mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-25 21:03:22 +03:00
246 lines
8.0 KiB
C++
246 lines
8.0 KiB
C++
#include <cassert>
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#include "PermutationScorer.h"
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using namespace std;
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namespace MosesTuning
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{
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const int PermutationScorer::SCORE_PRECISION = 5;
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const int PermutationScorer::SCORE_MULTFACT = 100000; // 100000=10^SCORE_PRECISION
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PermutationScorer::PermutationScorer(const string &distanceMetric, const string &config)
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:StatisticsBasedScorer(distanceMetric,config)
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{
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//configure regularisation
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static string KEY_REFCHOICE = "refchoice";
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static string REFCHOICE_AVERAGE = "average";
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static string REFCHOICE_CLOSEST = "closest";
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string refchoice = getConfig(KEY_REFCHOICE,REFCHOICE_CLOSEST);
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if (refchoice == REFCHOICE_AVERAGE) {
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m_refChoiceStrategy = REFERENCE_CHOICE_AVERAGE;
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} else if (refchoice == REFCHOICE_CLOSEST) {
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m_refChoiceStrategy = REFERENCE_CHOICE_CLOSEST;
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} else {
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throw runtime_error("Unknown reference choice strategy: " + refchoice);
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}
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cerr << "Using reference choice strategy: " << refchoice << endl;
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if (distanceMetric.compare("HAMMING") == 0) {
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m_distanceMetric = HAMMING_DISTANCE;
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} else if (distanceMetric.compare("KENDALL") == 0) {
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m_distanceMetric = KENDALL_DISTANCE;
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}
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cerr << "Using permutation distance metric: " << distanceMetric << endl;
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//Get reference alignments from scconfig refalign option
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static string KEY_ALIGNMENT_FILES = "refalign";
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string refalign = getConfig(KEY_ALIGNMENT_FILES,"");
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//cout << refalign << endl;
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if (refalign.length() > 0) {
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string substring;
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while (!refalign.empty()) {
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getNextPound(refalign, substring, "+");
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m_referenceAlignments.push_back(substring);
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}
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}
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//Get length of source sentences read in from scconfig source option
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// this is essential for extractor but unneccesary for mert executable
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static string KEY_SOURCE_FILE = "source";
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string sourceFile = getConfig(KEY_SOURCE_FILE,"");
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if (sourceFile.length() > 0) {
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cerr << "Loading source sentence lengths from " << sourceFile << endl;
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ifstream sourcein(sourceFile.c_str());
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if (!sourcein) {
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throw runtime_error("Unable to open: " + sourceFile);
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}
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string line;
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while (getline(sourcein,line)) {
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size_t wordNumber = 0;
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string word;
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while(!line.empty()) {
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getNextPound(line, word, " ");
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wordNumber++;
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}
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m_sourceLengths.push_back(wordNumber);
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}
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sourcein.close();
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}
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}
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void PermutationScorer::setReferenceFiles(const vector<string>& referenceFiles)
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{
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cout << "*******setReferenceFiles" << endl;
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//make sure reference data is clear
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m_referencePerms.clear();
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vector< vector< int> > targetLengths;
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//Just getting target length from reference text file
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for (size_t i = 0; i < referenceFiles.size(); ++i) {
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vector <int> lengths;
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cout << "Loading reference from " << referenceFiles[i] << endl;
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ifstream refin(referenceFiles[i].c_str());
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if (!refin) {
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cerr << "Unable to open: " << referenceFiles[i] << endl;
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throw runtime_error("Unable to open alignment file");
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}
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string line;
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while (getline(refin,line)) {
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int count = getNumberWords(line);
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lengths.push_back(count);
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}
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targetLengths.push_back(lengths);
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}
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//load reference data
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//NOTE ignoring normal reference file, only using previously saved alignment reference files
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for (size_t i = 0; i < m_referenceAlignments.size(); ++i) {
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vector<Permutation> referencePerms;
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cout << "Loading reference from " << m_referenceAlignments[i] << endl;
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ifstream refin(m_referenceAlignments[i].c_str());
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if (!refin) {
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cerr << "Unable to open: " << m_referenceAlignments[i] << endl;
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throw runtime_error("Unable to open alignment file");
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}
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string line;
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size_t sid = 0; //sentence counter
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while (getline(refin,line)) {
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//cout << line << endl;
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//Line needs to be of the format: 0-0 1-1 1-2 etc source-target
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Permutation perm(line, m_sourceLengths[sid],targetLengths[i][sid]);
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//perm.dump();
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referencePerms.push_back(perm);
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//check the source sentence length is the same for previous file
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if (perm.getLength() != m_sourceLengths[sid]) {
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cerr << "Permutation Length: " << perm.getLength() << endl;
