vuint16 compact64bit(const vboolf16& mask, vuint16 &v) { return _mm512_mask_compress_epi64(v,mask,v); } static __forceinline vuint16 compact(const vboolf16& mask, vuint16 &v) { return _mm512_mask_compress_epi32(v,mask,v); } static __forceinline vuint16 compact(const vboolf16& mask, const vuint16 &a, vuint16 &b) { return _mm512_mask_compress_epi32(a,mask,b); } static __forceinline vuint16 broadcast64bit(size_t v) { return _mm512_set1_epi64(v); } static __forceinline size_t extract64bit(const vuint16& v) { return _mm_cvtsi128_si64(_mm512_castsi512_si128(v)); } //////////////////////////////////////////////////////////////////////////////// /// Array Access //////////////////////////////////////////////////////////////////////////////// __forceinline unsigned int& operator[](const size_t index) { assert(index < 16); return i[index]; } __forceinline const unsigned int& operator[](const size_t index) const { assert(index < 16); return i[index]; } __forceinline unsigned int uint (const size_t index) const { assert(index < 16); return ((unsigned int*)i)[index]; } __forceinline size_t& uint64_t(const size_t index) const { assert(index < 8); return ((size_t*)i)[index]; } }; //////////////////////////////////////////////////////////////////////////////// /// Unary Operators //////////////////////////////////////////////////////////////////////////////// __forceinline const vuint16 asUInt ( const __m512& a ) { return _mm512_castps_si512(a); } __forceinline const vuint16 operator +( const vuint16& a ) { return a; } __forceinline const vuint16 operator -( const vuint16& a ) { return _mm512_sub_epi32(_mm512_setzero_epi32(), a); } //////////////////////////////////////////////////////////////////////////////// /// Binary Operators //////////////////////////////////////////////////////////////////////////////// __forceinline const vuint16 operator +( const vuint16& a, const vuint16& b ) { return _mm512_add_epi32(a, b); } __forceinline const vuint16 operator +( const vuint16& a, const unsigned int b ) { return a + vuint16(b); } __forceinline const vuint16 operator +( const unsigned int a, const vuint16& b ) { return vuint16(a) + b; } __forceinline const vuint16 operator -( const vuint16& a, const vuint16& b ) { return _mm512_sub_epi32(a, b); } __forceinline const vuint16 operator -( const vuint16& a, const unsigned int b ) { return a - vuint16(b); } __forceinline const vuint16 operator -( const unsigned int a, const vuint16& b ) { return vuint16(a) - b; } __forceinline const vuint16 operator *( const vuint16& a, const vuint16& b ) { return _mm512_mul_epu32(a, b); } __forceinline const vuint16 operator *( const vuint16& a, const unsigned int b ) { return a * vuint16(b); } __forceinline const vuint16 operator *( const unsigned int a, const vuint16& b ) { return vuint16(a) * b; } __forceinline const vuint16 operator &( const vuint16& a, const vuint16& b ) { return _mm512_and_epi32(a, b); } __forceinline const vuint16 operator &( const vuint16& a, const unsigned int b ) { return a & vuint16(b); } __forceinline const vuint16 operator &( const unsigned int a, const vuint16& b ) { return vuint16(a) & b; } __forceinline const vuint16 operator |( const vuint16& a, const vuint16& b ) { return _mm512_or_epi32(a, b); } __forceinline const vuint16 operator |( const vuint16& a, const unsigned int b ) { return a | vuint16(b); } __forceinline const vuint16 operator |( const unsigned int a, const vuint16& b ) { return vuint16(a) | b; } __forceinline const vuint16 operator ^( const