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157 lines
4.9 KiB
C++
157 lines
4.9 KiB
C++
#ifndef moses_FeatureFunction_h
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#define moses_FeatureFunction_h
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#include <vector>
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#include "ScoreProducer.h"
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namespace Moses
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{
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class TargetPhrase;
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class TranslationOption;
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class Hypothesis;
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class ChartHypothesis;
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class FFState;
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class InputType;
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class ScoreComponentCollection;
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class WordsBitmap;
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class WordsRange;
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/**
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* Contains all that a feature function can access without affecting recombination.
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* For stateless features, this is all that it can access. Currently this is not
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* used for stateful features, as it would need to be retro-fitted to the LM feature.
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* TODO: Expose source segmentation,lattice path.
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* XXX Don't add anything to the context that would break recombination XXX
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**/
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class PhraseBasedFeatureContext
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{
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// The context either has a hypothesis (during search), or a TranslationOption and
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// source sentence (during pre-calculation).
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const Hypothesis* m_hypothesis;
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const TranslationOption& m_translationOption;
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const InputType& m_source;
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public:
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PhraseBasedFeatureContext(const Hypothesis* hypothesis);
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PhraseBasedFeatureContext(const TranslationOption& translationOption,
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const InputType& source);
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const TranslationOption& GetTranslationOption() const;
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const InputType& GetSource() const;
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const TargetPhrase& GetTargetPhrase() const; //convenience method
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const WordsBitmap& GetWordsBitmap() const;
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};
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/**
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* Same as PhraseBasedFeatureContext, but for chart-based Moses.
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**/
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class ChartBasedFeatureContext
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{
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//The context either has a hypothesis (during search) or a
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//TargetPhrase and source sentence (during pre-calculation)
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//TODO: should the context also include some info on where the TargetPhrase
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//is anchored (assuming it's lexicalised), which is available at pre-calc?
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const ChartHypothesis* m_hypothesis;
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const TargetPhrase& m_targetPhrase;
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const InputType& m_source;
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public:
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ChartBasedFeatureContext(const ChartHypothesis* hypothesis);
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ChartBasedFeatureContext(const TargetPhrase& targetPhrase,
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const InputType& source);
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const InputType& GetSource() const;
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const TargetPhrase& GetTargetPhrase() const;
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};
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/** base class for all feature functions.
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* @todo is this for pb & hiero too?
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* @todo what's the diff between FeatureFunction and ScoreProducer?
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*/
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class FeatureFunction: public ScoreProducer
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{
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public:
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FeatureFunction(const std::string& description, size_t numScoreComponents) :
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ScoreProducer(description, numScoreComponents) {}
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virtual bool IsStateless() const = 0;
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virtual ~FeatureFunction();
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float GetSparseProducerWeight() const { return 1; }
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};
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/** base class for all stateless feature functions.
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* eg. phrase table, word penalty, phrase penalty
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*/
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class StatelessFeatureFunction: public FeatureFunction
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{
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public:
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StatelessFeatureFunction(const std::string& description, size_t numScoreComponents) :
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FeatureFunction(description, numScoreComponents) {}
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/**
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* This should be implemented for features that apply to phrase-based models.
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**/
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virtual void Evaluate(const PhraseBasedFeatureContext& context,
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ScoreComponentCollection* accumulator) const = 0;
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/**
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* Same for chart-based features.
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**/
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virtual void EvaluateChart(const ChartBasedFeatureContext& context,
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ScoreComponentCollection* accumulator) const = 0;
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//If true, then the feature is evaluated before search begins, and stored in
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//the TranslationOptionCollection.
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virtual bool ComputeValueInTranslationOption() const;
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//!If true, the feature is stored in the ttable, so gets copied into the
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//TargetPhrase and does not need cached in the TranslationOption
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virtual bool ComputeValueInTranslationTable() const {return false;}
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bool IsStateless() const;
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};
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/** base class for all stateful feature functions.
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* eg. LM, distortion penalty
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*/
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class StatefulFeatureFunction: public FeatureFunction
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{
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public:
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StatefulFeatureFunction(const std::string& description, size_t numScoreComponents) :
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FeatureFunction(description,numScoreComponents) {}
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/**
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* \brief This interface should be implemented.
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* Notes: When evaluating the value of this feature function, you should avoid
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* calling hypo.GetPrevHypo(). If you need something from the "previous"
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* hypothesis, you should store it in an FFState object which will be passed
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* in as prev_state. If you don't do this, you will get in trouble.
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*/
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virtual FFState* Evaluate(
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const Hypothesis& cur_hypo,
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const FFState* prev_state,
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ScoreComponentCollection* accumulator) const = 0;
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virtual FFState* EvaluateChart(
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const ChartHypothesis& /* cur_hypo */,
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int /* featureID - used to index the state in the previous hypotheses */,
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ScoreComponentCollection* accumulator) const = 0;
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//! return the state associated with the empty hypothesis for a given sentence
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virtual const FFState* EmptyHypothesisState(const InputType &input) const = 0;
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bool IsStateless() const;
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};
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}
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#endif
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