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249c40ec74
Phrase.CreateFromString() and Sentence.CreateFromString(), as it was never used in those functions anyway --- Word.CreateFromString() retrieves the factor delimiter from StaticData directly.
432 lines
12 KiB
C++
432 lines
12 KiB
C++
// $Id$
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// vim:tabstop=2
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/***********************************************************************
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Moses - factored phrase-based language decoder
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Copyright (C) 2006 University of Edinburgh
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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***********************************************************************/
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#include <algorithm>
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#include <sstream>
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#include <string>
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#include "memory.h"
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#include "FactorCollection.h"
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#include "Phrase.h"
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#include "StaticData.h" // GetMaxNumFactors
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#include "util/string_piece.hh"
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#include "util/tokenize_piece.hh"
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using namespace std;
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namespace Moses
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{
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Phrase::Phrase() {}
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Phrase::Phrase(size_t reserveSize)
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{
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m_words.reserve(reserveSize);
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}
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Phrase::Phrase(const vector< const Word* > &mergeWords)
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{
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m_words.reserve(mergeWords.size());
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for (size_t currPos = 0 ; currPos < mergeWords.size() ; currPos++) {
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AddWord(*mergeWords[currPos]);
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}
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}
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Phrase::~Phrase()
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{
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}
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void Phrase::MergeFactors(const Phrase ©)
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{
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UTIL_THROW_IF2(GetSize() != copy.GetSize(), "Both phrases need to be the same size to merge");
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size_t size = GetSize();
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const size_t maxNumFactors = MAX_NUM_FACTORS;
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for (size_t currPos = 0 ; currPos < size ; currPos++) {
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for (unsigned int currFactor = 0 ; currFactor < maxNumFactors ; currFactor++) {
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FactorType factorType = static_cast<FactorType>(currFactor);
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const Factor *factor = copy.GetFactor(currPos, factorType);
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if (factor != NULL)
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SetFactor(currPos, factorType, factor);
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}
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}
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}
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void Phrase::MergeFactors(const Phrase ©, FactorType factorType)
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{
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UTIL_THROW_IF2(GetSize() != copy.GetSize(), "Both phrases need to be the same size to merge");
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for (size_t currPos = 0 ; currPos < GetSize() ; currPos++)
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SetFactor(currPos, factorType, copy.GetFactor(currPos, factorType));
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}
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void Phrase::MergeFactors(const Phrase ©, const std::vector<FactorType>& factorVec)
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{
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UTIL_THROW_IF2(GetSize() != copy.GetSize(), "Both phrases need to be the same size to merge");
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for (size_t currPos = 0 ; currPos < GetSize() ; currPos++)
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for (std::vector<FactorType>::const_iterator i = factorVec.begin();
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i != factorVec.end(); ++i) {
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SetFactor(currPos, *i, copy.GetFactor(currPos, *i));
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}
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}
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Phrase Phrase::GetSubString(const WordsRange &wordsRange) const
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{
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Phrase retPhrase(wordsRange.GetNumWordsCovered());
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for (size_t currPos = wordsRange.GetStartPos() ; currPos <= wordsRange.GetEndPos() ; currPos++) {
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Word &word = retPhrase.AddWord();
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word = GetWord(currPos);
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}
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return retPhrase;
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}
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Phrase Phrase::GetSubString(const WordsRange &wordsRange, FactorType factorType) const
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{
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Phrase retPhrase(wordsRange.GetNumWordsCovered());
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for (size_t currPos = wordsRange.GetStartPos() ; currPos <= wordsRange.GetEndPos() ; currPos++) {
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const Factor* f = GetFactor(currPos, factorType);
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Word &word = retPhrase.AddWord();
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word.SetFactor(factorType, f);
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}
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return retPhrase;
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}
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std::string Phrase::GetStringRep(const vector<FactorType> factorsToPrint) const
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{
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bool markUnknown = StaticData::Instance().GetMarkUnknown();
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stringstream strme;
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for (size_t pos = 0 ; pos < GetSize() ; pos++) {
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if(markUnknown && GetWord(pos).IsOOV()) {
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strme << "UNK";
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}
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strme << GetWord(pos).GetString(factorsToPrint, (pos != GetSize()-1));
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}
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return strme.str();
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}
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Word &Phrase::AddWord()
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{
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m_words.push_back(Word());
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return m_words.back();
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}
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void Phrase::Append(const Phrase &endPhrase)
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{
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for (size_t i = 0; i < endPhrase.GetSize(); i++) {
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AddWord(endPhrase.GetWord(i));
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}
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}
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void Phrase::PrependWord(const Word &newWord)
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{
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AddWord();
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// shift
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for (size_t pos = GetSize() - 1; pos >= 1; --pos) {
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const Word &word = m_words[pos - 1];
