mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-25 04:43:03 +03:00
241 lines
6.3 KiB
C++
241 lines
6.3 KiB
C++
#include "SuffixArray.h"
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#include <string>
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#include <stdlib.h>
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#include <cstring>
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using namespace std;
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namespace tmmt
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{
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SuffixArray::SuffixArray( string fileName )
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{
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m_vcb.StoreIfNew( "<uNk>" );
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m_endOfSentence = m_vcb.StoreIfNew( "<s>" );
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ifstream extractFile;
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// count the number of words first;
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extractFile.open(fileName.c_str());
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istream *fileP = &extractFile;
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m_size = 0;
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size_t sentenceCount = 0;
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string line;
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while(getline(*fileP, line)) {
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vector< WORD_ID > words = m_vcb.Tokenize( line.c_str() );
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m_size += words.size() + 1;
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sentenceCount++;
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}
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extractFile.close();
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cerr << m_size << " words (incl. sentence boundaries)" << endl;
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// allocate memory
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m_array = (WORD_ID*) calloc( sizeof( WORD_ID ), m_size );
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m_index = (INDEX*) calloc( sizeof( INDEX ), m_size );
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m_wordInSentence = (char*) calloc( sizeof( char ), m_size );
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m_sentence = (size_t*) calloc( sizeof( size_t ), m_size );
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m_sentenceLength = (char*) calloc( sizeof( char ), sentenceCount );
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// fill the array
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int wordIndex = 0;
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int sentenceId = 0;
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extractFile.open(fileName.c_str());
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fileP = &extractFile;
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while(getline(*fileP, line)) {
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vector< WORD_ID > words = m_vcb.Tokenize( line.c_str() );
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// add to corpus vector
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corpus.push_back(words);
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// create SA
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vector< WORD_ID >::const_iterator i;
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for( i=words.begin(); i!=words.end(); i++) {
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m_index[ wordIndex ] = wordIndex;
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m_sentence[ wordIndex ] = sentenceId;
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m_wordInSentence[ wordIndex ] = i-words.begin();
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m_array[ wordIndex++ ] = *i;
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}
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m_index[ wordIndex ] = wordIndex;
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m_array[ wordIndex++ ] = m_endOfSentence;
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m_sentenceLength[ sentenceId++ ] = words.size();
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}
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extractFile.close();
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cerr << "done reading " << wordIndex << " words, " << sentenceId << " sentences." << endl;
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// List(0,9);
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// sort
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m_buffer = (INDEX*) calloc( sizeof( INDEX ), m_size );
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Sort( 0, m_size-1 );
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free( m_buffer );
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cerr << "done sorting" << endl;
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}
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// good ol' quick sort
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void SuffixArray::Sort(INDEX start, INDEX end)
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{
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if (start == end) return;
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INDEX mid = (start+end+1)/2;
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Sort( start, mid-1 );
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Sort( mid, end );
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// merge
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size_t i = start;
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size_t j = mid;
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size_t k = 0;
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size_t length = end-start+1;
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while( k<length ) {
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if (i == mid ) {
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m_buffer[ k++ ] = m_index[ j++ ];
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} else if (j > end ) {
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m_buffer[ k++ ] = m_index[ i++ ];
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} else {
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if (CompareIndex( m_index[i], m_index[j] ) < 0) {
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m_buffer[ k++ ] = m_index[ i++ ];
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} else {
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m_buffer[ k++ ] = m_index[ j++ ];
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}
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}
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}
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memcpy( ((char*)m_index) + sizeof( INDEX ) * start,
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((char*)m_buffer), sizeof( INDEX ) * (end-start+1) );
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}
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SuffixArray::~SuffixArray()
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{
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free(m_index);
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free(m_array);
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}
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int SuffixArray::CompareIndex( INDEX a, INDEX b ) const
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{
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// skip over identical words
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INDEX offset = 0;
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while( a+offset < m_size &&
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b+offset < m_size &&
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m_array[ a+offset ] == m_array[ b+offset ] ) {
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offset++;
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}
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if( a+offset == m_size ) return -1;
