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IndexShards.cpp
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IndexShards.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 "IndexShards.h"
#include <cstdio>
#include <functional>
#include "FaissAssert.h"
#include "Heap.h"
#include "WorkerThread.h"
namespace faiss {
// subroutines
namespace {
typedef Index::idx_t idx_t;
// add translation to all valid labels
void translate_labels (long n, idx_t *labels, long translation)
{
if (translation == 0) return;
for (long i = 0; i < n; i++) {
if(labels[i] < 0) continue;
labels[i] += translation;
}
}
/** merge result tables from several shards.
* @param all_distances size nshard * n * k
* @param all_labels idem
* @param translartions label translations to apply, size nshard
*/
template <class IndexClass, class C>
void
merge_tables(long n, long k, long nshard,
typename IndexClass::distance_t *distances,
idx_t *labels,
const std::vector<typename IndexClass::distance_t>& all_distances,
const std::vector<idx_t>& all_labels,
const std::vector<long>& translations) {
if (k == 0) {
return;
}
using distance_t = typename IndexClass::distance_t;
long stride = n * k;
#pragma omp parallel
{
std::vector<int> buf (2 * nshard);
int * pointer = buf.data();
int * shard_ids = pointer + nshard;
std::vector<distance_t> buf2 (nshard);
distance_t * heap_vals = buf2.data();
#pragma omp for
for (long i = 0; i < n; i++) {
// the heap maps values to the shard where they are
// produced.
const distance_t *D_in = all_distances.data() + i * k;
const idx_t *I_in = all_labels.data() + i * k;
int heap_size = 0;
for (long s = 0; s < nshard; s++) {
pointer[s] = 0;
if (I_in[stride * s] >= 0) {
heap_push<C> (++heap_size, heap_vals, shard_ids,
D_in[stride * s], s);
}
}
distance_t *D = distances + i * k;
idx_t *I = labels + i * k;
for (int j = 0; j < k; j++) {
if (heap_size == 0) {
I[j] = -1;
D[j] = C::neutral();
} else {
// pop best element
int s = shard_ids[0];
int & p = pointer[s];
D[j] = heap_vals[0];
I[j] = I_in[stride * s + p] + translations[s];
heap_pop<C> (heap_size--, heap_vals, shard_ids);
p++;
if (p < k && I_in[stride * s + p] >= 0) {
heap_push<C> (++heap_size, heap_vals, shard_ids,
D_in[stride * s + p], s);
}
}
}
}
}
}
} // anonymous namespace
template <typename IndexT>
IndexShardsTemplate<IndexT>::IndexShardsTemplate(idx_t d,
bool threaded,
bool successive_ids)
: ThreadedIndex<IndexT>(d, threaded),
successive_ids(successive_ids) {
}
template <typename IndexT>
IndexShardsTemplate<IndexT>::IndexShardsTemplate(int d,
bool threaded,
bool successive_ids)
: ThreadedIndex<IndexT>(d, threaded),
successive_ids(successive_ids) {
}
template <typename IndexT>
IndexShardsTemplate<IndexT>::IndexShardsTemplate(bool threaded,
bool successive_ids)
: ThreadedIndex<IndexT>(threaded),
successive_ids(successive_ids) {
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::onAfterAddIndex(IndexT* index /* unused */) {
sync_with_shard_indexes();
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::onAfterRemoveIndex(IndexT* index /* unused */) {
sync_with_shard_indexes();
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::sync_with_shard_indexes() {
if (!this->count()) {
this->is_trained = false;
this->ntotal = 0;
return;
}
auto firstIndex = this->at(0);
this->metric_type = firstIndex->metric_type;
this->is_trained = firstIndex->is_trained;
this->ntotal = firstIndex->ntotal;
for (int i = 1; i < this->count(); ++i) {
auto index = this->at(i);
FAISS_THROW_IF_NOT(this->metric_type == index->metric_type);
FAISS_THROW_IF_NOT(this->d == index->d);
this->ntotal += index->ntotal;
}
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::train(idx_t n,
const component_t *x) {
auto fn =
[n, x](int no, IndexT *index) {
if (index->verbose) {
printf("begin train shard %d on %ld points\n", no, n);
}
index->train(n, x);
if (index->verbose) {
printf("end train shard %d\n", no);
}
};
this->runOnIndex(fn);
sync_with_shard_indexes();
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::add(idx_t n,
const component_t *x) {
add_with_ids(n, x, nullptr);
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::add_with_ids(idx_t n,
const component_t * x,
const idx_t *xids) {
FAISS_THROW_IF_NOT_MSG(!(successive_ids && xids),
"It makes no sense to pass in ids and "
"request them to be shifted");
if (successive_ids) {
FAISS_THROW_IF_NOT_MSG(!xids,
"It makes no sense to pass in ids and "
"request them to be shifted");
FAISS_THROW_IF_NOT_MSG(this->ntotal == 0,
"when adding to IndexShards with sucessive_ids, "
"only add() in a single pass is supported");
}
idx_t nshard = this->count();
const idx_t *ids = xids;
std::vector<idx_t> aids;
if (!ids && !successive_ids) {
aids.resize(n);
for (idx_t i = 0; i < n; i++) {
aids[i] = this->ntotal + i;
}
ids = aids.data();
}
size_t components_per_vec =
sizeof(component_t) == 1 ? (this->d + 7) / 8 : this->d;
auto fn =
[n, ids, x, nshard, components_per_vec](int no, IndexT *index) {
idx_t i0 = (idx_t) no * n / nshard;
idx_t i1 = ((idx_t) no + 1) * n / nshard;
auto x0 = x + i0 * components_per_vec;
if (index->verbose) {
printf ("begin add shard %d on %ld points\n", no, n);
}
if (ids) {
index->add_with_ids (i1 - i0, x0, ids + i0);
} else {
index->add (i1 - i0, x0);
}
if (index->verbose) {
printf ("end add shard %d on %ld points\n", no, i1 - i0);
}
};
this->runOnIndex(fn);
// This is safe to do here because the current thread controls execution in
// all threads, and nothing else is happening
this->ntotal += n;
}
template <typename IndexT>
void
IndexShardsTemplate<IndexT>::search(idx_t n,
const component_t *x,
idx_t k,
distance_t *distances,
idx_t *labels) const {
long nshard = this->count();
std::vector<distance_t> all_distances(nshard * k * n);
std::vector<idx_t> all_labels(nshard * k * n);
auto fn =
[n, k, x, &all_distances, &all_labels](int no, const IndexT *index) {
if (index->verbose) {
printf ("begin query shard %d on %ld points\n", no, n);
}
index->search (n, x, k,
all_distances.data() + no * k * n,
all_labels.data() + no * k * n);
if (index->verbose) {
printf ("end query shard %d\n", no);
}
};
this->runOnIndex(fn);
std::vector<long> translations(nshard, 0);
// Because we just called runOnIndex above, it is safe to access the sub-index
// ntotal here
if (successive_ids) {
translations[0] = 0;
for (int s = 0; s + 1 < nshard; s++) {
translations[s + 1] = translations[s] + this->at(s)->ntotal;
}
}
if (this->metric_type == METRIC_L2) {
merge_tables<IndexT, CMin<distance_t, int>>(
n, k, nshard, distances, labels,
all_distances, all_labels, translations);
} else {
merge_tables<IndexT, CMax<distance_t, int>>(
n, k, nshard, distances, labels,
all_distances, all_labels, translations);
}
}
// explicit instanciations
template struct IndexShardsTemplate<Index>;
template struct IndexShardsTemplate<IndexBinary>;
} // namespace faiss