mirror of
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281 lines
10 KiB
C++
281 lines
10 KiB
C++
// $Id$
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/***********************************************************************
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Moses - factored phrase-based language decoder
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Copyright (C) 2006 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 "DecodeStepTranslation.h"
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#include "TranslationOption.h"
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#include "TranslationOptionCollection.h"
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#include "PartialTranslOptColl.h"
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#include "FactorCollection.h"
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#include "util/exception.hh"
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using namespace std;
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namespace Moses
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{
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DecodeStepTranslation::DecodeStepTranslation(const PhraseDictionary* pdf,
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const DecodeStep* prev,
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const std::vector<FeatureFunction*> &features)
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: DecodeStep(pdf, prev, features)
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{
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// don't apply feature functions that are from current phrase table.It should already have been
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// dont by the phrase table.
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const std::vector<FeatureFunction*> &pdfFeatures = pdf->GetFeaturesToApply();
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for (size_t i = 0; i < pdfFeatures.size(); ++i) {
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FeatureFunction *ff = pdfFeatures[i];
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RemoveFeature(ff);
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}
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}
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void DecodeStepTranslation::Process(const TranslationOption &inputPartialTranslOpt
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, const DecodeStep &decodeStep
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, PartialTranslOptColl &outputPartialTranslOptColl
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, TranslationOptionCollection *toc
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, bool adhereTableLimit
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, const TargetPhraseCollection *phraseColl) const
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{
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if (inputPartialTranslOpt.GetTargetPhrase().GetSize() == 0) {
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// word deletion
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outputPartialTranslOptColl.Add(new TranslationOption(inputPartialTranslOpt));
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return;
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}
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// normal trans step
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const WordsRange &sourceWordsRange = inputPartialTranslOpt.GetSourceWordsRange();
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const InputPath &inputPath = inputPartialTranslOpt.GetInputPath();
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const PhraseDictionary* phraseDictionary =
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decodeStep.GetPhraseDictionaryFeature();
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const TargetPhrase &inPhrase = inputPartialTranslOpt.GetTargetPhrase();
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const size_t currSize = inPhrase.GetSize();
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const size_t tableLimit = phraseDictionary->GetTableLimit();
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if (phraseColl != NULL) {
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TargetPhraseCollection::const_iterator iterTargetPhrase, iterEnd;
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iterEnd = (!adhereTableLimit || tableLimit == 0 || phraseColl->GetSize() < tableLimit) ? phraseColl->end() : phraseColl->begin() + tableLimit;
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for (iterTargetPhrase = phraseColl->begin(); iterTargetPhrase != iterEnd; ++iterTargetPhrase) {
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const TargetPhrase& targetPhrase = **iterTargetPhrase;
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// const ScoreComponentCollection &transScores = targetPhrase.GetScoreBreakdown();
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// skip if the
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if (targetPhrase.GetSize() != currSize) continue;
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TargetPhrase outPhrase(inPhrase);
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if (IsFilteringStep()) {
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if (!inputPartialTranslOpt.IsCompatible(targetPhrase, m_conflictFactors))
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continue;
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}
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outPhrase.Merge(targetPhrase, m_newOutputFactors);
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outPhrase.Evaluate(inputPath.GetPhrase(), m_featuresToApply); // need to do this as all non-transcores would be screwed up
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TranslationOption *newTransOpt = new TranslationOption(sourceWordsRange, outPhrase);
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assert(newTransOpt != NULL);
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newTransOpt->SetInputPath(inputPath);
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outputPartialTranslOptColl.Add(newTransOpt );
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}
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} else if (sourceWordsRange.GetNumWordsCovered() == 1) {
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// unknown handler
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//toc->ProcessUnknownWord(sourceWordsRange.GetStartPos(), factorCollection);
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}
