mirror of
https://github.com/nomic-ai/gpt4all.git
synced 2024-10-01 01:06:10 -04:00
376 lines
11 KiB
C++
376 lines
11 KiB
C++
#pragma once
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#include "hnswlib.h"
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namespace hnswlib {
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static float
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InnerProduct(const void *pVect1, const void *pVect2, const void *qty_ptr) {
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size_t qty = *((size_t *) qty_ptr);
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float res = 0;
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for (unsigned i = 0; i < qty; i++) {
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res += ((float *) pVect1)[i] * ((float *) pVect2)[i];
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}
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return res;
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}
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static float
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InnerProductDistance(const void *pVect1, const void *pVect2, const void *qty_ptr) {
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return 1.0f - InnerProduct(pVect1, pVect2, qty_ptr);
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}
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#if defined(USE_AVX)
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// Favor using AVX if available.
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static float
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InnerProductSIMD4ExtAVX(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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float PORTABLE_ALIGN32 TmpRes[8];
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float *pVect1 = (float *) pVect1v;
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float *pVect2 = (float *) pVect2v;
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size_t qty = *((size_t *) qty_ptr);
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size_t qty16 = qty / 16;
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size_t qty4 = qty / 4;
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const float *pEnd1 = pVect1 + 16 * qty16;
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const float *pEnd2 = pVect1 + 4 * qty4;
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__m256 sum256 = _mm256_set1_ps(0);
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while (pVect1 < pEnd1) {
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//_mm_prefetch((char*)(pVect2 + 16), _MM_HINT_T0);
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__m256 v1 = _mm256_loadu_ps(pVect1);
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pVect1 += 8;
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__m256 v2 = _mm256_loadu_ps(pVect2);
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pVect2 += 8;
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sum256 = _mm256_add_ps(sum256, _mm256_mul_ps(v1, v2));
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v1 = _mm256_loadu_ps(pVect1);
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pVect1 += 8;
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v2 = _mm256_loadu_ps(pVect2);
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pVect2 += 8;
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sum256 = _mm256_add_ps(sum256, _mm256_mul_ps(v1, v2));
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}
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__m128 v1, v2;
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__m128 sum_prod = _mm_add_ps(_mm256_extractf128_ps(sum256, 0), _mm256_extractf128_ps(sum256, 1));
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while (pVect1 < pEnd2) {
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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}
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_mm_store_ps(TmpRes, sum_prod);
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float sum = TmpRes[0] + TmpRes[1] + TmpRes[2] + TmpRes[3];
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return sum;
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}
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static float
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InnerProductDistanceSIMD4ExtAVX(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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return 1.0f - InnerProductSIMD4ExtAVX(pVect1v, pVect2v, qty_ptr);
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}
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#endif
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#if defined(USE_SSE)
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static float
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InnerProductSIMD4ExtSSE(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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float PORTABLE_ALIGN32 TmpRes[8];
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float *pVect1 = (float *) pVect1v;
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float *pVect2 = (float *) pVect2v;
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size_t qty = *((size_t *) qty_ptr);
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size_t qty16 = qty / 16;
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size_t qty4 = qty / 4;
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const float *pEnd1 = pVect1 + 16 * qty16;
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const float *pEnd2 = pVect1 + 4 * qty4;
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__m128 v1, v2;
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__m128 sum_prod = _mm_set1_ps(0);
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while (pVect1 < pEnd1) {
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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}
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while (pVect1 < pEnd2) {
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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}
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_mm_store_ps(TmpRes, sum_prod);
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float sum = TmpRes[0] + TmpRes[1] + TmpRes[2] + TmpRes[3];
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return sum;
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}
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static float
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InnerProductDistanceSIMD4ExtSSE(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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return 1.0f - InnerProductSIMD4ExtSSE(pVect1v, pVect2v, qty_ptr);
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}
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#endif
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#if defined(USE_AVX512)
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static float
