mirror of
https://github.com/moses-smt/mosesdecoder.git
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268 lines
9.4 KiB
C++
268 lines
9.4 KiB
C++
// $Id$
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// vim:tabstop=2
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/***********************************************************************
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Moses - factored phrase-based language decoder
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Copyright (C) 2010 Hieu Hoang
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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 "ChartParser.h"
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#include "ChartParserCallback.h"
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#include "ChartRuleLookupManager.h"
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#include "StaticData.h"
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#include "TreeInput.h"
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#include "Sentence.h"
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#include "DecodeGraph.h"
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#include "moses/FF/UnknownWordPenaltyProducer.h"
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#include "moses/TranslationModel/PhraseDictionary.h"
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using namespace std;
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using namespace Moses;
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namespace Moses
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{
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ChartParserUnknown::ChartParserUnknown() {}
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ChartParserUnknown::~ChartParserUnknown()
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{
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RemoveAllInColl(m_unksrcs);
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RemoveAllInColl(m_cacheTargetPhraseCollection);
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}
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void ChartParserUnknown::Process(const Word &sourceWord, const WordsRange &range, ChartParserCallback &to)
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{
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// unknown word, add as trans opt
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const StaticData &staticData = StaticData::Instance();
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const UnknownWordPenaltyProducer &unknownWordPenaltyProducer = UnknownWordPenaltyProducer::Instance();
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size_t isDigit = 0;
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if (staticData.GetDropUnknown()) {
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const Factor *f = sourceWord[0]; // TODO hack. shouldn't know which factor is surface
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const StringPiece s = f->GetString();
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isDigit = s.find_first_of("0123456789");
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if (isDigit == string::npos)
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isDigit = 0;
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else
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isDigit = 1;
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// modify the starting bitmap
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}
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Phrase* unksrc = new Phrase(1);
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unksrc->AddWord() = sourceWord;
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Word &newWord = unksrc->GetWord(0);
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newWord.SetIsOOV(true);
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m_unksrcs.push_back(unksrc);
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//TranslationOption *transOpt;
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if (! staticData.GetDropUnknown() || isDigit) {
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// loop
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const UnknownLHSList &lhsList = staticData.GetUnknownLHS();
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UnknownLHSList::const_iterator iterLHS;
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for (iterLHS = lhsList.begin(); iterLHS != lhsList.end(); ++iterLHS) {
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const string &targetLHSStr = iterLHS->first;
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float prob = iterLHS->second;
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// lhs
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//const Word &sourceLHS = staticData.GetInputDefaultNonTerminal();
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Word *targetLHS = new Word(true);
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targetLHS->CreateFromString(Output, staticData.GetOutputFactorOrder(), targetLHSStr, true);
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UTIL_THROW_IF2(targetLHS->GetFactor(0) == NULL, "Null factor for target LHS");
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// add to dictionary
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TargetPhrase *targetPhrase = new TargetPhrase();
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Word &targetWord = targetPhrase->AddWord();
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targetWord.CreateUnknownWord(sourceWord);
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// scores
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float unknownScore = FloorScore(TransformScore(prob));
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targetPhrase->GetScoreBreakdown().Assign(&unknownWordPenaltyProducer, unknownScore);
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targetPhrase->Evaluate(*unksrc);
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targetPhrase->SetTargetLHS(targetLHS);
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targetPhrase->SetAlignmentInfo("0-0");
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if (staticData.IsDetailedTreeFragmentsTranslationReportingEnabled()) {
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targetPhrase->SetProperty("Tree","[ " + (*targetLHS)[0]->GetString().as_string() + " "+sourceWord[0]->GetString().as_string()+" ]");
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}
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// chart rule
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to.AddPhraseOOV(*targetPhrase, m_cacheTargetPhraseCollection, range);
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} // for (iterLHS
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} else {
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// drop source word. create blank trans opt
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float unknownScore = FloorScore(-numeric_limits<float>::infinity());
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TargetPhrase *targetPhrase = new TargetPhrase();
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// loop
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const UnknownLHSList &lhsList = staticData.GetUnknownLHS();
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UnknownLHSList::const_iterator iterLHS;
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for (iterLHS = lhsList.begin(); iterLHS != lhsList.end(); ++iterLHS) {
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const string &targetLHSStr = iterLHS->first;
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//float prob = iterLHS->second;
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Word *targetLHS = new Word(true);
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targetLHS->CreateFromString(Output, staticData.GetOutputFactorOrder(), targetLHSStr, true);
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UTIL_THROW_IF2(targetLHS->GetFactor(0) == NULL, "Null factor for target LHS");
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targetPhrase->GetScoreBreakdown().Assign(&unknownWordPenaltyProducer, unknownScore);
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targetPhrase->Evaluate(*unksrc);
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targetPhrase->SetTargetLHS(targetLHS);
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// chart rule
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to.AddPhraseOOV(*targetPhrase, m_cacheTargetPhraseCollection, range);
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}
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}
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}
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ChartParser::ChartParser(InputType const &source, ChartCellCollectionBase &cells) :
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m_decodeGraphList(StaticData::Instance().GetDecodeGraphs()),
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m_source(source)
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{
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const StaticData &staticData = StaticData::Instance();
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staticData.InitializeForInput(source);
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CreateInputPaths(m_source);
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const std::vector<PhraseDictionary*> &dictionaries = PhraseDictionary::GetColl();
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m_ruleLookupManagers.reserve(dictionaries.size());
