LCOV - code coverage report
Current view: top level - libreoffice/i18npool/source/textconversion - genconv_dict.cxx (source / functions) Hit Total Coverage
Test: libreoffice_filtered.info Lines: 251 264 95.1 %
Date: 2012-12-27 Functions: 6 6 100.0 %
Legend: Lines: hit not hit

          Line data    Source code
       1             : /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
       2             : /*
       3             :  * This file is part of the LibreOffice project.
       4             :  *
       5             :  * This Source Code Form is subject to the terms of the Mozilla Public
       6             :  * License, v. 2.0. If a copy of the MPL was not distributed with this
       7             :  * file, You can obtain one at http://mozilla.org/MPL/2.0/.
       8             :  *
       9             :  * This file incorporates work covered by the following license notice:
      10             :  *
      11             :  *   Licensed to the Apache Software Foundation (ASF) under one or more
      12             :  *   contributor license agreements. See the NOTICE file distributed
      13             :  *   with this work for additional information regarding copyright
      14             :  *   ownership. The ASF licenses this file to you under the Apache
      15             :  *   License, Version 2.0 (the "License"); you may not use this file
      16             :  *   except in compliance with the License. You may obtain a copy of
      17             :  *   the License at http://www.apache.org/licenses/LICENSE-2.0 .
      18             :  */
      19             : 
      20             : 
      21             : #include <stdio.h>
      22             : #include <string.h>
      23             : #include <stdlib.h>
      24             : #include <errno.h>
      25             : #include <sal/main.h>
      26             : #include <sal/types.h>
      27             : #include <rtl/strbuf.hxx>
      28             : #include <rtl/ustring.hxx>
      29             : 
      30             : #include <vector>
      31             : 
      32             : using namespace ::rtl;
      33             : 
      34             : void make_hhc_char(FILE *sfp, FILE *cfp);
      35             : void make_stc_char(FILE *sfp, FILE *cfp);
      36             : void make_stc_word(FILE *sfp, FILE *cfp);
      37             : 
      38             : /* Main Procedure */
      39             : 
      40           6 : SAL_IMPLEMENT_MAIN_WITH_ARGS(argc, argv)
      41             : {
      42             :     FILE *sfp, *cfp;
      43             : 
      44           3 :     if (argc < 4) exit(-1);
      45             : 
      46             : 
      47           3 :     sfp = fopen(argv[2], "rb"); // open the source file for read;
      48           3 :     if (sfp == NULL)
      49             :     {
      50           0 :         fprintf(stderr, "Opening the dictionary source file %s for reading failed: %s\n", argv[1], strerror(errno));
      51           0 :         exit(1);
      52             :     }
      53             : 
      54             :     // create the C source file to write
      55           3 :     cfp = fopen(argv[3], "wb");
      56           3 :     if (cfp == NULL) {
      57           0 :         fclose(sfp);
      58           0 :         fprintf(stderr, "Opening %s for writing failed: %s\n", argv[3], strerror(errno));
      59           0 :         exit(1);
      60             :     }
      61             : 
      62           3 :     fprintf(cfp, "/*\n");
      63           3 :     fprintf(cfp, " * Copyright(c) 1999 - 2000, Sun Microsystems, Inc.\n");
      64           3 :     fprintf(cfp, " * All Rights Reserved.\n");
      65           3 :     fprintf(cfp, " */\n\n");
      66           3 :     fprintf(cfp, "/* !!!The file is generated automatically. DONOT edit the file manually!!! */\n\n");
      67           3 :     fprintf(cfp, "#include <sal/types.h>\n");
      68           3 :     fprintf(cfp, "#include <textconversion.hxx>\n");
      69           3 :     fprintf(cfp, "\nextern \"C\" {\n");
