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1303 | /*
* (C) 1988, 1989, 1990 by Adobe Systems Incorporated. All rights reserved.
*
* This file may be freely copied and redistributed as long as:
* 1) This entire notice continues to be included in the file,
* 2) If the file has been modified in any way, a notice of such
* modification is conspicuously indicated.
*
* PostScript, Display PostScript, and Adobe are registered trademarks of
* Adobe Systems Incorporated.
*
* ************************************************************************
* THE INFORMATION BELOW IS FURNISHED AS IS, IS SUBJECT TO CHANGE WITHOUT
* NOTICE, AND SHOULD NOT BE CONSTRUED AS A COMMITMENT BY ADOBE SYSTEMS
* INCORPORATED. ADOBE SYSTEMS INCORPORATED ASSUMES NO RESPONSIBILITY OR
* LIABILITY FOR ANY ERRORS OR INACCURACIES, MAKES NO WARRANTY OF ANY
* KIND (EXPRESS, IMPLIED OR STATUTORY) WITH RESPECT TO THIS INFORMATION,
* AND EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR PARTICULAR PURPOSES AND NONINFRINGEMENT OF THIRD PARTY RIGHTS.
* ************************************************************************
*/
/*
* modified for MDVI:
* - some names changed to avoid conflicts with T1lib
* - changed to ANSI C prototypes, as used by MDVI
* mal - 3/01
*/
/* parseAFM.c
*
* This file is used in conjuction with the parseAFM.h header file.
* This file contains several procedures that are used to parse AFM
* files. It is intended to work with an application program that needs
* font metric information. The program can be used as is by making a
* procedure call to "parseFile" (passing in the expected parameters)
* and having it fill in a data structure with the data from the
* AFM file, or an application developer may wish to customize this
* code.
*
* There is also a file, parseAFMclient.c, that is a sample application
* showing how to call the "parseFile" procedure and how to use the data
* after "parseFile" has returned.
*
* Please read the comments in parseAFM.h and parseAFMclient.c.
*
* History:
* original: DSM Thu Oct 20 17:39:59 PDT 1988
* modified: DSM Mon Jul 3 14:17:50 PDT 1989
* - added 'storageProblem' return code
* - fixed bug of not allocating extra byte for string duplication
* - fixed typos
* modified: DSM Tue Apr 3 11:18:34 PDT 1990
* - added free(ident) at end of parseFile routine
* modified: DSM Tue Jun 19 10:16:29 PDT 1990
* - changed (width == 250) to (width = 250) in initializeArray
*/
#include <config.h>
#include "sysdeps.h"
#ifdef WITH_AFM_FILES
#include <stdlib.h> /* added for MDVI */
#include <string.h> /* added for MDVI */
#include <stdio.h>
#include <errno.h>
#include <sys/file.h>
#include <math.h>
#include "afmparse.h"
#undef VERSION
#define lineterm EOL /* line terminating character */
#define normalEOF 1 /* return code from parsing routines used only */
/* in this module */
#define Space "space" /* used in string comparison to look for the width */
/* of the space character to init the widths array */
#define False "false" /* used in string comparison to check the value of */
/* boolean keys (e.g. IsFixedPitch) */
#define MATCH(A,B) (strncmp((A),(B), MAX_NAME) == 0)
/*************************** GLOBALS ***********************/
static char *ident = NULL; /* storage buffer for keywords */
/* "shorts" for fast case statement
* The values of each of these enumerated items correspond to an entry in the
* table of strings defined below. Therefore, if you add a new string as
* new keyword into the keyStrings table, you must also add a corresponding
* parseKey AND it MUST be in the same position!
*
* IMPORTANT: since the sorting algorithm is a binary search, the strings of
* keywords must be placed in lexicographical order, below. [Therefore, the
* enumerated items are not necessarily in lexicographical order, depending
* on the name chosen. BUT, they must be placed in the same position as the
* corresponding key string.] The NOPE shall remain in the last position,
* since it does not correspond to any key string, and it is used in the
* "recognize" procedure to calculate how many possible keys there are.
