mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-25 21:03:22 +03:00
649 lines
15 KiB
C++
649 lines
15 KiB
C++
/*
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########################################################################################
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Transliteration Mining - A Program to Extract Transliteration Pairs from
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a bilingual word list
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Source Contributor: Nadir Durrani
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########################################################################################
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*/
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#include <cstdlib>
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#include <map>
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#include <set>
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#include <cmath>
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#include <fstream>
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#include <iostream>
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#include <vector>
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#include <sstream>
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using namespace std;
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double initTransitionProb;
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double LAMBDA;
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double addLogProbs(double A , double B) // this function adds probabilities ...
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{
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if (A == B)
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return (A + log10(2.0));
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if (A > B)
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{
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if (A - B > 6) // A is a lot bigger ...
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return A;
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else
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return (A + log10(1+pow(10,(B-A))));
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}
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else // B > A
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{
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if (B - A > 6)
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return B;
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else
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return (B + log10(1+pow(10,(A-B))));
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}
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}
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class NodeStructure
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{
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public:
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NodeStructure(){};
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NodeStructure(vector <string> & s , vector <string> & t);
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double getPosterior(){return PPR;}
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void computeFwdBckProbs(map <string , double> & gammas, map <string, double> & alignmentCounts);
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void computeNonTransliterationProb (map <string , double> & sourceUnigrams , map <string , double> & targetUnigrams);
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void print();
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vector <string> source;
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vector <string> target;
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~NodeStructure(){};
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private:
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double NTR; // Non-transliteration probability of a sentence pair ...
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double PPR; // Posterior Probability ...
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double ALPHA;
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double BETA;
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void computeGammaForEdges(map < pair <int , int> , double > & parents, map < pair <int , int> , double > & children , map <string, double> & transitionProbs , map <string, double> & alignmentCounts);
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double computeFwdProbs(pair <int , int> & ST, map <string , double> & gammas, map < pair <int , int> , double > & parents);
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double FwdProb (pair <int , int> & TS, map <string , double> & gammas, map < pair <int , int> , double > & parents);
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double BckProb (pair <int , int> & TS, map <string , double> & gammas, map < pair <int , int> , double > & chidren);
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double computeBckProbs(pair <int , int> & ST, map <string , double> & gammas, map < pair <int , int> , double > & children);
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void getIncomingEdges (pair <int , int> & ST , vector < pair < int , int> > & incomingEdges);
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void getOutgoingEdges (pair <int , int> & ST , vector < pair < int , int> > & outgoingEdges);
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double getTransitionProb(map <string, double> & transitionProbs , pair <int,int> & edge);
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void updateAlignmentCount(map <string, double> & transitionProbs, map <string, double> & alignmentCounts , pair <int,int> & edge , double alpha , double beta);
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void computePosteriorProb();
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double scaleGamma(double g);
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void getEdge (pair <int , int> & v1 , pair <int , int> & v2 , pair <int , int> & v3);
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};
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void NodeStructure :: print()
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{
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for (int i = 0; i < source.size(); i++)
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cout<<source[i];
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cout<<"\t";
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for (int i = 0; i < target.size(); i++)
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cout<<target[i];
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cout<<"\t"<<pow(10,PPR)<<endl;
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}
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NodeStructure :: NodeStructure(vector <string> & s , vector <string> & t)
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{
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source = s;
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target = t;
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}
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void NodeStructure :: getEdge (pair <int , int> & v1 , pair <int , int> & v2 , pair <int , int> & v3)
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{
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if (v2.first - v1.first == 0)
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v3.first = -1;
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else
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v3.first = v2.first;
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if (v2.second - v1.second == 0)
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v3.second = -1;
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else
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v3.second = v2.second;
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}
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void NodeStructure :: computeGammaForEdges(map < pair <int , int> , double > & parents, map < pair <int , int> , double > & children , map <string, double> & transitionProbs , map <string, double> & alignmentCounts)
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{
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vector < pair < int , int> > incomingEdges;
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map < pair <int , int> , double > :: iterator cIter;
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map < pair <int , int> , double > :: iterator pIter;
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pair <int , int> ST = make_pair (-1,-1);
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pair <int , int> edge;
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children.erase(ST);
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double tProb;
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double alpha;
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double beta;
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for (cIter = children.begin(); cIter != children.end(); cIter++)
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{
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ST = cIter->first;
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getIncomingEdges (ST , incomingEdges);
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beta = cIter->second;
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for (int i = 0; i< incomingEdges.size(); i++)
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{
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pIter = parents.find(incomingEdges[i]);
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alpha = pIter->second;
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getEdge (incomingEdges[i] , ST , edge);
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updateAlignmentCount(transitionProbs, alignmentCounts , edge , alpha , beta);
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}
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}
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}
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void NodeStructure :: computeNonTransliterationProb (map <string , double> & sourceUnigrams , map <string , double> & targetUnigrams)
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{
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NTR = 0.0;
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for (int i = 0; i < source.size(); i++)
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{
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NTR += sourceUnigrams[source[i]];
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}
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for (int i = 0; i < target.size(); i++)
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{
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NTR += targetUnigrams[target[i]];
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}
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}
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double NodeStructure :: scaleGamma(double g)
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{
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double translit = log10 (1 - pow (10, PPR));
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return g + translit;
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}
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void NodeStructure :: computePosteriorProb()
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{
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double LAMBDA2 = log10(1 - pow(10, LAMBDA));
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double transliterate = LAMBDA2 + ALPHA; // Transliteration Prob ...
