mosesdecoder/biconcor/PhrasePairCollection.cpp
Jeroen Vermeulen 6fa57a1dac Modernize "C" includes in biconcor.
This is one of those little chores in managing a long-lived C++
project: standard C headers like stdio.h and math.h now have their own
place in the C++ standard as resp. cstdio, cmath, and so on.  In this
branch the #include names are updated for the biconcor/ subdirectory.

C++11 adds cstdint, but to support compilation with the previous
standard, that change is left for later.
2015-03-28 21:00:30 +07:00

210 lines
8.5 KiB
C++

#include "PhrasePairCollection.h"
#include <cstdlib>
#include <cstring>
#include <algorithm>
#include "Vocabulary.h"
#include "SuffixArray.h"
#include "TargetCorpus.h"
#include "Alignment.h"
#include "PhrasePair.h"
#include "Mismatch.h"
using namespace std;
PhrasePairCollection::PhrasePairCollection( SuffixArray *sa, TargetCorpus *tc, Alignment *a, int max_translation, int max_example )
:m_suffixArray(sa)
,m_targetCorpus(tc)
,m_alignment(a)
,m_size(0)
,m_max_lookup(10000) // maximum number of source occurrences sampled
,m_max_translation(max_translation) // max number of different distinct translations returned
,m_max_example(max_example) // max number of examples returned for each distinct translation
{}
PhrasePairCollection::~PhrasePairCollection()
{}
int PhrasePairCollection::GetCollection( const vector< string >& sourceString )
{
INDEX first_match, last_match;
if (! m_suffixArray->FindMatches( sourceString, first_match, last_match )) {
return 0;
}
//cerr << "\tfirst match " << first_match << endl;
//cerr << "\tlast match " << last_match << endl;
INDEX found = last_match - first_match +1;
map< vector< WORD_ID >, INDEX > index;
int real_count = 0;
for( INDEX i=first_match; i<=last_match; i++ ) {
int position = m_suffixArray->GetPosition( i );
int source_start = m_suffixArray->GetWordInSentence( position );
int source_end = source_start + sourceString.size()-1;
INDEX sentence_id = m_suffixArray->GetSentence( position );
int sentence_length = m_suffixArray->GetSentenceLength( sentence_id );
int target_length = m_targetCorpus->GetSentenceLength( sentence_id );
//cerr << "match " << (i-first_match)
//<< " in sentence " << sentence_id
//<< ", starting at word " << source_start
//<< " of " << sentence_length
//<< ". target sentence has " << target_length << " words.";
int target_start, target_end, pre_null, post_null;
if (m_alignment->PhraseAlignment( sentence_id, target_length, source_start, source_end, target_start, target_end, pre_null, post_null)) {
//cerr << " aligned to [" << (int)target_start << "," << (int)target_end << "]";
//cerr << " +(" << (int)pre_null << "," << (int)post_null << ")";
bool null_boundary_words = false;
for (int pre = 0; pre <= pre_null && (pre == 0 || null_boundary_words); pre++ ) {
for (int post = 0; post <= post_null && (post == 0 || null_boundary_words); post++ ) {
vector< WORD_ID > targetString;
//cerr << "; ";
for (int target = target_start - pre; target <= target_end + post; target++) {
targetString.push_back( m_targetCorpus->GetWordId( sentence_id, target) );
//cerr << m_targetCorpus->GetWord( sentence_id, target) << " ";
}
PhrasePair *phrasePair = new PhrasePair( m_suffixArray, m_targetCorpus, m_alignment, sentence_id, target_length, position, source_start, source_end, target_start-pre, target_end+post, pre, post, pre_null-pre, post_null-post);
// matchCollection.Add( sentence_id, )
if (index.find( targetString ) == index.end()) {
index[targetString] = m_collection.size();
vector< PhrasePair* > emptyVector;
m_collection.push_back( emptyVector );
}
m_collection[ index[targetString] ].push_back( phrasePair );
m_size++;
}
}
} else {
//cerr << "mismatch " << (i-first_match)
// << " in sentence " << sentence_id
// << ", starting at word " << source_start
// << " of " << sentence_length
// << ". target sentence has " << target_length << " words.";
Mismatch *mismatch = new Mismatch( m_suffixArray, m_targetCorpus, m_alignment, sentence_id, position, sentence_length, target_length, source_start, source_end );
if (mismatch->Unaligned())
m_unaligned.push_back( mismatch );
else
m_mismatch.push_back( mismatch );
}
//cerr << endl;