      70             : 
      71           3 :     if (strcmp(argv[1], "hhc_char") == 0)
      72           1 :         make_hhc_char(sfp, cfp);
      73           2 :     else if (strcmp(argv[1], "stc_char") == 0)
      74           1 :         make_stc_char(sfp, cfp);
      75           1 :     else if (strcmp(argv[1], "stc_word") == 0)
      76           1 :         make_stc_word(sfp, cfp);
      77             : 
      78           3 :     fprintf (cfp, "}\n");
      79             : 
      80           3 :     fclose(sfp);
      81           3 :     fclose(cfp);
      82             : 
      83           3 :     return 0;
      84             : } // end of main
      85             : 
      86             : // Hangul/Hanja character conversion
      87           1 : void make_hhc_char(FILE *sfp, FILE *cfp)
      88             : {
      89             :     sal_Int32 count, address, i, j, k;
      90             :     sal_Unicode Hanja2HangulData[0x10000];
      91       65537 :     for (i = 0; i < 0x10000; i++) {
      92       65536 :         Hanja2HangulData[i] = 0;
      93             :     }
      94             :     sal_uInt16 Hangul2HanjaData[10000][3];
      95             : 
      96             :     // generate main dict. data array
      97           1 :     fprintf(cfp, "\nstatic const sal_Unicode Hangul2HanjaData[] = {");
      98             : 
      99             :     sal_Char Cstr[1024];
     100           1 :     count = 0;
     101           1 :     address = 0;
     102         504 :     while (fgets(Cstr, 1024, sfp)) {
     103             :         // input file is in UTF-8 encoding (Hangul:Hanja)
     104             :         // don't convert last new line character to Ostr.
     105         502 :         OUString Ostr((const sal_Char *)Cstr, strlen(Cstr) - 1, RTL_TEXTENCODING_UTF8);
     106         502 :         const sal_Unicode *Ustr = Ostr.getStr();
     107         502 :         sal_Int32  len = Ostr.getLength();
     108             : 
     109         502 :         Hangul2HanjaData[count][0] = Ustr[0];
     110         502 :         Hangul2HanjaData[count][1] = sal::static_int_cast<sal_uInt16>( address );
     111         502 :         Hangul2HanjaData[count][2] = sal::static_int_cast<sal_uInt16>( len - 2 );
     112         502 :         count++;
     113             : 
     114        9536 :         for (i = 2; i < len; i++) {
     115        9034 :             Hanja2HangulData[Ustr[i]] = Ustr[0];
     116        9034 :             if (address++ % 16 == 0)
     117         565 :                 fprintf(cfp, "\n\t");
     118        9034 :             fprintf(cfp, "0x%04x, ", Ustr[i]);
     119             :         }
     120         502 :     }
     121           1 :     fprintf(cfp, "\n};\n");
     122             : 
     123           1 :     fprintf(cfp, "\nstatic const com::sun::star::i18n::Hangul_Index Hangul2HanjaIndex[] = {\n");
     124         503 :     for (i = 0; i < count; i++)
     125             :         fprintf(cfp, "\t{ 0x%04x, 0x%04x, 0x%02x },\n",
     126         502 :                         Hangul2HanjaData[i][0],
     127         502 :                         Hangul2HanjaData[i][1],
     128        1506 :                         Hangul2HanjaData[i][2]);
     129           1 :     fprintf(cfp, "};\n");
     130             : 
     131           1 :     fprintf(cfp, "\nstatic const sal_uInt16 Hanja2HangulIndex[] = {");
     132             : 
     133           1 :     address=0;
     134          17 :     for (i = 0; i < 0x10; i++) {
     135          16 :         fprintf(cfp, "\n\t");
     136         272 :         for (j = 0; j < 0x10; j++) {
     137       44529 :             for (k = 0; k < 0x100; k++) {
     138       44357 :                 if (Hanja2HangulData[((i*0x10)+j)*0x100+k] != 0)
     139          84 :                     break;
     140             :             }
     141             :             fprintf(
     142             :                 cfp, "0x%04lx, ",
     143             :                 sal::static_int_cast< unsigned long >(
