mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-25 21:03:22 +03:00
14e02978fc
Avoid unspecified behavior of mmap when a file is resized reported by Christian Hardmeier
Fixes for Mavericks and a workaround for Boost's broken semaphore
Clean clang compile (of kenlm)
Merged some of 744376b3fb
but also undid some of it because it was just masking a fundaemntal problem with pread rather than working around windows limitations
350 lines
16 KiB
C++
350 lines
16 KiB
C++
#include "lm/model.hh"
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#include "lm/blank.hh"
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#include "lm/lm_exception.hh"
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#include "lm/search_hashed.hh"
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#include "lm/search_trie.hh"
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#include "lm/read_arpa.hh"
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#include "util/have.hh"
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#include "util/murmur_hash.hh"
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#include <algorithm>
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#include <functional>
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#include <numeric>
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#include <cmath>
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#include <limits>
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namespace lm {
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namespace ngram {
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namespace detail {
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template <class Search, class VocabularyT> const ModelType GenericModel<Search, VocabularyT>::kModelType = Search::kModelType;
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template <class Search, class VocabularyT> uint64_t GenericModel<Search, VocabularyT>::Size(const std::vector<uint64_t> &counts, const Config &config) {
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return VocabularyT::Size(counts[0], config) + Search::Size(counts, config);
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}
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template <class Search, class VocabularyT> void GenericModel<Search, VocabularyT>::SetupMemory(void *base, const std::vector<uint64_t> &counts, const Config &config) {
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size_t goal_size = util::CheckOverflow(Size(counts, config));
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uint8_t *start = static_cast<uint8_t*>(base);
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size_t allocated = VocabularyT::Size(counts[0], config);
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vocab_.SetupMemory(start, allocated, counts[0], config);
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start += allocated;
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start = search_.SetupMemory(start, counts, config);
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if (static_cast<std::size_t>(start - static_cast<uint8_t*>(base)) != goal_size) UTIL_THROW(FormatLoadException, "The data structures took " << (start - static_cast<uint8_t*>(base)) << " but Size says they should take " << goal_size);
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}
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namespace {
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void ComplainAboutARPA(const Config &config, ModelType model_type) {
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if (config.write_mmap || !config.messages) return;
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if (config.arpa_complain == Config::ALL) {
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*config.messages << "Loading the LM will be faster if you build a binary file." << std::endl;
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} else if (config.arpa_complain == Config::EXPENSIVE &&
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(model_type == TRIE || model_type == QUANT_TRIE || model_type == ARRAY_TRIE || model_type == QUANT_ARRAY_TRIE)) {
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*config.messages << "Building " << kModelNames[model_type] << " from ARPA is expensive. Save time by building a binary format." << std::endl;
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}
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}
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void CheckCounts(const std::vector<uint64_t> &counts) {
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UTIL_THROW_IF(counts.size() > KENLM_MAX_ORDER, FormatLoadException, "This model has order " << counts.size() << " but KenLM was compiled to support up to " << KENLM_MAX_ORDER << ". " << KENLM_ORDER_MESSAGE);
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if (sizeof(uint64_t) > sizeof(std::size_t)) {
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for (std::vector<uint64_t>::const_iterator i = counts.begin(); i != counts.end(); ++i) {
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UTIL_THROW_IF(*i > static_cast<uint64_t>(std::numeric_limits<size_t>::max()), util::OverflowException, "This model has " << *i << " " << (i - counts.begin() + 1) << "-grams which is too many for 32-bit machines.");
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}
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}
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}
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} // namespace
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template <class Search, class VocabularyT> GenericModel<Search, VocabularyT>::GenericModel(const char *file, const Config &init_config) : backing_(init_config) {
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util::scoped_fd fd(util::OpenReadOrThrow(file));
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if (IsBinaryFormat(fd.get())) {
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Parameters parameters;
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int fd_shallow = fd.release();
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backing_.InitializeBinary(fd_shallow, kModelType, kVersion, parameters);
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CheckCounts(parameters.counts);
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Config new_config(init_config);
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new_config.probing_multiplier = parameters.fixed.probing_multiplier;
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Search::UpdateConfigFromBinary(backing_, parameters.counts, VocabularyT::Size(parameters.counts[0], new_config), new_config);
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UTIL_THROW_IF(new_config.enumerate_vocab && !parameters.fixed.has_vocabulary, FormatLoadException, "The decoder requested all the vocabulary strings, but this binary file does not have them. You may need to rebuild the binary file with an updated version of build_binary.");
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SetupMemory(backing_.LoadBinary(Size(parameters.counts, new_config)), parameters.counts, new_config);
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vocab_.LoadedBinary(parameters.fixed.has_vocabulary, fd_shallow, new_config.enumerate_vocab, backing_.VocabStringReadingOffset());
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} else {
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ComplainAboutARPA(init_config, kModelType);
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InitializeFromARPA(fd.release(), file, init_config);
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}
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// g++ prints warnings unless these are fully initialized.
