コード例 #1
0
// assumes that source-side syntax labels are stored in the target non-terminal field of the rules
void SourceGHKMTreeInputMatchFeature::EvaluateWithSourceContext(const InputType &input
    , const InputPath &inputPath
    , const TargetPhrase &targetPhrase
    , const StackVec *stackVec
    , ScoreComponentCollection &scoreBreakdown
    , ScoreComponentCollection *estimatedScores) const
{
  const Range& range = inputPath.GetWordsRange();
  size_t startPos = range.GetStartPos();
  size_t endPos = range.GetEndPos();
  const TreeInput& treeInput = static_cast<const TreeInput&>(input);
  const NonTerminalSet& treeInputLabels = treeInput.GetLabelSet(startPos,endPos);
  const Word& lhsLabel = targetPhrase.GetTargetLHS();

  const StaticData& staticData = StaticData::Instance();
  const Word& outputDefaultNonTerminal = staticData.GetOutputDefaultNonTerminal();

  std::vector<float> newScores(m_numScoreComponents,0.0); // m_numScoreComponents == 2 // first fires for matches, second for mismatches

  if ( (treeInputLabels.find(lhsLabel) != treeInputLabels.end()) && (lhsLabel != outputDefaultNonTerminal) ) {
    // match
    newScores[0] = 1.0;
  } else {
    // mismatch
    newScores[1] = 1.0;
  }

  scoreBreakdown.PlusEquals(this, newScores);
}
void ChartRuleLookupManagerMemoryPerSentence::GetChartRuleCollection(
  const InputPath &inputPath,
  size_t lastPos,
  ChartParserCallback &outColl)
{
  const Range &range = inputPath.GetWordsRange();
  size_t startPos = range.GetStartPos();
  size_t absEndPos = range.GetEndPos();

  m_lastPos = lastPos;
  m_stackVec.clear();
  m_stackScores.clear();
  m_outColl = &outColl;
  m_unaryPos = absEndPos-1; // rules ending in this position are unary and should not be added to collection

  // create/update data structure to quickly look up all chart cells that match start position and label.
  UpdateCompressedMatrix(startPos, absEndPos, lastPos);

  const PhraseDictionaryNodeMemory &rootNode = m_ruleTable.GetRootNode(GetParser().GetTranslationId());

  // all rules starting with terminal
  if (startPos == absEndPos) {
    GetTerminalExtension(&rootNode, startPos);
  }
  // all rules starting with nonterminal
  else if (absEndPos > startPos) {
    GetNonTerminalExtension(&rootNode, startPos);
  }

  // copy temporarily stored rules to out collection
  CompletedRuleCollection & rules = m_completedRules[absEndPos];
  for (vector<CompletedRule*>::const_iterator iter = rules.begin(); iter != rules.end(); ++iter) {
    outColl.Add((*iter)->GetTPC(), (*iter)->GetStackVector(), range);
  }

  rules.Clear();

}
コード例 #3
0
void WordTranslationFeature::EvaluateWithSourceContext(const InputType &input
    , const InputPath &inputPath
    , const TargetPhrase &targetPhrase
    , const StackVec *stackVec
    , ScoreComponentCollection &scoreBreakdown
    , ScoreComponentCollection *estimatedScores) const
{
  const Sentence& sentence = static_cast<const Sentence&>(input);
  const AlignmentInfo &alignment = targetPhrase.GetAlignTerm();

  // process aligned words
  for (AlignmentInfo::const_iterator alignmentPoint = alignment.begin(); alignmentPoint != alignment.end(); alignmentPoint++) {
    const Phrase& sourcePhrase = inputPath.GetPhrase();
    int sourceIndex = alignmentPoint->first;
    int targetIndex = alignmentPoint->second;
    Word ws = sourcePhrase.GetWord(sourceIndex);
    if (m_factorTypeSource == 0 && ws.IsNonTerminal()) continue;
    Word wt = targetPhrase.GetWord(targetIndex);
    if (m_factorTypeSource == 0 && wt.IsNonTerminal()) continue;
    StringPiece sourceWord = ws.GetFactor(m_factorTypeSource)->GetString();
    StringPiece targetWord = wt.GetFactor(m_factorTypeTarget)->GetString();
    if (m_ignorePunctuation) {
      // check if source or target are punctuation
      char firstChar = sourceWord[0];
      CharHash::const_iterator charIterator = m_punctuationHash.find( firstChar );
      if(charIterator != m_punctuationHash.end())
        continue;
      firstChar = targetWord[0];
      charIterator = m_punctuationHash.find( firstChar );
      if(charIterator != m_punctuationHash.end())
        continue;
    }

