mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-27 05:55:02 +03:00
601 lines
23 KiB
C++
601 lines
23 KiB
C++
/* This is where the trie is built. It's on-disk. */
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#include "lm/search_trie.hh"
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#include "lm/bhiksha.hh"
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#include "lm/binary_format.hh"
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#include "lm/blank.hh"
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#include "lm/lm_exception.hh"
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#include "lm/max_order.hh"
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#include "lm/quantize.hh"
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#include "lm/trie.hh"
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#include "lm/trie_sort.hh"
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#include "lm/vocab.hh"
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#include "lm/weights.hh"
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#include "lm/word_index.hh"
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#include "util/ersatz_progress.hh"
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#include "util/mmap.hh"
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#include "util/proxy_iterator.hh"
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#include "util/scoped.hh"
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#include "util/sized_iterator.hh"
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#include <algorithm>
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#include <cstring>
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#include <cstdio>
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#include <cstdlib>
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#include <queue>
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#include <limits>
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#include <numeric>
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#include <vector>
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#if defined(_WIN32) || defined(_WIN64)
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#include <windows.h>
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#endif
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namespace lm {
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namespace ngram {
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namespace trie {
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namespace {
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void ReadOrThrow(FILE *from, void *data, size_t size) {
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UTIL_THROW_IF(1 != std::fread(data, size, 1, from), util::ErrnoException, "Short read");
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}
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int Compare(unsigned char order, const void *first_void, const void *second_void) {
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const WordIndex *first = reinterpret_cast<const WordIndex*>(first_void), *second = reinterpret_cast<const WordIndex*>(second_void);
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const WordIndex *end = first + order;
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for (; first != end; ++first, ++second) {
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if (*first < *second) return -1;
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if (*first > *second) return 1;
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}
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return 0;
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}
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struct ProbPointer {
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unsigned char array;
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uint64_t index;
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};
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// Array of n-grams and float indices.
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class BackoffMessages {
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public:
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void Init(std::size_t entry_size) {
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current_ = NULL;
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allocated_ = NULL;
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entry_size_ = entry_size;
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}
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void Add(const WordIndex *to, ProbPointer index) {
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while (current_ + entry_size_ > allocated_) {
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std::size_t allocated_size = allocated_ - (uint8_t*)backing_.get();
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Resize(std::max<std::size_t>(allocated_size * 2, entry_size_));
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}
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memcpy(current_, to, entry_size_ - sizeof(ProbPointer));
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*reinterpret_cast<ProbPointer*>(current_ + entry_size_ - sizeof(ProbPointer)) = index;
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current_ += entry_size_;
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}
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void Apply(float *const *const base, FILE *unigrams) {
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FinishedAdding();
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if (current_ == allocated_) return;
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rewind(unigrams);
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ProbBackoff weights;
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WordIndex unigram = 0;
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ReadOrThrow(unigrams, &weights, sizeof(weights));
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for (; current_ != allocated_; current_ += entry_size_) {
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const WordIndex &cur_word = *reinterpret_cast<const WordIndex*>(current_);
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for (; unigram < cur_word; ++unigram) {
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ReadOrThrow(unigrams, &weights, sizeof(weights));
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}
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if (!HasExtension(weights.backoff)) {
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weights.backoff = kExtensionBackoff;
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UTIL_THROW_IF(fseek(unigrams, -sizeof(weights), SEEK_CUR), util::ErrnoException, "Seeking backwards to denote unigram extension failed.");
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util::WriteOrThrow(unigrams, &weights, sizeof(weights));
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}
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const ProbPointer &write_to = *reinterpret_cast<const ProbPointer*>(current_ + sizeof(WordIndex));
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base[write_to.array][write_to.index] += weights.backoff;
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}
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backing_.reset();
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}
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void Apply(float *const *const base, RecordReader &reader) {
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FinishedAdding();
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if (current_ == allocated_) return;
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// We'll also use the same buffer to record messages to blanks that they extend.
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WordIndex *extend_out = reinterpret_cast<WordIndex*>(current_);
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const unsigned char order = (entry_size_ - sizeof(ProbPointer)) / sizeof(WordIndex);
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for (reader.Rewind(); reader && (current_ != allocated_); ) {
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switch (Compare(order, reader.Data(), current_)) {
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case -1:
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++reader;
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break;
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case 1:
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// Message but nobody to receive it. Write it down at the beginning of the buffer so we can inform this blank that it extends.