*/
enum parseKey {
ASCENDER, CHARBBOX, CODE, COMPCHAR, CAPHEIGHT, COMMENT,
DESCENDER, ENCODINGSCHEME, ENDCHARMETRICS, ENDCOMPOSITES,
ENDFONTMETRICS, ENDKERNDATA, ENDKERNPAIRS, ENDTRACKKERN,
FAMILYNAME, FONTBBOX, FONTNAME, FULLNAME, ISFIXEDPITCH,
ITALICANGLE, KERNPAIR, KERNPAIRXAMT, LIGATURE, CHARNAME,
NOTICE, COMPCHARPIECE, STARTCHARMETRICS, STARTCOMPOSITES,
STARTFONTMETRICS, STARTKERNDATA, STARTKERNPAIRS,
STARTTRACKKERN, TRACKKERN, UNDERLINEPOSITION,
UNDERLINETHICKNESS, VERSION, XYWIDTH, XWIDTH, WEIGHT, XHEIGHT,
NOPE } ;
/* keywords for the system:
* This a table of all of the current strings that are vaild AFM keys.
* Each entry can be referenced by the appropriate parseKey value (an
* enumerated data type defined above). If you add a new keyword here,
* a corresponding parseKey MUST be added to the enumerated data type
* defined above, AND it MUST be added in the same position as the
* string is in this table.
*
* IMPORTANT: since the sorting algorithm is a binary search, the keywords
* must be placed in lexicographical order. And, NULL should remain at the
* end.
*/
static char *keyStrings[] = {
"Ascender", "B", "C", "CC", "CapHeight", "Comment",
"Descender", "EncodingScheme", "EndCharMetrics", "EndComposites",
"EndFontMetrics", "EndKernData", "EndKernPairs", "EndTrackKern",
"FamilyName", "FontBBox", "FontName", "FullName", "IsFixedPitch",
"ItalicAngle", "KP", "KPX", "L", "N",
"Notice", "PCC", "StartCharMetrics", "StartComposites",
"StartFontMetrics", "StartKernData", "StartKernPairs",
"StartTrackKern", "TrackKern", "UnderlinePosition",
"UnderlineThickness", "Version", "W", "WX", "Weight", "XHeight",
NULL };
/*************************** PARSING ROUTINES **************/
/*************************** token *************************/
/* A "AFM File Conventions" tokenizer. That means that it will
* return the next token delimited by white space. See also
* the `linetoken' routine, which does a similar thing but
* reads all tokens until the next end-of-line.
*/
static char *token(FILE *stream)
{
int ch, idx;
/* skip over white space */
while ((ch = fgetc(stream)) == ' ' || ch == lineterm ||
ch == ',' || ch == '\t' || ch == ';');
idx = 0;
while (ch != EOF && ch != ' ' && ch != lineterm
&& ch != '\t' && ch != ':' && ch != ';' && idx < (MAX_NAME - 1))
{
ident[idx++] = ch;
ch = fgetc(stream);
} /* while */
if (ch == EOF && idx < 1) return ((char *)NULL);
if (idx >= 1 && ch != ':' ) ungetc(ch, stream);
if (idx < 1 ) ident[idx++] = ch; /* single-character token */
ident[idx] = 0;
return(ident); /* returns pointer to the token */
} /* token */
/*************************** linetoken *************************/
/* "linetoken" will get read all tokens until the EOL character from
* the given stream. This is used to get any arguments that can be
* more than one word (like Comment lines and FullName).
*/
static char *linetoken(FILE *stream)
{
int ch, idx;
while ((ch = fgetc(stream)) == ' ' || ch == '\t' );
idx = 0;
while (ch != EOF && ch != lineterm && idx < (MAX_NAME - 1))
{
ident[idx++] = ch;
ch = fgetc(stream);
} /* while */
ungetc(ch, stream);
ident[idx] = 0;
return(ident); /* returns pointer to the token */
} /* linetoken */
/*************************** recognize *************************/
/* This function tries to match a string to a known list of
* valid AFM entries (check the keyStrings array above).
* "ident" contains everything from white space through the
* next space, tab, or ":" character.
*
* The algorithm is a standard Knuth binary search.
*/
static enum parseKey recognize(char *ident)
{
int lower = 0, upper = (int) NOPE, midpoint, cmpvalue;
BOOL found = FALSE;
while ((upper >= lower) && !found)
{
midpoint = (lower + upper)/2;
if (keyStrings[midpoint] == NULL) break;
cmpvalue = strncmp(ident, keyStrings[midpoint], MAX_NAME);
if (cmpvalue == 0) found = TRUE;
else if (cmpvalue < 0) upper = midpoint - 1;
else lower = midpoint + 1;
} /* while */
if (found) return (enum parseKey) midpoint;
else return NOPE;
} /* recognize */
/************************* parseGlobals *****************************/
/* This function is called by "parseFile". It will parse the AFM File
* up to the "StartCharMetrics" keyword, which essentially marks the
* end of the Global Font Information and the beginning of the character
* metrics information.