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InnerProductSIMD16ExtAVX512(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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float PORTABLE_ALIGN64 TmpRes[16];
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float *pVect1 = (float *) pVect1v;
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float *pVect2 = (float *) pVect2v;
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size_t qty = *((size_t *) qty_ptr);
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size_t qty16 = qty / 16;
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const float *pEnd1 = pVect1 + 16 * qty16;
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__m512 sum512 = _mm512_set1_ps(0);
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while (pVect1 < pEnd1) {
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//_mm_prefetch((char*)(pVect2 + 16), _MM_HINT_T0);
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__m512 v1 = _mm512_loadu_ps(pVect1);
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pVect1 += 16;
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__m512 v2 = _mm512_loadu_ps(pVect2);
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pVect2 += 16;
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sum512 = _mm512_add_ps(sum512, _mm512_mul_ps(v1, v2));
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}
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_mm512_store_ps(TmpRes, sum512);
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float sum = TmpRes[0] + TmpRes[1] + TmpRes[2] + TmpRes[3] + TmpRes[4] + TmpRes[5] + TmpRes[6] + TmpRes[7] + TmpRes[8] + TmpRes[9] + TmpRes[10] + TmpRes[11] + TmpRes[12] + TmpRes[13] + TmpRes[14] + TmpRes[15];
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return sum;
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}
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static float
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InnerProductDistanceSIMD16ExtAVX512(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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return 1.0f - InnerProductSIMD16ExtAVX512(pVect1v, pVect2v, qty_ptr);
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}
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#endif
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#if defined(USE_AVX)
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static float
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InnerProductSIMD16ExtAVX(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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float PORTABLE_ALIGN32 TmpRes[8];
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float *pVect1 = (float *) pVect1v;
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float *pVect2 = (float *) pVect2v;
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size_t qty = *((size_t *) qty_ptr);
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size_t qty16 = qty / 16;
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const float *pEnd1 = pVect1 + 16 * qty16;
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__m256 sum256 = _mm256_set1_ps(0);
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while (pVect1 < pEnd1) {
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//_mm_prefetch((char*)(pVect2 + 16), _MM_HINT_T0);
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__m256 v1 = _mm256_loadu_ps(pVect1);
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pVect1 += 8;
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__m256 v2 = _mm256_loadu_ps(pVect2);
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pVect2 += 8;
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sum256 = _mm256_add_ps(sum256, _mm256_mul_ps(v1, v2));
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v1 = _mm256_loadu_ps(pVect1);
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pVect1 += 8;
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v2 = _mm256_loadu_ps(pVect2);
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pVect2 += 8;
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sum256 = _mm256_add_ps(sum256, _mm256_mul_ps(v1, v2));
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}
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_mm256_store_ps(TmpRes, sum256);
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float sum = TmpRes[0] + TmpRes[1] + TmpRes[2] + TmpRes[3] + TmpRes[4] + TmpRes[5] + TmpRes[6] + TmpRes[7];
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return sum;
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}
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static float
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InnerProductDistanceSIMD16ExtAVX(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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return 1.0f - InnerProductSIMD16ExtAVX(pVect1v, pVect2v, qty_ptr);
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}
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#endif
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#if defined(USE_SSE)
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static float
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InnerProductSIMD16ExtSSE(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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float PORTABLE_ALIGN32 TmpRes[8];
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float *pVect1 = (float *) pVect1v;
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float *pVect2 = (float *) pVect2v;
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size_t qty = *((size_t *) qty_ptr);
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size_t qty16 = qty / 16;
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const float *pEnd1 = pVect1 + 16 * qty16;
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__m128 v1, v2;
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__m128 sum_prod = _mm_set1_ps(0);
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while (pVect1 < pEnd1) {
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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v1 = _mm_loadu_ps(pVect1);
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pVect1 += 4;
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v2 = _mm_loadu_ps(pVect2);
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pVect2 += 4;
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sum_prod = _mm_add_ps(sum_prod, _mm_mul_ps(v1, v2));
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}
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_mm_store_ps(TmpRes, sum_prod);
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float sum = TmpRes[0] + TmpRes[1] + TmpRes[2] + TmpRes[3];
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return sum;
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}
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static float
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InnerProductDistanceSIMD16ExtSSE(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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return 1.0f - InnerProductSIMD16ExtSSE(pVect1v, pVect2v, qty_ptr);
