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faiss/c_api/impl/AuxIndexStructures_c.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.
*/
// Copyright 2004-present Facebook. All Rights Reserved.
// -*- c++ -*-
#include "AuxIndexStructures_c.h"
#include <faiss/impl/AuxIndexStructures.h>
#include <iostream>
#include "../macros_impl.h"
using faiss::BufferList;
using faiss::DistanceComputer;
using faiss::IDSelector;
using faiss::IDSelectorBatch;
using faiss::IDSelectorRange;
using faiss::RangeQueryResult;
using faiss::RangeSearchPartialResult;
using faiss::RangeSearchResult;
DEFINE_GETTER(RangeSearchResult, size_t, nq)
int faiss_RangeSearchResult_new(FaissRangeSearchResult** p_rsr, idx_t nq) {
try {
*p_rsr = reinterpret_cast<FaissRangeSearchResult*>(
new RangeSearchResult(nq));
return 0;
}
CATCH_AND_HANDLE
}
int faiss_RangeSearchResult_new_with(
FaissRangeSearchResult** p_rsr,
idx_t nq,
int alloc_lims) {
try {
*p_rsr = reinterpret_cast<FaissRangeSearchResult*>(
new RangeSearchResult(nq, static_cast<bool>(alloc_lims)));
return 0;
}
CATCH_AND_HANDLE
}
/// called when lims contains the nb of elements result entries
/// for each query
int faiss_RangeSearchResult_do_allocation(FaissRangeSearchResult* rsr) {
try {
reinterpret_cast<RangeSearchResult*>(rsr)->do_allocation();
return 0;
}
CATCH_AND_HANDLE
}
DEFINE_DESTRUCTOR(RangeSearchResult)
/// getter for buffer_size
DEFINE_GETTER(RangeSearchResult, size_t, buffer_size)
/// getter for lims: size (nq + 1)
void faiss_RangeSearchResult_lims(FaissRangeSearchResult* rsr, size_t** lims) {
*lims = reinterpret_cast<RangeSearchResult*>(rsr)->lims;
}
/// getter for labels and respective distances (not sorted):
/// result for query i is labels[lims[i]:lims[i+1]]
void faiss_RangeSearchResult_labels(
FaissRangeSearchResult* rsr,
idx_t** labels,
float** distances) {
auto sr = reinterpret_cast<RangeSearchResult*>(rsr);
*labels = sr->labels;
*distances = sr->distances;
}
DEFINE_DESTRUCTOR(IDSelector)
int faiss_IDSelector_is_member(const FaissIDSelector* sel, idx_t id) {
return reinterpret_cast<const IDSelector*>(sel)->is_member(id);
}
DEFINE_DESTRUCTOR(IDSelectorRange)
DEFINE_GETTER(IDSelectorRange, idx_t, imin)
DEFINE_GETTER(IDSelectorRange, idx_t, imax)
int faiss_IDSelectorRange_new(
FaissIDSelectorRange** p_sel,
idx_t imin,
idx_t imax) {
try {
*p_sel = reinterpret_cast<FaissIDSelectorRange*>(
new IDSelectorRange(imin, imax));
return 0;
}
CATCH_AND_HANDLE
}
DEFINE_GETTER(IDSelectorBatch, int, nbits)
DEFINE_GETTER(IDSelectorBatch, idx_t, mask)
int faiss_IDSelectorBatch_new(
FaissIDSelectorBatch** p_sel,
size_t n,
const idx_t* indices) {
try {
*p_sel = reinterpret_cast<FaissIDSelectorBatch*>(
new IDSelectorBatch(n, indices));
return 0;
}
CATCH_AND_HANDLE
}
// Below are structures used only by Index implementations
DEFINE_DESTRUCTOR(BufferList)
DEFINE_GETTER(BufferList, size_t, buffer_size)
DEFINE_GETTER(BufferList, size_t, wp)