     144         256 :                     k < 0x100 ? (address++)*0x100 : 0xFFFF));
     145             :         }
     146             :     }
     147           1 :     fprintf(cfp, "\n};\n");
     148             : 
     149           1 :     fprintf(cfp, "\nstatic const sal_Unicode Hanja2HangulData[] = {");
     150             : 
     151         257 :     for (i = 0; i < 0x100; i++) {
     152       44529 :         for (j = 0; j < 0x100; j++) {
     153       44357 :             if (Hanja2HangulData[i*0x100+j] != 0)
     154          84 :                 break;
     155             :         }
     156         256 :         if (j < 0x100) {
     157        1428 :             for (j = 0; j < 0x10; j++) {
     158        1344 :                 fprintf(cfp, "\n\t");
     159       22848 :                 for (k = 0; k < 0x10; k++) {
     160       21504 :                     sal_Unicode c = Hanja2HangulData[((i*0x10+j)*0x10)+k];
     161       21504 :                     fprintf(cfp, "0x%04x, ", c ? c : 0xFFFF);
     162             :                 }
     163             :             }
     164             :         }
     165             :     }
     166           1 :     fprintf(cfp, "\n};\n");
     167             : 
     168             :     // create function to return arrays
     169           1 :     fprintf (cfp, "\tconst sal_Unicode* getHangul2HanjaData() { return Hangul2HanjaData; }\n");
     170           1 :     fprintf (cfp, "\tconst com::sun::star::i18n::Hangul_Index* getHangul2HanjaIndex() { return Hangul2HanjaIndex; }\n");
     171           1 :     fprintf (cfp, "\tsal_Int16 getHangul2HanjaIndexCount() { return sizeof(Hangul2HanjaIndex) / sizeof(com::sun::star::i18n::Hangul_Index); }\n");
     172           1 :     fprintf (cfp, "\tconst sal_uInt16* getHanja2HangulIndex() { return Hanja2HangulIndex; }\n");
     173           1 :     fprintf (cfp, "\tconst sal_Unicode* getHanja2HangulData() { return Hanja2HangulData; }\n");
     174           1 : }
     175             : 
     176             : // Simplified/Traditional Chinese character conversion
     177           1 : void make_stc_char(FILE *sfp, FILE *cfp)
     178             : {
     179             :     sal_Int32 address, i, j, k;
     180             :     sal_Unicode SChinese2TChineseData[0x10000];
     181             :     sal_Unicode SChinese2VChineseData[0x10000];
     182             :     sal_Unicode TChinese2SChineseData[0x10000];
     183       65537 :     for (i = 0; i < 0x10000; i++) {
     184       65536 :         SChinese2TChineseData[i] = 0;
     185       65536 :         SChinese2VChineseData[i] = 0;
     186       65536 :         TChinese2SChineseData[i] = 0;
     187             :     }
     188             : 
     189             :     sal_Char Cstr[1024];
     190        2837 :     while (fgets(Cstr, 1024, sfp)) {
     191             :         // input file is in UTF-8 encoding (SChinese:TChinese)
     192             :         // don't convert last new line character to Ostr.
     193        2835 :         OUString Ostr((const sal_Char *)Cstr, strlen(Cstr) - 1, RTL_TEXTENCODING_UTF8);
     194        2835 :         const sal_Unicode *Ustr = Ostr.getStr();
     195        2835 :         sal_Int32  len = Ostr.getLength();
     196        2835 :         if (Ustr[1] == sal_Unicode('v'))
     197           0 :             SChinese2VChineseData[Ustr[0]] = Ustr[2];
     198             :         else {
     199        2835 :             SChinese2TChineseData[Ustr[0]] = Ustr[2];
     200        2835 :             if (SChinese2VChineseData[Ustr[0]] == 0)
     201        2835 :                 SChinese2VChineseData[Ustr[0]] = Ustr[2];
     202             :         }
     203        6295 :         for (i = 2; i < len; i++)
     204        3460 :             TChinese2SChineseData[Ustr[i]] = Ustr[0];
     205        2835 :     }
     206             : 
     207           1 :     fprintf(cfp, "\nstatic const sal_uInt16 STC_CharIndex_S2T[] = {");
     208             : 
     209           1 :     address=0;
     210          17 :     for (i = 0; i < 0x10; i++) {