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for (const WordIndex *w = reinterpret_cast<const WordIndex *>(current_); w != reinterpret_cast<const WordIndex *>(current_) + order; ++w, ++extend_out) *extend_out = *w;
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current_ += entry_size_;
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break;
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case 0:
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float &backoff = reinterpret_cast<ProbBackoff*>((uint8_t*)reader.Data() + order * sizeof(WordIndex))->backoff;
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if (!HasExtension(backoff)) {
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backoff = kExtensionBackoff;
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reader.Overwrite(&backoff, sizeof(float));
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} else {
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const ProbPointer &write_to = *reinterpret_cast<const ProbPointer*>(current_ + entry_size_ - sizeof(ProbPointer));
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base[write_to.array][write_to.index] += backoff;
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}
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current_ += entry_size_;
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break;
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}
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}
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// Now this is a list of blanks that extend right.
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entry_size_ = sizeof(WordIndex) * order;
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Resize(sizeof(WordIndex) * (extend_out - (const WordIndex*)backing_.get()));
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current_ = (uint8_t*)backing_.get();
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}
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// Call after Apply
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bool Extends(unsigned char order, const WordIndex *words) {
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if (current_ == allocated_) return false;
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assert(order * sizeof(WordIndex) == entry_size_);
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while (true) {
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switch(Compare(order, words, current_)) {
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case 1:
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current_ += entry_size_;
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if (current_ == allocated_) return false;
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break;
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case -1:
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return false;
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case 0:
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return true;
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}
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}
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}
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private:
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void FinishedAdding() {
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Resize(current_ - (uint8_t*)backing_.get());
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// Sort requests in same order as files.
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std::sort(
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util::SizedIterator(util::SizedProxy(backing_.get(), entry_size_)),
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util::SizedIterator(util::SizedProxy(current_, entry_size_)),
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util::SizedCompare<EntryCompare>(EntryCompare((entry_size_ - sizeof(ProbPointer)) / sizeof(WordIndex))));
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current_ = (uint8_t*)backing_.get();
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}
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void Resize(std::size_t to) {
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std::size_t current = current_ - (uint8_t*)backing_.get();
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backing_.call_realloc(to);
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current_ = (uint8_t*)backing_.get() + current;
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allocated_ = (uint8_t*)backing_.get() + to;
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}
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util::scoped_malloc backing_;
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uint8_t *current_, *allocated_;
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std::size_t entry_size_;
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};
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const float kBadProb = std::numeric_limits<float>::infinity();
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class SRISucks {
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public:
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SRISucks() {
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for (BackoffMessages *i = messages_; i != messages_ + KENLM_MAX_ORDER - 1; ++i)
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i->Init(sizeof(ProbPointer) + sizeof(WordIndex) * (i - messages_ + 1));
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}
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void Send(unsigned char begin, unsigned char order, const WordIndex *to, float prob_basis) {
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assert(prob_basis != kBadProb);
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ProbPointer pointer;
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pointer.array = order - 1;
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pointer.index = values_[order - 1].size();
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for (unsigned char i = begin; i < order; ++i) {
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messages_[i - 1].Add(to, pointer);
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}
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values_[order - 1].push_back(prob_basis);
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}
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void ObtainBackoffs(unsigned char total_order, FILE *unigram_file, RecordReader *reader) {
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for (unsigned char i = 0; i < KENLM_MAX_ORDER - 1; ++i) {
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it_[i] = values_[i].empty() ? NULL : &*values_[i].begin();
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}
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messages_[0].Apply(it_, unigram_file);
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BackoffMessages *messages = messages_ + 1;
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const RecordReader *end = reader + total_order - 2 /* exclude unigrams and longest order */;
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for (; reader != end; ++messages, ++reader) {
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messages->Apply(it_, *reader);
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}
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}
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ProbBackoff GetBlank(unsigned char total_order, unsigned char order, const WordIndex *indices) {
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assert(order > 1);
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ProbBackoff ret;
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ret.prob = *(it_[order - 1]++);
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ret.backoff = ((order != total_order - 1) && messages_[order - 1].Extends(order, indices)) ? kExtensionBackoff : kNoExtensionBackoff;
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return ret;
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}
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const std::vector<float> &Values(unsigned char order) const {
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return values_[order - 1];
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}
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private:
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// This used to be one array. Then I needed to separate it by order for quantization to work.