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double translate = LAMBDA + NTR; // Translation Prob ...
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double trans = transliterate - translate;
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//cout<<LAMBDA<<" "<<LAMBDA2<<endl;
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//cout<<transliterate<<" "<<translate<<" "<<trans<<endl;
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//cout<<pow(10 , trans)<<endl;
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double prob = 1/(1+ pow(10 , trans));
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PPR = log10(prob);
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//cout<<"Posterior Prob "<<PPR<<endl;
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}
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void NodeStructure :: computeFwdBckProbs(map <string , double> & gammas , map <string, double> & alignmentCounts)
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{
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pair <int , int> START = make_pair (source.size()-1 , target.size()-1);
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pair <int , int> END = make_pair (-1 , -1);
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map < pair <int , int> , double > parents;
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parents[make_pair(-1,-1)] = 0.0;
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map < pair <int , int> , double > children;
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children[make_pair(source.size()-1,target.size()-1)] = 0.0;
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ALPHA = computeFwdProbs(START , gammas, parents);
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BETA = computeBckProbs(END , gammas, children);
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computePosteriorProb();
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//cout<<"Alpha "<<ALPHA<<" Beta "<<BETA<<endl;
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computeGammaForEdges(parents , children , gammas , alignmentCounts);
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}
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void NodeStructure :: getIncomingEdges (pair <int , int> & ST , vector < pair < int , int> > & incomingEdges)
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{
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incomingEdges.clear();
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if (ST.first == -1) // Source is NULL ..
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{
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incomingEdges.push_back(make_pair(ST.first , ST.second-1));
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}
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else if (ST.second == -1) // Target is NULL ...
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{
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incomingEdges.push_back(make_pair(ST.first-1 , ST.second));
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}
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else
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{
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incomingEdges.push_back(make_pair(ST.first , ST.second-1));
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incomingEdges.push_back(make_pair(ST.first-1 , ST.second));
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incomingEdges.push_back(make_pair(ST.first-1 , ST.second-1));
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}
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}
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void NodeStructure :: getOutgoingEdges (pair <int , int> & ST , vector < pair < int , int> > & outgoingEdges)
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{
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if (ST.first == source.size()-1) // Source is END ..
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{
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outgoingEdges.push_back(make_pair(ST.first , ST.second+1));
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}
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else if (ST.second == target.size()-1) // Target is END ...
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{
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outgoingEdges.push_back(make_pair(ST.first+1 , ST.second));
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}
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else
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{
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outgoingEdges.push_back(make_pair(ST.first , ST.second+1));
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outgoingEdges.push_back(make_pair(ST.first+1 , ST.second));
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outgoingEdges.push_back(make_pair(ST.first+1 , ST.second+1));
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}
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}
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void NodeStructure :: updateAlignmentCount(map <string, double> & transitionProbs, map <string, double> & alignmentCounts , pair <int,int> & edge , double alpha , double beta)
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{
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double tProb;
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double tgamma;
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double gamma;
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map <string , double> :: iterator aCounts;
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string query;
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if (edge.first == -1)
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query = "NULL";
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else
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query = source[edge.first];
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query += "-";
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if (edge.second == -1)
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query += "NULL";
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else
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query += target[edge.second];
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//cout<<" Query "<<query<<endl;
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if (transitionProbs.size() == 0)
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tProb = initTransitionProb;
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else
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tProb = transitionProbs[query];
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tgamma = alpha + tProb + beta - ALPHA;
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gamma = scaleGamma(tgamma);
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//cout<<alpha<<" "<<beta<<" "<<gamma<<endl;
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//cout<<tProb<<" "<<ALPHA<<endl;
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aCounts = alignmentCounts.find(query);
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if (aCounts == alignmentCounts.end())
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{
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alignmentCounts[query] = gamma;
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}
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else
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{
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double temp = aCounts->second;
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aCounts->second = addLogProbs(temp , gamma);
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}
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}
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double NodeStructure :: getTransitionProb(map <string, double> & transitionProbs , pair <int,int> & edge)
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{
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if (transitionProbs.size() == 0)
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return initTransitionProb;
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string query;
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if (edge.first == -1)
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query = "NULL";
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else
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query = source[edge.first];
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query += "-";
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if (edge.second == -1)
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query += "NULL";
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else
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query += target[edge.second];
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//cout<<" Query "<<query<<endl;
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return transitionProbs[query];
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}
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double NodeStructure :: FwdProb (pair <int , int> & TS, map <string , double> & gammas, map < pair <int , int> , double > & parents)
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{
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double thisAlpha;
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double alpha = -2000;
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vector < pair < int , int> > incomingEdges;
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pair <int , int> edge;
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getIncomingEdges (TS , incomingEdges);
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for (int k = 0; k < incomingEdges.size(); k++)
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{
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thisAlpha = parents[incomingEdges[k]];
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getEdge (incomingEdges[k], TS , edge);
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thisAlpha += getTransitionProb(gammas , edge); // Get Transition Prob ...