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m_words[pos] = word;
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}
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m_words[0] = newWord;
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}
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void Phrase::CreateFromString(FactorDirection direction
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,const std::vector<FactorType> &factorOrder
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,const StringPiece &phraseString
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// ,const StringPiece &factorDelimiter // eliminated [UG]
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,Word **lhs)
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{
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// parse
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vector<StringPiece> annotatedWordVector;
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for (util::TokenIter<util::AnyCharacter, true> it(phraseString, "\t "); it; ++it) {
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annotatedWordVector.push_back(*it);
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}
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if (annotatedWordVector.size() == 0) {
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if (lhs) {
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(*lhs) = NULL;
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}
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return;
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}
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// KOMMA|none ART|Def.Z NN|Neut.NotGen.Sg VVFIN|none
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// to
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// "KOMMA|none" "ART|Def.Z" "NN|Neut.NotGen.Sg" "VVFIN|none"
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size_t numWords;
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const StringPiece &annotatedWord = annotatedWordVector.back();
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if (annotatedWord.size() >= 2
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&& *annotatedWord.data() == '['
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&& annotatedWord.data()[annotatedWord.size() - 1] == ']') {
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// hiero/syntax rule
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numWords = annotatedWordVector.size()-1;
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// lhs
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assert(lhs);
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(*lhs) = new Word(true);
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(*lhs)->CreateFromString(direction, factorOrder, annotatedWord.substr(1, annotatedWord.size() - 2), true);
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assert((*lhs)->IsNonTerminal());
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} else {
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numWords = annotatedWordVector.size();
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if (lhs) {
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(*lhs) = NULL;
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}
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}
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// parse each word
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m_words.reserve(numWords);
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for (size_t phrasePos = 0 ; phrasePos < numWords; phrasePos++) {
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StringPiece &annotatedWord = annotatedWordVector[phrasePos];
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bool isNonTerminal;
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if (annotatedWord.size() >= 2 && *annotatedWord.data() == '[' && annotatedWord.data()[annotatedWord.size() - 1] == ']') {
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// non-term
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isNonTerminal = true;
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size_t nextPos = annotatedWord.find('[', 1);
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UTIL_THROW_IF2(nextPos == string::npos,
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"Incorrect formatting of non-terminal. Should have 2 non-terms, eg. [X][X]. "
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<< "Current string: " << annotatedWord);
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if (direction == Input)
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annotatedWord = annotatedWord.substr(1, nextPos - 2);
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else
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annotatedWord = annotatedWord.substr(nextPos + 1, annotatedWord.size() - nextPos - 2);
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} else {
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isNonTerminal = false;
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}
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Word &word = AddWord();
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word.CreateFromString(direction, factorOrder, annotatedWord, isNonTerminal);
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}
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}
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int Phrase::Compare(const Phrase &other) const
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{
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#ifdef min
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#undef min
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#endif
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size_t thisSize = GetSize()
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,compareSize = other.GetSize();
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if (thisSize != compareSize) {
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return (thisSize < compareSize) ? -1 : 1;
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}
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for (size_t pos = 0 ; pos < thisSize ; pos++) {
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const Word &thisWord = GetWord(pos)
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,&otherWord = other.GetWord(pos);
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int ret = Word::Compare(thisWord, otherWord);
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if (ret != 0)
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return ret;
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}
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return 0;
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}
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bool Phrase::Contains(const vector< vector<string> > &subPhraseVector
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, const vector<FactorType> &inputFactor) const
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{
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const size_t subSize = subPhraseVector.size()
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,thisSize= GetSize();
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if (subSize > thisSize)
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return false;
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// try to match word-for-word
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for (size_t currStartPos = 0 ; currStartPos < (thisSize - subSize + 1) ; currStartPos++) {
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bool match = true;
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for (size_t currFactorIndex = 0 ; currFactorIndex < inputFactor.size() ; currFactorIndex++) {
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FactorType factorType = inputFactor[currFactorIndex];
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for (size_t currSubPos = 0 ; currSubPos < subSize ; currSubPos++) {
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size_t currThisPos = currSubPos + currStartPos;
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const string &subStr = subPhraseVector[currSubPos][currFactorIndex];
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StringPiece thisStr = GetFactor(currThisPos, factorType)->GetString();
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if (subStr != thisStr) {
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match = false;
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break;
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}
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}
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if (!match)
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break;
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}
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if (match)
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return true;
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}
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return false;
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}
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bool Phrase::IsCompatible(const Phrase &inputPhrase) const
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{
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if (inputPhrase.GetSize() != GetSize()) {