     211          16 :         fprintf(cfp, "\n\t");
     212         272 :         for (j = 0; j < 0x10; j++) {
     213       46134 :             for (k = 0; k < 0x100; k++) {
     214       45965 :                 if (SChinese2TChineseData[((i*0x10)+j)*0x100+k] != 0)
     215          87 :                     break;
     216             :             }
     217             :             fprintf(
     218             :                 cfp, "0x%04lx, ",
     219             :                 sal::static_int_cast< unsigned long >(
     220         256 :                     k < 0x100 ? (address++)*0x100 : 0xFFFF));
     221             :         }
     222             :     }
     223           1 :     fprintf(cfp, "\n};\n");
     224             : 
     225           1 :     fprintf(cfp, "\nstatic const sal_Unicode STC_CharData_S2T[] = {");
     226             : 
     227         257 :     for (i = 0; i < 0x100; i++) {
     228       46134 :         for (j = 0; j < 0x100; j++) {
     229       45965 :             if (SChinese2TChineseData[i*0x100+j] != 0)
     230          87 :                 break;
     231             :         }
     232         256 :         if (j < 0x100) {
     233        1479 :             for (j = 0; j < 0x10; j++) {
     234        1392 :                 fprintf(cfp, "\n\t");
     235       23664 :                 for (k = 0; k < 0x10; k++) {
     236       22272 :                     sal_Unicode c = SChinese2TChineseData[((i*0x10+j)*0x10)+k];
     237       22272 :                     fprintf(cfp, "0x%04x, ", c ? c : 0xFFFF);
     238             :                 }
     239             :             }
     240             :         }
     241             :     }
     242           1 :     fprintf(cfp, "\n};\n");
     243             : 
     244           1 :     fprintf(cfp, "\nstatic const sal_uInt16 STC_CharIndex_S2V[] = {");
     245             : 
     246           1 :     address=0;
     247          17 :     for (i = 0; i < 0x10; i++) {
     248          16 :         fprintf(cfp, "\n\t");
     249         272 :         for (j = 0; j < 0x10; j++) {
     250       46134 :             for (k = 0; k < 0x100; k++) {
     251       45965 :                 if (SChinese2VChineseData[((i*0x10)+j)*0x100+k] != 0)
     252          87 :                     break;
     253             :             }
     254             :             fprintf(
     255             :                 cfp, "0x%04lx, ",
     256             :                 sal::static_int_cast< unsigned long >(
     257         256 :                     k < 0x100 ? (address++)*0x100 : 0xFFFF));
     258             :         }
     259             :     }
     260           1 :     fprintf(cfp, "\n};\n");
     261             : 
     262           1 :     fprintf(cfp, "\nstatic const sal_Unicode STC_CharData_S2V[] = {");
     263             : 
     264         257 :     for (i = 0; i < 0x100; i++) {
     265       46134 :         for (j = 0; j < 0x100; j++) {
     266       45965 :             if (SChinese2VChineseData[i*0x100+j] != 0)
     267          87 :                 break;
     268             :         }
     269         256 :         if (j < 0x100) {
     270        1479 :             for (j = 0; j < 0x10; j++) {
     271        1392 :                 fprintf(cfp, "\n\t");
     272       23664 :                 for (k = 0; k < 0x10; k++) {
     273       22272 :                     sal_Unicode c = SChinese2VChineseData[((i*0x10+j)*0x10)+k];
     274       22272 :                     fprintf(cfp, "0x%04x, ", c ? c : 0xFFFF);
     275             :                 }
     276             :             }
     277             :         }
     278             :     }
     279           1 :     fprintf(cfp, "\n};\n");
     280             : 
     281           1 :     fprintf(cfp, "\nstatic const sal_uInt16 STC_CharIndex_T2S[] = {");
     282             : 
     283           1 :     address=0;
     284          17 :     for (i = 0; i < 0x10; i++) {
     285          16 :         fprintf(cfp, "\n\t");
     286         272 :         for (j = 0; j < 0x10; j++) {
