mosesdecoder/moses/Sentence.cpp

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// $Id$
// vim:tabstop=2
/***********************************************************************
Moses - factored phrase-based language decoder
Copyright (C) 2006 University of Edinburgh
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
***********************************************************************/
#include <stdexcept>
#include <boost/algorithm/string.hpp>
#include "Sentence.h"
#include "TranslationOptionCollectionText.h"
#include "StaticData.h"
#include "ChartTranslationOptions.h"
#include "Util.h"
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#include "XmlOption.h"
#include "FactorCollection.h"
using namespace std;
namespace Moses
{
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Sentence::Sentence()
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: Phrase(0)
, InputType()
{
const StaticData& staticData = StaticData::Instance();
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if (staticData.IsChart()) {
m_defaultLabelSet.insert(StaticData::Instance().GetInputDefaultNonTerminal());
}
}
Sentence::~Sentence()
{
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RemoveAllInColl(m_xmlOptions);
}
int Sentence::Read(std::istream& in,const std::vector<FactorType>& factorOrder)
{
const std::string& factorDelimiter = StaticData::Instance().GetFactorDelimiter();
std::string line;
std::map<std::string, std::string> meta;
if (getline(in, line, '\n').eof())
return 0;
//get covered words - if continual-partial-translation is switched on, parse input
const StaticData &staticData = StaticData::Instance();
m_frontSpanCoveredLength = 0;
m_sourceCompleted.resize(0);
if (staticData.ContinuePartialTranslation()) {
string initialTargetPhrase;
string sourceCompletedStr;
int loc1 = line.find( "|||", 0 );
int loc2 = line.find( "|||", loc1 + 3 );
if (loc1 > -1 && loc2 > -1) {
initialTargetPhrase = line.substr(0, loc1);
sourceCompletedStr = line.substr(loc1 + 3, loc2 - loc1 - 3);
line = line.substr(loc2 + 3);
sourceCompletedStr = Trim(sourceCompletedStr);
initialTargetPhrase = Trim(initialTargetPhrase);
m_initialTargetPhrase = initialTargetPhrase;
int len = sourceCompletedStr.size();
m_sourceCompleted.resize(len);
int contiguous = 1;
for (int i = 0; i < len; ++i) {
if (sourceCompletedStr.at(i) == '1') {
m_sourceCompleted[i] = true;
if (contiguous)
m_frontSpanCoveredLength ++;
} else {
m_sourceCompleted[i] = false;
contiguous = 0;
}
}
}
}
// remove extra spaces
line = Trim(line);
// if sentences is specified as "<seg id=1> ... </seg>", extract id
meta = ProcessAndStripSGML(line);
if (meta.find("id") != meta.end()) {
this->SetTranslationId(atol(meta["id"].c_str()));
}
if (meta.find("docid") != meta.end()) {
this->SetDocumentId(atol(meta["docid"].c_str()));
this->SetUseTopicId(false);
this->SetUseTopicIdAndProb(false);
}
if (meta.find("topic") != meta.end()) {
vector<string> topic_params;
boost::split(topic_params, meta["topic"], boost::is_any_of("\t "));
if (topic_params.size() == 1) {
this->SetTopicId(atol(topic_params[0].c_str()));
this->SetUseTopicId(true);
this->SetUseTopicIdAndProb(false);
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} else {
this->SetTopicIdAndProb(topic_params);
this->SetUseTopicId(false);
this->SetUseTopicIdAndProb(true);
}
}
if (meta.find("weight-setting") != meta.end()) {
this->SetWeightSetting(meta["weight-setting"]);
this->SetSpecifiesWeightSetting(true);
staticData.SetWeightSetting(meta["weight-setting"]);
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} else {
this->SetSpecifiesWeightSetting(false);
}
// parse XML markup in translation line
//const StaticData &staticData = StaticData::Instance();
std::vector< size_t > xmlWalls;
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std::vector< std::pair<size_t, std::string> > placeholders;
if (staticData.GetXmlInputType() != XmlPassThrough) {
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int offset = 0;
if (staticData.IsChart()) {
offset = 1;
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}
if (!ProcessAndStripXMLTags(line, m_xmlOptions, m_reorderingConstraint, xmlWalls, placeholders,
offset,
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staticData.GetXmlBrackets().first,
staticData.GetXmlBrackets().second)) {
const string msg("Unable to parse XML in line: " + line);
TRACE_ERR(msg << endl);
throw runtime_error(msg);
}
}
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Phrase::CreateFromString(Input, factorOrder, line, factorDelimiter, NULL);
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// placeholders
ProcessPlaceholders(placeholders);
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if (staticData.IsChart()) {
InitStartEndWord();
}
//now that we have final word positions in phrase (from CreateFromString),
//we can make input phrase objects to go with our XmlOptions and create TranslationOptions
//only fill the vector if we are parsing XML
if (staticData.GetXmlInputType() != XmlPassThrough ) {
for (size_t i=0; i<GetSize(); i++) {
m_xmlCoverageMap.push_back(false);
}
//iterXMLOpts will be empty for XmlIgnore
//look at each column
for(std::vector<XmlOption*>::const_iterator iterXmlOpts = m_xmlOptions.begin();
iterXmlOpts != m_xmlOptions.end(); iterXmlOpts++) {
const XmlOption *xmlOption = *iterXmlOpts;
const WordsRange &range = xmlOption->range;
for(size_t j=range.GetStartPos(); j<=range.GetEndPos(); j++) {
m_xmlCoverageMap[j]=true;
}
}
}