vuint16& a, const vuint16& b ) { return _mm512_xor_epi32(a, b); } __forceinline const vuint16 operator ^( const vuint16& a, const unsigned int b ) { return a ^ vuint16(b); } __forceinline const vuint16 operator ^( const unsigned int a, const vuint16& b ) { return vuint16(a) ^ b; } __forceinline const vuint16 operator <<( const vuint16& a, const unsigned int n ) { return _mm512_slli_epi32(a, n); } __forceinline const vuint16 operator >>( const vuint16& a, const unsigned int n ) { return _mm512_srai_epi32(a, n); } // FIXME: why not srl? __forceinline const vuint16 operator <<( const vuint16& a, const vuint16& n ) { return _mm512_sllv_epi32(a, n); } __forceinline const vuint16 operator >>( const vuint16& a, const vuint16& n ) { return _mm512_srav_epi32(a, n); } // FIXME: why not srl? __forceinline const vuint16 sll ( const vuint16& a, const unsigned int b ) { return _mm512_slli_epi32(a, b); } __forceinline const vuint16 sra ( const vuint16& a, const unsigned int b ) { return _mm512_srai_epi32(a, b); } __forceinline const vuint16 srl ( const vuint16& a, const unsigned int b ) { return _mm512_srli_epi32(a, b); } __forceinline const vuint16 min( const vuint16& a, const vuint16& b ) { return _mm512_min_epu32(a, b); } __forceinline const vuint16 min( const vuint16& a, const unsigned int b ) { return min(a,vuint16(b)); } __forceinline const vuint16 min( const unsigned int a, const vuint16& b ) { return min(vuint16(a),b); } __forceinline const vuint16 max( const vuint16& a, const vuint16& b ) { return _mm512_max_epu32(a, b); } __forceinline const vuint16 max( const vuint16& a, const unsigned int b ) { return max(a,vuint16(b)); } __forceinline const vuint16 max( const unsigned int a, const vuint16& b ) { return max(vuint16(a),b); } __forceinline const vuint16 mask_add(const vboolf16& mask, vuint16& c, const vuint16& a, const vuint16& b) { return _mm512_mask_add_epi32(c,mask,a,b); } __forceinline const vuint16 mask_sub(const vboolf16& mask, vuint16& c, const vuint16& a, const vuint16& b) { return _mm512_mask_sub_epi32(c,mask,a,b); } __forceinline const vuint16 mask_and(const vboolf16& m,vuint16& c, const vuint16& a, const vuint16& b) { return _mm512_mask_and_epi32(c,m,a,b); } __forceinline const vuint16 mask_or (const vboolf16& m,vuint16& c, const vuint16& a, const vuint16& b) { return _mm512_mask_or_epi32(c,m,a,b); } //////////////////////////////////////////////////////////////////////////////// /// Assignment Operators //////////////////////////////////////////////////////////////////////////////// __forceinline vuint16& operator +=( vuint16& a, const vuint16& b ) { return a = a + b; } __forceinline vuint16& operator +=( vuint16& a, const unsigned int b ) { return a = a + b; } __forceinline vuint16& operator -=( vuint16& a, const vuint16& b ) { return a = a - b; } __forceinline vuint16& operator -=( vuint16& a, const unsigned int b ) { return a = a - b; } __forceinline vuint16& operator *=( vuint16& a, const vuint16& b ) { return a = a * b; } __forceinline vuint16& operator *=( vuint16& a, const unsigned int b ) { return a = a * b; } __forceinline vuint16& operator &=( vuint16& a, const vuint16& b ) { return a = a & b; } __forceinline vuint16& operator &=( vuint16& a, const unsigned int b ) { return a = a & b; } __forceinline vuint16& operator |=( vuint16& a, const vuint16& b ) { return a = a | b; } __forceinline vuint16& operator |=( vuint16& a, const unsigned int b ) { return a = a | b; } __forceinline vuint16& operator <<=( vuint16& a, const unsigned int