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/* $XConsortium: t1funcs.c,v 1.10 92/05/12 18:07:55 gildea Exp $ */
/* Copyright International Business Machines,Corp. 1991
* All Rights Reserved
*
* License, subject to the license given below, to use,
* copy, modify, and distribute this software * and its
* documentation for any purpose and without fee is hereby
* granted, provided that the above copyright notice appear
* in all copies and that both that copyright notice and
* this permission notice appear in supporting documentation,
* and that the name of IBM not be used in advertising or
* publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* IBM PROVIDES THIS SOFTWARE "AS IS", WITHOUT ANY WARRANTIES
* OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING, BUT NOT
* LIMITED TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT OF
* THIRD PARTY RIGHTS. THE ENTIRE RISK AS TO THE QUALITY AND
* PERFORMANCE OF THE SOFTWARE, INCLUDING ANY DUTY TO SUPPORT
* OR MAINTAIN, BELONGS TO THE LICENSEE. SHOULD ANY PORTION OF
* THE SOFTWARE PROVE DEFECTIVE, THE LICENSEE (NOT IBM) ASSUMES
* THE ENTIRE COST OF ALL SERVICING, REPAIR AND CORRECTION. IN
* NO EVENT SHALL IBM BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
* FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
* CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
* SOFTWARE.
*
* Author: Jeffrey B. Lotspiech, IBM Almaden Research Center
* Modeled on spfuncs.c by Dave Lemke, Network Computing Devices, Inc
* which contains the following copyright and permission notices:
*
* Copyright 1990, 1991 Network Computing Devices;
* Portions Copyright 1987 by Digital Equipment Corporation and the
* Massachusetts Institute of Technology
*
* Permission to use, copy, modify, and distribute this protoype software
* and its documentation to Members and Affiliates of the MIT X Consortium
* any purpose and without fee is hereby granted, provided
* that the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the names of Network Computing Devices, Digital or
* MIT not be used in advertising or publicity pertaining to distribution of
* the software without specific, written prior permission.
*
* NETWORK COMPUTING DEVICES, DIGITAL AND MIT DISCLAIM ALL WARRANTIES WITH
* REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS, IN NO EVENT SHALL NETWORK COMPUTING DEVICES, DIGITAL OR MIT BE
* LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "types.h"
#include <string.h>
#include "ffilest.h"
#ifdef XSERVER
#include <X11/Xfuncs.h>
#include "FSproto.h"
#endif
#include "t1intf.h"
#include "objects.h"
#include "spaces.h"
#include "regions.h"
#include "t1stdio.h"
#include "util.h"
#include "fontfcn.h"
typedef char *encoding[256];
int Type1OpenScalable(char **ev, struct _Font **ppFont, int flags,
struct _FontEntry *entry, char *fileName,
struct _FontScalable *vals, fsBitmapFormat format,
ULONG fmask, double efactor,double slant);
static int Type1GetGlyphs(struct _Font *pFont, ULONG count,
unsigned char *chars, FontEncoding charEncoding,
ULONG *glyphCount, struct _CharInfo **glyphs );
void Type1CloseFont(struct _Font *pFont);
extern int Type1GetInfoScalable(struct _FontPathElement *fpe,
struct _FontInfo *pInfo,
struct _FontEntry *entry,
struct _FontName *fontName,
char *fileName,
struct _FontScalable *Vals);
static int Type1GetMetrics(struct _Font *pFont, ULONG count,
unsigned char *chars, FontEncoding charEncoding,
