/** * Yudit Unicode Editor Source File * * GNU Copyright (C) 1997-2006 Gaspar Sinai * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License, version 2, * dated June 1991. See file COPYYING for details. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "stoolkit/sencoder/SB_X11_HZ.h" #include "stoolkit/SString.h" #include "stoolkit/SStringVector.h" #define SS_ESC 27 /** * This is a sample (base) implementation of the core encoding class * @author: Gaspar Sinai * @version: 2000-05-12 * E2 80 A8 E2 80 A9 are paragraph and line seps in utf-8 (U+20A8, U+20A9) */ SB_X11_HZ::SB_X11_HZ() : SBEncoder ("\n,\r\n,\r"), gb_2312_l ("gb-2312-l") { ok = gb_2312_l.isOK(); } SB_X11_HZ::~SB_X11_HZ () { } /** * return false if this generic encoder does not exist. */ bool SB_X11_HZ::isOK() const { return ok; } /** * This is encoding a unicode string into a bytestring * @param input is a unicode string. */ const SString& SB_X11_HZ::encode (const SV_UCS4& input) { const SS_UCS4* in = input.array(); sstring.clear(); sstring.ensure(input.size()*2); SS_UCS2 got; SUniMap* current=0; for (unsigned int i=0; i 0x2000 && (got&0xff00) < 0x7f00 && (got&0xff) > 0x20 && (got&0xff) < 0x7f) { if (current==0) { sstring.append ((char) SS_ESC); sstring.append ((char) '$'); sstring.append ((char) '('); sstring.append ((char) 'A'); } current=&gb_2312_l; sstring.append ((char) ((got&0x7f00)>>8)); sstring.append ((char) (got&0x7f)); continue; } } quoteString (in[i]); } // Change it to roman if (current != 0) { sstring.append ((char) SS_ESC); sstring.append ((char) '('); sstring.append ((char) 'B'); } return sstring; } /** * Decode an input string into a unicode string. * @param input is a string. * he output can be null, in this case a line is not * read fully. If input size is zero output will be flushed. */ const SV_UCS4& SB_X11_HZ::decode (const SString& input) { const unsigned char* in = (unsigned char*) input.array(); ucs4string.clear(); ucs4string.ensure(input.size()); SS_UCS4 got; SUniMap* current=0; // bool gbRoman=false; for (unsigned i=0; i i+3 && in[i] == SS_ESC && in[i+1] == '$' && in[i+2] == '(' && in[i+3] == 'A') { current=&gb_2312_l; // Chinese i++; i++; i++; //gbRoman=false; continue; } if (input.size() > i+2 && in[i] == SS_ESC && in[i+1] == '(' && in[i+2] == 'B') { current=0; // ASCII i++; i++; //gbRoman=false; continue; } if (input.size() > i+2 && in[i] == SS_ESC && in[i+1] == '(' && in[i+2] == 'T') { current=&gb_2312_l; // GB Roman i++; i++; //gbRoman=true; continue; } // It should not happen but it does. if (in[i] < ' ') current=0; if (current) { got = (input.size() > i+1) ? current->decode (((SS_UCS2)in[i]<< 8) | in[i+1]) : 0; if (got) { ucs4string.append (got); } else { quoteUCS4 (in[i]); quoteUCS4 (in[i+1]); } i++; continue; } ucs4string.append ((SS_UCS4) in[i]); continue; } return ucs4string; } /** * These methods guess the line delimiters for the input * The one without arguments is giving the 'first approximation' * It returns an inclusive list of all possibilities. */ const SStringVector& SB_X11_HZ::delimiters () { return realDelimiters; } /** * These methods guess the line delimiters for the input * The one without arguments is giving the 'first approximation' * It returns an exact list */ const SStringVector& SB_X11_HZ::delimiters (const SString& sample) { return sampleDelimiters; }