*
* If the caller of "parseFile" specified that it wanted the Global
* Font Information (as defined by the "AFM File Specification"
* document), then that information will be stored in the returned
* data structure.
*
* Any Global Font Information entries that are not found in a
* given file, will have the usual default initialization value
* for its type (i.e. entries of type int will be 0, etc).
*
* This function returns an error code specifying whether there was
* a premature EOF or a parsing error. This return value is used by
* parseFile to determine if there is more file to parse.
*/
static BOOL parseGlobals(FILE *fp, GlobalFontInfo *gfi)
{
BOOL cont = TRUE, save = (gfi != NULL);
int error = ok;
register char *keyword;
while (cont)
{
keyword = token(fp);
if (keyword == NULL)
/* Have reached an early and unexpected EOF. */
/* Set flag and stop parsing */
{
error = earlyEOF;
break; /* get out of loop */
}
if (!save)
/* get tokens until the end of the Global Font info section */
/* without saving any of the data */
switch (recognize(keyword))
{
case STARTCHARMETRICS:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
default:
break;
} /* switch */
else
/* otherwise parse entire global font info section, */
/* saving the data */
switch(recognize(keyword))
{
case STARTFONTMETRICS:
keyword = token(fp);
gfi->afmVersion = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->afmVersion, keyword);
break;
case COMMENT:
keyword = linetoken(fp);
break;
case FONTNAME:
keyword = token(fp);
gfi->fontName = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->fontName, keyword);
break;
case ENCODINGSCHEME:
keyword = token(fp);
gfi->encodingScheme = (char *)
malloc(strlen(keyword) + 1);
strcpy(gfi->encodingScheme, keyword);
break;
case FULLNAME:
keyword = linetoken(fp);
gfi->fullName = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->fullName, keyword);
break;
case FAMILYNAME:
keyword = linetoken(fp);
gfi->familyName = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->familyName, keyword);
break;
case WEIGHT:
keyword = token(fp);
gfi->weight = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->weight, keyword);
break;
case ITALICANGLE:
keyword = token(fp);
gfi->italicAngle = atof(keyword);
if (errno == ERANGE) error = parseError;
break;
case ISFIXEDPITCH:
keyword = token(fp);
if (MATCH(keyword, False))
gfi->isFixedPitch = 0;
else
gfi->isFixedPitch = 1;
break;
case UNDERLINEPOSITION:
keyword = token(fp);
gfi->underlinePosition = atoi(keyword);
break;
case UNDERLINETHICKNESS:
keyword = token(fp);
gfi->underlineThickness = atoi(keyword);
break;
case VERSION:
keyword = token(fp);
gfi->version = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->version, keyword);
break;
case NOTICE:
keyword = linetoken(fp);
gfi->notice = (char *) malloc(strlen(keyword) + 1);
strcpy(gfi->notice, keyword);
break;
case FONTBBOX:
keyword = token(fp);
gfi->fontBBox.llx = atoi(keyword);
keyword = token(fp);
gfi->fontBBox.lly = atoi(keyword);
keyword = token(fp);
gfi->fontBBox.urx = atoi(keyword);
keyword = token(fp);
gfi->fontBBox.ury = atoi(keyword);
break;
case CAPHEIGHT:
keyword = token(fp);
gfi->capHeight = atoi(keyword);
break;
case XHEIGHT:
keyword = token(fp);
gfi->xHeight = atoi(keyword);
break;
case DESCENDER:
keyword = token(fp);
gfi->descender = atoi(keyword);
break;
case ASCENDER:
keyword = token(fp);
gfi->ascender = atoi(keyword);
break;
case STARTCHARMETRICS:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
return(error);
} /* parseGlobals */
#if 0 /* this function does not seem to be used anywhere */
/************************* initializeArray ************************/
/* Unmapped character codes are (at Adobe Systems) assigned the
* width of the space character (if one exists) else they get the
* value of 250 ems. This function initializes all entries in the
* char widths array to have this value. Then any mapped character
* codes will be replaced with the width of the appropriate character
* when parsing the character metric section.