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}
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void DecodeStepTranslation::ProcessInitialTranslation(
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const InputType &source
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,PartialTranslOptColl &outputPartialTranslOptColl
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, size_t startPos, size_t endPos, bool adhereTableLimit
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, const InputPath &inputPath
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, const TargetPhraseCollection *phraseColl) const
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{
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const PhraseDictionary* phraseDictionary = GetPhraseDictionaryFeature();
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const size_t tableLimit = phraseDictionary->GetTableLimit();
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const WordsRange wordsRange(startPos, endPos);
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if (phraseColl != NULL) {
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IFVERBOSE(3) {
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if(StaticData::Instance().GetInputType() == SentenceInput)
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TRACE_ERR("[" << source.GetSubString(wordsRange) << "; " << startPos << "-" << endPos << "]\n");
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else
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TRACE_ERR("[" << startPos << "-" << endPos << "]" << std::endl);
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}
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TargetPhraseCollection::const_iterator iterTargetPhrase, iterEnd;
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iterEnd = (!adhereTableLimit || tableLimit == 0 || phraseColl->GetSize() < tableLimit) ? phraseColl->end() : phraseColl->begin() + tableLimit;
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for (iterTargetPhrase = phraseColl->begin() ; iterTargetPhrase != iterEnd ; ++iterTargetPhrase) {
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const TargetPhrase &targetPhrase = **iterTargetPhrase;
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TranslationOption *transOpt = new TranslationOption(wordsRange, targetPhrase);
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transOpt->SetInputPath(inputPath);
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outputPartialTranslOptColl.Add (transOpt);
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VERBOSE(3,"\t" << targetPhrase << "\n");
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}
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VERBOSE(3,std::endl);
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}
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}
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void DecodeStepTranslation::ProcessInitialTranslationLEGACY(
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const InputType &source
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,PartialTranslOptColl &outputPartialTranslOptColl
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, size_t startPos, size_t endPos, bool adhereTableLimit
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, const InputPathList &inputPathList) const
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{
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const PhraseDictionary* phraseDictionary = GetPhraseDictionaryFeature();
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const size_t tableLimit = phraseDictionary->GetTableLimit();
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const WordsRange wordsRange(startPos, endPos);
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const TargetPhraseCollectionWithSourcePhrase *phraseColl = phraseDictionary->GetTargetPhraseCollectionLEGACY(source,wordsRange);
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if (phraseColl != NULL) {
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IFVERBOSE(3) {
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if(StaticData::Instance().GetInputType() == SentenceInput)
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TRACE_ERR("[" << source.GetSubString(wordsRange) << "; " << startPos << "-" << endPos << "]\n");
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else
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TRACE_ERR("[" << startPos << "-" << endPos << "]" << std::endl);
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}
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const std::vector<Phrase> &sourcePhrases = phraseColl->GetSourcePhrases();
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TargetPhraseCollection::const_iterator iterTargetPhrase, iterEnd;
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std::vector<Phrase>::const_iterator iterSourcePhrase;
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iterEnd = (!adhereTableLimit || tableLimit == 0 || phraseColl->GetSize() < tableLimit) ? phraseColl->end() : phraseColl->begin() + tableLimit;
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for (iterTargetPhrase = phraseColl->begin(), iterSourcePhrase = sourcePhrases.begin()
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; iterTargetPhrase != iterEnd
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; ++iterTargetPhrase, ++iterSourcePhrase) {
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CHECK(iterSourcePhrase != sourcePhrases.end());
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const TargetPhrase &targetPhrase = **iterTargetPhrase;
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const Phrase &sourcePhrase = *iterSourcePhrase;
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const InputPath &inputPath = GetInputPathLEGACY(targetPhrase, sourcePhrase, inputPathList);
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TranslationOption *transOpt = new TranslationOption(wordsRange, targetPhrase);
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transOpt->SetInputPath(inputPath);
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outputPartialTranslOptColl.Add (transOpt);
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VERBOSE(3,"\t" << targetPhrase << "\n");
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}
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VERBOSE(3,std::endl);
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}
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}
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const InputPath &DecodeStepTranslation::GetInputPathLEGACY(