     287       43562 :             for (k = 0; k < 0x100; k++) {
     288       43399 :                 if (TChinese2SChineseData[((i*0x10)+j)*0x100+k] != 0)
     289          93 :                     break;
     290             :             }
     291             :             fprintf(
     292             :                 cfp, "0x%04lx, ",
     293             :                 sal::static_int_cast< unsigned long >(
     294         256 :                     k < 0x100 ? (address++)*0x100 : 0xFFFF));
     295             :         }
     296             :     }
     297           1 :     fprintf(cfp, "\n};\n");
     298             : 
     299           1 :     fprintf(cfp, "\nstatic const sal_Unicode STC_CharData_T2S[] = {");
     300             : 
     301         257 :     for (i = 0; i < 0x100; i++) {
     302       43562 :         for (j = 0; j < 0x100; j++) {
     303       43399 :             if (TChinese2SChineseData[i*0x100+j] != 0)
     304          93 :                 break;
     305             :         }
     306         256 :         if (j < 0x100) {
     307        1581 :             for (j = 0; j < 0x10; j++) {
     308        1488 :                 fprintf(cfp, "\n\t");
     309       25296 :                 for (k = 0; k < 0x10; k++) {
     310       23808 :                     sal_Unicode c = TChinese2SChineseData[((i*0x10+j)*0x10)+k];
     311       23808 :                     fprintf(cfp, "0x%04x, ", c ? c : 0xFFFF);
     312             :                 }
     313             :             }
     314             :         }
     315             :     }
     316           1 :     fprintf(cfp, "\n};\n");
     317             : 
     318             :     // create function to return arrays
     319           1 :     fprintf (cfp, "\tconst sal_uInt16* getSTC_CharIndex_S2T() { return STC_CharIndex_S2T; }\n");
     320           1 :     fprintf (cfp, "\tconst sal_Unicode* getSTC_CharData_S2T() { return STC_CharData_S2T; }\n");
     321           1 :     fprintf (cfp, "\tconst sal_uInt16* getSTC_CharIndex_S2V() { return STC_CharIndex_S2V; }\n");
     322           1 :     fprintf (cfp, "\tconst sal_Unicode* getSTC_CharData_S2V() { return STC_CharData_S2V; }\n");
     323           1 :     fprintf (cfp, "\tconst sal_uInt16* getSTC_CharIndex_T2S() { return STC_CharIndex_T2S; }\n");
     324           1 :     fprintf (cfp, "\tconst sal_Unicode* getSTC_CharData_T2S() { return STC_CharData_T2S; }\n");
     325           1 : }
     326             : 
     327             : 
     328             : typedef struct {
     329             :     sal_uInt16 address;
     330             :     sal_Int32 len;
     331             :     sal_Unicode *data;
     332             : } Index;
     333             : 
     334             : extern "C" {
     335       13982 : int Index_comp(const void* s1, const void* s2)
     336             : {
     337       13982 :     Index *p1 = (Index*)s1, *p2 = (Index*)s2;
     338       13982 :     int result = p1->len - p2->len;
     339       24177 :     for (int i = 0; result == 0 && i < p1->len; i++)
     340       10195 :         result = *(p1->data+i) - *(p2->data+i);
     341       13982 :     return result;
     342             : }
     343             : }
     344             : 
     345             : // Simplified/Traditional Chinese word conversion
     346           1 : void make_stc_word(FILE *sfp, FILE *cfp)
     347             : {
     348             :     sal_Int32 count, i, length;
     349             :     sal_Unicode STC_WordData[0x10000];
     350           1 :     std::vector<Index> STC_WordEntry_S2T(0x10000);
     351           1 :     std::vector<Index> STC_WordEntry_T2S(0x10000);
     352           1 :     sal_Int32 count_S2T = 0, count_T2S = 0;
     353           1 :     sal_Int32 line = 0, char_total = 0;
     354             :     sal_Char Cstr[1024];
     355             : 
     356        1152 :     while (fgets(Cstr, 1024, sfp)) {
     357             :         // input file is in UTF-8 encoding (SChinese:TChinese)
     358             :         // don't convert last new line character to Ostr.