b ) { return a = a << b; } __forceinline vuint16& operator >>=( vuint16& a, const unsigned int b ) { return a = a >> b; } //////////////////////////////////////////////////////////////////////////////// /// Comparison Operators + Select //////////////////////////////////////////////////////////////////////////////// __forceinline const vboolf16 operator ==( const vuint16& a, const vuint16& b ) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_EQ); } __forceinline const vboolf16 operator ==( const vuint16& a, const unsigned int b ) { return a == vuint16(b); } __forceinline const vboolf16 operator ==( const unsigned int a, const vuint16& b ) { return vuint16(a) == b; } __forceinline const vboolf16 operator !=( const vuint16& a, const vuint16& b ) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_NE); } __forceinline const vboolf16 operator !=( const vuint16& a, const unsigned int b ) { return a != vuint16(b); } __forceinline const vboolf16 operator !=( const unsigned int a, const vuint16& b ) { return vuint16(a) != b; } __forceinline const vboolf16 operator < ( const vuint16& a, const vuint16& b ) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_LT); } __forceinline const vboolf16 operator < ( const vuint16& a, const unsigned int b ) { return a < vuint16(b); } __forceinline const vboolf16 operator < ( const unsigned int a, const vuint16& b ) { return vuint16(a) < b; } __forceinline const vboolf16 operator >=( const vuint16& a, const vuint16& b ) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_GE); } __forceinline const vboolf16 operator >=( const vuint16& a, const unsigned int b ) { return a >= vuint16(b); } __forceinline const vboolf16 operator >=( const unsigned int a, const vuint16& b ) { return vuint16(a) >= b; } __forceinline const vboolf16 operator > ( const vuint16& a, const vuint16& b ) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_GT); } __forceinline const vboolf16 operator > ( const vuint16& a, const unsigned int b ) { return a > vuint16(b); } __forceinline const vboolf16 operator > ( const unsigned int a, const vuint16& b ) { return vuint16(a) > b; } __forceinline const vboolf16 operator <=( const vuint16& a, const vuint16& b ) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_LE); } __forceinline const vboolf16 operator <=( const vuint16& a, const unsigned int b ) { return a <= vuint16(b); } __forceinline const vboolf16 operator <=( const unsigned int a, const vuint16& b ) { return vuint16(a) <= b; } __forceinline vboolf16 eq(const vuint16& a, const vuint16& b) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_EQ); } __forceinline vboolf16 ne(const vuint16& a, const vuint16& b) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_NE); } __forceinline vboolf16 lt(const vuint16& a, const vuint16& b) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_LT); } __forceinline vboolf16 ge(const vuint16& a, const vuint16& b) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_GE); } __forceinline vboolf16 gt(const vuint16& a, const vuint16& b) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_GT); } __forceinline vboolf16 le(const vuint16& a, const vuint16& b) { return _mm512_cmp_epu32_mask(a,b,_MM_CMPINT_LE); } __forceinline vboolf16 eq(const vboolf16 mask, const vuint16& a, const vuint16& b) { return _mm512_mask_cmp_epu32_mask(mask,a,b,_MM_CMPINT_EQ); } __forceinline vboolf16 ne(const vboolf16 mask, const vuint16& a, const vuint16& b) { return _mm512_mask_cmp_epu32_mask(mask,a,b,_MM_CMPINT_NE); } __forceinline