mirror of
https://github.com/moses-smt/mosesdecoder.git
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453 lines
14 KiB
C++
453 lines
14 KiB
C++
/***********************************************************************
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Moses - factored phrase-based language decoder
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Copyright (C) 2014- University of Edinburgh
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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***********************************************************************/
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#include <algorithm>
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#include <cmath>
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#include <iterator>
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#define BOOST_FILESYSTEM_VERSION 3
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#include <boost/filesystem.hpp>
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#include <boost/lexical_cast.hpp>
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#include "util/exception.hh"
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#include "util/file_piece.hh"
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#include "Scorer.h"
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#include "HopeFearDecoder.h"
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using namespace std;
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namespace fs = boost::filesystem;
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namespace MosesTuning
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{
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static const ValType BLEU_RATIO = 5;
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std::pair<MiraWeightVector*,size_t>
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InitialiseWeights(const string& denseInitFile, const string& sparseInitFile,
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const string& type, bool verbose)
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{
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// Dense
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vector<parameter_t> initParams;
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if(!denseInitFile.empty()) {
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ifstream opt(denseInitFile.c_str());
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string buffer;
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if (opt.fail()) {
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cerr << "could not open dense initfile: " << denseInitFile << endl;
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exit(3);
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}
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if (verbose) cerr << "Reading dense features:" << endl;
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parameter_t val;
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getline(opt,buffer);
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if (buffer.find_first_of("=") == buffer.npos) {
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UTIL_THROW_IF(type == "hypergraph", util::Exception, "For hypergraph version, require dense features in 'name= value' format");
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cerr << "WARN: dense features in deprecated Moses mert format. Prefer 'name= value' format." << endl;
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istringstream strstrm(buffer);
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while(strstrm >> val) {
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initParams.push_back(val);
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if(verbose) cerr << val << endl;
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}
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} else {
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vector<string> names;
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string last_name = "";
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size_t feature_ctr = 1;
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do {
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size_t equals = buffer.find_last_of("=");
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UTIL_THROW_IF(equals == buffer.npos, util::Exception, "Incorrect format in dense feature file: '"
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<< buffer << "'");
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string name = buffer.substr(0,equals);
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names.push_back(name);
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initParams.push_back(boost::lexical_cast<ValType>(buffer.substr(equals+2)));
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//Names for features with several values need to have their id added
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if (name != last_name) feature_ctr = 1;
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last_name = name;
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if (feature_ctr>1) {
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stringstream namestr;
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namestr << names.back() << "_" << feature_ctr;
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names[names.size()-1] = namestr.str();
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if (feature_ctr == 2) {
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stringstream namestr;
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namestr << names[names.size()-2] << "_" << (feature_ctr-1);
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names[names.size()-2] = namestr.str();
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}
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}
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++feature_ctr;
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} while(getline(opt,buffer));
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//Make sure that SparseVector encodes dense feature names as 0..n-1.
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for (size_t i = 0; i < names.size(); ++i) {
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size_t id = SparseVector::encode(names[i]);
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assert(id == i);
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if (verbose) cerr << names[i] << " " << initParams[i] << endl;
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}
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}
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opt.close();
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}
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size_t initDenseSize = initParams.size();
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// Sparse
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if(!sparseInitFile.empty()) {
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if(initDenseSize==0) {
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cerr << "sparse initialization requires dense initialization" << endl;
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exit(3);
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}
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ifstream opt(sparseInitFile.c_str());
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if(opt.fail()) {
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cerr << "could not open sparse initfile: " << sparseInitFile << endl;
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exit(3);
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}
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int sparseCount=0;
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parameter_t val;
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std::string name;
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while(opt >> name >> val) {
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size_t id = SparseVector::encode(name) + initDenseSize;
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while(initParams.size()<=id) initParams.push_back(0.0);
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initParams[id] = val;
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sparseCount++;
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}
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cerr << "Found " << sparseCount << " initial sparse features" << endl;
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opt.close();