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std::vector<float> values_[KENLM_MAX_ORDER - 1];
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BackoffMessages messages_[KENLM_MAX_ORDER - 1];
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float *it_[KENLM_MAX_ORDER - 1];
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};
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class FindBlanks {
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public:
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FindBlanks(unsigned char order, const ProbBackoff *unigrams, SRISucks &messages)
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: counts_(order), unigrams_(unigrams), sri_(messages) {}
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float UnigramProb(WordIndex index) const {
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return unigrams_[index].prob;
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}
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void Unigram(WordIndex /*index*/) {
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++counts_[0];
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}
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void MiddleBlank(const unsigned char order, const WordIndex *indices, unsigned char lower, float prob_basis) {
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sri_.Send(lower, order, indices + 1, prob_basis);
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++counts_[order - 1];
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}
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void Middle(const unsigned char order, const void * /*data*/) {
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++counts_[order - 1];
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}
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void Longest(const void * /*data*/) {
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++counts_.back();
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}
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const std::vector<uint64_t> &Counts() const {
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return counts_;
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}
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private:
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std::vector<uint64_t> counts_;
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const ProbBackoff *unigrams_;
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SRISucks &sri_;
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};
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// Phase to actually write n-grams to the trie.
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template <class Quant, class Bhiksha> class WriteEntries {
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public:
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WriteEntries(RecordReader *contexts, const Quant &quant, UnigramValue *unigrams, BitPackedMiddle<Bhiksha> *middle, BitPackedLongest &longest, unsigned char order, SRISucks &sri) :
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contexts_(contexts),
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quant_(quant),
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unigrams_(unigrams),
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middle_(middle),
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longest_(longest),
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bigram_pack_((order == 2) ? static_cast<BitPacked&>(longest_) : static_cast<BitPacked&>(*middle_)),
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order_(order),
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sri_(sri) {}
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float UnigramProb(WordIndex index) const { return unigrams_[index].weights.prob; }
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void Unigram(WordIndex word) {
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unigrams_[word].next = bigram_pack_.InsertIndex();
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}
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void MiddleBlank(const unsigned char order, const WordIndex *indices, unsigned char /*lower*/, float /*prob_base*/) {
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ProbBackoff weights = sri_.GetBlank(order_, order, indices);
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typename Quant::MiddlePointer(quant_, order - 2, middle_[order - 2].Insert(indices[order - 1])).Write(weights.prob, weights.backoff);
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}
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void Middle(const unsigned char order, const void *data) {
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RecordReader &context = contexts_[order - 1];
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const WordIndex *words = reinterpret_cast<const WordIndex*>(data);
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ProbBackoff weights = *reinterpret_cast<const ProbBackoff*>(words + order);
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if (context && !memcmp(data, context.Data(), sizeof(WordIndex) * order)) {
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SetExtension(weights.backoff);
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++context;
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}
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typename Quant::MiddlePointer(quant_, order - 2, middle_[order - 2].Insert(words[order - 1])).Write(weights.prob, weights.backoff);
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}
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void Longest(const void *data) {
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const WordIndex *words = reinterpret_cast<const WordIndex*>(data);
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typename Quant::LongestPointer(quant_, longest_.Insert(words[order_ - 1])).Write(reinterpret_cast<const Prob*>(words + order_)->prob);
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}
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private:
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RecordReader *contexts_;
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const Quant &quant_;
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UnigramValue *const unigrams_;
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BitPackedMiddle<Bhiksha> *const middle_;
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BitPackedLongest &longest_;
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BitPacked &bigram_pack_;
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const unsigned char order_;
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SRISucks &sri_;
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};
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struct Gram {
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Gram(const WordIndex *in_begin, unsigned char order) : begin(in_begin), end(in_begin + order) {}
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const WordIndex *begin, *end;
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// For queue, this is the direction we want.
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bool operator<(const Gram &other) const {
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return std::lexicographical_compare(other.begin, other.end, begin, end);
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}
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};
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template <class Doing> class BlankManager {
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public:
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BlankManager(unsigned char total_order, Doing &doing) : total_order_(total_order), been_length_(0), doing_(doing) {
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for (float *i = basis_; i != basis_ + KENLM_MAX_ORDER - 1; ++i) *i = kBadProb;
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}
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void Visit(const WordIndex *to, unsigned char length, float prob) {
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basis_[length - 1] = prob;
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unsigned char overlap = std::min<unsigned char>(length - 1, been_length_);
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const WordIndex *cur;
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WordIndex *pre;
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for (cur = to, pre = been_; cur != to + overlap; ++cur, ++pre) {
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if (*pre != *cur) break;
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}
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if (cur == to + length - 1) {
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*pre = *cur;
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been_length_ = length;
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return;
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}
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// There are blanks to insert starting with order blank.