vboolf16 lt(const vboolf16 mask, const vuint16& a, const vuint16& b) { return _mm512_mask_cmp_epu32_mask(mask,a,b,_MM_CMPINT_LT); } __forceinline vboolf16 ge(const vboolf16 mask, const vuint16& a, const vuint16& b) { return _mm512_mask_cmp_epu32_mask(mask,a,b,_MM_CMPINT_GE); } __forceinline vboolf16 gt(const vboolf16 mask, const vuint16& a, const vuint16& b) { return _mm512_mask_cmp_epu32_mask(mask,a,b,_MM_CMPINT_GT); } __forceinline vboolf16 le(const vboolf16 mask, const vuint16& a, const vuint16& b) { return _mm512_mask_cmp_epu32_mask(mask,a,b,_MM_CMPINT_LE); } __forceinline const vuint16 select( const vboolf16& m, const vuint16& t, const vuint16& f ) { return _mm512_mask_or_epi32(f,m,t,t); } __forceinline void xchg(const vboolf16& m, vuint16& a, vuint16& b) { const vuint16 c = a; a = select(m,b,a); b = select(m,c,b); } __forceinline vboolf16 test(const vboolf16& m, const vuint16& a, const vuint16& b) { return _mm512_mask_test_epi32_mask(m,a,b); } __forceinline vboolf16 test(const vuint16& a, const vuint16& b) { return _mm512_test_epi32_mask(a,b); } //////////////////////////////////////////////////////////////////////////////// // Movement/Shifting/Shuffling Functions //////////////////////////////////////////////////////////////////////////////// __forceinline vuint16 shuffle (const vuint16& x,_MM_SWIZZLE_ENUM perm32 ) { return _mm512_swizzle_epi32(x,perm32); } __forceinline vuint16 shuffle4(const vuint16& x,_MM_PERM_ENUM perm128) { return _mm512_permute4f128_epi32(x,perm128); } template __forceinline vuint16 shuffle (const vuint16& v) { return _mm512_shuffle_epi32(v,_MM_SHUF_PERM(D,C,B,A)); } template __forceinline vuint16 shuffle (const vuint16& x) { return shuffle(v); } template<> __forceinline vuint16 shuffle<0>(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_AAAA); } template<> __forceinline vuint16 shuffle<1>(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_BBBB); } template<> __forceinline vuint16 shuffle<2>(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_CCCC); } template<> __forceinline vuint16 shuffle<3>(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_DDDD); } template __forceinline vuint16 shuffle4(const vuint16& v) { return shuffle4(v,_MM_SHUF_PERM(D,C,B,A)); } template __forceinline vuint16 shuffle4(const vuint16& x) { return shuffle4(x); } __forceinline vuint16 shuffle(const vuint16& x,_MM_PERM_ENUM perm128, _MM_SWIZZLE_ENUM perm32) { return shuffle(shuffle4(x,perm128),perm32); } __forceinline vuint16 shuffle(const vboolf16& mask, vuint16& v, const vuint16& x,_MM_PERM_ENUM perm128, _MM_SWIZZLE_ENUM perm32) { return _mm512_mask_swizzle_epi32(_mm512_mask_permute4f128_epi32(v,mask,x,perm128),mask,x,perm32); } __forceinline vuint16 swAAAA(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_AAAA); } __forceinline vuint16 swBBBB(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_BBBB); } __forceinline vuint16 swCCCC(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_CCCC); } __forceinline vuint16 swDDDD(const vuint16& x) { return shuffle(x,_MM_SWIZ_REG_DDDD); } template __forceinline vuint16 align_shift_right(const vuint16& a, const vuint16& b) { return _mm512_alignr_epi32(a,b,i); }; __forceinline unsigned int toScalar(const vuint16& a) { return _mm_cvtsi128_si32(_mm512_castsi512_si128(a)); } //////////////////////////////////////////////////////////////////////////////// /// Reductions //////////////////////////////////////////////////////////////////////////////// __forceinline unsigned int reduce_add(vuint16 