* This function parses the Character Metrics Section looking
* for a space character (by comparing character names). If found,
* the width of the space character will be used to initialize the
* values in the array of character widths.
*
* Before returning, the position of the read/write pointer of the
* file is reset to be where it was upon entering this function.
*/
static int initializeArray(FILE *fp, int *cwi)
{
BOOL cont = TRUE, found = FALSE;
long opos = ftell(fp);
int code = 0, width = 0, i = 0, error = 0;
register char *keyword;
while (cont)
{
keyword = token(fp);
if (keyword == NULL)
{
error = earlyEOF;
break; /* get out of loop */
}
switch(recognize(keyword))
{
case COMMENT:
keyword = linetoken(fp);
break;
case CODE:
code = atoi(token(fp));
break;
case XWIDTH:
width = atoi(token(fp));
break;
case CHARNAME:
keyword = token(fp);
if (MATCH(keyword, Space))
{
cont = FALSE;
found = TRUE;
}
break;
case ENDCHARMETRICS:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
if (!found)
width = 250;
for (i = 0; i < 256; ++i)
cwi[i] = width;
fseek(fp, opos, 0);
return(error);
} /* initializeArray */
#endif /* unused */
/************************* parseCharWidths **************************/
/* This function is called by "parseFile". It will parse the AFM File
* up to the "EndCharMetrics" keyword. It will save the character
* width info (as opposed to all of the character metric information)
* if requested by the caller of parseFile. Otherwise, it will just
* parse through the section without saving any information.
*
* If data is to be saved, parseCharWidths is passed in a pointer
* to an array of widths that has already been initialized by the
* standard value for unmapped character codes. This function parses
* the Character Metrics section only storing the width information
* for the encoded characters into the array using the character code
* as the index into that array.
*
* This function returns an error code specifying whether there was
* a premature EOF or a parsing error. This return value is used by
* parseFile to determine if there is more file to parse.
*/
static int parseCharWidths(FILE *fp, int *cwi)
{
BOOL cont = TRUE, save = (cwi != NULL);
int pos = 0, error = ok;
register char *keyword;
while (cont)
{
keyword = token(fp);
/* Have reached an early and unexpected EOF. */
/* Set flag and stop parsing */
if (keyword == NULL)
{
error = earlyEOF;
break; /* get out of loop */
}
if (!save)
/* get tokens until the end of the Char Metrics section without */
/* saving any of the data*/
switch (recognize(keyword))
{
case ENDCHARMETRICS:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
default:
break;
} /* switch */
else
/* otherwise parse entire char metrics section, saving */
/* only the char x-width info */
switch(recognize(keyword))
{
case COMMENT:
keyword = linetoken(fp);
break;
case CODE:
keyword = token(fp);
pos = atoi(keyword);
break;
case XYWIDTH:
/* PROBLEM: Should be no Y-WIDTH when doing "quick & dirty" */
keyword = token(fp); keyword = token(fp); /* eat values */
error = parseError;
break;
case XWIDTH:
keyword = token(fp);
if (pos >= 0) /* ignore unmapped chars */
cwi[pos] = atoi(keyword);
break;
case ENDCHARMETRICS:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case CHARNAME: /* eat values (so doesn't cause parseError) */
keyword = token(fp);
break;
case CHARBBOX:
keyword = token(fp); keyword = token(fp);
keyword = token(fp); keyword = token(fp);
break;
case LIGATURE:
keyword = token(fp); keyword = token(fp);
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
return(error);
} /* parseCharWidths */
/************************* parseCharMetrics ************************/
/* This function is called by parseFile if the caller of parseFile
* requested that all character metric information be saved
* (as opposed to only the character width information).
*
* parseCharMetrics is passed in a pointer to an array of records
* to hold information on a per character basis. This function
* parses the Character Metrics section storing all character
* metric information for the ALL characters (mapped and unmapped)
* into the array.
*
* This function returns an error code specifying whether there was
* a premature EOF or a parsing error. This return value is used by
* parseFile to determine if there is more file to parse.