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double temp = alpha;
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alpha = addLogProbs(temp , thisAlpha); // Sum of all parents * transition prob ..
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// cout<<temp<<"+"<<thisAlpha<<"="<<alpha<<endl;
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}
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return alpha;
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}
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double NodeStructure :: computeFwdProbs(pair <int , int> & ST, map <string , double> & gammas, map < pair <int , int> , double > & parents)
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{
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pair <int , int> TS;
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double alpha;
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for (int i = 0; i < source.size(); i++)
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{
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TS = make_pair (i , -1);
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alpha = FwdProb (TS, gammas, parents);
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parents[TS] = alpha;
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}
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for (int i = 0; i < target.size(); i++)
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{
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TS = make_pair (-1 , i);
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alpha = FwdProb (TS, gammas, parents);
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parents[TS] = alpha;
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}
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for (int i = 0; i < source.size(); i++)
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{
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for (int j = 0; j < target.size(); j++)
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{
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TS = make_pair (i , j);
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alpha = FwdProb (TS, gammas, parents);
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parents[TS] = alpha;
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}
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}
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return parents[ST];
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}
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double NodeStructure :: BckProb (pair <int , int> & TS, map <string , double> & gammas, map < pair <int , int> , double > & children)
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{
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double thisBeta;
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double beta = -2000;
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vector < pair < int , int> > outgoingEdges;
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pair <int , int> edge;
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getOutgoingEdges (TS , outgoingEdges);
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for (int k = 0; k < outgoingEdges.size(); k++)
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{
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thisBeta = children[outgoingEdges[k]];
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getEdge (TS , outgoingEdges[k], edge);
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thisBeta += getTransitionProb(gammas , edge); // Get Transition Prob ...
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double temp = beta;
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beta = addLogProbs(temp , thisBeta); // Sum of all parents * transition prob ..
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// cout<<temp<<"+"<<thisAlpha<<"="<<alpha<<endl;
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}
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return beta;
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}
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double NodeStructure :: computeBckProbs(pair <int , int> & ST, map <string , double> & gammas, map < pair <int , int> , double > & children)
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{
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pair <int , int> TS;
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double beta;
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for (int i = source.size()-2; i >= -1; i--)
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{
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TS = make_pair (i , target.size()-1);
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beta = BckProb (TS, gammas, children);
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children[TS] = beta;
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}
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for (int i = target.size()-2; i >=-1; i--)
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{
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TS = make_pair (source.size()-1 , i);
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beta = BckProb (TS, gammas, children);
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children[TS] = beta;
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}
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for (int i = source.size()-2 ; i >= -1 ; i--)
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{
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for (int j = target.size()-2 ; j >= -1; j--)
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{
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TS = make_pair (i , j);
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beta = BckProb (TS, gammas, children);
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children[TS] = beta;
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}
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}
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return children[ST];
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}
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void loadInput(const char * fileName, vector <string> & input)
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{
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/* This function loads a file into a vector of strings */
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ifstream sr (fileName);
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string line;
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if(sr.is_open())
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{
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while(getline(sr , line ))
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{
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input.push_back(line);
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}
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sr.close();
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}
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else
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{
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cout<<"Unable to read "<<fileName<<endl;
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exit(1);
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}
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}
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void printGammas(map <string, double> & alignmentCounts)
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{
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map <string , double> :: iterator aCounts;
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for (aCounts = alignmentCounts.begin(); aCounts != alignmentCounts.end(); aCounts++)
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{
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cout<<aCounts->first<<" "<<aCounts->second<<endl;
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}
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}
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void getWords(string s, vector <string> & currInput)
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{
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/* This function splits a string into vector of strings using space character as a delimiter */
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istringstream iss(s);
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currInput.clear();
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do
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{
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string sub;
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iss >> sub;
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currInput.push_back(sub);
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} while (iss);
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currInput.pop_back();
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}
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double getInitTransitionProb(int sourceToken, int targetToken)
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{
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double prod = sourceToken * targetToken;
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return log10(1/prod);
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}
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void runIteration(map <int , NodeStructure> & graph , map <string , double> & gammas , int size)
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{
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map <string, double> alignmentCounts;
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map <int , NodeStructure> :: iterator i;
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map <string , double> :: iterator aCounts;
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double sum = -2000.0;
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double tPPR = -2000.0;
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for (i = graph.begin(); i != graph.end(); i++)
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{
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i->second.computeFwdBckProbs(gammas , alignmentCounts);
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double temp = tPPR;
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tPPR = addLogProbs(graph[i->first].getPosterior() , temp);
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}
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for (aCounts = alignmentCounts.begin(); aCounts != alignmentCounts.end(); aCounts++)
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{
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double temp = sum;
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sum = addLogProbs(aCounts->second, temp);
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}
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for (aCounts = alignmentCounts.begin(); aCounts != alignmentCounts.end(); aCounts++) // Normalizing ...