ULONG *glyphCount, xCharInfo **glyphs );
static void fillrun(register char *p,pel x0,pel x1,int bit);
extern char * Xalloc(int size);
extern void Xfree(void*);
static void fill(char *dest,int h,int w,struct region *area,
int byte,int bit,int wordsize);
extern Bool fontfcnA(char *env,int *mode);
extern struct region *fontfcnB(struct XYspace *S, unsigned char *code,
int *lenP, int *mode);
extern int FontDefaultFormat(int *bit, int *byte,
int *glyphs, int *scan);
extern int CheckFSFormat(int format,int fmask,int *bit,int *byte,int *scan,int *glyph,int *image);
extern void QueryFontLib(char *env,char *infoName,void *infoValue,int *rcodeP);
extern void T1FillFontInfo(struct _Font *pFont,struct _FontScalable *Vals,char *Filename,char *Fontname);
extern void T1InitStdProps(void);
extern int FontFileRegisterRenderer(FontRendererRec *);
extern psfont *FontP;
extern psobj *ISOLatin1EncArrayP;
#define DECIPOINTSPERINCH 722.7
extern int currentchar; /* for error reporting */
/*ARGSUSED*/
int Type1OpenScalable (ev, ppFont, flags, entry, fileName, vals, format,
fmask, efactor, slant)
encoding ev;
FontPtr *ppFont;
int flags;
FontEntryPtr entry;
char *fileName;
FontScalablePtr vals;
fsBitmapFormat format;
fsBitmapFormatMask fmask;
DOUBLE efactor;
DOUBLE slant;
{
extern struct XYspace *IDENTITY;
FontPtr pFont;
int bit,
byte,
glyph,
scan,
image;
int pad,wordsize; /* scan & image in bits */
int size; /* for memory size calculations */
struct XYspace *S; /* coordinate space for character */
struct region *area;
DOUBLE scale; /* scale factor for font */
DOUBLE txx, tyx, txy, tyy;
CharInfoRec *glyphs;
register int i;
int len,rc;
struct type1font *type1;
char *p;
/* set up default values */
FontDefaultFormat(&bit, &byte, &glyph, &scan);
/* get any changes made from above */
rc = CheckFSFormat(format, fmask, &bit, &byte, &scan, &glyph, &image);
if (rc != Successful)
return rc;
pad = glyph * 8;
wordsize = scan * 8;
#define PAD(bits, pad) (((bits)+(pad)-1)&-(pad))
pFont = (FontPtr) Xalloc(sizeof(FontRec));
if (pFont == NULL)
return AllocError;
type1 = (struct type1font *)Xalloc(sizeof(struct type1font));
if (type1 == NULL) {
Xfree(pFont);
return AllocError;
}
(void) memset(type1, 0, sizeof(struct type1font));
scale = (DOUBLE) vals->pixel;
/* Code added by E. Schenk. July 25, 1992.
* The following code reads the FontMatrix for the font,
* and transforms the font using it. This is necessary
* for fonts that are just an oblique, or extend of
* a normal font.
*/
{ float fontmatrix[6];
int rc;
QueryFontLib(fileName,"FontMatrix",fontmatrix,&rc);
if (!rc) {
S = (struct XYspace *) Transform(IDENTITY,
fontmatrix[0], fontmatrix[1], fontmatrix[2], fontmatrix[3]);
}
else {
S = (struct XYspace *) Scale(IDENTITY,0.001,0.001);
}
}
/* End of additional code */
if (efactor == 1.0 && slant == 0.0)
S = (struct XYspace *)Permanent(Scale(S, scale, - scale));
else {
txx = (DOUBLE)vals->x * efactor * vals->point / DECIPOINTSPERINCH;
tyy = (DOUBLE)vals->y * vals->point / DECIPOINTSPERINCH;
tyx = 0.0;
txy = (DOUBLE)vals->x * slant * vals->point / DECIPOINTSPERINCH;
S = (struct XYspace *) Permanent(Transform(S, txx, tyx, txy, -tyy));
}
glyphs = type1->glyphs;
/* load font if not already loaded */
if (!fontfcnA(fileName, &rc))
return (rc);
for (i=0; i < 256-FIRSTCOL; i++) {
LONG h,w;
LONG paddedW;
if (ev[i] == NULL) continue;
len = strlen(ev[i]);
currentchar = i;
rc = 0;
