#ifndef moses_TreeInput_h #define moses_TreeInput_h #include #include "Sentence.h" namespace Moses { //! @todo what is this? class XMLParseOutput { public: std::string m_label; WordsRange m_range; XMLParseOutput(const std::string &label, const WordsRange &range) : m_label(label) , m_range(range) { } }; /** An input to the decoder that represent a parse tree. * Implemented as a sentence with non-terminal labels over certain ranges. * This representation doesn't necessarily have to form a tree, it's up to the user to make sure it does if they really want a tree. * @todo Need to rewrite if you want packed forest, or packed forest over lattice - not sure if can inherit from this */ class TreeInput : public Sentence { friend std::ostream& operator<<(std::ostream&, const TreeInput&); protected: std::vector > m_sourceChart; void AddChartLabel(size_t startPos, size_t endPos, const std::string &label ,const std::vector& factorOrder); void AddChartLabel(size_t startPos, size_t endPos, const Word &label ,const std::vector& factorOrder); NonTerminalSet &GetLabelSet(size_t startPos, size_t endPos) { return m_sourceChart[startPos][endPos - startPos]; } bool ProcessAndStripXMLTags(std::string &line, std::vector &sourceLabels, std::vector &res); public: TreeInput() { } InputTypeEnum GetType() const { return TreeInputType; } //! populate this InputType with data from in stream virtual int Read(std::istream& in,const std::vector& factorOrder); //! Output debugging info to stream out virtual void Print(std::ostream&) const; //! create trans options specific to this InputType virtual TranslationOptionCollection* CreateTranslationOptionCollection() const; virtual const NonTerminalSet &GetLabelSet(size_t startPos, size_t endPos) const { return m_sourceChart[startPos][endPos - startPos]; } }; } #endif