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}
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return pair<MiraWeightVector*,size_t>(new MiraWeightVector(initParams), initDenseSize);
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}
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ValType HopeFearDecoder::Evaluate(const AvgWeightVector& wv)
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{
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vector<ValType> stats(scorer_->NumberOfScores(),0);
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for(reset(); !finished(); next()) {
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vector<ValType> sent;
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MaxModel(wv,&sent);
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for(size_t i=0; i<sent.size(); i++) {
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stats[i]+=sent[i];
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}
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}
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return scorer_->calculateScore(stats);
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}
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NbestHopeFearDecoder::NbestHopeFearDecoder(
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const vector<string>& featureFiles,
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const vector<string>& scoreFiles,
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bool streaming,
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bool no_shuffle,
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bool safe_hope,
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Scorer* scorer
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) : safe_hope_(safe_hope)
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{
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scorer_ = scorer;
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if (streaming) {
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train_.reset(new StreamingHypPackEnumerator(featureFiles, scoreFiles));
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} else {
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train_.reset(new RandomAccessHypPackEnumerator(featureFiles, scoreFiles, no_shuffle));
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}
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}
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void NbestHopeFearDecoder::next()
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{
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train_->next();
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}
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bool NbestHopeFearDecoder::finished()
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{
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return train_->finished();
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}
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void NbestHopeFearDecoder::reset()
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{
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train_->reset();
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}
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void NbestHopeFearDecoder::HopeFear(
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const std::vector<ValType>& backgroundBleu,
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const MiraWeightVector& wv,
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HopeFearData* hopeFear
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)
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{
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// Hope / fear decode
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ValType hope_scale = 1.0;
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size_t hope_index=0, fear_index=0, model_index=0;
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ValType hope_score=0, fear_score=0, model_score=0;
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for(size_t safe_loop=0; safe_loop<2; safe_loop++) {
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ValType hope_bleu=0, hope_model=0;
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for(size_t i=0; i< train_->cur_size(); i++) {
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const MiraFeatureVector& vec=train_->featuresAt(i);
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ValType score = wv.score(vec);
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ValType bleu = scorer_->calculateSentenceLevelBackgroundScore(train_->scoresAt(i),backgroundBleu);
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// Hope
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if(i==0 || (hope_scale*score + bleu) > hope_score) {
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hope_score = hope_scale*score + bleu;
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hope_index = i;
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hope_bleu = bleu;
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hope_model = score;
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}
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// Fear
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if(i==0 || (score - bleu) > fear_score) {
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fear_score = score - bleu;
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fear_index = i;
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}
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// Model
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if(i==0 || score > model_score) {
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model_score = score;
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model_index = i;
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}
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}
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// Outer loop rescales the contribution of model score to 'hope' in antagonistic cases
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// where model score is having far more influence than BLEU
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hope_bleu *= BLEU_RATIO; // We only care about cases where model has MUCH more influence than BLEU
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if(safe_hope_ && safe_loop==0 && abs(hope_model)>1e-8 && abs(hope_bleu)/abs(hope_model)<hope_scale)
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hope_scale = abs(hope_bleu) / abs(hope_model);
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else break;
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}
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hopeFear->modelFeatures = train_->featuresAt(model_index);
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hopeFear->hopeFeatures = train_->featuresAt(hope_index);
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hopeFear->fearFeatures = train_->featuresAt(fear_index);
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hopeFear->hopeStats = train_->scoresAt(hope_index);
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hopeFear->hopeBleu = scorer_->calculateSentenceLevelBackgroundScore(hopeFear->hopeStats, backgroundBleu);
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const vector<float>& fear_stats = train_->scoresAt(fear_index);
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hopeFear->fearBleu = scorer_->calculateSentenceLevelBackgroundScore(fear_stats, backgroundBleu);
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hopeFear->modelStats = train_->scoresAt(model_index);
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hopeFear->hopeFearEqual = (hope_index == fear_index);
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}
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void NbestHopeFearDecoder::MaxModel(const AvgWeightVector& wv, std::vector<ValType>* stats)
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{
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// Find max model
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size_t max_index=0;
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ValType max_score=0;
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for(size_t i=0; i<train_->cur_size(); i++) {
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MiraFeatureVector vec(train_->featuresAt(i));
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ValType score = wv.score(vec);
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if(i==0 || score > max_score) {
