#include "MergeScorer.h" #include #include #include "ScoreStats.h" #include "TerScorer.h" #include "BleuScorer.h" #include "PerScorer.h" #include "CderScorer.h" #include "TER/tercalc.h" #include "TER/terAlignment.h" using namespace TERCpp; MergeScorer::MergeScorer(const string& config) : StatisticsBasedScorer("MERGE",config), kLENGTH(4) {} MergeScorer::~MergeScorer() {} void MergeScorer::setReferenceFiles(const vector& referenceFiles) { throw runtime_error("MERGE Scorer can be used only in mert execution"); exit(0); } void MergeScorer::prepareStats(size_t sid, const string& text, ScoreStats& entry) { throw runtime_error("MergeScorer::prepareStats : MERGE Scorer can be used only in mert execution"); exit(0); } /* float MergeScorer::calculateScore(const vector& comps) { throw runtime_error("MergeScorer::calculateScore : MERGE Scorer can be used only in mert execution"); exit(0); } */ float MergeScorer::calculateScore(const std::vector< int >& comps) const { float result = 0.0; vector vecLine; vector vecScorerType; vector weightsModifier; int pos = 0; int weightIncrement = 0; string initfile = "merge.init"; string line; ifstream opt(initfile.c_str()); float denom = 0.0; if (opt.fail()) { cerr<<"MergeScorer::calculateScore : could not open initfile: " << initfile << endl; exit(3); } while (getline (opt, line)) { vector vecLine=stringToVector(line, " "); if (vecLine.size() != 4) { cerr<<"MergeScorer::calculateScore : Error in initfile: " << initfile << endl; exit(4); } vecScorerType.push_back(vecLine.at(0)); weightsModifier.push_back(atof(vecLine.at(1).c_str())); denom += abs(atof(vecLine.at(1).c_str())); } const int weights_modifier_size = static_cast(weightsModifier.size()); for (weightIncrement = 0; weightIncrement < weights_modifier_size; weightIncrement++) { if (vecScorerType.at(weightIncrement).compare("BLEU") == 0) { BleuScorer* scorer01 = new BleuScorer(""); const float weight = weightsModifier.at(weightIncrement) / denom; vecLine.clear(); const int num_scores = static_cast(scorer01->NumberOfScores()); vecLine = subVector(comps, pos, pos + num_scores); pos += num_scores; result += weight * scorer01->calculateScore(vecLine);; delete scorer01; } else if (vecScorerType.at(weightIncrement).compare("TER") == 0) { TerScorer* scorer02 = new TerScorer(""); const float weight = weightsModifier.at(weightIncrement) / denom; vecLine.clear(); const int num_scores = static_cast(scorer02->NumberOfScores()); vecLine = subVector(comps, pos, pos + num_scores); pos += num_scores; result += weight * scorer02->calculateScore(vecLine); delete scorer02; } else if (vecScorerType.at(weightIncrement).compare("PER") == 0) { PerScorer* scorer03 = new PerScorer(""); const float weight = weightsModifier.at(weightIncrement) / denom; vecLine.clear(); const int num_scores = static_cast(scorer03->NumberOfScores()); vecLine = subVector(comps, pos, pos + num_scores); pos += num_scores; result += weight * scorer03->calculateScore(vecLine); delete scorer03; } else if (vecScorerType.at(weightIncrement).compare("CER") == 0) { CderScorer* scorer04 = new CderScorer(""); const float weight = weightsModifier.at(weightIncrement) / denom; vecLine.clear(); const int num_scores = static_cast(scorer04->NumberOfScores()); vecLine = subVector(comps, pos, pos + num_scores); pos += num_scores; result += weight * scorer04->calculateScore(vecLine); delete scorer04; } else { throw runtime_error("MergeScorer::calculateScore : Scorer unknown"); exit(0); } } return result; }