*/
static int parseCharMetrics(FILE *fp, FontInfo *fi)
{
BOOL cont = TRUE, firstTime = TRUE;
int error = ok, count = 0;
register CharMetricInfo *temp = fi->cmi;
register char *keyword;
while (cont)
{
keyword = token(fp);
if (keyword == NULL)
{
error = earlyEOF;
break; /* get out of loop */
}
switch(recognize(keyword))
{
case COMMENT:
keyword = linetoken(fp);
break;
case CODE:
if (count < fi->numOfChars)
{
if (firstTime) firstTime = FALSE;
else temp++;
temp->code = atoi(token(fp));
count++;
}
else
{
error = parseError;
cont = FALSE;
}
break;
case XYWIDTH:
temp->wx = atoi(token(fp));
temp->wy = atoi(token(fp));
break;
case XWIDTH:
temp->wx = atoi(token(fp));
break;
case CHARNAME:
keyword = token(fp);
temp->name = (char *) malloc(strlen(keyword) + 1);
strcpy(temp->name, keyword);
break;
case CHARBBOX:
temp->charBBox.llx = atoi(token(fp));
temp->charBBox.lly = atoi(token(fp));
temp->charBBox.urx = atoi(token(fp));
temp->charBBox.ury = atoi(token(fp));
break;
case LIGATURE: {
Ligature **tail = &(temp->ligs);
Ligature *node = *tail;
if (*tail != NULL)
{
while (node->next != NULL)
node = node->next;
tail = &(node->next);
}
*tail = (Ligature *) calloc(1, sizeof(Ligature));
keyword = token(fp);
(*tail)->succ = (char *) malloc(strlen(keyword) + 1);
strcpy((*tail)->succ, keyword);
keyword = token(fp);
(*tail)->lig = (char *) malloc(strlen(keyword) + 1);
strcpy((*tail)->lig, keyword);
break; }
case ENDCHARMETRICS:
cont = FALSE;;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
if ((error == ok) && (count != fi->numOfChars))
error = parseError;
return(error);
} /* parseCharMetrics */
/************************* parseTrackKernData ***********************/
/* This function is called by "parseFile". It will parse the AFM File
* up to the "EndTrackKern" or "EndKernData" keywords. It will save the
* track kerning data if requested by the caller of parseFile.
*
* parseTrackKernData is passed in a pointer to the FontInfo record.
* If data is to be saved, the FontInfo record will already contain
* a valid pointer to storage for the track kerning data.
*
* This function returns an error code specifying whether there was
* a premature EOF or a parsing error. This return value is used by
* parseFile to determine if there is more file to parse.
*/
static int parseTrackKernData(FILE *fp, FontInfo *fi)
{
BOOL cont = TRUE, save = (fi->tkd != NULL);
int pos = 0, error = ok, tcount = 0;
register char *keyword;
while (cont)
{
keyword = token(fp);
if (keyword == NULL)
{
error = earlyEOF;
break; /* get out of loop */
}
if (!save)
/* get tokens until the end of the Track Kerning Data */
/* section without saving any of the data */
switch(recognize(keyword))
{
case ENDTRACKKERN:
case ENDKERNDATA:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
default:
break;
} /* switch */
else
/* otherwise parse entire Track Kerning Data section, */
/* saving the data */
switch(recognize(keyword))
{
case COMMENT:
keyword = linetoken(fp);
break;
case TRACKKERN:
if (tcount < fi->numOfTracks)
{
keyword = token(fp);
fi->tkd[pos].degree = atoi(keyword);
keyword = token(fp);
fi->tkd[pos].minPtSize = atof(keyword);
if (errno == ERANGE) error = parseError;
keyword = token(fp);
fi->tkd[pos].minKernAmt = atof(keyword);
if (errno == ERANGE) error = parseError;
keyword = token(fp);
fi->tkd[pos].maxPtSize = atof(keyword);
if (errno == ERANGE) error = parseError;
keyword = token(fp);
fi->tkd[pos++].maxKernAmt = atof(keyword);
if (errno == ERANGE) error = parseError;
tcount++;
}
else
{
error = parseError;
cont = FALSE;
}
break;
case ENDTRACKKERN:
case ENDKERNDATA:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
if (error == ok && tcount != fi->numOfTracks)
error = parseError;
return(error);
} /* parseTrackKernData */
/************************* parsePairKernData ************************/
/* This function is called by "parseFile". It will parse the AFM File
* up to the "EndKernPairs" or "EndKernData" keywords. It will save
* the pair kerning data if requested by the caller of parseFile.
*
* parsePairKernData is passed in a pointer to the FontInfo record.
* If data is to be saved, the FontInfo record will already contain
* a valid pointer to storage for the pair kerning data.