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max_index = i;
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max_score = score;
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}
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}
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*stats = train_->scoresAt(max_index);
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}
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HypergraphHopeFearDecoder::HypergraphHopeFearDecoder
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(
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const string& hypergraphDir,
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const vector<string>& referenceFiles,
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size_t num_dense,
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bool streaming,
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bool no_shuffle,
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bool safe_hope,
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size_t hg_pruning,
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const MiraWeightVector& wv,
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Scorer* scorer
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) :
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num_dense_(num_dense)
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{
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UTIL_THROW_IF(streaming, util::Exception, "Streaming not currently supported for hypergraphs");
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UTIL_THROW_IF(!fs::exists(hypergraphDir), HypergraphException, "Directory '" << hypergraphDir << "' does not exist");
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UTIL_THROW_IF(!referenceFiles.size(), util::Exception, "No reference files supplied");
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references_.Load(referenceFiles, vocab_);
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SparseVector weights;
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wv.ToSparse(&weights,num_dense_);
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scorer_ = scorer;
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static const string kWeights = "weights";
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fs::directory_iterator dend;
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size_t fileCount = 0;
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cerr << "Reading hypergraphs" << endl;
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for (fs::directory_iterator di(hypergraphDir); di != dend; ++di) {
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const fs::path& hgpath = di->path();
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if (hgpath.filename() == kWeights) continue;
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// cerr << "Reading " << hgpath.filename() << endl;
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Graph graph(vocab_);
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size_t id = boost::lexical_cast<size_t>(hgpath.stem().string());
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util::scoped_fd fd(util::OpenReadOrThrow(hgpath.string().c_str()));
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//util::FilePiece file(di->path().string().c_str());
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util::FilePiece file(fd.release());
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ReadGraph(file,graph);
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//cerr << "ref length " << references_.Length(id) << endl;
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size_t edgeCount = hg_pruning * references_.Length(id);
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boost::shared_ptr<Graph> prunedGraph;
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prunedGraph.reset(new Graph(vocab_));
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graph.Prune(prunedGraph.get(), weights, edgeCount);
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graphs_[id] = prunedGraph;
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// cerr << "Pruning to v=" << graphs_[id]->VertexSize() << " e=" << graphs_[id]->EdgeSize() << endl;
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++fileCount;
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if (fileCount % 10 == 0) cerr << ".";
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if (fileCount % 400 == 0) cerr << " [count=" << fileCount << "]\n";
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}
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cerr << endl << "Done" << endl;
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sentenceIds_.resize(graphs_.size());
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for (size_t i = 0; i < graphs_.size(); ++i) sentenceIds_[i] = i;
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if (!no_shuffle) {
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random_shuffle(sentenceIds_.begin(), sentenceIds_.end());
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}
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}
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void HypergraphHopeFearDecoder::reset()
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{
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sentenceIdIter_ = sentenceIds_.begin();
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}
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void HypergraphHopeFearDecoder::next()
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{
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sentenceIdIter_++;
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}
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bool HypergraphHopeFearDecoder::finished()
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{
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return sentenceIdIter_ == sentenceIds_.end();
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}
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void HypergraphHopeFearDecoder::HopeFear(
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const vector<ValType>& backgroundBleu,
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const MiraWeightVector& wv,
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HopeFearData* hopeFear
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)
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{
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size_t sentenceId = *sentenceIdIter_;
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SparseVector weights;
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wv.ToSparse(&weights, num_dense_);
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const Graph& graph = *(graphs_[sentenceId]);
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// ValType hope_scale = 1.0;
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HgHypothesis hopeHypo, fearHypo, modelHypo;
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for(size_t safe_loop=0; safe_loop<2; safe_loop++) {
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//hope decode
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Viterbi(graph, weights, 1, references_, sentenceId, backgroundBleu, &hopeHypo);
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//fear decode
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Viterbi(graph, weights, -1, references_, sentenceId, backgroundBleu, &fearHypo);
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//Model decode
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Viterbi(graph, weights, 0, references_, sentenceId, backgroundBleu, &modelHypo);
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// Outer loop rescales the contribution of model score to 'hope' in antagonistic cases
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// where model score is having far more influence than BLEU
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// hope_bleu *= BLEU_RATIO; // We only care about cases where model has MUCH more influence than BLEU
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// if(safe_hope_ && safe_loop==0 && abs(hope_model)>1e-8 && abs(hope_bleu)/abs(hope_model)<hope_scale)
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// hope_scale = abs(hope_bleu) / abs(hope_model);
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// else break;
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//TODO: Don't currently get model and bleu so commented this out for now.
