mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-29 15:04:05 +03:00
223 lines
6.1 KiB
C++
223 lines
6.1 KiB
C++
#include "Alignment.h"
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#include <fstream>
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#include <string>
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#include <stdlib.h>
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#include <cstring>
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namespace
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{
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const int LINE_MAX_LENGTH = 10000;
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} // namespace
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using namespace std;
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void Alignment::Create(const string& fileName)
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{
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ifstream textFile;
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char line[LINE_MAX_LENGTH];
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// count the number of words first;
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textFile.open(fileName.c_str());
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if (!textFile) {
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cerr << "No such file or directory: " << fileName << endl;
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exit(1);
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}
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istream *fileP = &textFile;
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m_size = 0;
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m_sentenceCount = 0;
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while(!fileP->eof()) {
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SAFE_GETLINE((*fileP), line, LINE_MAX_LENGTH, '\n');
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if (fileP->eof()) break;
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vector<string> alignmentSequence = Tokenize( line );
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m_size += alignmentSequence.size();
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m_sentenceCount++;
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}
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textFile.close();
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cerr << m_size << " alignment points" << endl;
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// allocate memory
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m_array = (int*) calloc( sizeof(int), m_size*2 );
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m_sentenceEnd = (INDEX*) calloc( sizeof( INDEX ), m_sentenceCount );
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if (m_array == NULL) {
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cerr << "Error: cannot allocate memory to m_array" << endl;
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exit(1);
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}
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if (m_sentenceEnd == NULL) {
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cerr << "Error: cannot allocate memory to m_sentenceEnd" << endl;
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exit(1);
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}
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// fill the array
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int alignmentPointIndex = 0;
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int sentenceId = 0;
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textFile.open(fileName.c_str());
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if (!textFile) {
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cerr << "Failed to open " << fileName << endl;
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exit(1);
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}
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fileP = &textFile;
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while(!fileP->eof()) {
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SAFE_GETLINE((*fileP), line, LINE_MAX_LENGTH, '\n');
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if (fileP->eof()) break;
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vector<string> alignmentSequence = Tokenize( line );
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for(size_t i=0; i<alignmentSequence.size(); i++) {
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int s,t;
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// cout << "scaning " << alignmentSequence[i].c_str() << endl;
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if (! sscanf(alignmentSequence[i].c_str(), "%d-%d", &s, &t)) {
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cerr << "WARNING: " << alignmentSequence[i] << " is a bad alignment point in sentence " << sentenceId << endl;
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}
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m_array[alignmentPointIndex++] = (char) s;
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m_array[alignmentPointIndex++] = (char) t;
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}
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m_sentenceEnd[ sentenceId++ ] = alignmentPointIndex - 2;
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}
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textFile.close();
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cerr << "done reading " << (alignmentPointIndex/2) << " alignment points, " << sentenceId << " sentences." << endl;
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}
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Alignment::Alignment()
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: m_array(NULL),
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m_sentenceEnd(NULL),
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m_size(0),
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m_sentenceCount(0) {}
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Alignment::~Alignment()
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{
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if (m_array != NULL) {
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free(m_array);
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}
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if (m_sentenceEnd != NULL) {
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free(m_sentenceEnd);
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}
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}
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vector<string> Alignment::Tokenize( const char input[] )
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{
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vector< string > token;
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bool betweenWords = true;
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int start=0;
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int i=0;
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for(; input[i] != '\0'; i++) {
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bool isSpace = (input[i] == ' ' || input[i] == '\t');
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if (!isSpace && betweenWords) {
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start = i;
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betweenWords = false;
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} else if (isSpace && !betweenWords) {
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token.push_back( string( input+start, i-start ) );
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betweenWords = true;
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}
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}
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if (!betweenWords)
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token.push_back( string( input+start, i-start ) );
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return token;
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}
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bool Alignment::PhraseAlignment( INDEX sentence, int target_length,
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int source_start, int source_end,
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int &target_start, int &target_end,
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int &pre_null, int &post_null )
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{
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// get index for first alignment point
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INDEX sentenceStart = 0;
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if (sentence > 0) {
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sentenceStart = m_sentenceEnd[ sentence-1 ] + 2;
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}
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// get target phrase boundaries
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target_start = target_length;
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target_end = 0;
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for(INDEX ap = sentenceStart; ap <= m_sentenceEnd[ sentence ]; ap += 2 ) {
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int source = m_array[ ap ];
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if (source >= source_start && source <= source_end ) {
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int target = m_array[ ap+1 ];
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if (target < target_start) target_start = target;
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if (target > target_end ) target_end = target;
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}
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}
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if (target_start == target_length) {
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return false; // done if no alignment points
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}
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// check consistency
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for(INDEX ap = sentenceStart; ap <= m_sentenceEnd[ sentence ]; ap += 2 ) {
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int target = m_array[ ap+1 ];
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if (target >= target_start && target <= target_end ) {
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int source = m_array[ ap ];
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if (source < source_start || source > source_end) {
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return false; // alignment point out of range
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}
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}
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}
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// create array for unaligned words
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for( int i=0; i<target_length; i++ ) {
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m_unaligned[i] = true;
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}
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for(INDEX ap = sentenceStart; ap <= m_sentenceEnd[ sentence ]; ap += 2 ) {
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int target = m_array[ ap+1 ];
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m_unaligned[ target ] = false;
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}
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// prior unaligned words
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pre_null = 0;
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for(int target = target_start-1; target >= 0 && m_unaligned[ target ]; target--) {
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pre_null++;
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}
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// post unaligned words;
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post_null = 0;
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for(int target = target_end+1; target < target_length && m_unaligned[ target ]; target++) {
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post_null++;
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}
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return true;
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}
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void Alignment::Save(const string& fileName ) const
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{
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FILE *pFile = fopen ( (fileName + ".align").c_str() , "w" );
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if (pFile == NULL) {
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cerr << "Cannot open " << fileName << ".align" << endl;
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exit(1);
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}
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fwrite( &m_size, sizeof(INDEX), 1, pFile );
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fwrite( m_array, sizeof(int), m_size*2, pFile ); // corpus
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fwrite( &m_sentenceCount, sizeof(INDEX), 1, pFile );
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fwrite( m_sentenceEnd, sizeof(INDEX), m_sentenceCount, pFile); // sentence index
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fclose( pFile );
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}
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void Alignment::Load(const string& fileName )
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{
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FILE *pFile = fopen ( (fileName + ".align").c_str() , "r" );
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if (pFile == NULL) {
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cerr << "no such file or directory: " << fileName << ".align" << endl;
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exit(1);
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}
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cerr << "loading from " << fileName << ".align" << endl;
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fread( &m_size, sizeof(INDEX), 1, pFile );
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cerr << "alignment points in corpus: " << m_size << endl;
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m_array = (int*) calloc( sizeof(int), m_size*2 );
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fread( m_array, sizeof(int), m_size*2, pFile ); // corpus
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fread( &m_sentenceCount, sizeof(INDEX), 1, pFile );
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cerr << "sentences in corpus: " << m_sentenceCount << endl;
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m_sentenceEnd = (INDEX*) calloc( sizeof(INDEX), m_sentenceCount );
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fread( m_sentenceEnd, sizeof(INDEX), m_sentenceCount, pFile); // sentence index
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fclose( pFile );
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cerr << "done loading\n";
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}
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