// reordering walls and zones
m_reorderingConstraint.InitializeWalls( GetSize() );
// set reordering walls, if "-monotone-at-punction" is set
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if (staticData.UseReorderingConstraint() && GetSize()>0) {
m_reorderingConstraint.SetMonotoneAtPunctuation( GetSubString( WordsRange(0,GetSize()-1 ) ) );
}
// set walls obtained from xml
for(size_t i=0; i<xmlWalls.size(); i++)
if( xmlWalls[i] < GetSize() ) // no buggy walls, please
m_reorderingConstraint.SetWall( xmlWalls[i], true );
m_reorderingConstraint.FinalizeWalls();
return 1;
}
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void Sentence::ProcessPlaceholders(const std::vector< std::pair<size_t, std::string> > &placeholders)
{
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FactorType placeholderFactor = StaticData::Instance().GetPlaceholderFactor();
if (placeholderFactor == NOT_FOUND) {
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return;
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}
for (size_t i = 0; i < placeholders.size(); ++i) {
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size_t pos = placeholders[i].first;
const string &str = placeholders[i].second;
const Factor *factor = FactorCollection::Instance().AddFactor(str);
Word &word = Phrase::GetWord(pos);
word[placeholderFactor] = factor;
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}
}
TranslationOptionCollection*
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Sentence::CreateTranslationOptionCollection() const
{
size_t maxNoTransOptPerCoverage = StaticData::Instance().GetMaxNoTransOptPerCoverage();
float transOptThreshold = StaticData::Instance().GetTranslationOptionThreshold();
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TranslationOptionCollection *rv= new TranslationOptionCollectionText(*this, maxNoTransOptPerCoverage, transOptThreshold);
assert(rv);
return rv;
}
void Sentence::Print(std::ostream& out) const
{
out<<*static_cast<Phrase const*>(this);
}
bool Sentence::XmlOverlap(size_t startPos, size_t endPos) const
{
for (size_t pos = startPos; pos <= endPos ; pos++) {
if (pos < m_xmlCoverageMap.size() && m_xmlCoverageMap[pos]) {
return true;
}
}
return false;
}
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void Sentence::GetXmlTranslationOptions(std::vector <TranslationOption*> &list) const
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{
for (std::vector<XmlOption*>::const_iterator iterXMLOpts = m_xmlOptions.begin();
iterXMLOpts != m_xmlOptions.end(); ++iterXMLOpts) {
const XmlOption &xmlOption = **iterXMLOpts;
const WordsRange &range = xmlOption.range;
const TargetPhrase &targetPhrase = xmlOption.targetPhrase;
TranslationOption *transOpt = new TranslationOption(range, targetPhrase);
list.push_back(transOpt);
}
}
void Sentence::GetXmlTranslationOptions(std::vector <TranslationOption*> &list, size_t startPos, size_t endPos) const
{
//iterate over XmlOptions list, find exact source/target matches
for (std::vector<XmlOption*>::const_iterator iterXMLOpts = m_xmlOptions.begin();
iterXMLOpts != m_xmlOptions.end(); ++iterXMLOpts) {
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const XmlOption &xmlOption = **iterXMLOpts;
const WordsRange &range = xmlOption.range;
if (startPos == range.GetStartPos()
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&& endPos == range.GetEndPos()) {
const TargetPhrase &targetPhrase = xmlOption.targetPhrase;
TranslationOption *transOpt = new TranslationOption(range, targetPhrase);
list.push_back(transOpt);
}
}
}
std::vector <ChartTranslationOptions*> Sentence::GetXmlChartTranslationOptions() const
{
const StaticData &staticData = StaticData::Instance();
std::vector <ChartTranslationOptions*> ret;
// XML Options
// this code is a copy of the 1 in Sentence.
//only fill the vector if we are parsing XML
if (staticData.GetXmlInputType() != XmlPassThrough ) {
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//TODO: needed to handle exclusive
//for (size_t i=0; i<GetSize(); i++) {
// m_xmlCoverageMap.push_back(false);
//}
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//iterXMLOpts will be empty for XmlIgnore
//look at each column
for(std::vector<XmlOption*>::const_iterator iterXmlOpts = m_xmlOptions.begin();
iterXmlOpts != m_xmlOptions.end(); iterXmlOpts++) {
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const XmlOption &xmlOption = **iterXmlOpts;
TargetPhrase *targetPhrase = new TargetPhrase(xmlOption.targetPhrase);
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WordsRange *range = new WordsRange(xmlOption.range);
const StackVec emptyStackVec; // hmmm... maybe dangerous, but it is never consulted
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TargetPhraseCollection *tpc = new TargetPhraseCollection;
tpc->Add(targetPhrase);
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ChartTranslationOptions *transOpt = new ChartTranslationOptions(*tpc, emptyStackVec, *range, 0.0f);
ret.push_back(transOpt);
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//TODO: needed to handle exclusive
//for(size_t j=transOpt->GetSourceWordsRange().GetStartPos(); j<=transOpt->GetSourceWordsRange().GetEndPos(); j++) {
// m_xmlCoverageMap[j]=true;
//}
}
}
return ret;
}
void Sentence::CreateFromString(const std::vector<FactorType> &factorOrder
, const std::string &phraseString
, const std::string &factorDelimiter)
{
Phrase::CreateFromString(Input, factorOrder, phraseString, factorDelimiter, NULL);
}
}