InterpretedChunksDecoder4Generator.cpp 4.91 KB
/* 
 * File:   InterpretedChunksDecoder4Generator.cpp
 * Author: mlenart
 * 
 * Created on 15 maj 2014, 15:28
 */

#include "InterpretedChunksDecoder4Generator.hpp"
#include <string>
#include <vector>

using namespace std;

namespace morfeusz {

    InterpretedChunksDecoder4Generator::InterpretedChunksDecoder4Generator(const Environment& env) : InterpretedChunksDecoder(env) {
    }

    void InterpretedChunksDecoder4Generator::decode(
            unsigned int startNode,
            unsigned int endNode,
            const InterpretedChunk& interpretedChunk,
            std::vector<MorphInterpretation>& out) const {
        string orthPrefix;
        string lemma;
        //    convertPrefixes(interpretedChunk, orthPrefix, lemma);
        //        lemma += env.getCharsetConverter().toString(interpretedChunk.originalCodepoints);
        lemma.insert(lemma.end(), interpretedChunk.textStartPtr, interpretedChunk.textEndPtr);
        const unsigned char* currPtr = getInterpretationsPtr(interpretedChunk.interpsGroupPtr);
        while (currPtr < interpretedChunk.interpsEndPtr) {
            MorphInterpretation mi = this->decodeMorphInterpretation(startNode, endNode, orthPrefix, lemma, interpretedChunk, currPtr);
            //                        cerr << mi.toString(false) << endl;
            //            cerr << "required='" << interpretedChunk.requiredHomonymId << "' morphInterp='" << mi.getHomonymId() << "'" << endl;
            if (interpretedChunk.requiredHomonymId.empty() || mi.hasHomonym(interpretedChunk.requiredHomonymId)) {
                out.push_back(mi);
            }
        }
    }

    //void InterpretedChunksDecoder4Generator::convertPrefixes(const InterpretedChunk& interpretedChunk, std::string& orthPrefix, std::string& lemma) const {
    //    for (unsigned int i = 0; i < interpretedChunk.prefixChunks.size(); i++) {
    //        const InterpretedChunk& prefixChunk = interpretedChunk.prefixChunks[i];
    ////        lemma.insert(lemma.end(), prefixChunk.textStartPtr, prefixChunk.textEndPtr);
    //        const unsigned char* ptr = getInterpretationsPtr(interpretedChunk.interpsGroupPtr);
    //        MorphInterpretation mi = this->decodeMorphInterpretation(0, 0, orthPrefix, string(""), prefixChunk, ptr);
    ////        orthPrefix += mi.getOrth();
    //    }
    //}

    MorphInterpretation InterpretedChunksDecoder4Generator::decodeMorphInterpretation(
            unsigned int startNode, unsigned int endNode,
            const string& orthPrefix,
            const string& lemma,
            const InterpretedChunk& chunk,
            const unsigned char*& ptr) const {
        string orth = orthPrefix;
        EncodedInterpretation ei = this->deserializeInterp(ptr);
        codepoints.resize(0);
        const char* currPtr = chunk.textStartPtr;
        while (currPtr != chunk.textEndPtr) {
            uint32_t cp = env.getCharsetConverter().next(currPtr, chunk.textEndPtr);
            codepoints.push_back(cp);
        }
        this->decodeForm(codepoints, ei.value, orth);
        
        MorphInterpretation res;
        res.startNode = startNode;
        res.endNode = endNode;
        res.orth = orth;
        res.lemma = ei.homonymId.empty() ? lemma : (lemma + HOMONYM_SEPARATOR + ei.homonymId);
        res.tagId = ei.tag;
        res.nameId = ei.nameClassifier;
        res.labelsId = ei.qualifiers;

        //    MorphInterpretation res(
        //            startNode, endNode,
        //            orth, ei.homonymId.empty() ? lemma : (lemma + HOMONYM_SEPARATOR + ei.homonymId),
        //            //                ei.homonymId,
        //            ei.tag,
        //            ei.nameClassifier,
        //            &env.getQualifiersHelper().getQualifiers(ei.qualifiers),
        //            &env.getTagset());
        return res;
    }

    void InterpretedChunksDecoder4Generator::decodeForm(
            const vector<uint32_t>& lemma,
            const EncodedForm& orth,
            string& res) const {
        res += orth.prefixToAdd;
        for (unsigned int i = 0; i < lemma.size() - orth.suffixToCut; i++) {
            env.getCharsetConverter().append(lemma[i], res);
        }
        const char* suffixPtr = orth.suffixToAdd.c_str();
        const char* suffixEnd = suffixPtr + orth.suffixToAdd.length();
        while (suffixPtr != suffixEnd) {
            uint32_t cp = UTF8CharsetConverter::getInstance().next(suffixPtr, suffixEnd);
            env.getCharsetConverter().append(cp, res);
        }
    }

    EncodedInterpretation InterpretedChunksDecoder4Generator::deserializeInterp(const unsigned char*& ptr) const {
        EncodedInterpretation interp;
        interp.homonymId = readString(ptr);
        interp.value.prefixToAdd = readString(ptr);
        interp.value.suffixToCut = readInt8(ptr);
        interp.value.suffixToAdd = readString(ptr);
        interp.tag = readInt16(ptr);
        interp.nameClassifier = readInt8(ptr);
        interp.qualifiers = readInt16(ptr);
        return interp;
    }

}