MorfeuszInternal.hpp
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/*
* File: Morfeusz.hpp
* Author: mlenart
*
* Created on November 13, 2013, 5:21 PM
*/
#ifndef MORFEUSZ_HPP
#define MORFEUSZ_HPP
#include <string>
#include <list>
#include <vector>
#include <map>
#include <set>
#include "morfeusz2.h"
#include "fsa/fsa.hpp"
#include "InterpsGroup.hpp"
#include "case/CaseConverter.hpp"
#include "charset/CharsetConverter.hpp"
#include "charset/TextReader.hpp"
#include "InterpretedChunk.hpp"
#include "InflexionGraph.hpp"
#include "MorfeuszOptions.hpp"
#include "const.hpp"
#include "exceptions.hpp"
#include "Environment.hpp"
#include "segrules/segrules.hpp"
#include "segrules/SegrulesFSA.hpp"
#include "deserialization/InterpsGroupsReader.hpp"
#include "deserialization/MorphDeserializer.hpp"
namespace morfeusz {
class MorfeuszInternal;
class MorphInterpretation;
class ResultsIterator;
typedef State<InterpsGroupsReader> StateType;
/**
* Performs morphological analysis (analyze methods) and syntesis (generate methods).
*
* It is NOT thread-safe
* but it is possible to use separate Morfeusz instance for each concurrent thread.
*/
class MorfeuszInternal: public Morfeusz {
public:
/**
* Create new instance of Morfeusz class.
*/
MorfeuszInternal();
/**
* Set a file used for morphological analysis.
*
* @param filename
*/
void setAnalyzerDictionary(const std::string& filename);
/**
* Set a file used for morphological synthesis.
*
* @param filename
*/
void setGeneratorDictionary(const std::string& filename);
/**
* Destroys Morfeusz object.
*/
virtual ~MorfeuszInternal();
/**
* Analyze given text and return the results as iterator.
*
* @param text - text for morphological analysis
* @return - iterator over morphological analysis results
*/
ResultsIterator analyze(const std::string& text) const;
/**
* Perform morphological analysis on a given text and put results in a vector.
*
* @param text - text to be analyzed
* @param result - results vector
*/
void analyze(const std::string& text, std::vector<MorphInterpretation>& result) const;
/**
* Perform morphological synthesis on a given lemma and return the results as iterator.
*
* @param text - text for morphological analysis
* @return - iterator over morphological analysis results
*/
ResultsIterator generate(const std::string& lemma) const;
/**
* Perform morphological synthesis on a given lemma and return the results as iterator.
* Limit results to interpretations with the specified tag.
*
* @param text - text for morphological analysis
* @param tag - tag of result interpretations
* @return - iterator over morphological analysis results
*/
ResultsIterator generate(const std::string& lemma, int tagnum) const;
/**
* Perform morphological synthesis on a given lemma and put results in a vector.
*
* @param lemma - lemma to be analyzed
* @param result - results vector
*/
void generate(const std::string& lemma, std::vector<MorphInterpretation>& result) const;
/**
* Perform morphological synthesis on a given lemma and put results in a vector.
* Limit results to interpretations with the specified tag.
*
* @param lemma - lemma to be analyzed
* @param tag - tag of result interpretations
* @param result - results vector
*/
void generate(const std::string& lemma, int tagnum, std::vector<MorphInterpretation>& result) const;
/**
* Set encoding for input and output string objects.
*
* @param encoding
*/
void setCharset(Charset encoding);
/**
* Set aggl segmentation option value.
*
* @param aggl
*/
void setAggl(const std::string& aggl);
/**
* Set praet segmentation option value.
*
* @param praet
*/
void setPraet(const std::string& praet);
/**
* If set to true characters case in analyzed text must match
* the case in the recognized forms from dictionary.
*
* @param caseSensitive
*/
void setCaseHandling(CaseHandling caseHandling);
void setTokenNumbering(TokenNumbering tokenNumbering);
/**
* Set debug option value.
*
* @param debug
*/
void setDebug(bool debug);
friend class ResultsIterator;
private:
void processOneWord(
const Environment& env,
TextReader& reader,
int startNodeNum,
std::vector<MorphInterpretation>& result,
bool insideIgnHandler=false) const;
void doProcessOneWord(
const Environment& env,
TextReader& reader,
const SegrulesState& segrulesState) const;
void processInterpsGroup(
const Environment& env,
const TextReader& reader,
bool isAtWhitespace,
const SegrulesState& segrulesState,
const std::string& homonymId,
const InterpsGroup& ig,
std::vector<SegrulesState>& newSegrulesStates) const;
void processInterpretedChunk(
const Environment& env,
const TextReader& reader,
bool isAtWhitespace,
bool caseMatches,
const SegrulesState& newState,
InterpretedChunk& ic) const;
void handleIgnChunk(
const Environment& env,
const char* inputStart,
const char* inputEnd,
int startNodeNum,
std::vector<MorphInterpretation>& results) const;
void appendIgnotiumToResults(
const Environment& env,
const std::string& word,
int startNodeNum,
std::vector<MorphInterpretation>& results) const;
Environment analyzerEnv;
Environment generatorEnv;
MorfeuszOptions options;
mutable std::vector<InterpretedChunk> accum;
mutable int notMatchingCaseSegs;
mutable InflexionGraph graph;
mutable int nextNodeNum;
};
}
#endif /* MORFEUSZ_HPP */