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State begin_sentence = State();
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begin_sentence.length = 1;
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begin_sentence.words[0] = vocab_.BeginSentence();
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typename Search::Node ignored_node;
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bool ignored_independent_left;
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uint64_t ignored_extend_left;
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begin_sentence.backoff[0] = search_.LookupUnigram(begin_sentence.words[0], ignored_node, ignored_independent_left, ignored_extend_left).Backoff();
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State null_context = State();
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null_context.length = 0;
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P::Init(begin_sentence, null_context, vocab_, search_.Order());
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}
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template <class Search, class VocabularyT> void GenericModel<Search, VocabularyT>::InitializeFromARPA(int fd, const char *file, const Config &config) {
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// Backing file is the ARPA.
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util::FilePiece f(fd, file, config.ProgressMessages());
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try {
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std::vector<uint64_t> counts;
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// File counts do not include pruned trigrams that extend to quadgrams etc. These will be fixed by search_.
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ReadARPACounts(f, counts);
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CheckCounts(counts);
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if (counts.size() < 2) UTIL_THROW(FormatLoadException, "This ngram implementation assumes at least a bigram model.");
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if (config.probing_multiplier <= 1.0) UTIL_THROW(ConfigException, "probing multiplier must be > 1.0");
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std::size_t vocab_size = util::CheckOverflow(VocabularyT::Size(counts[0], config));
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// Setup the binary file for writing the vocab lookup table. The search_ is responsible for growing the binary file to its needs.
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vocab_.SetupMemory(backing_.SetupJustVocab(vocab_size, counts.size()), vocab_size, counts[0], config);
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if (config.write_mmap && config.include_vocab) {
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WriteWordsWrapper wrap(config.enumerate_vocab);
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vocab_.ConfigureEnumerate(&wrap, counts[0]);
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search_.InitializeFromARPA(file, f, counts, config, vocab_, backing_);
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void *vocab_rebase, *search_rebase;
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backing_.WriteVocabWords(wrap.Buffer(), vocab_rebase, search_rebase);
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// Due to writing at the end of file, mmap may have relocated data. So remap.
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vocab_.Relocate(vocab_rebase);
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search_.SetupMemory(reinterpret_cast<uint8_t*>(search_rebase), counts, config);
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} else {
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vocab_.ConfigureEnumerate(config.enumerate_vocab, counts[0]);
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search_.InitializeFromARPA(file, f, counts, config, vocab_, backing_);
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}
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if (!vocab_.SawUnk()) {
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assert(config.unknown_missing != THROW_UP);
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// Default probabilities for unknown.
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search_.UnknownUnigram().backoff = 0.0;
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search_.UnknownUnigram().prob = config.unknown_missing_logprob;
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}
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backing_.FinishFile(config, kModelType, kVersion, counts);
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} catch (util::Exception &e) {
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e << " Byte: " << f.Offset();
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throw;
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}
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}
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template <class Search, class VocabularyT> FullScoreReturn GenericModel<Search, VocabularyT>::FullScore(const State &in_state, const WordIndex new_word, State &out_state) const {
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FullScoreReturn ret = ScoreExceptBackoff(in_state.words, in_state.words + in_state.length, new_word, out_state);
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for (const float *i = in_state.backoff + ret.ngram_length - 1; i < in_state.backoff + in_state.length; ++i) {
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ret.prob += *i;
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}
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return ret;
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}
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template <class Search, class VocabularyT> FullScoreReturn GenericModel<Search, VocabularyT>::FullScoreForgotState(const WordIndex *context_rbegin, const WordIndex *context_rend, const WordIndex new_word, State &out_state) const {
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context_rend = std::min(context_rend, context_rbegin + P::Order() - 1);
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FullScoreReturn ret = ScoreExceptBackoff(context_rbegin, context_rend, new_word, out_state);
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// Add the backoff weights for n-grams of order start to (context_rend - context_rbegin).
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unsigned char start = ret.ngram_length;
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if (context_rend - context_rbegin < static_cast<std::ptrdiff_t>(start)) return ret;
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bool independent_left;
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uint64_t extend_left;
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typename Search::Node node;
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if (start <= 1) {
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ret.prob += search_.LookupUnigram(*context_rbegin, node, independent_left, extend_left).Backoff();
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start = 2;
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} else if (!search_.FastMakeNode(context_rbegin, context_rbegin + start - 1, node)) {
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return ret;
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}
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// i is the order of the backoff we're looking for.