     359        1150 :         OUString Ostr((const sal_Char *)Cstr, strlen(Cstr) - 1, RTL_TEXTENCODING_UTF8);
     360        1150 :         sal_Int32  len = Ostr.getLength();
     361        1150 :         if (char_total + len + 1 > 0xFFFF) {
     362           0 :             fprintf(stderr, "Word Dictionary stc_word.dic is too big (line %ld)", sal::static_int_cast< long >(line));
     363             :             return;
     364             :         }
     365        1150 :         sal_Int32 sep=-1, eq=-1, gt=-1, lt=-1;
     366        1150 :         if (((sep = eq = Ostr.indexOf(sal_Unicode('='))) > 0) ||
     367             :             ((sep = gt = Ostr.indexOf(sal_Unicode('>'))) > 0) ||
     368             :             ((sep = lt = Ostr.indexOf(sal_Unicode('<'))) > 0)) {
     369             : 
     370        1150 :             if (eq > 0 || gt > 0) {
     371        1070 :                 STC_WordEntry_S2T[count_S2T].address = sal::static_int_cast<sal_uInt16>( char_total );
     372        1070 :                 STC_WordEntry_S2T[count_S2T].len = sep;
     373        1070 :                 STC_WordEntry_S2T[count_S2T++].data = &STC_WordData[char_total];
     374             :             }
     375        1150 :             if (eq > 0 || lt > 0) {
     376         615 :                 STC_WordEntry_T2S[count_T2S].address = sal::static_int_cast<sal_uInt16>( char_total + sep + 1 );
     377         615 :                 STC_WordEntry_T2S[count_T2S].len = len - sep - 1;
     378         615 :                 STC_WordEntry_T2S[count_T2S++].data = &STC_WordData[char_total + sep + 1];
     379             :             }
     380        8299 :             for (i = 0; i < len; i++)
     381        7149 :                 STC_WordData[char_total++] = (i == sep) ? 0 : Ostr[i];
     382        1150 :             STC_WordData[char_total++] = 0;
     383             :         } else {
     384           0 :             fprintf(stderr, "Invalid entry in stc_word.dic (line %ld)", sal::static_int_cast< long >(line));
     385             :             return;
     386             :         }
     387        1150 :         line++;
     388        1150 :     }
     389             : 
     390           1 :     if (char_total > 0) {
     391           1 :         fprintf(cfp, "\nstatic const sal_Unicode STC_WordData[] = {");
     392        8300 :         for (i = 0; i < char_total; i++) {
     393        8299 :             if (i % 32 == 0) fprintf(cfp, "\n\t");
     394        8299 :             fprintf(cfp, "0x%04x, ", STC_WordData[i]);
     395             :         }
     396           1 :         fprintf(cfp, "\n};\n");
     397             : 
     398           1 :         fprintf(cfp, "\nstatic sal_Int32 STC_WordData_Count = %ld;\n", sal::static_int_cast< long >(char_total));
     399             : 
     400             :         // create function to return arrays
     401           1 :         fprintf (cfp, "\tconst sal_Unicode* getSTC_WordData(sal_Int32& count) { count = STC_WordData_Count; return STC_WordData; }\n");
     402             :     } else {
     403           0 :         fprintf (cfp, "\tconst sal_Unicode* getSTC_WordData(sal_Int32& count) { count = 0; return NULL; }\n");
     404             :     }
     405             : 
     406             :     sal_uInt16 STC_WordIndex[0x100];
     407             : 
     408           1 :     if (count_S2T > 0) {
     409           1 :         qsort(&STC_WordEntry_S2T[0], count_S2T, sizeof(Index), Index_comp);
     410             : 
     411           1 :         fprintf(cfp, "\nstatic const sal_uInt16 STC_WordEntry_S2T[] = {");
     412           1 :         count = 0;
     413           1 :         length = 0;
     414        1071 :         for (i = 0; i < count_S2T; i++) {
     415        1070 :             if (i % 32 == 0) fprintf(cfp, "\n\t");
     416        1070 :             fprintf(cfp, "0x%04x, ", STC_WordEntry_S2T[i].address);
     417        1070 :             if (STC_WordEntry_S2T[i].len != length) {
     418           8 :                 length = STC_WordEntry_S2T[i].len;