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unsigned char blank = cur - to + 1;
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UTIL_THROW_IF(blank == 1, FormatLoadException, "Missing a unigram that appears as context.");
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const float *lower_basis;
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for (lower_basis = basis_ + blank - 2; *lower_basis == kBadProb; --lower_basis) {}
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unsigned char based_on = lower_basis - basis_ + 1;
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for (; cur != to + length - 1; ++blank, ++cur, ++pre) {
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assert(*lower_basis != kBadProb);
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doing_.MiddleBlank(blank, to, based_on, *lower_basis);
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*pre = *cur;
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// Mark that the probability is a blank so it shouldn't be used as the basis for a later n-gram.
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basis_[blank - 1] = kBadProb;
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}
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*pre = *cur;
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been_length_ = length;
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}
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private:
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const unsigned char total_order_;
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WordIndex been_[KENLM_MAX_ORDER];
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unsigned char been_length_;
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float basis_[KENLM_MAX_ORDER];
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Doing &doing_;
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};
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template <class Doing> void RecursiveInsert(const unsigned char total_order, const WordIndex unigram_count, RecordReader *input, std::ostream *progress_out, const char *message, Doing &doing) {
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util::ErsatzProgress progress(unigram_count + 1, progress_out, message);
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WordIndex unigram = 0;
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std::priority_queue<Gram> grams;
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if (unigram_count) grams.push(Gram(&unigram, 1));
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for (unsigned char i = 2; i <= total_order; ++i) {
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if (input[i-2]) grams.push(Gram(reinterpret_cast<const WordIndex*>(input[i-2].Data()), i));
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}
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BlankManager<Doing> blank(total_order, doing);
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while (!grams.empty()) {
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Gram top = grams.top();
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grams.pop();
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unsigned char order = top.end - top.begin;
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if (order == 1) {
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blank.Visit(&unigram, 1, doing.UnigramProb(unigram));
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doing.Unigram(unigram);
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progress.Set(unigram);
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if (++unigram < unigram_count) grams.push(top);
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} else {
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if (order == total_order) {
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blank.Visit(top.begin, order, reinterpret_cast<const Prob*>(top.end)->prob);
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doing.Longest(top.begin);
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} else {
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blank.Visit(top.begin, order, reinterpret_cast<const ProbBackoff*>(top.end)->prob);
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doing.Middle(order, top.begin);
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}
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RecordReader &reader = input[order - 2];
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if (++reader) grams.push(top);
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}
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}
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}
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void SanityCheckCounts(const std::vector<uint64_t> &initial, const std::vector<uint64_t> &fixed) {
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if (fixed[0] != initial[0]) UTIL_THROW(util::Exception, "Unigram count should be constant but initial is " << initial[0] << " and recounted is " << fixed[0]);
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if (fixed.back() != initial.back()) UTIL_THROW(util::Exception, "Longest count should be constant but it changed from " << initial.back() << " to " << fixed.back());
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for (unsigned char i = 0; i < initial.size(); ++i) {
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if (fixed[i] < initial[i]) UTIL_THROW(util::Exception, "Counts came out lower than expected. This shouldn't happen");
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}
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}
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template <class Quant> void TrainQuantizer(uint8_t order, uint64_t count, const std::vector<float> &additional, RecordReader &reader, util::ErsatzProgress &progress, Quant &quant) {
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std::vector<float> probs(additional), backoffs;
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probs.reserve(count + additional.size());
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backoffs.reserve(count);
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for (reader.Rewind(); reader; ++reader) {
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const ProbBackoff &weights = *reinterpret_cast<const ProbBackoff*>(reinterpret_cast<const uint8_t*>(reader.Data()) + sizeof(WordIndex) * order);
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probs.push_back(weights.prob);
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if (weights.backoff != 0.0) backoffs.push_back(weights.backoff);
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++progress;
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}
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quant.Train(order, probs, backoffs);
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}
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template <class Quant> void TrainProbQuantizer(uint8_t order, uint64_t count, RecordReader &reader, util::ErsatzProgress &progress, Quant &quant) {
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std::vector<float> probs, backoffs;
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probs.reserve(count);
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for (reader.Rewind(); reader; ++reader) {
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const Prob &weights = *reinterpret_cast<const Prob*>(reinterpret_cast<const uint8_t*>(reader.Data()) + sizeof(WordIndex) * order);
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probs.push_back(weights.prob);
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++progress;
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}
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quant.TrainProb(order, probs);
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}
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void PopulateUnigramWeights(FILE *file, WordIndex unigram_count, RecordReader &contexts, UnigramValue *unigrams) {
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// Fill unigram probabilities.