*
* This function returns an error code specifying whether there was
* a premature EOF or a parsing error. This return value is used by
* parseFile to determine if there is more file to parse.
*/
static int parsePairKernData(FILE *fp, FontInfo *fi)
{
BOOL cont = TRUE, save = (fi->pkd != NULL);
int pos = 0, error = ok, pcount = 0;
register char *keyword;
while (cont)
{
keyword = token(fp);
if (keyword == NULL)
{
error = earlyEOF;
break; /* get out of loop */
}
if (!save)
/* get tokens until the end of the Pair Kerning Data */
/* section without saving any of the data */
switch(recognize(keyword))
{
case ENDKERNPAIRS:
case ENDKERNDATA:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
default:
break;
} /* switch */
else
/* otherwise parse entire Pair Kerning Data section, */
/* saving the data */
switch(recognize(keyword))
{
case COMMENT:
keyword = linetoken(fp);
break;
case KERNPAIR:
if (pcount < fi->numOfPairs)
{
keyword = token(fp);
fi->pkd[pos].name1 = (char *)
malloc(strlen(keyword) + 1);
strcpy(fi->pkd[pos].name1, keyword);
keyword = token(fp);
fi->pkd[pos].name2 = (char *)
malloc(strlen(keyword) + 1);
strcpy(fi->pkd[pos].name2, keyword);
keyword = token(fp);
fi->pkd[pos].xamt = atoi(keyword);
keyword = token(fp);
fi->pkd[pos++].yamt = atoi(keyword);
pcount++;
}
else
{
error = parseError;
cont = FALSE;
}
break;
case KERNPAIRXAMT:
if (pcount < fi->numOfPairs)
{
keyword = token(fp);
fi->pkd[pos].name1 = (char *)
malloc(strlen(keyword) + 1);
strcpy(fi->pkd[pos].name1, keyword);
keyword = token(fp);
fi->pkd[pos].name2 = (char *)
malloc(strlen(keyword) + 1);
strcpy(fi->pkd[pos].name2, keyword);
keyword = token(fp);
fi->pkd[pos++].xamt = atoi(keyword);
pcount++;
}
else
{
error = parseError;
cont = FALSE;
}
break;
case ENDKERNPAIRS:
case ENDKERNDATA:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
if (error == ok && pcount != fi->numOfPairs)
error = parseError;
return(error);
} /* parsePairKernData */
/************************* parseCompCharData **************************/
/* This function is called by "parseFile". It will parse the AFM File
* up to the "EndComposites" keyword. It will save the composite
* character data if requested by the caller of parseFile.
*
* parseCompCharData is passed in a pointer to the FontInfo record, and
* a boolean representing if the data should be saved.
*
* This function will create the appropriate amount of storage for
* the composite character data and store a pointer to the storage
* in the FontInfo record.
*
* This function returns an error code specifying whether there was
* a premature EOF or a parsing error. This return value is used by
* parseFile to determine if there is more file to parse.
*/
static int parseCompCharData(FILE *fp, FontInfo *fi)
{
BOOL cont = TRUE, firstTime = TRUE, save = (fi->ccd != NULL);
int pos = 0, j = 0, error = ok, ccount = 0, pcount = 0;
register char *keyword;
while (cont)
{
keyword = token(fp);
if (keyword == NULL)
/* Have reached an early and unexpected EOF. */
/* Set flag and stop parsing */
{
error = earlyEOF;
break; /* get out of loop */
}
if (ccount > fi->numOfComps)
{
error = parseError;
break; /* get out of loop */
}
if (!save)
/* get tokens until the end of the Composite Character info */
/* section without saving any of the data */
switch(recognize(keyword))
{
case ENDCOMPOSITES:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
default:
break;
} /* switch */
else
/* otherwise parse entire Composite Character info section, */
/* saving the data */
switch(recognize(keyword))
{
case COMMENT:
keyword = linetoken(fp);
break;
case COMPCHAR:
if (ccount < fi->numOfComps)
{
keyword = token(fp);
if (pcount != fi->ccd[pos].numOfPieces)
error = parseError;
