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IVFlib.h
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IVFlib.h
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/**
* Copyright (c) 2015-present, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD+Patents license found in the
* LICENSE file in the root directory of this source tree.
*/
// -*- c++ -*-
#ifndef FAISS_IVFLIB_H
#define FAISS_IVFLIB_H
/** Since IVF (inverted file) indexes are of so much use for
* large-scale use cases, we group a few functions related to them in
* this small library. Most functions work both on IndexIVFs and
* IndexIVFs embedded within an IndexPreTransform.
*/
#include <vector>
#include "IndexIVF.h"
namespace faiss { namespace ivflib {
/** check if two indexes have the same parameters and are trained in
* the same way, otherwise throw. */
void check_compatible_for_merge (const Index * index1,
const Index * index2);
/** get an IndexIVF from an index. The index may be an IndexIVF or
* some wrapper class that encloses an IndexIVF
*
* throws an exception if this is not the case.
*/
const IndexIVF * extract_index_ivf (const Index * index);
IndexIVF * extract_index_ivf (Index * index);
/** Merge index1 into index0. Works on IndexIVF's and IndexIVF's
* embedded in a IndexPreTransform. On output, the index1 is empty.
*
* @param shift_ids: translate the ids from index1 to index0->prev_ntotal
*/
void merge_into(Index *index0, Index *index1, bool shift_ids);
typedef Index::idx_t idx_t;
/* Returns the cluster the embeddings belong to.
*
* @param index Index, which should be an IVF index
* (otherwise there are no clusters)
* @param embeddings object descriptors for which the centroids should be found,
* size num_objects * d
* @param centroid_ids
* cluster id each object belongs to, size num_objects
*/
void search_centroid(Index *index,
const float* x, int n,
idx_t* centroid_ids);
/* Returns the cluster the embeddings belong to.
*
* @param index Index, which should be an IVF index
* (otherwise there are no clusters)
* @param query_centroid_ids
* centroid ids corresponding to the query vectors (size n)
* @param result_centroid_ids
* centroid ids corresponding to the results (size n * k)
* other arguments are the same as the standard search function
*/
void search_and_return_centroids(Index *index,
size_t n,
const float* xin,
long k,
float *distances,
idx_t* labels,
idx_t* query_centroid_ids,
idx_t* result_centroid_ids);
/** A set of IndexIVFs concatenated together in a FIFO fashion.
* at each "step", the oldest index slice is removed and a new index is added.
*/
struct SlidingIndexWindow {
/// common index that contains the sliding window
Index * index;
/// InvertedLists of index
ArrayInvertedLists *ils;
/// number of slices currently in index
int n_slice;
/// same as index->nlist
size_t nlist;
/// cumulative list sizes at each slice
std::vector<std::vector<size_t> > sizes;
/// index should be initially empty and trained
SlidingIndexWindow (Index *index);
/** Add one index to the current index and remove the oldest one.
*
* @param sub_index slice to swap in (can be NULL)
* @param remove_oldest if true, remove the oldest slices */
void step(const Index *sub_index, bool remove_oldest);
};
/// Get a subset of inverted lists [i0, i1)
ArrayInvertedLists * get_invlist_range (const Index *index,
long i0, long i1);
/// Set a subset of inverted lists
void set_invlist_range (Index *index, long i0, long i1,
ArrayInvertedLists * src);
// search an IndexIVF, possibly embedded in an IndexPreTransform
// with given parameters
void search_with_parameters (const Index *index,
idx_t n, const float *x, idx_t k,
float *distances, idx_t *labels,
IVFSearchParameters *params);
} } // namespace faiss::ivflib
#endif