    if (!m_unrestricted) {
      if (FindStringPiece(m_vocabSource, sourceWord) == m_vocabSource.end())
        sourceWord = "OTHER";
      if (FindStringPiece(m_vocabTarget, targetWord) == m_vocabTarget.end())
        targetWord = "OTHER";
    }

    if (m_simple) {
      // construct feature name
      util::StringStream featureName;
      featureName << m_description << "_";
      featureName << sourceWord;
      featureName << "~";
      featureName << targetWord;
      scoreBreakdown.SparsePlusEquals(featureName.str(), 1);
    }
    if (m_domainTrigger && !m_sourceContext) {
      const bool use_topicid = sentence.GetUseTopicId();
      const bool use_topicid_prob = sentence.GetUseTopicIdAndProb();
      if (use_topicid || use_topicid_prob) {
        if(use_topicid) {
          // use topicid as trigger
          const long topicid = sentence.GetTopicId();
          util::StringStream feature;
          feature << m_description << "_";
          if (topicid == -1)
            feature << "unk";
          else
            feature << topicid;

          feature << "_";
          feature << sourceWord;
          feature << "~";
          feature << targetWord;
          scoreBreakdown.SparsePlusEquals(feature.str(), 1);
        } else {
          // use topic probabilities
          const vector<string> &topicid_prob = *(input.GetTopicIdAndProb());
          if (atol(topicid_prob[0].c_str()) == -1) {
            util::StringStream feature;
            feature << m_description << "_unk_";
            feature << sourceWord;
            feature << "~";
            feature << targetWord;
            scoreBreakdown.SparsePlusEquals(feature.str(), 1);
          } else {
            for (size_t i=0; i+1 < topicid_prob.size(); i+=2) {
              util::StringStream feature;
              feature << m_description << "_";
              feature << topicid_prob[i];
              feature << "_";
              feature << sourceWord;
              feature << "~";
              feature << targetWord;
              scoreBreakdown.SparsePlusEquals(feature.str(), atof((topicid_prob[i+1]).c_str()));
            }
          }
        }
      } else {
        // range over domain trigger words (keywords)
        const long docid = input.GetDocumentId();
        for (boost::unordered_set<std::string>::const_iterator p = m_vocabDomain[docid].begin(); p != m_vocabDomain[docid].end(); ++p) {
          string sourceTrigger = *p;
          util::StringStream feature;
          feature << m_description << "_";
          feature << sourceTrigger;
          feature << "_";
          feature << sourceWord;
          feature << "~";
          feature << targetWord;
          scoreBreakdown.SparsePlusEquals(feature.str(), 1);
        }
      }
    }
    if (m_sourceContext) {
      size_t globalSourceIndex = inputPath.GetWordsRange().GetStartPos() + sourceIndex;
      if (!m_domainTrigger && globalSourceIndex == 0) {
        // add <s> trigger feature for source
        util::StringStream feature;
        feature << m_description << "_";
        feature << "<s>,";
        feature << sourceWord;
        feature << "~";
        feature << targetWord;
        scoreBreakdown.SparsePlusEquals(feature.str(), 1);
      }

