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|
/*
* Copyright 1990 Network Computing Devices
*
* Permission to use, copy, modify, distribute, and sell this software and
* its documentation for any purpose is hereby granted without fee, 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 Network Computing Devices not be used
* in advertising or publicity pertaining to distribution of the software
* without specific, written prior permission. Network Computing Devices
* makes no representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
*
* NETWORK COMPUTING DEVICES DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS
* SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS,
* IN NO EVENT SHALL NETWORK COMPUTING DEVICES 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: Dave Lemke, Network Computing Devices, Inc
*/
/*
* FS data conversion
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <X11/X.h>
#include <X11/Xtrans/Xtrans.h>
#include <X11/Xpoll.h>
#include <X11/fonts/FS.h>
#include <X11/fonts/FSproto.h>
#include <X11/fonts/fontmisc.h>
#include <X11/fonts/fontstruct.h>
#include "fservestr.h"
#include <X11/fonts/fontutil.h>
#include "fslibos.h"
extern char _fs_glyph_undefined;
extern char _fs_glyph_requested;
/*
* converts data from font server form to X server form
*/
void
_fs_convert_char_info(fsXCharInfo *src, xCharInfo *dst)
{
dst->ascent = src->ascent;
dst->descent = src->descent;
dst->leftSideBearing = src->left;
dst->rightSideBearing = src->right;
dst->characterWidth = src->width;
dst->attributes = src->attributes;
}
void
_fs_init_fontinfo(FSFpePtr conn, FontInfoPtr pfi)
{
if (conn->fsMajorVersion == 1) {
unsigned short n;
n = pfi->firstCol;
pfi->firstCol = pfi->firstRow;
pfi->firstRow = n;
n = pfi->lastCol;
pfi->lastCol = pfi->lastRow;
pfi->lastRow = n;
pfi->defaultCh = ((pfi->defaultCh >> 8) & 0xff)
+ ((pfi->defaultCh & 0xff) << 8);
}
if (FontCouldBeTerminal (pfi))
{
pfi->terminalFont = TRUE;
pfi->minbounds.ascent = pfi->fontAscent;
pfi->minbounds.descent = pfi->fontDescent;
pfi->minbounds.leftSideBearing = 0;
pfi->minbounds.rightSideBearing = pfi->minbounds.characterWidth;
pfi->maxbounds = pfi->minbounds;
}
FontComputeInfoAccelerators (pfi);
}
int
_fs_convert_props(fsPropInfo *pi, fsPropOffset *po, pointer pd,
FontInfoPtr pfi)
{
FontPropPtr dprop;
int i,
nprops;
char *is_str;
fsPropOffset local_off;
char *off_adr;
char *pdc = pd;
/* stolen from server/include/resource.h */
#define BAD_RESOURCE 0xe0000000
nprops = pfi->nprops = pi->num_offsets;
if (nprops < 0
|| nprops > SIZE_MAX/(sizeof(FontPropRec) + sizeof(char)))
return -1;
dprop = malloc(sizeof(FontPropRec) * nprops + sizeof (char) * nprops);
if (!dprop)
return -1;
is_str = (char *) (dprop + nprops);
pfi->props = dprop;
pfi->isStringProp = is_str;
off_adr = (char *)po;
for (i = 0; i < nprops; i++, dprop++, is_str++)
{
memcpy(&local_off, off_adr, SIZEOF(fsPropOffset));
if ((local_off.name.position >= pi->data_len) ||
(local_off.name.length >
(pi->data_len - local_off.name.position)))
goto bail;
dprop->name = MakeAtom(&pdc[local_off.name.position],
local_off.name.length, 1);
if (local_off.type != PropTypeString) {
*is_str = FALSE;
dprop->value = local_off.value.position;
} else {
*is_str = TRUE;
if ((local_off.value.position >= pi->data_len) ||
(local_off.value.length >
(pi->data_len - local_off.value.position)))
goto bail;
dprop->value = (INT32) MakeAtom(&pdc[local_off.value.position],
local_off.value.length, 1);
if (dprop->value == BAD_RESOURCE)
{
bail:
free (pfi->props);
pfi->nprops = 0;
pfi->props = 0;
pfi->isStringProp = 0;
return -1;
}
}
off_adr += SIZEOF(fsPropOffset);
}
return nprops;
}
void
_fs_free_props (FontInfoPtr pfi)
{
if (pfi->props)
{
free (pfi->props);
pfi->nprops = 0;
pfi->props = 0;
}
}
int
_fs_convert_lfwi_reply(FSFpePtr conn, FontInfoPtr pfi,
fsListFontsWithXInfoReply *fsrep,
fsPropInfo *pi, fsPropOffset *po, pointer pd)
{
fsUnpack_XFontInfoHeader(fsrep, pfi);
_fs_init_fontinfo(conn, pfi);
if (_fs_convert_props(pi, po, pd, pfi) == -1)
return AllocError;
return Successful;
}
#define ENCODING_UNDEFINED(enc) \
((enc)->bits == &_fs_glyph_undefined ? \
TRUE : \
(access_done = access_done && (enc)->bits != &_fs_glyph_requested, \
FALSE))
#define GLYPH_UNDEFINED(loc) ENCODING_UNDEFINED(encoding + (loc))
/*
* figures out what glyphs to request
*
* Includes logic to attempt to reduce number of round trips to the font
* server: when a glyph is requested, fs_build_range() requests a
* 16-glyph range of glyphs that contains the requested glyph. This is
* predicated on the belief that using a glyph increases the chances
* that nearby glyphs will be used: a good assumption for phonetic
* alphabets, but a questionable one for ideographic/pictographic ones.
