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Index.cpp
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Index.cpp
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/**
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
// -*- c++ -*-
#include <faiss/Index.h>
#include <faiss/impl/AuxIndexStructures.h>
#include <faiss/impl/FaissAssert.h>
#include <faiss/utils/distances.h>
#include <cstring>
namespace faiss {
Index::~Index ()
{
}
void Index::train(idx_t /*n*/, const float* /*x*/) {
// does nothing by default
}
void Index::range_search (idx_t , const float *, float,
RangeSearchResult *) const
{
FAISS_THROW_MSG ("range search not implemented");
}
void Index::assign (idx_t n, const float * x, idx_t * labels, idx_t k)
{
float * distances = new float[n * k];
ScopeDeleter<float> del(distances);
search (n, x, k, distances, labels);
}
void Index::add_with_ids(
idx_t /*n*/,
const float* /*x*/,
const idx_t* /*xids*/) {
FAISS_THROW_MSG ("add_with_ids not implemented for this type of index");
}
size_t Index::remove_ids(const IDSelector& /*sel*/) {
FAISS_THROW_MSG ("remove_ids not implemented for this type of index");
return -1;
}
void Index::reconstruct (idx_t, float * ) const {
FAISS_THROW_MSG ("reconstruct not implemented for this type of index");
}
void Index::reconstruct_n (idx_t i0, idx_t ni, float *recons) const {
for (idx_t i = 0; i < ni; i++) {
reconstruct (i0 + i, recons + i * d);
}
}
void Index::search_and_reconstruct (idx_t n, const float *x, idx_t k,
float *distances, idx_t *labels,
float *recons) const {
search (n, x, k, distances, labels);
for (idx_t i = 0; i < n; ++i) {
for (idx_t j = 0; j < k; ++j) {
idx_t ij = i * k + j;
idx_t key = labels[ij];
float* reconstructed = recons + ij * d;
if (key < 0) {
// Fill with NaNs
memset(reconstructed, -1, sizeof(*reconstructed) * d);
} else {
reconstruct (key, reconstructed);
}
}
}
}
void Index::compute_residual (const float * x,
float * residual, idx_t key) const {
reconstruct (key, residual);
for (size_t i = 0; i < d; i++) {
residual[i] = x[i] - residual[i];
}
}
void Index::compute_residual_n (idx_t n, const float* xs,
float* residuals,
const idx_t* keys) const {
#pragma omp parallel for
for (idx_t i = 0; i < n; ++i) {
compute_residual(&xs[i * d], &residuals[i * d], keys[i]);
}
}
size_t Index::sa_code_size () const
{
FAISS_THROW_MSG ("standalone codec not implemented for this type of index");
}
void Index::sa_encode (idx_t, const float *,
uint8_t *) const
{
FAISS_THROW_MSG ("standalone codec not implemented for this type of index");
}
void Index::sa_decode (idx_t, const uint8_t *,
float *) const
{
FAISS_THROW_MSG ("standalone codec not implemented for this type of index");
}
namespace {
// storage that explicitly reconstructs vectors before computing distances
struct GenericDistanceComputer : DistanceComputer {
size_t d;
const Index& storage;
std::vector<float> buf;
const float *q;
explicit GenericDistanceComputer(const Index& storage)
: storage(storage) {
d = storage.d;
buf.resize(d * 2);
}
float operator () (idx_t i) override {
storage.reconstruct(i, buf.data());
return fvec_L2sqr(q, buf.data(), d);
}
float symmetric_dis(idx_t i, idx_t j) override {
storage.reconstruct(i, buf.data());
storage.reconstruct(j, buf.data() + d);
return fvec_L2sqr(buf.data() + d, buf.data(), d);
}
void set_query(const float *x) override {
q = x;
}
};
} // namespace
DistanceComputer * Index::get_distance_computer() const {
if (metric_type == METRIC_L2) {
return new GenericDistanceComputer(*this);
} else {
FAISS_THROW_MSG ("get_distance_computer() not implemented");
}
}
}