ref: 9944e16b16ab7eaa517a2c1eacffb2b936f51e45
dir: /sys/src/cmd/aux/antiword/fonts_u.c/
/* * fonts_u.c * Copyright (C) 1999-2004 A.J. van Os; Released under GNU GPL * * Description: * Functions to deal with fonts (Unix version) */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include "antiword.h" #include "fontinfo.h" /* Don't use fonts, just plain text */ static BOOL bUsePlainText = TRUE; /* Which character set should be used */ static encoding_type eEncoding = encoding_neutral; /* * pOpenFontTableFile - open the Font translation file * * Returns the file pointer or NULL */ FILE * pOpenFontTableFile(void) { FILE *pFile; const char *szHome, *szAntiword, *szGlobalFile; char szEnvironmentFile[PATH_MAX+1]; char szLocalFile[PATH_MAX+1]; szEnvironmentFile[0] = '\0'; szLocalFile[0] = '\0'; /* Try the environment version of the fontnames file */ szAntiword = szGetAntiwordDirectory(); if (szAntiword != NULL && szAntiword[0] != '\0') { if (strlen(szAntiword) + sizeof(FILE_SEPARATOR FONTNAMES_FILE) >= sizeof(szEnvironmentFile)) { werr(0, "The name of your ANTIWORDHOME directory is too long"); return NULL; } sprintf(szEnvironmentFile, "%s%s", szAntiword, FILE_SEPARATOR FONTNAMES_FILE); DBG_MSG(szEnvironmentFile); pFile = fopen(szEnvironmentFile, "r"); if (pFile != NULL) { return pFile; } } /* Try the local version of the fontnames file */ szHome = szGetHomeDirectory(); if (strlen(szHome) + sizeof(FILE_SEPARATOR ANTIWORD_DIR FILE_SEPARATOR FONTNAMES_FILE) >= sizeof(szLocalFile)) { werr(0, "The name of your HOME directory is too long"); return NULL; } sprintf(szLocalFile, "%s%s", szHome, FILE_SEPARATOR ANTIWORD_DIR FILE_SEPARATOR FONTNAMES_FILE); DBG_MSG(szLocalFile); pFile = fopen(szLocalFile, "r"); if (pFile != NULL) { return pFile; } /* Try the global version of the fontnames file */ szGlobalFile = GLOBAL_ANTIWORD_DIR FILE_SEPARATOR FONTNAMES_FILE; DBG_MSG(szGlobalFile); pFile = fopen(szGlobalFile, "r"); if (pFile != NULL) { return pFile; } if (szEnvironmentFile[0] != '\0') { werr(0, "I can not open your fontnames file.\n" "Neither '%s' nor\n" "'%s' nor\n" "'%s' can be opened for reading.", szEnvironmentFile, szLocalFile, szGlobalFile); } else { werr(0, "I can not open your fontnames file.\n" "Neither '%s' nor\n" "'%s' can be opened for reading.", szLocalFile, szGlobalFile); } return NULL; } /* end of pOpenFontTableFile */ /* * vCloseFont - close the current font, if any */ void vCloseFont(void) { NO_DBG_MSG("vCloseFont"); /* For safety: to be overwritten at the next call of tOpenfont() */ eEncoding = encoding_neutral; bUsePlainText = TRUE; } /* end of vCloseFont */ /* * tOpenFont - make the specified font the current font * * Returns the font reference number */ drawfile_fontref tOpenFont(UCHAR ucWordFontNumber, USHORT usFontStyle, USHORT usWordFontSize) { options_type tOptions; const char *szOurFontname; size_t tIndex; int iFontnumber; NO_DBG_MSG("tOpenFont"); NO_DBG_DEC(ucWordFontNumber); NO_DBG_HEX(usFontStyle); NO_DBG_DEC(usWordFontSize); /* Keep the relevant bits */ usFontStyle &= FONT_BOLD|FONT_ITALIC; NO_DBG_HEX(usFontStyle); vGetOptions(&tOptions); eEncoding = tOptions.eEncoding; bUsePlainText = tOptions.eConversionType != conversion_draw && tOptions.eConversionType != conversion_ps && tOptions.eConversionType != conversion_pdf; if (bUsePlainText) { /* Plain text, no fonts */ return (drawfile_fontref)0; } iFontnumber = iGetFontByNumber(ucWordFontNumber, usFontStyle); szOurFontname = szGetOurFontname(iFontnumber); if (szOurFontname == NULL || szOurFontname[0] == '\0') { DBG_DEC(iFontnumber); return (drawfile_fontref)0; } NO_DBG_MSG(szOurFontname); for (tIndex = 0; tIndex < elementsof(szFontnames); tIndex++) { if (STREQ(szFontnames[tIndex], szOurFontname)) { NO_DBG_DEC(tIndex); return (drawfile_fontref)tIndex; } } return (drawfile_fontref)0; } /* end of tOpenFont */ /* * tOpenTableFont - make the table font the current font * * Returns the font reference number */ drawfile_fontref tOpenTableFont(USHORT usWordFontSize) { options_type tOptions; int iWordFontnumber; NO_DBG_MSG("tOpenTableFont"); vGetOptions(&tOptions); eEncoding = tOptions.eEncoding; bUsePlainText = tOptions.eConversionType != conversion_draw && tOptions.eConversionType != conversion_ps && tOptions.eConversionType != conversion_pdf; if (bUsePlainText) { /* Plain text, no fonts */ return (drawfile_fontref)0; } iWordFontnumber = iFontname2Fontnumber(TABLE_FONT, FONT_REGULAR); if (iWordFontnumber < 0 || iWordFontnumber > (int)UCHAR_MAX) { DBG_DEC(iWordFontnumber); return (drawfile_fontref)0; } return tOpenFont((UCHAR)iWordFontnumber, FONT_REGULAR, usWordFontSize); } /* end of tOpenTableFont */ /* * szGetFontname - get the fontname */ const char * szGetFontname(drawfile_fontref tFontRef) { fail((size_t)(UCHAR)tFontRef >= elementsof(szFontnames)); return szFontnames[(int)(UCHAR)tFontRef]; } /* end of szGetFontname */ /* * lComputeStringWidth - compute the string width * * Note: the fontsize is specified in half-points! * the stringlength is specified in bytes, not characters! * * Returns the string width in millipoints */ long lComputeStringWidth(const char *szString, size_t tStringLength, drawfile_fontref tFontRef, USHORT usFontSize) { USHORT *ausCharWidths; UCHAR *pucChar; long lRelWidth; size_t tIndex; int iFontRef; fail(szString == NULL); fail(usFontSize < MIN_FONT_SIZE || usFontSize > MAX_FONT_SIZE); if (szString[0] == '\0' || tStringLength == 0) { /* Empty string */ return 0; } if (eEncoding == encoding_utf_8) { fail(!bUsePlainText); return lChar2MilliPoints( utf8_strwidth(szString, tStringLength)); } if (bUsePlainText) { /* No current font, use "systemfont" */ return lChar2MilliPoints(tStringLength); } if (eEncoding == encoding_cyrillic) { /* FIXME: until the character tables are available */ return (tStringLength * 600L * (long)usFontSize + 1) / 2; } DBG_DEC_C(eEncoding != encoding_latin_1 && eEncoding != encoding_latin_2, eEncoding); fail(eEncoding != encoding_latin_1 && eEncoding != encoding_latin_2); /* Compute the relative string width */ iFontRef = (int)(UCHAR)tFontRef; if (eEncoding == encoding_latin_2) { ausCharWidths = ausCharacterWidths2[iFontRef]; } else { ausCharWidths = ausCharacterWidths1[iFontRef]; } lRelWidth = 0; for (tIndex = 0, pucChar = (UCHAR *)szString; tIndex < tStringLength; tIndex++, pucChar++) { lRelWidth += (long)ausCharWidths[(int)*pucChar]; } /* Compute the absolute string width */ return (lRelWidth * (long)usFontSize + 1) / 2; } /* end of lComputeStringWidth */ /* * tCountColumns - count the number of columns in a string * * Note: the length is specified in bytes! * A UTF-8 a character can be 0, 1 or 2 columns wide. * * Returns the number of columns */ size_t tCountColumns(const char *szString, size_t tLength) { fail(szString == NULL); if (eEncoding != encoding_utf_8) { /* One byte, one character, one column */ return tLength; } return (size_t)utf8_strwidth(szString, tLength); } /* end of tCountColumns */ /* * tGetCharacterLength - the length of the specified character in bytes * * Returns the length in bytes */ size_t tGetCharacterLength(const char *szString) { fail(szString == NULL); if (eEncoding != encoding_utf_8) { return 1; } return (size_t)utf8_chrlength(szString); } /* end of tGetCharacterLength */