area = fontfcnB(S, (unsigned char *)ev[i], &len, &rc);
if (rc < 0) {
rc = BadFontName;
break;
}
else if (rc > 0)
continue;
if (area == NULL)
continue;
h = area->ymax - area->ymin;
w = area->xmax - area->xmin;
paddedW = PAD(w, pad);
if (h > 0 && w > 0) {
size = h * paddedW / 8;
glyphs[i].bits = (char *)Xalloc(size);
if (glyphs[i].bits == NULL) {
rc = AllocError;
break;
}
}
else {
h = w = 0;
area->xmin = area->xmax = 0;
area->ymax = area->ymax = 0;
}
glyphs[i].metrics.leftSideBearing = area->xmin;
glyphs[i].metrics.characterWidth = NEARESTPEL(area->ending.x - area->origin.x);
glyphs[i].metrics.rightSideBearing = w + area->xmin;
glyphs[i].metrics.descent = area->ymax - NEARESTPEL(area->origin.y);
glyphs[i].metrics.ascent = h - glyphs[i].metrics.descent;
if (h > 0 && w > 0) {
(void) memset(glyphs[i].bits, 0, size);
fill(glyphs[i].bits, h, paddedW, area, byte, bit, wordsize );
}
Destroy(area);
}
if (i != 256 - FIRSTCOL) {
for (i--; i >= 0; i--)
if (glyphs[i].bits != NULL)
Xfree(glyphs[i].bits);
Xfree(type1);
Xfree(pFont);
return rc;
}
type1->pDefault = NULL;
pFont->format = format;
pFont->bit = bit;
pFont->byte = byte;
pFont->glyph = glyph;
pFont->scan = scan;
pFont->info.firstCol = FIRSTCOL;
pFont->info.lastCol = 255;
pFont->info.firstRow = 0;
pFont->info.lastRow = 0;
pFont->get_metrics = Type1GetMetrics;
pFont->get_glyphs = Type1GetGlyphs;
pFont->unload_font = Type1CloseFont;
pFont->refcnt = 0;
pFont->maxPrivate = -1;
pFont->devPrivates = 0;
pFont->fontPrivate = (unsigned char *) type1;
T1FillFontInfo(pFont, vals, fileName, entry->name.name);
*ppFont = pFont;
return Successful;
}
/* NOTE: ILH removed tests ...->characterWidth != 0 below because zero-width
does not mean the character is empty, simply that it has zero escapement. */
static int
Type1GetGlyphs(pFont, count, chars, charEncoding, glyphCount, glyphs)
FontPtr pFont;
ULONG count;
register unsigned char *chars;
FontEncoding charEncoding;
ULONG *glyphCount; /* RETURN */
CharInfoPtr *glyphs; /* RETURN */
{
unsigned int firstRow;
unsigned int numRows;
CharInfoPtr *glyphsBase;
register unsigned int c;
register CharInfoPtr pci;
unsigned int r;
CharInfoPtr pDefault;
register struct type1font *type1Font;
register int firstCol;
type1Font = (struct type1font *) pFont->fontPrivate;
firstCol = pFont->info.firstCol;
pDefault = type1Font->pDefault;
glyphsBase = glyphs;
switch (charEncoding) {
case Linear8Bit:
case TwoD8Bit:
if (pFont->info.firstRow > 0)
break;
while (count--) {
c = (*chars++);
if (c >= firstCol)
*glyphs++ = &type1Font->glyphs[c-firstCol];
else if (pDefault)
*glyphs++ = pDefault;
}
break;
case Linear16Bit:
while (count--) {
c = *chars++ << 8;
c = (c | *chars++);
if (c < 256 && c >= firstCol)
*glyphs++ = &type1Font->glyphs[c-firstCol];
else if (pDefault)
*glyphs++ = pDefault;
}
break;
case TwoD16Bit:
firstRow = pFont->info.firstRow;
numRows = pFont->info.lastRow - firstRow + 1;
while (count--) {
r = (*chars++) - firstRow;
c = (*chars++);
if (r < numRows && c < 256 && c >= firstCol)
*glyphs++ = &type1Font->glyphs[(r << 8) + c - firstCol];
else if (pDefault)
*glyphs++ = pDefault;
}
break;
}
*glyphCount = glyphs - glyphsBase;
return Successful;
}
static int
Type1GetMetrics(pFont, count, chars, charEncoding, glyphCount, glyphs)
FontPtr pFont;
ULONG count;
register unsigned char *chars;
FontEncoding charEncoding;
ULONG *glyphCount; /* RETURN */
xCharInfo **glyphs; /* RETURN */
{
static CharInfoRec nonExistantChar;
