void ExtractTask::saveAllHieroPhrases( int startT, int endT, int startS, int endS, HoleCollection &holeColl, int countS)
{
  LabelIndex labelIndex,labelCount;

  // number of target head labels
  int numLabels = m_options.targetSyntax ? m_sentence.targetTree.GetNodes(startT,endT).size() : 1;
  if (m_options.targetSyntacticPreferences && !numLabels) {
    numLabels++;
  }
  labelCount.push_back(numLabels);
  labelIndex.push_back(0);

  // number of source head labels
  numLabels =  m_options.sourceSyntax ? m_sentence.sourceTree.GetNodes(startS,endS).size() : 1;
  labelCount.push_back(numLabels);
  labelIndex.push_back(0);

  // number of target hole labels
  for( HoleList::const_iterator hole = holeColl.GetHoles().begin();
       hole != holeColl.GetHoles().end(); hole++ ) {
    int numLabels = m_options.targetSyntax ? m_sentence.targetTree.GetNodes(hole->GetStart(1),hole->GetEnd(1)).size() : 1 ;
    if (m_options.targetSyntacticPreferences && !numLabels) {
      numLabels++;
    }
    labelCount.push_back(numLabels);
    labelIndex.push_back(0);
  }

  // number of source hole labels
  holeColl.SortSourceHoles();
  for( vector<Hole*>::iterator i = holeColl.GetSortedSourceHoles().begin();
       i != holeColl.GetSortedSourceHoles().end(); i++ ) {
    const Hole &hole = **i;
    int numLabels =  m_options.sourceSyntax ? m_sentence.sourceTree.GetNodes(hole.GetStart(0),hole.GetEnd(0)).size() : 1 ;
    labelCount.push_back(numLabels);
    labelIndex.push_back(0);
  }

  // loop through the holes
  bool done = false;
  while(!done) {
    saveHieroPhrase( startT, endT, startS, endS, holeColl, labelIndex, countS );
    for(unsigned int i=0; i<labelIndex.size(); i++) {
      labelIndex[i]++;
      if(labelIndex[i] == labelCount[i]) {
        labelIndex[i] = 0;
        if (i == labelIndex.size()-1)
          done = true;
      } else {
        break;
      }
    }
  }
}
示例#2
0
void printAllHieroPhrases( SentenceAlignmentWithSyntax &sentence
                           , int startT, int endT, int startS, int endS
                           , HoleCollection &holeColl)
{
  LabelIndex labelIndex,labelCount;

  // number of target head labels
  int numLabels = options.targetSyntax ? sentence.targetTree.GetNodes(startT,endT).size() : 1;
  labelCount.push_back(numLabels);
  labelIndex.push_back(0);

  // number of source head labels
  numLabels =  options.sourceSyntax ? sentence.sourceTree.GetNodes(startS,endS).size() : 1;
  labelCount.push_back(numLabels);
  labelIndex.push_back(0);

  // number of target hole labels
  for( HoleList::const_iterator hole = holeColl.GetHoles().begin();
       hole != holeColl.GetHoles().end(); hole++ ) {
    int numLabels =  options.targetSyntax ? sentence.targetTree.GetNodes(hole->GetStart(1),hole->GetEnd(1)).size() : 1 ;
    labelCount.push_back(numLabels);
    labelIndex.push_back(0);
  }

  // number of source hole labels
  holeColl.SortSourceHoles();
  for( vector<Hole*>::iterator i = holeColl.GetSortedSourceHoles().begin();
       i != holeColl.GetSortedSourceHoles().end(); i++ ) {
    const Hole &hole = **i;
    int numLabels =  options.sourceSyntax ? sentence.sourceTree.GetNodes(hole.GetStart(0),hole.GetEnd(0)).size() : 1 ;
    labelCount.push_back(numLabels);
    labelIndex.push_back(0);
  }

  // loop through the holes
  bool done = false;
  while(!done) {
    printHieroPhrase( sentence, startT, endT, startS, endS, holeColl, labelIndex );
    for(int i=0; i<labelIndex.size(); i++) {
      labelIndex[i]++;
      if(labelIndex[i] == labelCount[i]) {
        labelIndex[i] = 0;
        if (i == labelIndex.size()-1)
          done = true;
      } else {
        break;
      }
    }
  }
}