     419          25 :                 while (count <= length)
     420           9 :                     STC_WordIndex[count++] = sal::static_int_cast<sal_uInt16>(i);
     421             :             }
     422             :         }
     423           1 :         fprintf(cfp, "\n};\n");
     424           1 :         STC_WordIndex[count++] = sal::static_int_cast<sal_uInt16>(i);
     425             : 
     426           1 :         fprintf(cfp, "\nstatic const sal_uInt16 STC_WordIndex_S2T[] = {");
     427          11 :         for (i = 0; i < count; i++) {
     428          10 :             if (i % 16 == 0) fprintf(cfp, "\n\t");
     429          10 :             fprintf(cfp, "0x%04x, ", STC_WordIndex[i]);
     430             :         }
     431           1 :         fprintf(cfp, "\n};\n");
     432             : 
     433           1 :         fprintf(cfp, "\nstatic sal_Int32 STC_WordIndex_S2T_Count = %ld;\n", sal::static_int_cast< long >(length));
     434           1 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordEntry_S2T() { return STC_WordEntry_S2T; }\n");
     435           1 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordIndex_S2T(sal_Int32& count) { count = STC_WordIndex_S2T_Count; return STC_WordIndex_S2T; }\n");
     436             :     } else {
     437           0 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordEntry_S2T() { return NULL; }\n");
     438           0 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordIndex_S2T(sal_Int32& count) { count = 0; return NULL; }\n");
     439             :     }
     440             : 
     441           1 :     if (count_T2S > 0) {
     442           1 :         qsort(&STC_WordEntry_T2S[0], count_T2S, sizeof(Index), Index_comp);
     443             : 
     444           1 :         fprintf(cfp, "\nstatic const sal_uInt16 STC_WordEntry_T2S[] = {");
     445           1 :         count = 0;
     446           1 :         length = 0;
     447         616 :         for (i = 0; i < count_T2S; i++) {
     448         615 :             if (i % 32 == 0) fprintf(cfp, "\n\t");
     449         615 :             fprintf(cfp, "0x%04x, ", STC_WordEntry_T2S[i].address);
     450         615 :             if (STC_WordEntry_T2S[i].len != length) {
     451          10 :                 length = STC_WordEntry_T2S[i].len;
     452          31 :                 while (count <= length)
     453          11 :                     STC_WordIndex[count++] = sal::static_int_cast<sal_uInt16>(i);
     454             :             }
     455             :         }
     456           1 :         STC_WordIndex[count++] = sal::static_int_cast<sal_uInt16>(i);
     457           1 :         fprintf(cfp, "\n};\n");
     458             : 
     459           1 :         fprintf(cfp, "\nstatic const sal_uInt16 STC_WordIndex_T2S[] = {");
     460          13 :         for (i = 0; i < count; i++) {
     461          12 :             if (i % 16 == 0) fprintf(cfp, "\n\t");
     462          12 :             fprintf(cfp, "0x%04x, ",  STC_WordIndex[i]);
     463             :         }
     464           1 :         fprintf(cfp, "\n};\n");
     465             : 
     466           1 :         fprintf(cfp, "\nstatic sal_Int32 STC_WordIndex_T2S_Count = %ld;\n\n", sal::static_int_cast< long >(length));
     467           1 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordEntry_T2S() { return STC_WordEntry_T2S; }\n");
     468           1 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordIndex_T2S(sal_Int32& count) { count = STC_WordIndex_T2S_Count; return STC_WordIndex_T2S; }\n");
     469             :     } else {
     470           0 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordEntry_T2S() { return NULL; }\n");
     471           0 :         fprintf (cfp, "\tconst sal_uInt16* getSTC_WordIndex_T2S(sal_Int32& count) { count = 0; return NULL; }\n");
     472           1 :     }
     473             : }
     474             : 
     475             : /* vim:set shiftwidth=4 softtabstop=4 expandtab: */

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