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const TargetPhrase targetPhrase,
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const Phrase sourcePhrase,
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const InputPathList &inputPathList) const
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{
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const Word &wordFromPt = sourcePhrase.GetWord(0);
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InputPathList::const_iterator iter;
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for (iter = inputPathList.begin(); iter != inputPathList.end(); ++iter) {
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const InputPath &inputPath = **iter;
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const Phrase &phraseFromIP = inputPath.GetPhrase();
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const Word *wordIP = NULL;
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for (size_t i = 0; i < phraseFromIP.GetSize(); ++i) {
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const Word &tempWord = phraseFromIP.GetWord(i);
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if (!tempWord.IsEpsilon()) {
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wordIP = &tempWord;
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break;
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}
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}
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// const WordsRange &range = inputPath.GetWordsRange();
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if (wordIP && *wordIP == wordFromPt) {
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return inputPath;
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}
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}
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UTIL_THROW(util::Exception, "Input path not found");
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}
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void DecodeStepTranslation::ProcessLEGACY(const TranslationOption &inputPartialTranslOpt
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, const DecodeStep &decodeStep
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, PartialTranslOptColl &outputPartialTranslOptColl
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, TranslationOptionCollection *toc
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, bool adhereTableLimit) const
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{
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if (inputPartialTranslOpt.GetTargetPhrase().GetSize() == 0) {
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// word deletion
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outputPartialTranslOptColl.Add(new TranslationOption(inputPartialTranslOpt));
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return;
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}
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// normal trans step
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const WordsRange &sourceWordsRange = inputPartialTranslOpt.GetSourceWordsRange();
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const InputPath &inputPath = inputPartialTranslOpt.GetInputPath();
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const PhraseDictionary* phraseDictionary =
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decodeStep.GetPhraseDictionaryFeature();
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const TargetPhrase &inPhrase = inputPartialTranslOpt.GetTargetPhrase();
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const size_t currSize = inPhrase.GetSize();
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const size_t tableLimit = phraseDictionary->GetTableLimit();
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const TargetPhraseCollectionWithSourcePhrase *phraseColl
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= phraseDictionary->GetTargetPhraseCollectionLEGACY(toc->GetSource(),sourceWordsRange);
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if (phraseColl != NULL) {
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TargetPhraseCollection::const_iterator iterTargetPhrase, iterEnd;
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iterEnd = (!adhereTableLimit || tableLimit == 0 || phraseColl->GetSize() < tableLimit) ? phraseColl->end() : phraseColl->begin() + tableLimit;
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for (iterTargetPhrase = phraseColl->begin(); iterTargetPhrase != iterEnd; ++iterTargetPhrase) {
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const TargetPhrase& targetPhrase = **iterTargetPhrase;
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// const ScoreComponentCollection &transScores = targetPhrase.GetScoreBreakdown();
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// skip if the
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if (targetPhrase.GetSize() != currSize) continue;
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TargetPhrase outPhrase(inPhrase);
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if (IsFilteringStep()) {
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if (!inputPartialTranslOpt.IsCompatible(targetPhrase, m_conflictFactors))
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continue;
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}
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outPhrase.Merge(targetPhrase, m_newOutputFactors);
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outPhrase.Evaluate(inputPath.GetPhrase(), m_featuresToApply); // need to do this as all non-transcores would be screwed up
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TranslationOption *newTransOpt = new TranslationOption(sourceWordsRange, outPhrase);
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assert(newTransOpt != NULL);
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newTransOpt->SetInputPath(inputPath);
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outputPartialTranslOptColl.Add(newTransOpt );
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}
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} else if (sourceWordsRange.GetNumWordsCovered() == 1) {
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// unknown handler
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//toc->ProcessUnknownWord(sourceWordsRange.GetStartPos(), factorCollection);
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}
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}
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}
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