int ret;
struct type1font *type1Font;
CharInfoPtr oldDefault;
type1Font = (struct type1font *) pFont->fontPrivate;
oldDefault = type1Font->pDefault;
type1Font->pDefault = &nonExistantChar;
ret = Type1GetGlyphs(pFont, count, chars, charEncoding, glyphCount, (CharInfoPtr *) glyphs);
type1Font->pDefault = oldDefault;
return ret;
}
void Type1CloseFont(pFont)
FontPtr pFont;
{
register int i;
struct type1font *type1;
type1 = (struct type1font *) pFont->fontPrivate;
for (i=0; i < 256 - pFont->info.firstCol; i++)
if (type1->glyphs[i].bits != NULL)
Xfree(type1->glyphs[i].bits);
Xfree(type1);
if (pFont->info.props)
Xfree(pFont->info.props);
if (pFont->info.isStringProp)
Xfree(pFont->info.isStringProp);
Xfree(pFont);
}
static void fill(dest, h, w, area, Byte, bit, wordsize)
register char *dest; /* destination bitmap */
int h,w; /* dimensions of 'dest', w padded */
register struct region *area; /* region to write to 'dest' */
int Byte,bit; /* flags; LSBFirst or MSBFirst */
int wordsize; /* number of bits per word for LSB/MSB purposes */
{
register struct edgelist *edge; /* for looping through edges */
register char *p; /* current scan line in 'dest' */
register int y; /* for looping through scans */
register int wbytes = w / 8; /* number of bytes in width */
register pel *leftP,*rightP; /* pointers to X values, left and right */
int xmin = area->xmin; /* upper left X */
int ymin = area->ymin; /* upper left Y */
for (edge = area->anchor; VALIDEDGE(edge); edge = edge->link->link) {
p = dest + (edge->ymin - ymin) * wbytes;
leftP = edge->xvalues;
rightP = edge->link->xvalues;
for (y = edge->ymin; y < edge->ymax; y++) {
fillrun(p, *leftP++ - xmin, *rightP++ - xmin, bit);
p += wbytes;
}
}
/*
Now, as an afterthought, we'll go reorganize if odd byte order requires
it:
*/
if (Byte == LSBFirst && wordsize != 8) {
register int i;
switch (wordsize) {
case 16:
{
register unsigned short data,*p;
p = (unsigned short *) dest;
for (i = h * w /16; --i >= 0;) {
data = *p;
*p++ = (data << 8) + (data >> 8);
}
break;
}
case 64:
case 32:
{
register ULONG data,*p;
p = (ULONG *) dest;
for (i = h * w / 32; --i >= 0;) {
data = *p;
*p++ = (data << 24) + (data >> 24)
+ (0xFF00 & (data >> 8))
+ (0xFF0000 & (data << 8));
}
if (wordsize == 64) {
p = (ULONG *) dest;
for (i = h * w / 64; --i >= 0;) {
data = *p++;
p[-1] = p[0];
*p++ = data;
}
}
break;
}
default:
t1_abort("xiFill: unknown format");
}
}
}
#define ALLONES 0xFF
static void fillrun(register char *p, pel x0, pel x1, int bit)
{
register int startmask,endmask; /* bits to set in first and last char*/
register int middle; /* number of chars between start and end + 1 */
if (x1 <= x0)
return;
middle = x1/8 - x0/8;
p += x0/8;
x0 &= 7; x1 &= 7;
if (bit == LSBFirst) {
startmask = ALLONES << x0;
endmask = ~(ALLONES << x1);
}
else {
startmask = ALLONES >> x0;
endmask = ~(ALLONES >> x1);
}
if (middle == 0)
*p++ |= startmask & endmask;
else {
*p++ |= startmask;
while (--middle > 0)
*p++ = ALLONES;
*p |= endmask;
}
}
static FontRendererRec renderers[] = {
{ ".pfa", 4, (int (*)()) 0, Type1OpenScalable,
(int (*)()) 0, Type1GetInfoScalable, 0 },
{ ".pfb", 4, (int (*)()) 0, Type1OpenScalable,
(int (*)()) 0, Type1GetInfoScalable, 0 }
};
Type1RegisterFontFileFunctions()
{
int i;
T1InitStdProps();
for (i=0; i < sizeof(renderers) / sizeof(FontRendererRec); i++)
FontFileRegisterRenderer(&renderers[i]);
}
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