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for (std::vector<PhraseDictionary*>::const_iterator p = dictionaries.begin();
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p != dictionaries.end(); ++p) {
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const PhraseDictionary *dict = *p;
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PhraseDictionary *nonConstDict = const_cast<PhraseDictionary*>(dict);
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ChartRuleLookupManager *lookupMgr = nonConstDict->CreateRuleLookupManager(*this, cells);
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m_ruleLookupManagers.push_back(lookupMgr);
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}
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}
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ChartParser::~ChartParser()
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{
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RemoveAllInColl(m_ruleLookupManagers);
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StaticData::Instance().CleanUpAfterSentenceProcessing(m_source);
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InputPathMatrix::const_iterator iterOuter;
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for (iterOuter = m_inputPathMatrix.begin(); iterOuter != m_inputPathMatrix.end(); ++iterOuter) {
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const std::vector<InputPath*> &outer = *iterOuter;
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std::vector<InputPath*>::const_iterator iterInner;
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for (iterInner = outer.begin(); iterInner != outer.end(); ++iterInner) {
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InputPath *path = *iterInner;
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delete path;
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}
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}
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}
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void ChartParser::Create(const WordsRange &wordsRange, ChartParserCallback &to)
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{
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assert(m_decodeGraphList.size() == m_ruleLookupManagers.size());
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std::vector <DecodeGraph*>::const_iterator iterDecodeGraph;
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std::vector <ChartRuleLookupManager*>::const_iterator iterRuleLookupManagers = m_ruleLookupManagers.begin();
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for (iterDecodeGraph = m_decodeGraphList.begin(); iterDecodeGraph != m_decodeGraphList.end(); ++iterDecodeGraph, ++iterRuleLookupManagers) {
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const DecodeGraph &decodeGraph = **iterDecodeGraph;
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assert(decodeGraph.GetSize() == 1);
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ChartRuleLookupManager &ruleLookupManager = **iterRuleLookupManagers;
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size_t maxSpan = decodeGraph.GetMaxChartSpan();
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if (maxSpan == 0 || wordsRange.GetNumWordsCovered() <= maxSpan) {
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ruleLookupManager.GetChartRuleCollection(wordsRange, to);
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}
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}
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if (wordsRange.GetNumWordsCovered() == 1 && wordsRange.GetStartPos() != 0 && wordsRange.GetStartPos() != m_source.GetSize()-1) {
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bool alwaysCreateDirectTranslationOption = StaticData::Instance().IsAlwaysCreateDirectTranslationOption();
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if (to.Empty() || alwaysCreateDirectTranslationOption) {
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// create unknown words for 1 word coverage where we don't have any trans options
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const Word &sourceWord = m_source.GetWord(wordsRange.GetStartPos());
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m_unknown.Process(sourceWord, wordsRange, to);
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}
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}
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}
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void ChartParser::CreateInputPaths(const InputType &input)
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{
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size_t size = input.GetSize();
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m_inputPathMatrix.resize(size);
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UTIL_THROW_IF2(input.GetType() != SentenceInput && input.GetType() != TreeInputType,
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"Input must be a sentence or a tree, not lattice or confusion networks");
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for (size_t phaseSize = 1; phaseSize <= size; ++phaseSize) {
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for (size_t startPos = 0; startPos < size - phaseSize + 1; ++startPos) {
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size_t endPos = startPos + phaseSize -1;
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vector<InputPath*> &vec = m_inputPathMatrix[startPos];
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WordsRange range(startPos, endPos);
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Phrase subphrase(input.GetSubString(WordsRange(startPos, endPos)));
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const NonTerminalSet &labels = input.GetLabelSet(startPos, endPos);
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InputPath *node;
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if (range.GetNumWordsCovered() == 1) {
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node = new InputPath(subphrase, labels, range, NULL, NULL);
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vec.push_back(node);
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} else {
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const InputPath &prevNode = GetInputPath(startPos, endPos - 1);
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node = new InputPath(subphrase, labels, range, &prevNode, NULL);
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vec.push_back(node);
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}
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//m_inputPathQueue.push_back(node);
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}
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}
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}
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const InputPath &ChartParser::GetInputPath(WordsRange &range) const
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{
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return GetInputPath(range.GetStartPos(), range.GetEndPos());
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}
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const InputPath &ChartParser::GetInputPath(size_t startPos, size_t endPos) const
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{
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size_t offset = endPos - startPos;
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UTIL_THROW_IF2(offset >= m_inputPathMatrix[startPos].size(),
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"Out of bound: " << offset);
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return *m_inputPathMatrix[startPos][offset];
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}
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InputPath &ChartParser::GetInputPath(size_t startPos, size_t endPos)
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{
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size_t offset = endPos - startPos;
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UTIL_THROW_IF2(offset >= m_inputPathMatrix[startPos].size(),
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"Out of bound: " << offset);
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return *m_inputPathMatrix[startPos][offset];
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}
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/*
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const Sentence &ChartParser::GetSentence() const {
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const Sentence &sentence = static_cast<const Sentence&>(m_source);
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return sentence;
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}
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*/
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size_t ChartParser::GetSize() const
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{
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return m_source.GetSize();
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}
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long ChartParser::GetTranslationId() const
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{
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return m_source.GetTranslationId();
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}
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} // namespace Moses
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