      // range over source words to get context
      for(size_t contextIndex = 0; contextIndex < input.GetSize(); contextIndex++ ) {
        if (contextIndex == globalSourceIndex) continue;
        StringPiece sourceTrigger = input.GetWord(contextIndex).GetFactor(m_factorTypeSource)->GetString();
        if (m_ignorePunctuation) {
          // check if trigger is punctuation
          char firstChar = sourceTrigger[0];
          CharHash::const_iterator charIterator = m_punctuationHash.find( firstChar );
          if(charIterator != m_punctuationHash.end())
            continue;
        }

        const long docid = input.GetDocumentId();
        bool sourceTriggerExists = false;
        if (m_domainTrigger)
          sourceTriggerExists = FindStringPiece(m_vocabDomain[docid], sourceTrigger ) != m_vocabDomain[docid].end();
        else if (!m_unrestricted)
          sourceTriggerExists = FindStringPiece(m_vocabSource, sourceTrigger ) != m_vocabSource.end();

        if (m_domainTrigger) {
          if (sourceTriggerExists) {
            util::StringStream feature;
            feature << m_description << "_";
            feature << sourceTrigger;
            feature << "_";
            feature << sourceWord;
            feature << "~";
            feature << targetWord;
            scoreBreakdown.SparsePlusEquals(feature.str(), 1);
          }
        } else if (m_unrestricted || sourceTriggerExists) {
          util::StringStream feature;
          feature << m_description << "_";
          if (contextIndex < globalSourceIndex) {
            feature << sourceTrigger;
            feature << ",";
            feature << sourceWord;
          } else {
            feature << sourceWord;
            feature << ",";
            feature << sourceTrigger;
          }
          feature << "~";
          feature << targetWord;
          scoreBreakdown.SparsePlusEquals(feature.str(), 1);
        }
      }
    }
    if (m_targetContext) {
      throw runtime_error("Can't use target words outside current translation option in a stateless feature");
      /*
      size_t globalTargetIndex = cur_hypo.GetCurrTargetWordsRange().GetStartPos() + targetIndex;
      if (globalTargetIndex == 0) {
      	// add <s> trigger feature for source
      	stringstream feature;
      	feature << "wt_";
      	feature << sourceWord;
      	feature << "~";
      	feature << "<s>,";
      	feature << targetWord;
      	accumulator->SparsePlusEquals(feature.str(), 1);
      }

      // range over target words (up to current position) to get context
      for(size_t contextIndex = 0; contextIndex < globalTargetIndex; contextIndex++ ) {
      	string targetTrigger = cur_hypo.GetWord(contextIndex).GetFactor(m_factorTypeTarget)->GetString();
      	if (m_ignorePunctuation) {
      		// check if trigger is punctuation
      		char firstChar = targetTrigger.at(0);
      		CharHash::const_iterator charIterator = m_punctuationHash.find( firstChar );
      		if(charIterator != m_punctuationHash.end())
      			continue;
      	}

      	bool targetTriggerExists = false;
      	if (!m_unrestricted)
      		targetTriggerExists = m_vocabTarget.find( targetTrigger ) != m_vocabTarget.end();

      	if (m_unrestricted || targetTriggerExists) {
      		stringstream feature;
      		feature << "wt_";
      		feature << sourceWord;
      		feature << "~";
      		feature << targetTrigger;
      		feature << ",";
      		feature << targetWord;
      		accumulator->SparsePlusEquals(feature.str(), 1);
      	}
      }*/
    }
  }
}
コード例 #4
0
void ChartRuleLookupManagerOnDisk::GetChartRuleCollection(
  const InputPath &inputPath,
  size_t lastPos,
  ChartParserCallback &outColl)
{
  const StaticData &staticData = StaticData::Instance();
  const Word &defaultSourceNonTerm = staticData.GetInputDefaultNonTerminal();
  const WordsRange &range = inputPath.GetWordsRange();

  size_t relEndPos = range.GetEndPos() - range.GetStartPos();
  size_t absEndPos = range.GetEndPos();

  // MAIN LOOP. create list of nodes of target phrases
  DottedRuleStackOnDisk &expandableDottedRuleList = *m_expandableDottedRuleListVec[range.GetStartPos()];