int faiss_BufferList_append_buffer(FaissBufferList* bl) {
try {
reinterpret_cast<BufferList*>(bl)->append_buffer();
return 0;
}
CATCH_AND_HANDLE
}
int faiss_BufferList_new(FaissBufferList** p_bl, size_t buffer_size) {
try {
*p_bl = reinterpret_cast<FaissBufferList*>(new BufferList(buffer_size));
return 0;
}
CATCH_AND_HANDLE
}
int faiss_BufferList_add(FaissBufferList* bl, idx_t id, float dis) {
try {
reinterpret_cast<BufferList*>(bl)->add(id, dis);
return 0;
}
CATCH_AND_HANDLE
}
/// copy elemnts ofs:ofs+n-1 seen as linear data in the buffers to
/// tables dest_ids, dest_dis
int faiss_BufferList_copy_range(
FaissBufferList* bl,
size_t ofs,
size_t n,
idx_t* dest_ids,
float* dest_dis) {
try {
reinterpret_cast<BufferList*>(bl)->copy_range(
ofs, n, dest_ids, dest_dis);
return 0;
}
CATCH_AND_HANDLE
}
DEFINE_GETTER(RangeQueryResult, idx_t, qno)
DEFINE_GETTER(RangeQueryResult, size_t, nres)
DEFINE_GETTER_PERMISSIVE(RangeQueryResult, FaissRangeSearchPartialResult*, pres)
int faiss_RangeQueryResult_add(FaissRangeQueryResult* qr, float dis, idx_t id) {
try {
reinterpret_cast<RangeQueryResult*>(qr)->add(dis, id);
return 0;
}
CATCH_AND_HANDLE
}
DEFINE_GETTER_PERMISSIVE(RangeSearchPartialResult, FaissRangeSearchResult*, res)
int faiss_RangeSearchPartialResult_new(
FaissRangeSearchPartialResult** p_res,
FaissRangeSearchResult* res_in) {
try {
*p_res = reinterpret_cast<FaissRangeSearchPartialResult*>(
new RangeSearchPartialResult(
reinterpret_cast<RangeSearchResult*>(res_in)));
return 0;
}
CATCH_AND_HANDLE
}
int faiss_RangeSearchPartialResult_finalize(
FaissRangeSearchPartialResult* res) {
try {
reinterpret_cast<RangeSearchPartialResult*>(res)->finalize();
return 0;
}
CATCH_AND_HANDLE
}
/// called by range_search before do_allocation
int faiss_RangeSearchPartialResult_set_lims(
FaissRangeSearchPartialResult* res) {
try {
reinterpret_cast<RangeSearchPartialResult*>(res)->set_lims();
return 0;
}
CATCH_AND_HANDLE
}
int faiss_RangeSearchPartialResult_new_result(
FaissRangeSearchPartialResult* res,
idx_t qno,
FaissRangeQueryResult** qr) {
try {
auto q = &reinterpret_cast<RangeSearchPartialResult*>(res)->new_result(
qno);
if (qr) {
*qr = reinterpret_cast<FaissRangeQueryResult*>(&q);
}
return 0;
}
CATCH_AND_HANDLE
}
DEFINE_DESTRUCTOR(DistanceComputer)
int faiss_DistanceComputer_set_query(
FaissDistanceComputer* dc,
const float* x) {
try {
reinterpret_cast<DistanceComputer*>(dc)->set_query(x);
return 0;
}
CATCH_AND_HANDLE
}
int faiss_DistanceComputer_vector_to_query_dis(
FaissDistanceComputer* dc,
idx_t i,
float* qd) {
try {
*qd = reinterpret_cast<DistanceComputer*>(dc)->operator()(i);
return 0;
}
CATCH_AND_HANDLE
}
int faiss_DistanceComputer_symmetric_dis(
FaissDistanceComputer* dc,
idx_t i,
idx_t j,
float* vd) {
try {
*vd = reinterpret_cast<DistanceComputer*>(dc)->symmetric_dis(i, j);
return 0;
}
CATCH_AND_HANDLE
}
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