pcount = 0;
if (firstTime) firstTime = FALSE;
else pos++;
fi->ccd[pos].ccName = (char *)
malloc(strlen(keyword) + 1);
strcpy(fi->ccd[pos].ccName, keyword);
keyword = token(fp);
fi->ccd[pos].numOfPieces = atoi(keyword);
fi->ccd[pos].pieces = (Pcc *)
calloc(fi->ccd[pos].numOfPieces, sizeof(Pcc));
j = 0;
ccount++;
}
else
{
error = parseError;
cont = FALSE;
}
break;
case COMPCHARPIECE:
if (pcount < fi->ccd[pos].numOfPieces)
{
keyword = token(fp);
fi->ccd[pos].pieces[j].pccName = (char *)
malloc(strlen(keyword) + 1);
strcpy(fi->ccd[pos].pieces[j].pccName, keyword);
keyword = token(fp);
fi->ccd[pos].pieces[j].deltax = atoi(keyword);
keyword = token(fp);
fi->ccd[pos].pieces[j++].deltay = atoi(keyword);
pcount++;
}
else
error = parseError;
break;
case ENDCOMPOSITES:
cont = FALSE;
break;
case ENDFONTMETRICS:
cont = FALSE;
error = normalEOF;
break;
case NOPE:
default:
error = parseError;
break;
} /* switch */
} /* while */
if (error == ok && ccount != fi->numOfComps)
error = parseError;
return(error);
} /* parseCompCharData */
/*************************** 'PUBLIC' FUNCTION ********************/
/*************************** parseFile *****************************/
/* parseFile is the only 'public' procedure available. It is called
* from an application wishing to get information from an AFM file.
* The caller of this function is responsible for locating and opening
* an AFM file and handling all errors associated with that task.
*
* parseFile expects 3 parameters: a vaild file pointer, a pointer
* to a (FontInfo *) variable (for which storage will be allocated and
* the data requested filled in), and a mask specifying which
* data from the AFM File should be saved in the FontInfo structure.
*
* The file will be parsed and the requested data will be stored in
* a record of type FontInfo (refer to ParseAFM.h).
*
* parseFile returns an error code as defined in parseAFM.h.
*
* The position of the read/write pointer associated with the file
* pointer upon return of this function is undefined.
*/
extern int afm_parse_file(FILE *fp, FontInfo **fi, FLAGS flags)
{
int code = ok; /* return code from each of the parsing routines */
int error = ok; /* used as the return code from this function */
register char *keyword; /* used to store a token */
/* storage data for the global variable ident */
ident = (char *) calloc(MAX_NAME, sizeof(char));
if (ident == NULL) {error = storageProblem; return(error);}
(*fi) = (FontInfo *) calloc(1, sizeof(FontInfo));
if ((*fi) == NULL) {error = storageProblem; return(error);}
if (flags & P_G)
{
(*fi)->gfi = (GlobalFontInfo *) calloc(1, sizeof(GlobalFontInfo));
if ((*fi)->gfi == NULL) {error = storageProblem; return(error);}
}
/* The AFM File begins with Global Font Information. This section */
/* will be parsed whether or not information should be saved. */
code = parseGlobals(fp, (*fi)->gfi);
if (code < 0) error = code;
/* The Global Font Information is followed by the Character Metrics */
/* section. Which procedure is used to parse this section depends on */
/* how much information should be saved. If all of the metrics info */
/* is wanted, parseCharMetrics is called. If only the character widths */
/* is wanted, parseCharWidths is called. parseCharWidths will also */
/* be called in the case that no character data is to be saved, just */
/* to parse through the section. */
if ((code != normalEOF) && (code != earlyEOF))
{
(*fi)->numOfChars = atoi(token(fp));
if (flags & (P_M ^ P_W))
{
(*fi)->cmi = (CharMetricInfo *)
calloc((*fi)->numOfChars, sizeof(CharMetricInfo));
if ((*fi)->cmi == NULL) {error = storageProblem; return(error);}
code = parseCharMetrics(fp, *fi);
}
else
{
if (flags & P_W)
{
(*fi)->cwi = (int *) calloc(256, sizeof(int));