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if( b+offset == m_size ) return 1;
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return CompareWord( m_array[ a+offset ], m_array[ b+offset ] );
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}
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inline int SuffixArray::CompareWord( WORD_ID a, WORD_ID b ) const
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{
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// cerr << "c(" << m_vcb.GetWord(a) << ":" << m_vcb.GetWord(b) << ")=" << m_vcb.GetWord(a).compare( m_vcb.GetWord(b) ) << endl;
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return m_vcb.GetWord(a).compare( m_vcb.GetWord(b) );
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}
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int SuffixArray::Count( const vector< WORD > &phrase )
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{
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INDEX dummy;
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return LimitedCount( phrase, m_size, dummy, dummy, 0, m_size-1 );
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}
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bool SuffixArray::MinCount( const vector< WORD > &phrase, INDEX min )
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{
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INDEX dummy;
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return LimitedCount( phrase, min, dummy, dummy, 0, m_size-1 ) >= min;
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}
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bool SuffixArray::Exists( const vector< WORD > &phrase )
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{
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INDEX dummy;
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return LimitedCount( phrase, 1, dummy, dummy, 0, m_size-1 ) == 1;
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}
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int SuffixArray::FindMatches( const vector< WORD > &phrase, INDEX &firstMatch, INDEX &lastMatch, INDEX search_start, INDEX search_end )
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{
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return LimitedCount( phrase, m_size, firstMatch, lastMatch, search_start, search_end );
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}
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int SuffixArray::LimitedCount( const vector< WORD > &phrase, INDEX min, INDEX &firstMatch, INDEX &lastMatch, INDEX search_start, INDEX search_end )
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{
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// cerr << "FindFirst\n";
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INDEX start = search_start;
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INDEX end = (search_end == -1) ? (m_size-1) : search_end;
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INDEX mid = FindFirst( phrase, start, end );
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// cerr << "done\n";
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if (mid == m_size) return 0; // no matches
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if (min == 1) return 1; // only existance check
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int matchCount = 1;
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//cerr << "before...\n";
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firstMatch = FindLast( phrase, mid, start, -1 );
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matchCount += mid - firstMatch;
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//cerr << "after...\n";
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lastMatch = FindLast( phrase, mid, end, 1 );
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matchCount += lastMatch - mid;
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return matchCount;
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}
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SuffixArray::INDEX SuffixArray::FindLast( const vector< WORD > &phrase, INDEX start, INDEX end, int direction )
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{
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end += direction;
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while(true) {
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INDEX mid = ( start + end + (direction>0 ? 0 : 1) )/2;
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int match = Match( phrase, mid );
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int matchNext = Match( phrase, mid+direction );
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//cerr << "\t" << start << ";" << mid << ";" << end << " -> " << match << "," << matchNext << endl;
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if (match == 0 && matchNext != 0) return mid;
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if (match == 0) // mid point is a match
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start = mid;
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else
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end = mid;
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}
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}
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SuffixArray::INDEX SuffixArray::FindFirst( const vector< WORD > &phrase, INDEX &start, INDEX &end )
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{
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while(true) {
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INDEX mid = ( start + end + 1 )/2;
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//cerr << "FindFirst(" << start << ";" << mid << ";" << end << ")\n";
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int match = Match( phrase, mid );
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if (match == 0) return mid;
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if (start >= end && match != 0 ) return m_size;
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if (match > 0)
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start = mid+1;
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else
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end = mid-1;
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}
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}
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int SuffixArray::Match( const vector< WORD > &phrase, INDEX index )
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{
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INDEX pos = m_index[ index ];
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for(INDEX i=0; i<phrase.size() && i+pos<m_size; i++) {
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int match = CompareWord( m_vcb.GetWordID( phrase[i] ), m_array[ pos+i ] );
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// cerr << "{" << index << "+" << i << "," << pos+i << ":" << match << "}" << endl;
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if (match != 0)
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return match;
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}
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return 0;
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}
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void SuffixArray::List(INDEX start, INDEX end)
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{
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for(INDEX i=start; i<=end; i++) {
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INDEX pos = m_index[ i ];
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// cerr << i << ":" << pos << "\t";
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for(int j=0; j<5 && j+pos<m_size; j++) {
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//cout << " " << m_vcb.GetWord( m_array[ pos+j ] );
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}
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// cerr << "\n";
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}
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}
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}
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