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unsigned char order_minus_2 = start - 2;
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for (const WordIndex *i = context_rbegin + start - 1; i < context_rend; ++i, ++order_minus_2) {
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typename Search::MiddlePointer p(search_.LookupMiddle(order_minus_2, *i, node, independent_left, extend_left));
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if (!p.Found()) break;
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ret.prob += p.Backoff();
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}
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return ret;
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}
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template <class Search, class VocabularyT> void GenericModel<Search, VocabularyT>::GetState(const WordIndex *context_rbegin, const WordIndex *context_rend, State &out_state) const {
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// Generate a state from context.
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context_rend = std::min(context_rend, context_rbegin + P::Order() - 1);
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if (context_rend == context_rbegin) {
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out_state.length = 0;
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return;
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}
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typename Search::Node node;
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bool independent_left;
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uint64_t extend_left;
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out_state.backoff[0] = search_.LookupUnigram(*context_rbegin, node, independent_left, extend_left).Backoff();
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out_state.length = HasExtension(out_state.backoff[0]) ? 1 : 0;
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float *backoff_out = out_state.backoff + 1;
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unsigned char order_minus_2 = 0;
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for (const WordIndex *i = context_rbegin + 1; i < context_rend; ++i, ++backoff_out, ++order_minus_2) {
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typename Search::MiddlePointer p(search_.LookupMiddle(order_minus_2, *i, node, independent_left, extend_left));
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if (!p.Found()) {
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std::copy(context_rbegin, context_rbegin + out_state.length, out_state.words);
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return;
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}
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*backoff_out = p.Backoff();
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if (HasExtension(*backoff_out)) out_state.length = i - context_rbegin + 1;
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}
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std::copy(context_rbegin, context_rbegin + out_state.length, out_state.words);
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}
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template <class Search, class VocabularyT> FullScoreReturn GenericModel<Search, VocabularyT>::ExtendLeft(
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const WordIndex *add_rbegin, const WordIndex *add_rend,
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const float *backoff_in,
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uint64_t extend_pointer,
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unsigned char extend_length,
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float *backoff_out,
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unsigned char &next_use) const {
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FullScoreReturn ret;
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typename Search::Node node;
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if (extend_length == 1) {
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typename Search::UnigramPointer ptr(search_.LookupUnigram(static_cast<WordIndex>(extend_pointer), node, ret.independent_left, ret.extend_left));
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ret.rest = ptr.Rest();
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ret.prob = ptr.Prob();
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assert(!ret.independent_left);
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} else {
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typename Search::MiddlePointer ptr(search_.Unpack(extend_pointer, extend_length, node));
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ret.rest = ptr.Rest();
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ret.prob = ptr.Prob();
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ret.extend_left = extend_pointer;
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// If this function is called, then it does depend on left words.
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ret.independent_left = false;
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}
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float subtract_me = ret.rest;
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ret.ngram_length = extend_length;
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next_use = extend_length;
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ResumeScore(add_rbegin, add_rend, extend_length - 1, node, backoff_out, next_use, ret);
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next_use -= extend_length;
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// Charge backoffs.
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for (const float *b = backoff_in + ret.ngram_length - extend_length; b < backoff_in + (add_rend - add_rbegin); ++b) ret.prob += *b;
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ret.prob -= subtract_me;
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ret.rest -= subtract_me;
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return ret;
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}
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namespace {
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// Do a paraonoid copy of history, assuming new_word has already been copied
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// (hence the -1). out_state.length could be zero so I avoided using
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// std::copy.
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void CopyRemainingHistory(const WordIndex *from, State &out_state) {
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WordIndex *out = out_state.words + 1;
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const WordIndex *in_end = from + static_cast<ptrdiff_t>(out_state.length) - 1;
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for (const WordIndex *in = from; in < in_end; ++in, ++out) *out = *in;
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}
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} // namespace
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/* Ugly optimized function. Produce a score excluding backoff.
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* The search goes in increasing order of ngram length.
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* Context goes backward, so context_begin is the word immediately preceeding
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* new_word.
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*/
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template <class Search, class VocabularyT> FullScoreReturn GenericModel<Search, VocabularyT>::ScoreExceptBackoff(
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const WordIndex *const context_rbegin,
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const WordIndex *const context_rend,
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const WordIndex new_word,
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State &out_state) const {
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assert(new_word < vocab_.Bound());
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FullScoreReturn ret;
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// ret.ngram_length contains the last known non-blank ngram length.