  // sort save nodes so only do nodes with most counts
  expandableDottedRuleList.SortSavedNodes();

  const DottedRuleStackOnDisk::SavedNodeColl &savedNodeColl = expandableDottedRuleList.GetSavedNodeColl();
  //cerr << "savedNodeColl=" << savedNodeColl.size() << " ";

  const ChartCellLabel &sourceWordLabel = GetSourceAt(absEndPos);

  for (size_t ind = 0; ind < (savedNodeColl.size()) ; ++ind) {
    const SavedNodeOnDisk &savedNode = *savedNodeColl[ind];

    const DottedRuleOnDisk &prevDottedRule = savedNode.GetDottedRule();
    const OnDiskPt::PhraseNode &prevNode = prevDottedRule.GetLastNode();
    size_t startPos = prevDottedRule.IsRoot() ? range.GetStartPos() : prevDottedRule.GetWordsRange().GetEndPos() + 1;

    // search for terminal symbol
    if (startPos == absEndPos) {
      OnDiskPt::Word *sourceWordBerkeleyDb = m_dbWrapper.ConvertFromMoses(m_inputFactorsVec, sourceWordLabel.GetLabel());

      if (sourceWordBerkeleyDb != NULL) {
        const OnDiskPt::PhraseNode *node = prevNode.GetChild(*sourceWordBerkeleyDb, m_dbWrapper);
        if (node != NULL) {
          // TODO figure out why source word is needed from node, not from sentence
          // prob to do with factors or non-term
          //const Word &sourceWord = node->GetSourceWord();
          DottedRuleOnDisk *dottedRule = new DottedRuleOnDisk(*node, sourceWordLabel, prevDottedRule);
          expandableDottedRuleList.Add(relEndPos+1, dottedRule);

          // cache for cleanup
          m_sourcePhraseNode.push_back(node);
        }

        delete sourceWordBerkeleyDb;
      }
    }

    // search for non-terminals
    size_t endPos, stackInd;
    if (startPos > absEndPos)
      continue;
    else if (startPos == range.GetStartPos() && range.GetEndPos() > range.GetStartPos()) {
      // start.
      endPos = absEndPos - 1;
      stackInd = relEndPos;
    } else {
      endPos = absEndPos;
      stackInd = relEndPos + 1;
    }

    // get target nonterminals in this span from chart
    const ChartCellLabelSet &chartNonTermSet =
      GetTargetLabelSet(startPos, endPos);

    //const Word &defaultSourceNonTerm = staticData.GetInputDefaultNonTerminal()
    //                                   ,&defaultTargetNonTerm = staticData.GetOutputDefaultNonTerminal();

    // go through each SOURCE lhs
    const NonTerminalSet &sourceLHSSet = GetParser().GetInputPath(startPos, endPos).GetNonTerminalSet();

    NonTerminalSet::const_iterator iterSourceLHS;
    for (iterSourceLHS = sourceLHSSet.begin(); iterSourceLHS != sourceLHSSet.end(); ++iterSourceLHS) {
      const Word &sourceLHS = *iterSourceLHS;

      OnDiskPt::Word *sourceLHSBerkeleyDb = m_dbWrapper.ConvertFromMoses(m_inputFactorsVec, sourceLHS);

      if (sourceLHSBerkeleyDb == NULL) {
        delete sourceLHSBerkeleyDb;
        continue; // vocab not in pt. node definately won't be in there
      }

      const OnDiskPt::PhraseNode *sourceNode = prevNode.GetChild(*sourceLHSBerkeleyDb, m_dbWrapper);
      delete sourceLHSBerkeleyDb;

      if (sourceNode == NULL)
        continue; // didn't find source node

      // go through each TARGET lhs
      ChartCellLabelSet::const_iterator iterChartNonTerm;
      for (iterChartNonTerm = chartNonTermSet.begin(); iterChartNonTerm != chartNonTermSet.end(); ++iterChartNonTerm) {
        if (*iterChartNonTerm == NULL) {
          continue;
        }
        const ChartCellLabel &cellLabel = **iterChartNonTerm;

        bool doSearch = true;
        if (m_dictionary.m_maxSpanDefault != NOT_FOUND) {
          // for Hieu's source syntax

          bool isSourceSyntaxNonTerm = sourceLHS != defaultSourceNonTerm;
          size_t nonTermNumWordsCovered = endPos - startPos + 1;

          doSearch = isSourceSyntaxNonTerm ?
                     nonTermNumWordsCovered <=  m_dictionary.m_maxSpanLabelled :
                     nonTermNumWordsCovered <= m_dictionary.m_maxSpanDefault;

