mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-25 21:03:22 +03:00
218 lines
5.9 KiB
C++
218 lines
5.9 KiB
C++
#include <iostream>
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#include <fstream>
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#include <cassert>
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#include <vector>
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#include "extract-lex.h"
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#include "InputFileStream.h"
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using namespace std;
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using namespace MosesTraining;
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float COUNT_INCR = 1;
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void fix(std::ostream& stream)
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{
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stream.setf(std::ios::fixed);
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stream.precision(7);
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}
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int main(int argc, char* argv[])
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{
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cerr << "Starting...\n";
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assert(argc == 6);
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char* &filePathTarget = argv[1];
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char* &filePathSource = argv[2];
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char* &filePathAlign = argv[3];
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char* &filePathLexS2T = argv[4];
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char* &filePathLexT2S = argv[5];
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Moses::InputFileStream streamTarget(filePathTarget);
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Moses::InputFileStream streamSource(filePathSource);
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Moses::InputFileStream streamAlign(filePathAlign);
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ofstream streamLexS2T;
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ofstream streamLexT2S;
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streamLexS2T.open(filePathLexS2T);
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streamLexT2S.open(filePathLexT2S);
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fix(streamLexS2T);
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fix(streamLexT2S);
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ExtractLex extractSingleton;
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size_t lineCount = 0;
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string lineTarget, lineSource, lineAlign;
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while (getline(streamTarget, lineTarget)) {
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if (lineCount % 10000 == 0)
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cerr << lineCount << " ";
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istream &isSource = getline(streamSource, lineSource);
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assert(isSource);
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istream &isAlign = getline(streamAlign, lineAlign);
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assert(isAlign);
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vector<string> toksTarget, toksSource, toksAlign;
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Tokenize(toksTarget, lineTarget);
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Tokenize(toksSource, lineSource);
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Tokenize(toksAlign, lineAlign);
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/*
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cerr << endl
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<< toksTarget.size() << " " << lineTarget << endl
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<< toksSource.size() << " " << lineSource << endl
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<< toksAlign.size() << " " << lineAlign << endl;
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*/
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extractSingleton.Process(toksTarget, toksSource, toksAlign, lineCount);
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++lineCount;
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}
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extractSingleton.Output(streamLexS2T, streamLexT2S);
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streamTarget.Close();
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streamSource.Close();
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streamAlign.Close();
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streamLexS2T.close();
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streamLexT2S.close();
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cerr << "\nFinished\n";
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}
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namespace MosesTraining
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{
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const std::string *Vocab::GetOrAdd(const std::string &word)
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{
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const string *ret = &(*m_coll.insert(word).first);
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return ret;
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}
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void ExtractLex::Process(vector<string> &toksTarget, vector<string> &toksSource, vector<string> &toksAlign, size_t lineCount)
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{
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std::vector<bool> m_sourceAligned(toksSource.size(), false)
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, m_targetAligned(toksTarget.size(), false);
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vector<string>::const_iterator iterAlign;
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for (iterAlign = toksAlign.begin(); iterAlign != toksAlign.end(); ++iterAlign) {
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const string &alignTok = *iterAlign;
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vector<size_t> alignPos;
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Tokenize(alignPos, alignTok, "-");
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assert(alignPos.size() == 2);
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if (alignPos[0] >= toksSource.size()) {
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cerr << "ERROR: alignment over source length. Alignment " << alignPos[0] << " at line " << lineCount << endl;
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continue;
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}
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if (alignPos[1] >= toksTarget.size()) {
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cerr << "ERROR: alignment over target length. Alignment " << alignPos[1] << " at line " << lineCount << endl;
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continue;
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}
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assert(alignPos[0] < toksSource.size());
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assert(alignPos[1] < toksTarget.size());
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m_sourceAligned[ alignPos[0] ] = true;
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m_targetAligned[ alignPos[1] ] = true;
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const string &tmpSource = toksSource[ alignPos[0] ];
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const string &tmpTarget = toksTarget[ alignPos[1] ];
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const string *source = m_vocab.GetOrAdd(tmpSource);
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const string *target = m_vocab.GetOrAdd(tmpTarget);
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Process(target, source);
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}
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ProcessUnaligned(toksTarget, toksSource, m_sourceAligned, m_targetAligned);
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}
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void ExtractLex::Process(const std::string *target, const std::string *source)
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{
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WordCount &wcS2T = m_collS2T[source];
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WordCount &wcT2S = m_collT2S[target];
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wcS2T.AddCount(COUNT_INCR);
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wcT2S.AddCount(COUNT_INCR);
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Process(wcS2T, target);
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Process(wcT2S, source);
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}
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void ExtractLex::Process(WordCount &wcIn, const std::string *out)
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{
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std::map<const std::string*, WordCount> &collOut = wcIn.GetColl();
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WordCount &wcOut = collOut[out];
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wcOut.AddCount(COUNT_INCR);
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}
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void ExtractLex::ProcessUnaligned(vector<string> &toksTarget, vector<string> &toksSource
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, const std::vector<bool> &m_sourceAligned, const std::vector<bool> &m_targetAligned)
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{
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const string *nullWord = m_vocab.GetOrAdd("NULL");
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for (size_t pos = 0; pos < m_sourceAligned.size(); ++pos) {
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bool isAlignedCurr = m_sourceAligned[pos];
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if (!isAlignedCurr) {
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const string &tmpWord = toksSource[pos];
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const string *sourceWord = m_vocab.GetOrAdd(tmpWord);
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Process(nullWord, sourceWord);
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}
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}
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for (size_t pos = 0; pos < m_targetAligned.size(); ++pos) {
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bool isAlignedCurr = m_targetAligned[pos];
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if (!isAlignedCurr) {
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const string &tmpWord = toksTarget[pos];
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const string *targetWord = m_vocab.GetOrAdd(tmpWord);
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Process(targetWord, nullWord);
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}
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}
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}
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void ExtractLex::Output(std::ofstream &streamLexS2T, std::ofstream &streamLexT2S)
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{
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Output(m_collS2T, streamLexS2T);
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Output(m_collT2S, streamLexT2S);
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}
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void ExtractLex::Output(const std::map<const std::string*, WordCount> &coll, std::ofstream &outStream)
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{
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std::map<const std::string*, WordCount>::const_iterator iterOuter;
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for (iterOuter = coll.begin(); iterOuter != coll.end(); ++iterOuter) {
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const string &inStr = *iterOuter->first;
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const WordCount &inWC = iterOuter->second;
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const std::map<const std::string*, WordCount> &outColl = inWC.GetColl();
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std::map<const std::string*, WordCount>::const_iterator iterInner;
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for (iterInner = outColl.begin(); iterInner != outColl.end(); ++iterInner) {
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const string &outStr = *iterInner->first;
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const WordCount &outWC = iterInner->second;
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float prob = outWC.GetCount() / inWC.GetCount();
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outStream << outStr << " " << inStr << " " << prob << endl;
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}
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}
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}
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std::ostream& operator<<(std::ostream &out, const WordCount &obj)
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{
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out << "(" << obj.GetCount() << ")";
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return out;
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}
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void WordCount::AddCount(float incr)
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{
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m_count += incr;
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}
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} // namespace
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