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try {
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rewind(file);
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for (WordIndex i = 0; i < unigram_count; ++i) {
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ReadOrThrow(file, &unigrams[i].weights, sizeof(ProbBackoff));
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if (contexts && *reinterpret_cast<const WordIndex*>(contexts.Data()) == i) {
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SetExtension(unigrams[i].weights.backoff);
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++contexts;
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}
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}
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} catch (util::Exception &e) {
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e << " while re-reading unigram probabilities";
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throw;
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}
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}
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} // namespace
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template <class Quant, class Bhiksha> void BuildTrie(SortedFiles &files, std::vector<uint64_t> &counts, const Config &config, TrieSearch<Quant, Bhiksha> &out, Quant &quant, SortedVocabulary &vocab, BinaryFormat &backing) {
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RecordReader inputs[KENLM_MAX_ORDER - 1];
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RecordReader contexts[KENLM_MAX_ORDER - 1];
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for (unsigned char i = 2; i <= counts.size(); ++i) {
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inputs[i-2].Init(files.Full(i), i * sizeof(WordIndex) + (i == counts.size() ? sizeof(Prob) : sizeof(ProbBackoff)));
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contexts[i-2].Init(files.Context(i), (i-1) * sizeof(WordIndex));
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}
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SRISucks sri;
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std::vector<uint64_t> fixed_counts;
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util::scoped_FILE unigram_file;
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util::scoped_fd unigram_fd(files.StealUnigram());
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{
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util::scoped_memory unigrams;
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MapRead(util::POPULATE_OR_READ, unigram_fd.get(), 0, counts[0] * sizeof(ProbBackoff), unigrams);
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FindBlanks finder(counts.size(), reinterpret_cast<const ProbBackoff*>(unigrams.get()), sri);
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RecursiveInsert(counts.size(), counts[0], inputs, config.ProgressMessages(), "Identifying n-grams omitted by SRI", finder);
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fixed_counts = finder.Counts();
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}
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unigram_file.reset(util::FDOpenOrThrow(unigram_fd));
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for (const RecordReader *i = inputs; i != inputs + counts.size() - 2; ++i) {
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if (*i) UTIL_THROW(FormatLoadException, "There's a bug in the trie implementation: the " << (i - inputs + 2) << "-gram table did not complete reading");
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}
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SanityCheckCounts(counts, fixed_counts);
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counts = fixed_counts;
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sri.ObtainBackoffs(counts.size(), unigram_file.get(), inputs);
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void *vocab_relocate;
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void *search_base = backing.GrowForSearch(TrieSearch<Quant, Bhiksha>::Size(fixed_counts, config), vocab.UnkCountChangePadding(), vocab_relocate);
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vocab.Relocate(vocab_relocate);
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out.SetupMemory(reinterpret_cast<uint8_t*>(search_base), fixed_counts, config);
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for (unsigned char i = 2; i <= counts.size(); ++i) {
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inputs[i-2].Rewind();
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}
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if (Quant::kTrain) {
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util::ErsatzProgress progress(std::accumulate(counts.begin() + 1, counts.end(), 0),
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config.ProgressMessages(), "Quantizing");
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for (unsigned char i = 2; i < counts.size(); ++i) {
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TrainQuantizer(i, counts[i-1], sri.Values(i), inputs[i-2], progress, quant);
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}
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TrainProbQuantizer(counts.size(), counts.back(), inputs[counts.size() - 2], progress, quant);
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quant.FinishedLoading(config);
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}
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UnigramValue *unigrams = out.unigram_.Raw();
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PopulateUnigramWeights(unigram_file.get(), counts[0], contexts[0], unigrams);
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unigram_file.reset();
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for (unsigned char i = 2; i <= counts.size(); ++i) {
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inputs[i-2].Rewind();
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}
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// Fill entries except unigram probabilities.