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{
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aCounts->second = aCounts->second - sum;
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}
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gammas.clear();
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gammas = alignmentCounts;
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LAMBDA = tPPR - log10(size);
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}
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void setNTRProbabilities(map <int , NodeStructure> & graph , map <string , double> & sourceTypes , map <string , double > & targetTypes, double sourceTokens, double targetTokens)
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{
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map <string , double> :: iterator i;
|
|
map <int , NodeStructure> :: iterator j;
|
|
|
|
|
|
for (i = sourceTypes.begin(); i!= sourceTypes.end(); i++)
|
|
{
|
|
i->second = log10(i->second/sourceTokens);
|
|
}
|
|
|
|
for (i = targetTypes.begin(); i!= targetTypes.end(); i++)
|
|
{
|
|
i->second = log10(i->second/targetTokens);
|
|
}
|
|
|
|
|
|
for (j = graph.begin(); j != graph.end(); j++)
|
|
{
|
|
j->second.computeNonTransliterationProb(sourceTypes , targetTypes);
|
|
}
|
|
|
|
}
|
|
|
|
void printPosterior(map <int , NodeStructure> & graph)
|
|
{
|
|
|
|
map <int , NodeStructure> :: iterator i;
|
|
|
|
for (i = graph.begin(); i != graph.end(); i++)
|
|
graph[i->first].print();
|
|
}
|
|
|
|
|
|
int main(int argc, char * argv[])
|
|
{
|
|
|
|
vector <string> input;
|
|
vector <string> source;
|
|
vector <string> target;
|
|
map <string , double> sourceTypes;
|
|
map <string , double> targetTypes;
|
|
set < vector <string> > tgt;
|
|
set < vector <string> > src;
|
|
double sourceTokens = 0;
|
|
double targetTokens = 0;
|
|
map <int , NodeStructure> graph;
|
|
map <string , double> gammas;
|
|
|
|
loadInput(argv[1],input);
|
|
|
|
cerr<<"Constructing Graph "<<endl;
|
|
|
|
for(int i=0; i<input.size(); i+=2)
|
|
{
|
|
|
|
//cerr<<input[i]<<endl;
|
|
//cerr<<input[i+1]<<endl;
|
|
|
|
|
|
getWords(input[i],source);
|
|
getWords(input[i+1],target);
|
|
|
|
if (src.find(source) == src.end())
|
|
{
|
|
for (int j = 0; j< source.size(); j++)
|
|
sourceTypes[source[j]]++;
|
|
src.insert(source);
|
|
sourceTokens += source.size();
|
|
}
|
|
|
|
if (tgt.find(target) == tgt.end())
|
|
{
|
|
for (int j = 0; j< target.size(); j++)
|
|
targetTypes[target[j]]++;
|
|
|
|
tgt.insert(target);
|
|
targetTokens += target.size();
|
|
}
|
|
|
|
NodeStructure obj (source,target);
|
|
graph[i] = obj;
|
|
|
|
}
|
|
|
|
setNTRProbabilities(graph, sourceTypes, targetTypes, sourceTokens, targetTokens);
|
|
initTransitionProb = getInitTransitionProb(sourceTypes.size()+1, targetTypes.size()+1);
|
|
|
|
LAMBDA = log10(0.5);
|
|
|
|
|
|
for (int i = 0; i< 10; i++)
|
|
{
|
|
|
|
cerr<<"Computing Probs : iteration "<<i+1<<endl;
|
|
runIteration(graph , gammas , input.size()/2);
|
|
|
|
}
|
|
|
|
printPosterior(graph);
|
|
cerr<<"Finished..."<<endl;
|
|
|
|
return 0;
|
|
}
|
|
|