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cerr << "Source length: " << m_sourceLengths[sid] << " for sid " << sid << endl;
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throw runtime_error("Source sentence lengths not the same: ");
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}
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sid++;
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}
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m_referencePerms.push_back(referencePerms);
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}
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}
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int PermutationScorer::getNumberWords (const string& text) const
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{
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int count = 0;
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string line = trimStr(text);
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if (line.length()>0) {
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int pos = line.find(" ");
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while (pos!=int(string::npos)) {
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count++;
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pos = line.find(" ",pos+1);
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}
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count++;
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}
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return count;
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}
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void PermutationScorer::prepareStats(size_t sid, const string& text, ScoreStats& entry)
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{
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//bool debug= (verboselevel()>3); // TODO: fix verboselevel()
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bool debug=false;
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if (debug) {
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cout << "*******prepareStats" ;
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cout << text << endl;
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cout << sid << endl;
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cout << "Reference0align:" << endl;
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m_referencePerms[0][sid].dump();
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}
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string sentence = "";
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string align = text;
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size_t alignmentData = text.find("|||");
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//Get sentence and alignment parts
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if(alignmentData != string::npos) {
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getNextPound(align,sentence, "|||");
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} else {
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align = text;
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}
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int translationLength = getNumberWords(sentence);
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//A vector of Permutations for each sentence
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vector< vector<Permutation> > nBestPerms;
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float distanceValue;
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//need to create permutations for each nbest line
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//here we check if the alignments extracted from the nbest are phrase-based or word-based, in which case no conversion is needed
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bool isWordAlignment=true;
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string alignCopy = align;
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string align1;
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getNextPound(alignCopy,align1," ");
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if (align1.length() > 0) {
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size_t phraseDelimeter = align1.find("=");
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if(phraseDelimeter!= string::npos)
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isWordAlignment=false;
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}
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string standardFormat = align;
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if(!isWordAlignment)
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standardFormat= Permutation::convertMosesToStandard(align);
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if (debug) {
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cerr << "Nbest alignment: " << align << endl;
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cerr << "-->std alignment: " << standardFormat << endl;
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}
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Permutation perm(standardFormat, m_sourceLengths[sid],translationLength);
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//perm.dump();
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if (m_refChoiceStrategy == REFERENCE_CHOICE_AVERAGE) {
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float total = 0;
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for (size_t i = 0; i < m_referencePerms.size(); ++i) {
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float dist = perm.distance(m_referencePerms[i][sid], m_distanceMetric);
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total += dist;
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//cout << "Ref number: " << i << " distance: " << dist << endl;
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}
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float mean = (float)total/m_referencePerms.size();
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//cout << "MultRef strategy AVERAGE: total " << total << " mean " << mean << " number " << m_referencePerms.size() << endl;
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distanceValue = mean;
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} else if (m_refChoiceStrategy == REFERENCE_CHOICE_CLOSEST) {
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float max_val = 0;
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for (size_t i = 0; i < m_referencePerms.size(); ++i) {
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//look for the closest reference
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float value = perm.distance(m_referencePerms[i][sid], m_distanceMetric);
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//cout << "Ref number: " << i << " distance: " << value << endl;
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if (value > max_val) {
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max_val = value;
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}
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}
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distanceValue = max_val;
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//cout << "MultRef strategy CLOSEST: max_val " << distanceValue << endl;
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} else {
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throw runtime_error("Unsupported reflength strategy");
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}
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//SCOREROUT eg: 0.04546
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distanceValue*=SCORE_MULTFACT; //SCOREROUT eg: 4546 to transform float into integer
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ostringstream tempStream;
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tempStream.precision(0); // decimal precision not needed as score was multiplied per SCORE_MULTFACT
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tempStream << std::fixed << distanceValue << " 1"; //use for final normalization over the amount of test sentences
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string str = tempStream.str();
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entry.set(str);
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//cout << distanceValue << "=" << distanceValue << " (str:" << tempStream.str() << ")" << endl;
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}
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//Will just be final score
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statscore_t PermutationScorer::calculateScore(const vector<ScoreStatsType>& comps) const
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{
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//cerr << "*******PermutationScorer::calculateScore" ;
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//cerr << " " << comps[0]/comps[1] << endl;
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return (((statscore_t) comps[0]) / comps[1]) / SCORE_MULTFACT;
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}
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}
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