Morfeusz.cpp
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/*
* File: Morfeusz.cpp
* Author: mlenart
*
* Created on November 13, 2013, 5:21 PM
*/
#include <string>
#include <iostream>
#include "fsa/fsa.hpp"
#include "utils.hpp"
#include "data/default_fsa.hpp"
#include "Morfeusz.hpp"
#include "MorphDeserializer.hpp"
#include "InterpretedChunksDecoder.hpp"
#include "charset/CharsetConverter.hpp"
#include "charset/charset_utils.hpp"
#include "charset/CaseConverter.hpp"
#include "const.hpp"
// TODO - konstruktor kopiujący działający Tak-Jak-Trzeba
using namespace std;
static Deserializer<vector<InterpsGroup>>* initializeDeserializer() {
static Deserializer < vector < InterpsGroup >> *deserializer
= new MorphDeserializer();
return deserializer;
}
static FSA<vector<InterpsGroup >> *initializeFSA(const string& filename) {
cerr << "initialize FSA" << endl;
return FSA < vector < InterpsGroup >> ::getFSA(filename, *initializeDeserializer());
}
static CharsetConverter* getCharsetConverter(MorfeuszCharset charset) {
cerr << "initialize charset converter for " << charset << endl;
static CharsetConverter* utf8Converter = new UTF8CharsetConverter();
static CharsetConverter* utf16Converter = new UTF16CharsetConverter();
switch (charset) {
case UTF8:
return utf8Converter;
case UTF16_LE:
return utf16Converter;
default:
throw MorfeuszException("invalid charset");
}
}
static Tagset* initializeTagset(const string& filename) {
cerr << "initialize tagset" << endl;
static Tagset* tagset = new Tagset(readFile(filename.c_str()));
return tagset;
}
static Tagset* initializeTagset(const unsigned char* data) {
cerr << "initialize tagset" << endl;
static Tagset* tagset = new Tagset(data);
return tagset;
}
static CaseConverter* initializeCaseConverter() {
cerr << "initialize case converter" << endl;
static CaseConverter* cc = new CaseConverter();
return cc;
}
Morfeusz::Morfeusz()
: fsa(FSAType::getFSA(DEFAULT_FSA, *initializeDeserializer())),
charsetConverter(getCharsetConverter(DEFAULT_MORFEUSZ_CHARSET)),
tagset(initializeTagset(DEFAULT_FSA)),
caseConverter(initializeCaseConverter()),
caseSensitive(true) {
}
Morfeusz::Morfeusz(const string& filename)
: fsa(initializeFSA(filename)),
charsetConverter(getCharsetConverter(DEFAULT_MORFEUSZ_CHARSET)),
tagset(initializeTagset(filename)),
caseConverter(initializeCaseConverter()),
caseSensitive(true) {
}
Morfeusz::~Morfeusz() {
// delete &this->fsa;
// delete &this->charsetConverter;
}
void Morfeusz::processOneWord(
const char*& inputData,
const char* inputEnd,
int startNodeNum,
std::vector<MorphInterpretation>& results) const {
while (inputData != inputEnd
&& isEndOfWord(this->charsetConverter->peek(inputData, inputEnd))) {
this->charsetConverter->next(inputData, inputEnd);
}
const char* wordStart = inputData;
DEBUG(wordStart);
vector<InterpretedChunk> accum;
FlexionGraph graph;
const char* currInput = inputData;
doProcessOneWord(currInput, inputEnd, accum, graph);
if (!graph.empty()) {
InterpretedChunksDecoder interpretedChunksDecoder(*tagset, *charsetConverter, *caseConverter);
int srcNode = startNodeNum;
for (vector<FlexionGraph::Edge>& edges : graph.getTheGraph()) {
for (FlexionGraph::Edge& e : edges) {
int targetNode = startNodeNum + e.nextNode;
interpretedChunksDecoder.decode(srcNode, targetNode, e.chunk, back_inserter(results));
}
srcNode++;
}
// graph.getResults(*this->tagset, results);
} else if (wordStart != currInput) {
this->appendIgnotiumToResults(string(wordStart, currInput), startNodeNum, results);
}
inputData = currInput;
}
void Morfeusz::doProcessOneWord(
const char*& inputData,
const char* inputEnd,
vector<InterpretedChunk>& accum,
FlexionGraph& graph) const {
bool endOfWord = inputData == inputEnd;
const char* currInput = inputData;
uint32_t codepoint = endOfWord ? 0 : this->charsetConverter->next(currInput, inputEnd);