if ((*fi)->cwi == NULL)
{
error = storageProblem;
return(error);
}
}
/* parse section regardless */
code = parseCharWidths(fp, (*fi)->cwi);
} /* else */
} /* if */
if ((error != earlyEOF) && (code < 0)) error = code;
/* The remaining sections of the AFM are optional. This code will */
/* look at the next keyword in the file to determine what section */
/* is next, and then allocate the appropriate amount of storage */
/* for the data (if the data is to be saved) and call the */
/* appropriate parsing routine to parse the section. */
while ((code != normalEOF) && (code != earlyEOF))
{
keyword = token(fp);
if (keyword == NULL)
/* Have reached an early and unexpected EOF. */
/* Set flag and stop parsing */
{
code = earlyEOF;
break; /* get out of loop */
}
switch(recognize(keyword))
{
case STARTKERNDATA:
break;
case ENDKERNDATA:
break;
case STARTTRACKKERN:
keyword = token(fp);
if (flags & P_T)
{
(*fi)->numOfTracks = atoi(keyword);
(*fi)->tkd = (TrackKernData *)
calloc((*fi)->numOfTracks, sizeof(TrackKernData));
if ((*fi)->tkd == NULL)
{
error = storageProblem;
return(error);
}
} /* if */
code = parseTrackKernData(fp, *fi);
break;
case STARTKERNPAIRS:
keyword = token(fp);
if (flags & P_P)
{
(*fi)->numOfPairs = atoi(keyword);
(*fi)->pkd = (PairKernData *)
calloc((*fi)->numOfPairs, sizeof(PairKernData));
if ((*fi)->pkd == NULL)
{
error = storageProblem;
return(error);
}
} /* if */
code = parsePairKernData(fp, *fi);
break;
case STARTCOMPOSITES:
keyword = token(fp);
if (flags & P_C)
{
(*fi)->numOfComps = atoi(keyword);
(*fi)->ccd = (CompCharData *)
calloc((*fi)->numOfComps, sizeof(CompCharData));
if ((*fi)->ccd == NULL)
{
error = storageProblem;
return(error);
}
} /* if */
code = parseCompCharData(fp, *fi);
break;
case ENDFONTMETRICS:
code = normalEOF;
break;
case NOPE:
default:
code = parseError;
break;
} /* switch */
if ((error != earlyEOF) && (code < 0)) error = code;
} /* while */
if ((error != earlyEOF) && (code < 0)) error = code;
if (ident != NULL) { free(ident); ident = NULL; }
return(error);
} /* parseFile */
/* added for MDVI: this function was copied from `parseAFMclient.c' */
void afm_free_fontinfo(FontInfo *fi)
{
if (fi != NULL)
{
if (fi->gfi != NULL)
{
free(fi->gfi->afmVersion); fi->gfi->afmVersion = NULL;
free(fi->gfi->fontName); fi->gfi->fontName = NULL;
free(fi->gfi->fullName); fi->gfi->fullName = NULL;
free(fi->gfi->familyName); fi->gfi->familyName = NULL;
free(fi->gfi->weight); fi->gfi->weight = NULL;
free(fi->gfi->version); fi->gfi->version = NULL;
free(fi->gfi->notice); fi->gfi->notice = NULL;
free(fi->gfi->encodingScheme); fi->gfi->encodingScheme = NULL;
free(fi->gfi); fi->gfi = NULL;
}
if (fi->cwi != NULL)
{ free(fi->cwi); fi->cwi = NULL; }
if (fi->cmi != NULL)
{
int i = 0;
CharMetricInfo *temp = fi->cmi;
Ligature *node = temp->ligs;
for (i = 0; i < fi->numOfChars; ++i)
{
for (node = temp->ligs; node != NULL; node = node->next)
{
free(node->succ); node->succ = NULL;
free(node->lig); node->lig = NULL;
}
free(temp->name); temp->name = NULL;
temp++;
}
free(fi->cmi); fi->cmi = NULL;
}
if (fi->tkd != NULL)
{ free(fi->tkd); fi->tkd = NULL; }
if (fi->pkd != NULL)
{
free(fi->pkd->name1); fi->pkd->name1 = NULL;
free(fi->pkd->name2); fi->pkd->name2 = NULL;
free(fi->pkd); fi->pkd = NULL;
}
if (fi->ccd != NULL)
{
int i = 0, j = 0;
CompCharData *ccd = fi->ccd;
for (i = 0; i < fi->numOfComps; ++i)
{
for (j = 0; j < ccd[i].numOfPieces; ++j)
{
free(ccd[i].pieces[j].pccName);
ccd[i].pieces[j].pccName = NULL;
}
free(ccd[i].ccName); ccd[i].ccName = NULL;
}
free(fi->ccd); fi->ccd = NULL;
}
free(fi);
} /* if */
} /* afm_free_fontinfo */
#endif /* WITH_AFM_FILES */
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