#include "InterpolatedScorer.h" #include "ScorerFactory.h" #include "Util.h" using namespace std; // TODO: This is too long. Consider creating a function for // initialization such as Init(). InterpolatedScorer::InterpolatedScorer(const string& name, const string& config) : Scorer(name,config) { // name would be: HAMMING,BLEU or similar string scorers = name; while (scorers.length() > 0) { string scorertype = ""; getNextPound(scorers, scorertype,","); Scorer *scorer = ScorerFactory::getScorer(scorertype,config); m_scorers.push_back(scorer); } if (m_scorers.size() == 0) { throw runtime_error("There are no scorers"); } cerr << "Number of scorers: " << m_scorers.size() << endl; //TODO debug this string wtype = getConfig("weights",""); //Default weights set to uniform ie. if two weights 0.5 each //weights should add to 1 if (wtype.length() == 0) { float weight = 1.0 / m_scorers.size() ; //cout << " Default weights:" << weight << endl; for (size_t i = 0; i < m_scorers.size(); i ++) { m_scorer_weights.push_back(weight); } } else { float tot=0; //cout << "Defined weights:" << endl; while (wtype.length() > 0) { string scoreweight = ""; getNextPound(wtype,scoreweight,"+"); float weight = atof(scoreweight.c_str()); m_scorer_weights.push_back(weight); tot += weight; //cout << " :" << weight ; } //cout << endl; if (tot != float(1)) { // TODO: fix this checking in terms of readability. for (vector::iterator it = m_scorer_weights.begin(); it != m_scorer_weights.end(); ++it) { *it /= tot; } } if (m_scorers.size() != m_scorer_weights.size()) { throw runtime_error("The number of weights does not equal the number of scorers!"); } } cerr << "The weights for the interpolated scorers are: " << endl; for (vector::iterator it = m_scorer_weights.begin(); it < m_scorer_weights.end(); it++) { cerr << *it << " " ; } cerr <::iterator itsc = m_scorers.begin(); itsc != m_scorers.end(); ++itsc) { int numScoresScorer = (*itsc)->NumberOfScores(); ScoreData* newData =new ScoreData(*itsc); for (size_t i = 0; i < data->size(); i++) { ScoreArray scoreArray = data->get(i); ScoreArray newScoreArray; std::string istr; std::stringstream out; out << i; istr = out.str(); size_t numNBest = scoreArray.size(); //cout << " Datasize " << data->size() << " NumNBest " << numNBest << endl ; for (size_t j = 0; j < numNBest ; j++) { ScoreStats scoreStats = data->get(i, j); //cout << "Scorestats " << scoreStats << " i " << i << " j " << j << endl; ScoreStats newScoreStats; for (size_t k = last; k < size_t(numScoresScorer + last); k++) { ScoreStatsType score = scoreStats.get(k); newScoreStats.add(score); } //cout << " last " << last << " NumScores " << numScoresScorer << "newScorestats " << newScoreStats << endl; newScoreArray.add(newScoreStats); } newScoreArray.setIndex(istr); newData->add(newScoreArray); } //newData->dump(); // NOTE: This class takes the ownership of the heap allocated // ScoreData objects to avoid the memory leak issues. m_scorers_score_data.push_back(newData); (*itsc)->setScoreData(newData); last += numScoresScorer; } } /** The interpolated scorer calls a vector of scorers and combines them with weights **/ void InterpolatedScorer::score(const candidates_t& candidates, const diffs_t& diffs, statscores_t& scores) const { //cout << "*******InterpolatedScorer::score" << endl; size_t scorerNum = 0; for (ScopedVector::const_iterator itsc = m_scorers.begin(); itsc != m_scorers.end(); ++itsc) { //int numScores = (*itsc)->NumberOfScores(); statscores_t tscores; (*itsc)->score(candidates,diffs,tscores); size_t inc = 0; for (statscores_t::iterator itstatsc = tscores.begin(); itstatsc != tscores.end(); ++itstatsc) { //cout << "Scores " << (*itstatsc) << endl; float weight = m_scorer_weights[scorerNum]; if (weight == 0) { stringstream msg; msg << "No weights for scorer" << scorerNum ; throw runtime_error(msg.str()); } if (scorerNum == 0) { scores.push_back(weight * (*itstatsc)); } else { scores[inc] += weight * (*itstatsc); } //cout << "Scorer:" << scorerNum << " scoreNum:" << inc << " score: " << (*itstatsc) << " weight:" << weight << endl; inc++; } scorerNum++; } } void InterpolatedScorer::setReferenceFiles(const vector& referenceFiles) { for (ScopedVector::iterator itsc = m_scorers.begin(); itsc != m_scorers.end(); ++itsc) { (*itsc)->setReferenceFiles(referenceFiles); } } void InterpolatedScorer::prepareStats(size_t sid, const string& text, ScoreStats& entry) { stringstream buff; int i = 0; for (ScopedVector::iterator itsc = m_scorers.begin(); itsc != m_scorers.end(); ++itsc) { ScoreStats tempEntry; (*itsc)->prepareStats(sid, text, tempEntry); if (i > 0) buff << " "; buff << tempEntry; i++; } //cout << " Scores for interpolated: " << buff << endl; string str = buff.str(); entry.set(str); } void InterpolatedScorer::setFactors(const string& factors) { if (factors.empty()) return; vector fsplit; split(factors, ',', fsplit); if (fsplit.size() != m_scorers.size()) throw runtime_error("Number of factor specifications does not equal number of interpolated scorers."); for (size_t i = 0; i < m_scorers.size(); ++i) { m_scorers[i]->setFactors(fsplit[i]); } }