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return false;
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}
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const size_t size = GetSize();
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const size_t maxNumFactors = MAX_NUM_FACTORS;
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for (size_t currPos = 0 ; currPos < size ; currPos++) {
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for (unsigned int currFactor = 0 ; currFactor < maxNumFactors ; currFactor++) {
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FactorType factorType = static_cast<FactorType>(currFactor);
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const Factor *thisFactor = GetFactor(currPos, factorType)
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,*inputFactor = inputPhrase.GetFactor(currPos, factorType);
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if (thisFactor != NULL && inputFactor != NULL && thisFactor != inputFactor)
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return false;
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}
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}
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return true;
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}
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bool Phrase::IsCompatible(const Phrase &inputPhrase, FactorType factorType) const
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{
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if (inputPhrase.GetSize() != GetSize()) {
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return false;
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}
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for (size_t currPos = 0 ; currPos < GetSize() ; currPos++) {
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if (GetFactor(currPos, factorType) != inputPhrase.GetFactor(currPos, factorType))
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return false;
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}
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return true;
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}
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bool Phrase::IsCompatible(const Phrase &inputPhrase, const std::vector<FactorType>& factorVec) const
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{
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if (inputPhrase.GetSize() != GetSize()) {
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return false;
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}
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for (size_t currPos = 0 ; currPos < GetSize() ; currPos++) {
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for (std::vector<FactorType>::const_iterator i = factorVec.begin();
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i != factorVec.end(); ++i) {
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if (GetFactor(currPos, *i) != inputPhrase.GetFactor(currPos, *i))
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return false;
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}
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}
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return true;
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}
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size_t Phrase::GetNumTerminals() const
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{
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size_t ret = 0;
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for (size_t pos = 0; pos < GetSize(); ++pos) {
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if (!GetWord(pos).IsNonTerminal())
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ret++;
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}
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return ret;
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}
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void Phrase::InitializeMemPool()
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{
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}
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void Phrase::FinalizeMemPool()
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{
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}
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void Phrase::OnlyTheseFactors(const FactorMask &factors)
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{
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for (unsigned int currFactor = 0 ; currFactor < MAX_NUM_FACTORS ; currFactor++) {
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if (!factors[currFactor]) {
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for (size_t pos = 0; pos < GetSize(); ++pos) {
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SetFactor(pos, currFactor, NULL);
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}
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}
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}
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}
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void Phrase::InitStartEndWord()
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{
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FactorCollection &factorCollection = FactorCollection::Instance();
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Word startWord(Input);
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const Factor *factor = factorCollection.AddFactor(Input, 0, BOS_); // TODO - non-factored
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startWord.SetFactor(0, factor);
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PrependWord(startWord);
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Word endWord(Input);
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factor = factorCollection.AddFactor(Input, 0, EOS_); // TODO - non-factored
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endWord.SetFactor(0, factor);
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AddWord(endWord);
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}
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size_t Phrase::Find(const Phrase &sought, int maxUnknown) const
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{
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if (GetSize() < sought.GetSize()) {
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// sought phrase too big
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return NOT_FOUND;
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}
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size_t maxStartPos = GetSize() - sought.GetSize();
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for (size_t startThisPos = 0; startThisPos <= maxStartPos; ++startThisPos) {
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size_t thisPos = startThisPos;
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int currUnknowns = 0;
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size_t soughtPos;
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for (soughtPos = 0; soughtPos < sought.GetSize(); ++soughtPos) {
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const Word &soughtWord = sought.GetWord(soughtPos);
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const Word &thisWord = GetWord(thisPos);
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if (soughtWord == thisWord) {
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++thisPos;
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} else if (soughtWord.IsOOV() && (maxUnknown < 0 || currUnknowns < maxUnknown)) {
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// the output has an OOV word. Allow a certain number of OOVs
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++currUnknowns;
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++thisPos;
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} else {
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break;
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}
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}
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if (soughtPos == sought.GetSize()) {
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return startThisPos;
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}
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}
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return NOT_FOUND;
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}
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TO_STRING_BODY(Phrase);
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// friend
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ostream& operator<<(ostream& out, const Phrase& phrase)
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{
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// out << "(size " << phrase.GetSize() << ") ";
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for (size_t pos = 0 ; pos < phrase.GetSize() ; pos++) {
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const Word &word = phrase.GetWord(pos);
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out << word;
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}
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return out;
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}
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}
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