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break;
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}
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//modelFeatures, hopeFeatures and fearFeatures
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hopeFear->modelFeatures = MiraFeatureVector(modelHypo.featureVector, num_dense_);
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hopeFear->hopeFeatures = MiraFeatureVector(hopeHypo.featureVector, num_dense_);
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hopeFear->fearFeatures = MiraFeatureVector(fearHypo.featureVector, num_dense_);
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//Need to know which are to be mapped to dense features!
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//Only C++11
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//hopeFear->modelStats.assign(std::begin(modelHypo.bleuStats), std::end(modelHypo.bleuStats));
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vector<ValType> fearStats(scorer_->NumberOfScores());
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hopeFear->hopeStats.reserve(scorer_->NumberOfScores());
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hopeFear->modelStats.reserve(scorer_->NumberOfScores());
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for (size_t i = 0; i < fearStats.size(); ++i) {
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hopeFear->modelStats.push_back(modelHypo.bleuStats[i]);
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hopeFear->hopeStats.push_back(hopeHypo.bleuStats[i]);
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fearStats[i] = fearHypo.bleuStats[i];
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}
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/*
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cerr << "hope" << endl;;
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for (size_t i = 0; i < hopeHypo.text.size(); ++i) {
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cerr << hopeHypo.text[i]->first << " ";
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}
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cerr << endl;
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for (size_t i = 0; i < fearStats.size(); ++i) {
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cerr << hopeHypo.bleuStats[i] << " ";
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}
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cerr << endl;
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cerr << "fear";
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for (size_t i = 0; i < fearHypo.text.size(); ++i) {
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cerr << fearHypo.text[i]->first << " ";
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}
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cerr << endl;
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for (size_t i = 0; i < fearStats.size(); ++i) {
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cerr << fearHypo.bleuStats[i] << " ";
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}
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cerr << endl;
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cerr << "model";
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for (size_t i = 0; i < modelHypo.text.size(); ++i) {
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cerr << modelHypo.text[i]->first << " ";
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}
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cerr << endl;
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for (size_t i = 0; i < fearStats.size(); ++i) {
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cerr << modelHypo.bleuStats[i] << " ";
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}
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cerr << endl;
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*/
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hopeFear->hopeBleu = sentenceLevelBackgroundBleu(hopeFear->hopeStats, backgroundBleu);
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hopeFear->fearBleu = sentenceLevelBackgroundBleu(fearStats, backgroundBleu);
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//If fv and bleu stats are equal, then assume equal
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hopeFear->hopeFearEqual = true; //(hopeFear->hopeBleu - hopeFear->fearBleu) >= 1e-8;
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if (hopeFear->hopeFearEqual) {
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for (size_t i = 0; i < fearStats.size(); ++i) {
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if (fearStats[i] != hopeFear->hopeStats[i]) {
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hopeFear->hopeFearEqual = false;
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break;
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}
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}
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}
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hopeFear->hopeFearEqual = hopeFear->hopeFearEqual && (hopeFear->fearFeatures == hopeFear->hopeFeatures);
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}
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void HypergraphHopeFearDecoder::MaxModel(const AvgWeightVector& wv, vector<ValType>* stats)
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{
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assert(!finished());
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HgHypothesis bestHypo;
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size_t sentenceId = *sentenceIdIter_;
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SparseVector weights;
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wv.ToSparse(&weights, num_dense_);
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vector<ValType> bg(scorer_->NumberOfScores());
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//cerr << "Calculating bleu on " << sentenceId << endl;
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Viterbi(*(graphs_[sentenceId]), weights, 0, references_, sentenceId, bg, &bestHypo);
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stats->resize(bestHypo.bleuStats.size());
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/*
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for (size_t i = 0; i < bestHypo.text.size(); ++i) {
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cerr << bestHypo.text[i]->first << " ";
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}
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cerr << endl;
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*/
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for (size_t i = 0; i < bestHypo.bleuStats.size(); ++i) {
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(*stats)[i] = bestHypo.bleuStats[i];
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}
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}
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};
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