/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ /** * * * * * TODO * - Add exception throwing when h == NULL * - Not init h when implicit constructor is launched */ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_lingucomponent.hxx" #include #include #include #include #include #include #include #include #include #include "altstrfunc.hxx" #include "simpleguesser.hxx" #ifndef _UTF8_ #define _UTF8_ #endif using namespace std; /** * This 3 following structures are from fingerprint.c and textcat.c */ typedef struct ngram_t { sint2 rank; char str[MAXNGRAMSIZE+1]; } ngram_t; typedef struct fp_t { const char *name; ngram_t *fprint; uint4 size; } fp_t; typedef struct textcat_t{ void **fprint; char *fprint_disable; uint4 size; uint4 maxsize; char output[MAXOUTPUTSIZE]; } textcat_t; /** end of the 3 structs */ SimpleGuesser::SimpleGuesser() { h = NULL; } void SimpleGuesser::operator=(SimpleGuesser& sg){ if(h){textcat_Done(h);} h = sg.h; } SimpleGuesser::~SimpleGuesser() { if(h){textcat_Done(h);} } /*! \fn SimpleGuesser::GuessLanguage(char* text) */ vector SimpleGuesser::GuessLanguage(char* text) { vector guesses; if(!h){return guesses;} //calculate le number of unicode charcters (symbols) int len = utfstrlen(text); if( len > MAX_STRING_LENGTH_TO_ANALYSE ){len = MAX_STRING_LENGTH_TO_ANALYSE ;} char *guess_list = textcat_Classify(h, text, len); if(strcmp(guess_list, _TEXTCAT_RESULT_SHORT) == 0){ return guesses; } int current_pointer = 0; for(int i = 0; guess_list[current_pointer] != '\0'; i++) { while(guess_list[current_pointer] != GUESS_SEPARATOR_OPEN && guess_list[current_pointer] != '\0'){ current_pointer++; } if(guess_list[current_pointer] != '\0') { Guess g((char*)(guess_list + current_pointer)); guesses.push_back(g); current_pointer++; } } return guesses; } /*! \fn SimpleGuesser::GuessPrimaryLanguage(char* text) */ Guess SimpleGuesser::GuessPrimaryLanguage(char* text) { vector ret = GuessLanguage(text); if(ret.size() > 0){ return GuessLanguage(text)[0]; } else{ return Guess(); } } /** * Is used to know which language is available, unavailable or both * when mask = 0xF0, return only Available * when mask = 0x0F, return only Unavailable * when mask = 0xFF, return both Available and Unavailable */ vector SimpleGuesser::GetManagedLanguages(const char mask) { size_t i; textcat_t *tables = (textcat_t*)h; vector lang; if(!h){return lang;} for (i=0; isize; i++) { if(tables->fprint_disable[i] & mask){ string langStr = "["; langStr += (char*)fp_Name(tables->fprint[i]); Guess g( (char *)langStr.c_str()); lang.push_back(g); } } return lang; } vector SimpleGuesser::GetAvailableLanguages(){ return GetManagedLanguages( sal::static_int_cast< char >( 0xF0 ) ); } vector SimpleGuesser::GetUnavailableLanguages(){ return GetManagedLanguages( sal::static_int_cast< char >( 0x0F )); } vector SimpleGuesser::GetAllManagedLanguages(){ return GetManagedLanguages( sal::static_int_cast< char >( 0xFF )); } void SimpleGuesser::XableLanguage(string lang, char mask){ size_t i; textcat_t *tables = (textcat_t*)h; if(!h){return;} for (i=0; isize; i++) { string language(fp_Name(tables->fprint[i])); if(start(language,lang) == 0){ //cout << language << endl; tables->fprint_disable[i] = mask; //continue; } } } void SimpleGuesser::EnableLanguage(string lang){ XableLanguage(lang, sal::static_int_cast< char >( 0xF0 )); } void SimpleGuesser::DisableLanguage(string lang){ XableLanguage(lang, sal::static_int_cast< char >( 0x0F )); } /** * */ void SimpleGuesser::SetDBPath(const char* path, const char* prefix){ if(h){ textcat_Done(h); } h = special_textcat_Init(path, prefix); }