a) { return _mm512_reduce_add_epi32(a); } __forceinline unsigned int reduce_min(vuint16 a) { return _mm512_reduce_min_epu32(a); } __forceinline unsigned int reduce_max(vuint16 a) { return _mm512_reduce_max_epu32(a); } __forceinline unsigned int reduce_and(vuint16 a) { return _mm512_reduce_and_epi32(a); } __forceinline vuint16 vreduce_min2(vuint16 x) { return min(x,shuffle(x,_MM_SWIZ_REG_BADC)); } __forceinline vuint16 vreduce_min4(vuint16 x) { x = vreduce_min2(x); return min(x,shuffle(x,_MM_SWIZ_REG_CDAB)); } __forceinline vuint16 vreduce_min8(vuint16 x) { x = vreduce_min4(x); return min(x,shuffle4(x,_MM_SHUF_PERM(2,3,0,1))); } __forceinline vuint16 vreduce_min (vuint16 x) { x = vreduce_min8(x); return min(x,shuffle4(x,_MM_SHUF_PERM(1,0,3,2))); } __forceinline vuint16 vreduce_max2(vuint16 x) { return max(x,shuffle(x,_MM_SWIZ_REG_BADC)); } __forceinline vuint16 vreduce_max4(vuint16 x) { x = vreduce_max2(x); return max(x,shuffle(x,_MM_SWIZ_REG_CDAB)); } __forceinline vuint16 vreduce_max8(vuint16 x) { x = vreduce_max4(x); return max(x,shuffle4(x,_MM_SHUF_PERM(2,3,0,1))); } __forceinline vuint16 vreduce_max (vuint16 x) { x = vreduce_max8(x); return max(x,shuffle4(x,_MM_SHUF_PERM(1,0,3,2))); } __forceinline vuint16 vreduce_and2(vuint16 x) { return x & shuffle(x,_MM_SWIZ_REG_BADC); } __forceinline vuint16 vreduce_and4(vuint16 x) { x = vreduce_and2(x); return x & shuffle(x,_MM_SWIZ_REG_CDAB); } __forceinline vuint16 vreduce_and8(vuint16 x) { x = vreduce_and4(x); return x & shuffle4(x,_MM_SHUF_PERM(2,3,0,1)); } __forceinline vuint16 vreduce_and (vuint16 x) { x = vreduce_and8(x); return x & shuffle4(x,_MM_SHUF_PERM(1,0,3,2)); } __forceinline vuint16 vreduce_or2(vuint16 x) { return x | shuffle(x,_MM_SWIZ_REG_BADC); } __forceinline vuint16 vreduce_or4(vuint16 x) { x = vreduce_or2(x); return x | shuffle(x,_MM_SWIZ_REG_CDAB); } __forceinline vuint16 vreduce_or8(vuint16 x) { x = vreduce_or4(x); return x | shuffle4(x,_MM_SHUF_PERM(2,3,0,1)); } __forceinline vuint16 vreduce_or (vuint16 x) { x = vreduce_or8(x); return x | shuffle4(x,_MM_SHUF_PERM(1,0,3,2)); } __forceinline vuint16 vreduce_add2(vuint16 x) { return x + shuffle(x,_MM_SWIZ_REG_BADC); } __forceinline vuint16 vreduce_add4(vuint16 x) { x = vreduce_add2(x); return x + shuffle(x,_MM_SWIZ_REG_CDAB); } __forceinline vuint16 vreduce_add8(vuint16 x) { x = vreduce_add4(x); return x + shuffle4(x,_MM_SHUF_PERM(2,3,0,1)); } __forceinline vuint16 vreduce_add (vuint16 x) { x = vreduce_add8(x); return x + shuffle4(x,_MM_SHUF_PERM(1,0,3,2)); } //////////////////////////////////////////////////////////////////////////////// /// Memory load and store operations //////////////////////////////////////////////////////////////////////////////// __forceinline vuint16 broadcast4to16ui(const unsigned int *const ptr) { return _mm512_extload_epi32(ptr,_MM_UPCONV_EPI32_NONE,_MM_BROADCAST_4X16,_MM_HINT_NONE); } __forceinline vuint16 gather16i_4i(const unsigned int *__restrict__ const ptr0, const unsigned int *__restrict__ const ptr1, const unsigned int *__restrict__ const ptr2, const unsigned int *__restrict__ const ptr3) { vuint16 v = broadcast4to16ui(ptr0); v = select((vboolf16)0xf0 , broadcast4to16ui(ptr1),v); v = select((vboolf16)0xf00 , broadcast4to16ui(ptr2),v); v = select((vboolf16)0xf000, broadcast4to16ui(ptr3),v); return v; } __forceinline vuint16 gather16ui_4ui_align(const void *__restrict__ const ptr0, const void *__restrict__ const ptr1, const void *__restrict__ const ptr2, const void *__restrict__ const ptr3) { vuint16 