        }

        if (doSearch) {

          OnDiskPt::Word *chartNonTermBerkeleyDb = m_dbWrapper.ConvertFromMoses(m_outputFactorsVec, cellLabel.GetLabel());

          if (chartNonTermBerkeleyDb == NULL)
            continue;

          const OnDiskPt::PhraseNode *node = sourceNode->GetChild(*chartNonTermBerkeleyDb, m_dbWrapper);
          delete chartNonTermBerkeleyDb;

          if (node == NULL)
            continue;

          // found matching entry
          //const Word &sourceWord = node->GetSourceWord();
          DottedRuleOnDisk *dottedRule = new DottedRuleOnDisk(*node, cellLabel, prevDottedRule);
          expandableDottedRuleList.Add(stackInd, dottedRule);

          m_sourcePhraseNode.push_back(node);
        }
      } // for (iterChartNonTerm

      delete sourceNode;

    } // for (iterLabelListf

    // return list of target phrases
    DottedRuleCollOnDisk &nodes = expandableDottedRuleList.Get(relEndPos + 1);

    // source LHS
    DottedRuleCollOnDisk::const_iterator iterDottedRuleColl;
    for (iterDottedRuleColl = nodes.begin(); iterDottedRuleColl != nodes.end(); ++iterDottedRuleColl) {
      // node of last source word
      const DottedRuleOnDisk &prevDottedRule = **iterDottedRuleColl;
      if (prevDottedRule.Done())
        continue;
      prevDottedRule.Done(true);

      const OnDiskPt::PhraseNode &prevNode = prevDottedRule.GetLastNode();

      //get node for each source LHS
      const NonTerminalSet &lhsSet = GetParser().GetInputPath(range.GetStartPos(), range.GetEndPos()).GetNonTerminalSet();
      NonTerminalSet::const_iterator iterLabelSet;
      for (iterLabelSet = lhsSet.begin(); iterLabelSet != lhsSet.end(); ++iterLabelSet) {
        const Word &sourceLHS = *iterLabelSet;

        OnDiskPt::Word *sourceLHSBerkeleyDb = m_dbWrapper.ConvertFromMoses(m_inputFactorsVec, sourceLHS);
        if (sourceLHSBerkeleyDb == NULL)
          continue;

        const TargetPhraseCollection *targetPhraseCollection = NULL;
        const OnDiskPt::PhraseNode *node = prevNode.GetChild(*sourceLHSBerkeleyDb, m_dbWrapper);
        if (node) {
          uint64_t tpCollFilePos = node->GetValue();
          std::map<uint64_t, const TargetPhraseCollection*>::const_iterator iterCache = m_cache.find(tpCollFilePos);
          if (iterCache == m_cache.end()) {

            const OnDiskPt::TargetPhraseCollection *tpcollBerkeleyDb = node->GetTargetPhraseCollection(m_dictionary.GetTableLimit(), m_dbWrapper);

            std::vector<float> weightT = staticData.GetWeights(&m_dictionary);
            targetPhraseCollection
            = tpcollBerkeleyDb->ConvertToMoses(m_inputFactorsVec
                                               ,m_outputFactorsVec
                                               ,m_dictionary
                                               ,weightT
                                               ,m_dbWrapper.GetVocab()
                                               ,true);

            delete tpcollBerkeleyDb;
            m_cache[tpCollFilePos] = targetPhraseCollection;
          } else {
            // just get out of cache
            targetPhraseCollection = iterCache->second;
          }

          UTIL_THROW_IF2(targetPhraseCollection == NULL, "Error");
          if (!targetPhraseCollection->IsEmpty()) {
            AddCompletedRule(prevDottedRule, *targetPhraseCollection,
                             range, outColl);
          }

        } // if (node)

        delete node;
        delete sourceLHSBerkeleyDb;
      }
    }
  } // for (size_t ind = 0; ind < savedNodeColl.size(); ++ind)

  //cerr << numDerivations << " ";
}