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IndexBinary.h
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IndexBinary.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_INDEX_BINARY_H
#define FAISS_INDEX_BINARY_H
#include <cstdio>
#include <typeinfo>
#include <string>
#include <sstream>
#include "FaissAssert.h"
#include "Index.h"
namespace faiss {
/// Forward declarations see AuxIndexStructures.h
struct IDSelector;
struct RangeSearchResult;
/** Abstract structure for a binary index.
*
* Supports adding vertices and searching them.
*
* All queries are symmetric because there is no distinction between codes and
* vectors.
*/
struct IndexBinary {
typedef long idx_t; ///< all indices are this type
int d; ///< vector dimension
int code_size; ///< number of bytes per vector ( = d / 8 )
idx_t ntotal; ///< total nb of indexed vectors
bool verbose; ///< verbosity level
/// set if the Index does not require training, or if training is done already
bool is_trained;
/// type of metric this index uses for search
MetricType metric_type;
explicit IndexBinary(idx_t d = 0, MetricType metric = METRIC_L2)
: d(d),
code_size(d / 8),
ntotal(0),
verbose(false),
is_trained(true),
metric_type(metric) {
FAISS_THROW_IF_NOT(d % 8 == 0);
}
virtual ~IndexBinary();
/** Perform training on a representative set of vectors.
*
* @param n nb of training vectors
* @param x training vecors, size n * d / 8
*/
virtual void train(idx_t n, const uint8_t *x);
/** Add n vectors of dimension d to the index.
*
* Vectors are implicitly assigned labels ntotal .. ntotal + n - 1
* @param x input matrix, size n * d / 8
*/
virtual void add(idx_t n, const uint8_t *x) = 0;
/** Same as add, but stores xids instead of sequential ids.
*
* The default implementation fails with an assertion, as it is
* not supported by all indexes.
*
* @param xids if non-null, ids to store for the vectors (size n)
*/
virtual void add_with_ids(idx_t n, const uint8_t *x, const long *xids);
/** Query n vectors of dimension d to the index.
*
* return at most k vectors. If there are not enough results for a
* query, the result array is padded with -1s.
*
* @param x input vectors to search, size n * d / 8
* @param labels output labels of the NNs, size n*k
* @param distances output pairwise distances, size n*k
*/
virtual void search(idx_t n, const uint8_t *x, idx_t k,
int32_t *distances, idx_t *labels) const = 0;
/** Query n vectors of dimension d to the index.
*
* return all vectors with distance < radius. Note that many
* indexes do not implement the range_search (only the k-NN search
* is mandatory).
*
* @param x input vectors to search, size n * d / 8
* @param radius search radius
* @param result result table
*/
virtual void range_search(idx_t n, const uint8_t *x, int radius,
RangeSearchResult *result) const;
/** Return the indexes of the k vectors closest to the query x.
*
* This function is identical to search but only returns labels of neighbors.
* @param x input vectors to search, size n * d / 8
* @param labels output labels of the NNs, size n*k
*/
void assign(idx_t n, const uint8_t *x, idx_t *labels, idx_t k = 1);
/// Removes all elements from the database.
virtual void reset() = 0;
/** Removes IDs from the index. Not supported by all indexes.
*/
virtual long remove_ids(const IDSelector& sel);
/** Reconstruct a stored vector.
*
* This function may not be defined for some indexes.
* @param key id of the vector to reconstruct
* @param recons reconstucted vector (size d / 8)
*/
virtual void reconstruct(idx_t key, uint8_t *recons) const;
/** Reconstruct vectors i0 to i0 + ni - 1.
*
* This function may not be defined for some indexes.
* @param recons reconstucted vectors (size ni * d / 8)
*/
virtual void reconstruct_n(idx_t i0, idx_t ni, uint8_t *recons) const;
/** Similar to search, but also reconstructs the stored vectors (or an
* approximation in the case of lossy coding) for the search results.
*
* If there are not enough results for a query, the resulting array
* is padded with -1s.
*
* @param recons reconstructed vectors size (n, k, d)
**/
virtual void search_and_reconstruct(idx_t n, const uint8_t *x, idx_t k,
int32_t *distances, idx_t *labels,
uint8_t *recons) const;
/** Display the actual class name and some more info. */
void display() const;
};
} // namespace faiss
#endif // FAISS_INDEX_BINARY_H