v = broadcast4to16ui((const unsigned int*)ptr3); v = align_shift_right<12>(v,broadcast4to16ui((const unsigned int*)ptr2)); v = align_shift_right<12>(v,broadcast4to16ui((const unsigned int*)ptr1)); v = align_shift_right<12>(v,broadcast4to16ui((const unsigned int*)ptr0)); return v; } __forceinline vuint16 gather16i_4i_align(const vuint16& v0, const vuint16& v1, const vuint16& v2, const vuint16& v3) { vuint16 v = v3; v = align_shift_right<12>(v,v2); v = align_shift_right<12>(v,v1); v = align_shift_right<12>(v,v0); return v; } __forceinline vuint16 gather16i(const vboolf16& mask, const unsigned int *const ptr, const vuint16& index,const _MM_INDEX_SCALE_ENUM scale) { return _mm512_mask_i32extgather_epi32(_mm512_undefined_epi32(),mask,index,ptr,_MM_UPCONV_EPI32_NONE,scale,0); } __forceinline vuint16 gather16i(const vboolf16& mask, vuint16& dest, const unsigned int *const ptr, const vuint16& index,const _MM_INDEX_SCALE_ENUM scale) { return _mm512_mask_i32extgather_epi32(dest,mask,index,ptr,_MM_UPCONV_EPI32_NONE,scale,0); } __forceinline void scatter16i(const vboolf16& mask,int *const ptr, const vuint16& index,const vuint16& v, const _MM_INDEX_SCALE_ENUM scale) { _mm512_mask_i32extscatter_epi32((int*)ptr,mask,index,v,_MM_DOWNCONV_EPI32_NONE,scale,0); } __forceinline void compactustore16i_low(const vboolf16 mask, void *addr, const vuint16& reg) { _mm512_mask_compressstoreu_epi32(addr,mask,reg); } __forceinline vuint16 permute(vuint16 v,vuint16 index) { return _mm512_permutev_epi32(index,v); } __forceinline vuint16 reverse(const vuint16 &a) { return permute(a,vuint16(reverse_step)); } __forceinline vuint16 prefix_sum(const vuint16& a) { const vuint16 z(zero); vuint16 v = a; v = v + align_shift_right<16-1>(v,z); v = v + align_shift_right<16-2>(v,z); v = v + align_shift_right<16-4>(v,z); v = v + align_shift_right<16-8>(v,z); return v; } __forceinline vuint16 reverse_prefix_sum(const vuint16& a) { const vuint16 z(zero); vuint16 v = a; v = v + align_shift_right<1>(z,v); v = v + align_shift_right<2>(z,v); v = v + align_shift_right<4>(z,v); v = v + align_shift_right<8>(z,v); return v; } __forceinline vuint16 sortNetwork8(const vuint16& v) { const vuint16 a0 = v; const vuint16 b0 = shuffle<1,0,3,2>(a0); const vuint16 c0 = min(a0,b0); const vuint16 d0 = max(a0,b0); const vuint16 a1 = select(0x99 /* 0b10011001 */,c0,d0); const vuint16 b1 = shuffle<2,3,0,1>(a1); const vuint16 c1 = min(a1,b1); const vuint16 d1 = max(a1,b1); const vuint16 a2 = select(0xc3 /* 0b11000011 */,c1,d1); const vuint16 b2 = shuffle<1,0,3,2>(a2); const vuint16 c2 = min(a2,b2); const vuint16 d2 = max(a2,b2); const vuint16 a3 = select(0xa5 /* 0b10100101 */,c2,d2); const vuint16 b3 = shuffle4<1,0,1,0>(a3); const vuint16 c3 = min(a3,b3); const vuint16 d3 = max(a3,b3); const vuint16 a4 = select(0xf /* 0b00001111 */,c3,d3); const vuint16 b4 = shuffle<2,3,0,1>(a4); const vuint16 c4 = min(a4,b4); const vuint16 d4 = max(a4,b4); const vuint16 a5 = select(0x33 /* 0b00110011 */,c4,d4); const vuint16 b5 = shuffle<1,0,3,2>(a5); const vuint16 c5 = min(a5,b5); const vuint16 d5 = max(a5,b5); const vuint16 a6 = select(0x55 /* 0b01010101 */,c5,d5); return a6; } //////////////////////////////////////////////////////////////////////////////// /// Output Operators //////////////////////////////////////////////////////////////////////////////// __forceinline std::ostream& operator<<(std::ostream& cout, const vuint16& v) { cout << "<" << v[0]; for (int i=1; i<16; i++) cout << ", " << v[i]; cout << ">"; return cout; } }