mosesdecoder/moses/LexicalReordering.h
2013-02-21 20:03:35 +00:00

69 lines
1.8 KiB
C++

#ifndef moses_LexicalReordering_h
#define moses_LexicalReordering_h
#include <string>
#include <vector>
#include "Factor.h"
#include "Phrase.h"
#include "TypeDef.h"
#include "Util.h"
#include "WordsRange.h"
#include "FeatureFunction.h"
#include "LexicalReorderingState.h"
#include "LexicalReorderingTable.h"
namespace Moses
{
class Factor;
class Phrase;
class Hypothesis;
class InputType;
/** implementation of lexical reordering (Tilman ...) for phrase-based decoding
*/
class LexicalReordering : public StatefulFeatureFunction {
public:
LexicalReordering(const std::string &line);
virtual ~LexicalReordering();
virtual FFState* Evaluate(const Hypothesis& cur_hypo,
const FFState* prev_state,
ScoreComponentCollection* accumulator) const;
virtual const FFState* EmptyHypothesisState(const InputType &input) const;
void InitializeForInput(const InputType& i){
m_table->InitializeForInput(i);
}
Scores GetProb(const Phrase& f, const Phrase& e) const;
virtual FFState* EvaluateChart(const ChartHypothesis&,
int /* featureID */,
ScoreComponentCollection*) const {
CHECK(0); // not valid for chart decoder
return NULL;
}
private:
bool DecodeCondition(std::string s);
bool DecodeDirection(std::string s);
bool DecodeNumFeatureFunctions(std::string s);
LexicalReorderingConfiguration *m_configuration;
std::string m_modelTypeString;
std::vector<std::string> m_modelType;
LexicalReorderingTable* m_table;
//std::vector<Direction> m_direction;
std::vector<LexicalReorderingConfiguration::Condition> m_condition;
//std::vector<size_t> m_scoreOffset;
//bool m_oneScorePerDirection;
std::vector<FactorType> m_factorsE, m_factorsF;
};
}
#endif