if (found > (INDEX)m_max_lookup) {
i += found/m_max_lookup-1;
}
real_count++;
}
sort(m_collection.begin(), m_collection.end(), CompareBySize());
return real_count;
}
void PhrasePairCollection::Print(bool pretty) const
{
vector< vector<PhrasePair*> >::const_iterator ppWithSameTarget;
int i=0;
for( ppWithSameTarget = m_collection.begin(); ppWithSameTarget != m_collection.end() && i<m_max_translation; i++, ppWithSameTarget++ ) {
(*(ppWithSameTarget->begin()))->PrintTarget( &cout );
int count = ppWithSameTarget->size();
cout << "(" << count << ")" << endl;
vector< PhrasePair* >::const_iterator p = ppWithSameTarget->begin();
for(int j=0; j<ppWithSameTarget->size() && j<m_max_example; j++, p++ ) {
if (pretty) {
(*p)->PrintPretty( &cout, 100 );
} else {
(*p)->Print( &cout );
}
if (ppWithSameTarget->size() > m_max_example) {
p += ppWithSameTarget->size()/m_max_example-1;
}
}
}
}
void PhrasePairCollection::PrintHTML() const
{
int pp_target = 0;
bool singleton = false;
// loop over all translations
vector< vector<PhrasePair*> >::const_iterator ppWithSameTarget;
for( ppWithSameTarget = m_collection.begin(); ppWithSameTarget != m_collection.end() && pp_target<m_max_translation; ppWithSameTarget++, pp_target++ ) {
int count = ppWithSameTarget->size();
if (!singleton) {
if (count == 1) {
singleton = true;
cout << "<p class=\"pp_singleton_header\">singleton"
<< (m_collection.end() - ppWithSameTarget==1?"":"s") << " ("
<< (m_collection.end() - ppWithSameTarget)
<< "/" << m_size << ")</p>";
} else {
cout << "<p class=\"pp_target_header\">";
(*(ppWithSameTarget->begin()))->PrintTarget( &cout );
cout << " (" << count << "/" << m_size << ")" << endl;
cout << "<p><div id=\"pp_" << pp_target << "\">";
}
cout << "<table align=\"center\">";
}
vector< PhrasePair* >::const_iterator p;
// loop over all sentences where translation occurs
int pp=0;
int i=0;
for(p = ppWithSameTarget->begin(); i<10 && pp<count && p != ppWithSameTarget->end(); p++, pp++, i++ ) {
(*p)->PrintClippedHTML( &cout, 160 );
if (count > m_max_example) {
p += count/m_max_example-1;
pp += count/m_max_example-1;
}
}
if (i == 10 && pp < count) {
// extended table
cout << "<tr><td colspan=7 align=center class=\"pp_more\" onclick=\"javascript:document.getElementById('pp_" << pp_target << "').style.display = 'none'; document.getElementById('pp_ext_" << pp_target << "').style.display = 'block';\">(more)</td></tr></table></div>";
cout << "<div id=\"pp_ext_" << pp_target << "\" style=\"display:none;\";\">";
cout << "<table align=\"center\">";
for(i=0, pp=0, p = ppWithSameTarget->begin(); i<m_max_example && pp<count && p != ppWithSameTarget->end(); p++, pp++, i++ ) {
(*p)->PrintClippedHTML( &cout, 160 );
if (count > m_max_example) {
p += count/m_max_example-1;
pp += count/m_max_example-1;
}
}
}
if (!singleton) cout << "</table></div>\n";
if (!singleton && pp_target == 9) {
cout << "<div id=\"pp_toggle\" onclick=\"javascript:document.getElementById('pp_toggle').style.display = 'none'; document.getElementById('pp_additional').style.display = 'block';\">";
cout << "<p class=\"pp_target_header\">(more)</p></div>";
cout << "<div id=\"pp_additional\" style=\"display:none;\";\">";
}
}
if (singleton) cout << "</table></div>\n";
else if (pp_target > 9) cout << "</div>";
size_t max_mismatch = m_max_example/3;
// unaligned phrases
if (m_unaligned.size() > 0) {
cout << "<p class=\"pp_singleton_header\">unaligned"
<< " (" << (m_unaligned.size()) << ")</p>";
cout << "<table align=\"center\">";
int step_size = 1;
if (m_unaligned.size() > max_mismatch)
step_size = (m_unaligned.size()+max_mismatch-1) / max_mismatch;
for(size_t i=0; i<m_unaligned.size(); i+=step_size)
m_unaligned[i]->PrintClippedHTML( &cout, 160 );
cout << "</table>";
}
// mismatched phrases
if (m_mismatch.size() > 0) {
cout << "<p class=\"pp_singleton_header\">mismatched"
<< " (" << (m_mismatch.size()) << ")</p>";
cout << "<table align=\"center\">";
int step_size = 1;
if (m_mismatch.size() > max_mismatch)
step_size = (m_mismatch.size()+max_mismatch-1) / max_mismatch;
for(size_t i=0; i<m_mismatch.size(); i+=step_size)
m_mismatch[i]->PrintClippedHTML( &cout, 160 );
cout << "</table>";
}
}