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ret.ngram_length = 1;
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typename Search::Node node;
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typename Search::UnigramPointer uni(search_.LookupUnigram(new_word, node, ret.independent_left, ret.extend_left));
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out_state.backoff[0] = uni.Backoff();
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ret.prob = uni.Prob();
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ret.rest = uni.Rest();
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// This is the length of the context that should be used for continuation to the right.
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out_state.length = HasExtension(out_state.backoff[0]) ? 1 : 0;
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// We'll write the word anyway since it will probably be used and does no harm being there.
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out_state.words[0] = new_word;
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if (context_rbegin == context_rend) return ret;
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ResumeScore(context_rbegin, context_rend, 0, node, out_state.backoff + 1, out_state.length, ret);
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CopyRemainingHistory(context_rbegin, out_state);
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return ret;
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}
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template <class Search, class VocabularyT> void GenericModel<Search, VocabularyT>::ResumeScore(const WordIndex *hist_iter, const WordIndex *const context_rend, unsigned char order_minus_2, typename Search::Node &node, float *backoff_out, unsigned char &next_use, FullScoreReturn &ret) const {
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for (; ; ++order_minus_2, ++hist_iter, ++backoff_out) {
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if (hist_iter == context_rend) return;
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if (ret.independent_left) return;
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if (order_minus_2 == P::Order() - 2) break;
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typename Search::MiddlePointer pointer(search_.LookupMiddle(order_minus_2, *hist_iter, node, ret.independent_left, ret.extend_left));
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if (!pointer.Found()) return;
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*backoff_out = pointer.Backoff();
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ret.prob = pointer.Prob();
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ret.rest = pointer.Rest();
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ret.ngram_length = order_minus_2 + 2;
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if (HasExtension(*backoff_out)) {
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next_use = ret.ngram_length;
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}
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}
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ret.independent_left = true;
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typename Search::LongestPointer longest(search_.LookupLongest(*hist_iter, node));
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if (longest.Found()) {
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ret.prob = longest.Prob();
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ret.rest = ret.prob;
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// There is no blank in longest_.
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ret.ngram_length = P::Order();
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}
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}
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template <class Search, class VocabularyT> float GenericModel<Search, VocabularyT>::InternalUnRest(const uint64_t *pointers_begin, const uint64_t *pointers_end, unsigned char first_length) const {
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float ret;
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typename Search::Node node;
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if (first_length == 1) {
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if (pointers_begin >= pointers_end) return 0.0;
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bool independent_left;
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uint64_t extend_left;
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typename Search::UnigramPointer ptr(search_.LookupUnigram(static_cast<WordIndex>(*pointers_begin), node, independent_left, extend_left));
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ret = ptr.Prob() - ptr.Rest();
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++first_length;
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++pointers_begin;
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} else {
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ret = 0.0;
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}
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for (const uint64_t *i = pointers_begin; i < pointers_end; ++i, ++first_length) {
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typename Search::MiddlePointer ptr(search_.Unpack(*i, first_length, node));
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ret += ptr.Prob() - ptr.Rest();
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}
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return ret;
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}
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template class GenericModel<HashedSearch<BackoffValue>, ProbingVocabulary>;
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template class GenericModel<HashedSearch<RestValue>, ProbingVocabulary>;
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template class GenericModel<trie::TrieSearch<DontQuantize, trie::DontBhiksha>, SortedVocabulary>;
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template class GenericModel<trie::TrieSearch<DontQuantize, trie::ArrayBhiksha>, SortedVocabulary>;
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template class GenericModel<trie::TrieSearch<SeparatelyQuantize, trie::DontBhiksha>, SortedVocabulary>;
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template class GenericModel<trie::TrieSearch<SeparatelyQuantize, trie::ArrayBhiksha>, SortedVocabulary>;
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} // namespace detail
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base::Model *LoadVirtual(const char *file_name, const Config &config, ModelType model_type) {
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RecognizeBinary(file_name, model_type);
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switch (model_type) {
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case PROBING:
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return new ProbingModel(file_name, config);
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case REST_PROBING:
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return new RestProbingModel(file_name, config);
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case TRIE:
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return new TrieModel(file_name, config);
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case QUANT_TRIE:
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return new QuantTrieModel(file_name, config);
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case ARRAY_TRIE:
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return new ArrayTrieModel(file_name, config);
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case QUANT_ARRAY_TRIE:
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return new QuantArrayTrieModel(file_name, config);
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default:
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UTIL_THROW(FormatLoadException, "Confused by model type " << model_type);
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}
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}
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} // namespace ngram
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} // namespace lm
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