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}
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#endif
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#if defined(USE_SSE) || defined(USE_AVX) || defined(USE_AVX512)
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static DISTFUNC<float> InnerProductSIMD16Ext = InnerProductSIMD16ExtSSE;
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static DISTFUNC<float> InnerProductSIMD4Ext = InnerProductSIMD4ExtSSE;
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static DISTFUNC<float> InnerProductDistanceSIMD16Ext = InnerProductDistanceSIMD16ExtSSE;
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static DISTFUNC<float> InnerProductDistanceSIMD4Ext = InnerProductDistanceSIMD4ExtSSE;
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static float
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InnerProductDistanceSIMD16ExtResiduals(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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size_t qty = *((size_t *) qty_ptr);
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size_t qty16 = qty >> 4 << 4;
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float res = InnerProductSIMD16Ext(pVect1v, pVect2v, &qty16);
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float *pVect1 = (float *) pVect1v + qty16;
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float *pVect2 = (float *) pVect2v + qty16;
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size_t qty_left = qty - qty16;
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float res_tail = InnerProduct(pVect1, pVect2, &qty_left);
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return 1.0f - (res + res_tail);
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}
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static float
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InnerProductDistanceSIMD4ExtResiduals(const void *pVect1v, const void *pVect2v, const void *qty_ptr) {
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size_t qty = *((size_t *) qty_ptr);
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size_t qty4 = qty >> 2 << 2;
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float res = InnerProductSIMD4Ext(pVect1v, pVect2v, &qty4);
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size_t qty_left = qty - qty4;
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float *pVect1 = (float *) pVect1v + qty4;
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float *pVect2 = (float *) pVect2v + qty4;
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float res_tail = InnerProduct(pVect1, pVect2, &qty_left);
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return 1.0f - (res + res_tail);
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}
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#endif
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class InnerProductSpace : public SpaceInterface<float> {
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DISTFUNC<float> fstdistfunc_;
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size_t data_size_;
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size_t dim_;
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public:
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InnerProductSpace(size_t dim) {
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fstdistfunc_ = InnerProductDistance;
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#if defined(USE_AVX) || defined(USE_SSE) || defined(USE_AVX512)
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#if defined(USE_AVX512)
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if (AVX512Capable()) {
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InnerProductSIMD16Ext = InnerProductSIMD16ExtAVX512;
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InnerProductDistanceSIMD16Ext = InnerProductDistanceSIMD16ExtAVX512;
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} else if (AVXCapable()) {
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InnerProductSIMD16Ext = InnerProductSIMD16ExtAVX;
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InnerProductDistanceSIMD16Ext = InnerProductDistanceSIMD16ExtAVX;
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}
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#elif defined(USE_AVX)
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if (AVXCapable()) {
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InnerProductSIMD16Ext = InnerProductSIMD16ExtAVX;
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InnerProductDistanceSIMD16Ext = InnerProductDistanceSIMD16ExtAVX;
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}
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#endif
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#if defined(USE_AVX)
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if (AVXCapable()) {
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InnerProductSIMD4Ext = InnerProductSIMD4ExtAVX;
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InnerProductDistanceSIMD4Ext = InnerProductDistanceSIMD4ExtAVX;
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}
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#endif
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if (dim % 16 == 0)
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fstdistfunc_ = InnerProductDistanceSIMD16Ext;
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else if (dim % 4 == 0)
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fstdistfunc_ = InnerProductDistanceSIMD4Ext;
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else if (dim > 16)
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fstdistfunc_ = InnerProductDistanceSIMD16ExtResiduals;
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else if (dim > 4)
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fstdistfunc_ = InnerProductDistanceSIMD4ExtResiduals;
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#endif
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dim_ = dim;
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data_size_ = dim * sizeof(float);
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}
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size_t get_data_size() {
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return data_size_;
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}
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DISTFUNC<float> get_dist_func() {
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return fstdistfunc_;
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}
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void *get_dist_func_param() {
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return &dim_;
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}
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~InnerProductSpace() {}
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};
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} // namespace hnswlib
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