// UnicodeChunk uchunk(*(this->charsetConverter), *(this->caseConverter));
vector<uint32_t> originalCodepoints;
vector<uint32_t> lowercaseCodepoints;
StateType state = this->fsa->getInitialState();
while (!isEndOfWord(codepoint)) {
uint32_t lowerCP = this->caseConverter->toLower(codepoint);
originalCodepoints.push_back(codepoint);
lowercaseCodepoints.push_back(lowerCP);
this->feedState(state, lowerCP);
if (state.isAccepting()) {
for (InterpsGroup& ig : state.getValue()) {
// for (EncodedInterpretation& ei: ig.interps) {
// cerr << "CUT: " << ei.lemma.suffixToCut << "; ADD: " << ei.lemma.suffixToAdd << endl;
// }
InterpretedChunk ic = {inputData, originalCodepoints, lowercaseCodepoints, ig};
accum.push_back(ic);
const char* newCurrInput = currInput;
doProcessOneWord(newCurrInput, inputEnd, accum, graph);
accum.pop_back();
}
}
codepoint = currInput == inputEnd ? 0 : this->charsetConverter->peek(currInput, inputEnd);
if (!isEndOfWord(codepoint)) {
this->charsetConverter->next(currInput, inputEnd);
}
}
if (state.isAccepting()) {
for (InterpsGroup& ig : state.getValue()) {
InterpretedChunk ic = {inputData, originalCodepoints, lowercaseCodepoints, ig};
accum.push_back(ic);
graph.addPath(accum);
accum.pop_back();
}
}
inputData = currInput;
}
void Morfeusz::feedState(
StateType& state,
int codepoint) const {
string chars;
this->charsetConverter->append(codepoint, chars);
for (char c : chars) {
state.proceedToNext(c);
}
}
void Morfeusz::appendIgnotiumToResults(
const string& word,
int startNodeNum,
std::vector<MorphInterpretation>& results) const {
MorphInterpretation interp = MorphInterpretation::createIgn(startNodeNum, word, *this->tagset);
results.push_back(interp);
}
ResultsIterator Morfeusz::analyze(const string& text) const {
// const char* textStart = text.c_str();
// const char* textEnd = text.c_str() + text.length();
return ResultsIterator(text, *this);
}
void Morfeusz::analyze(const string& text, vector<MorphInterpretation>& results) const {
const char* input = text.c_str();
const char* inputEnd = input + text.length();
while (input != inputEnd) {
int startNode = results.empty() ? 0 : results.back().getEndNode();
DEBUG("process " + string(input, inputEnd));
this->processOneWord(input, inputEnd, startNode, results);
}
}
ResultsIterator::ResultsIterator(const string& text, const Morfeusz& morfeusz)
: rawInput(text.c_str()),
morfeusz(morfeusz) {
}
MorphInterpretation ResultsIterator::getNext() {
// if (resultsBuffer.empty()) {
// morfeusz.processOneWord(rawInput, startNode, back_inserter(resultsBuffer));
// }
// startNode = resultsBuffer.back().getEndNode();
// MorphInterpretation res = resultsBuffer.front();
// resultsBuffer.pop_front();
// return res;
}
bool ResultsIterator::hasNext() {
return rawInput[0] != '\0' && resultsBuffer.empty();
}
//int Morfeusz::doProcessOneWord(const char*& inputPtr, const char* inputEnd, int startNodeNum, std::vector<EncodedInterpretation>& interps) const {
// assert(inputPtr[0] != '\0');
// const char* start = inputPtr;
// StateType state = fsa->getInitialState();
// int currNodeNum = startNodeNum;
// int codepoint = this->charsetConverter->next(inputPtr, inputEnd);
// assert(!isEndOfWord(codepoint));
// while(!isEndOfWord(codepoint)) {
// feedState(state, codepoint);
// if (state.isAccepting()) {
// const char* currInputPtr = inputPtr;
// vector<EncodedInterpretation> startInterps = state.getValue();
// filterOutNonGluableInterps(startInterps);
// if (!startInterps.empty()) {
//
// }
// vector<EncodedInterpretation> additionalInterps;
// int nextNodeNum = doProcessOneWord(currInputPtr, inputEnd, currNodeNum + 1, additionalInterps);
// if (!additionalInterps.empty()) {
// for (EncodedInterpretation& interp: state.getValue()) {
// interp.startNode = currNodeNum;
// interp.endNode = currNodeNum + 1;
// interps.push_back(interp);
// }
//
// }
// }
// }
//}