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{
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WriteEntries<Quant, Bhiksha> writer(contexts, quant, unigrams, out.middle_begin_, out.longest_, counts.size(), sri);
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RecursiveInsert(counts.size(), counts[0], inputs, config.ProgressMessages(), "Writing trie", writer);
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// Write the last unigram entry, which is the end pointer for the bigrams.
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writer.Unigram(counts[0]);
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}
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// Do not disable this error message or else too little state will be returned. Both WriteEntries::Middle and returning state based on found n-grams will need to be fixed to handle this situation.
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for (unsigned char order = 2; order <= counts.size(); ++order) {
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const RecordReader &context = contexts[order - 2];
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if (context) {
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FormatLoadException e;
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e << "A " << static_cast<unsigned int>(order) << "-gram has context";
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const WordIndex *ctx = reinterpret_cast<const WordIndex*>(context.Data());
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for (const WordIndex *i = ctx; i != ctx + order - 1; ++i) {
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e << ' ' << *i;
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}
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e << " so this context must appear in the model as a " << static_cast<unsigned int>(order - 1) << "-gram but it does not";
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throw e;
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}
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}
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/* Set ending offsets so the last entry will be sized properly */
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// Last entry for unigrams was already set.
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if (out.middle_begin_ != out.middle_end_) {
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for (typename TrieSearch<Quant, Bhiksha>::Middle *i = out.middle_begin_; i != out.middle_end_ - 1; ++i) {
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i->FinishedLoading((i+1)->InsertIndex(), config);
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}
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(out.middle_end_ - 1)->FinishedLoading(out.longest_.InsertIndex(), config);
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}
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}
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template <class Quant, class Bhiksha> uint8_t *TrieSearch<Quant, Bhiksha>::SetupMemory(uint8_t *start, const std::vector<uint64_t> &counts, const Config &config) {
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quant_.SetupMemory(start, counts.size(), config);
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start += Quant::Size(counts.size(), config);
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unigram_.Init(start);
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start += Unigram::Size(counts[0]);
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FreeMiddles();
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middle_begin_ = static_cast<Middle*>(malloc(sizeof(Middle) * (counts.size() - 2)));
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middle_end_ = middle_begin_ + (counts.size() - 2);
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std::vector<uint8_t*> middle_starts(counts.size() - 2);
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for (unsigned char i = 2; i < counts.size(); ++i) {
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middle_starts[i-2] = start;
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start += Middle::Size(Quant::MiddleBits(config), counts[i-1], counts[0], counts[i], config);
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}
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// Crazy backwards thing so we initialize using pointers to ones that have already been initialized
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for (unsigned char i = counts.size() - 1; i >= 2; --i) {
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// use "placement new" syntax to initalize Middle in an already-allocated memory location
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new (middle_begin_ + i - 2) Middle(
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middle_starts[i-2],
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quant_.MiddleBits(config),
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counts[i-1],
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counts[0],
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counts[i],
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(i == counts.size() - 1) ? static_cast<const BitPacked&>(longest_) : static_cast<const BitPacked &>(middle_begin_[i-1]),
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config);
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}
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longest_.Init(start, quant_.LongestBits(config), counts[0]);
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return start + Longest::Size(Quant::LongestBits(config), counts.back(), counts[0]);
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}
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template <class Quant, class Bhiksha> void TrieSearch<Quant, Bhiksha>::InitializeFromARPA(const char *file, util::FilePiece &f, std::vector<uint64_t> &counts, const Config &config, SortedVocabulary &vocab, BinaryFormat &backing) {
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std::string temporary_prefix;
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if (!config.temporary_directory_prefix.empty()) {
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temporary_prefix = config.temporary_directory_prefix;
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} else if (config.write_mmap) {
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temporary_prefix = config.write_mmap;
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} else {
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temporary_prefix = file;
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}
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// At least 1MB sorting memory.
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SortedFiles sorted(config, f, counts, std::max<size_t>(config.building_memory, 1048576), temporary_prefix, vocab);
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BuildTrie(sorted, counts, config, *this, quant_, vocab, backing);
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}
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template class TrieSearch<DontQuantize, DontBhiksha>;
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template class TrieSearch<DontQuantize, ArrayBhiksha>;
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template class TrieSearch<SeparatelyQuantize, DontBhiksha>;
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template class TrieSearch<SeparatelyQuantize, ArrayBhiksha>;
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} // namespace trie
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} // namespace ngram
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} // namespace lm
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