*/
/* ARGSUSED */
int
fs_build_range(FontPtr pfont, Bool range_flag, unsigned int count,
int item_size, unsigned char *data, int *nranges,
fsRange **ranges)
{
FSFontDataPtr fsd = (FSFontDataPtr) (pfont->fpePrivate);
FSFontPtr fsfont = (FSFontPtr) (pfont->fontPrivate);
register CharInfoPtr encoding = fsfont->encoding;
FontInfoPtr pfi = &(pfont->info);
fsRange range;
int access_done = TRUE;
int err;
register unsigned long firstrow, lastrow, firstcol, lastcol;
register unsigned long row;
register unsigned long col;
register unsigned long loc;
if (!fsd->glyphs_to_get)
return AccessDone;
firstrow = pfi->firstRow;
lastrow = pfi->lastRow;
firstcol = pfi->firstCol;
lastcol = pfi->lastCol;
/* Make sure we have default char */
if (fsfont->pDefault && ENCODING_UNDEFINED(fsfont->pDefault))
{
loc = fsfont->pDefault - encoding;
row = loc / (lastcol - firstcol + 1) + firstrow;
col = loc % (lastcol - firstcol + 1) + firstcol;
range.min_char_low = range.max_char_low = col;
range.min_char_high = range.max_char_high = row;
if ((err = add_range(&range, nranges, ranges, FALSE)) !=
Successful) return err;
encoding[loc].bits = &_fs_glyph_requested;
access_done = FALSE;
}
if (!range_flag && item_size == 1)
{
if (firstrow != 0) return AccessDone;
while (count--)
{
col = *data++;
if (col >= firstcol && col <= lastcol &&
GLYPH_UNDEFINED(col - firstcol))
{
int col1, col2;
col1 = col & 0xf0;
col2 = col1 + 15;
if (col1 < firstcol) col1 = firstcol;
if (col2 > lastcol) col2 = lastcol;
/* Collect a 16-glyph neighborhood containing the requested
glyph... should in most cases reduce the number of round
trips to the font server. */
for (col = col1; col <= col2; col++)
{
if (!GLYPH_UNDEFINED(col - firstcol)) continue;
range.min_char_low = range.max_char_low = col;
range.min_char_high = range.max_char_high = 0;
if ((err = add_range(&range, nranges, ranges, FALSE)) !=
Successful) return err;
encoding[col - firstcol].bits = &_fs_glyph_requested;
access_done = FALSE;
}
}
}
}
else
{
fsRange fullrange[1];
if (range_flag && count == 0)
{
count = 2;
data = (unsigned char *)fullrange;
fullrange[0].min_char_high = firstrow;
fullrange[0].min_char_low = firstcol;
fullrange[0].max_char_high = lastrow;
fullrange[0].max_char_low = lastcol;
}
while (count--)
{
int row1, col1, row2, col2;
row1 = row2 = *data++;
col1 = col2 = *data++;
if (range_flag)
{
if (count)
{
row2 = *data++;
col2 = *data++;
count--;
}
else
{
row2 = lastrow;
col2 = lastcol;
}
if (row1 < firstrow) row1 = firstrow;
if (row2 > lastrow) row2 = lastrow;
if (col1 < firstcol) col1 = firstcol;
if (col2 > lastcol) col2 = lastcol;
}
else
{
if (row1 < firstrow || row1 > lastrow ||
col1 < firstcol || col1 > lastcol)
continue;
}
for (row = row1; row <= row2; row++)
{
expand_glyph_range: ;
loc = (row - firstrow) * (lastcol + 1 - firstcol) +
(col1 - firstcol);
for (col = col1; col <= col2; col++, loc++)
{
if (GLYPH_UNDEFINED(loc))
{
if (row1 == row2 &&
(((col1 & 0xf) && col1 > firstcol) ||
(col2 & 0xf) != 0xf) && (col2 < lastcol))
{
/* If we're loading from a single row, expand
range of glyphs loaded to a multiple of
a 16-glyph range -- attempt to reduce number
of round trips to the font server. */
col1 &= 0xf0;
col2 = (col2 & 0xf0) + 15;
if (col1 < firstcol) col1 = firstcol;
if (col2 > lastcol) col2 = lastcol;
goto expand_glyph_range;
}
range.min_char_low = range.max_char_low = col;
range.min_char_high = range.max_char_high = row;
if ((err = add_range(&range, nranges, ranges, FALSE)) !=
Successful) return err;
encoding[loc].bits = &_fs_glyph_requested;
access_done = FALSE;
}
}
}
}
}
return access_done ?
AccessDone :
Successful;
}
#undef GLYPH_UNDEFINED
#undef ENCODING_UNDEFINED
/* _fs_clean_aborted_loadglyphs(): Undoes the changes to the encoding array
performed by fs_build_range(); for use if the associated LoadGlyphs
requests needs to be cancelled. */
void
_fs_clean_aborted_loadglyphs(FontPtr pfont, int num_expected_ranges,
fsRange *expected_ranges)
{
register FSFontPtr fsfont;
register int i;
fsfont = (FSFontPtr) pfont->fontPrivate;
if (fsfont->encoding)
{
fsRange full_range[1];
if (!num_expected_ranges)
{
full_range[0].min_char_low = pfont->info.firstCol;
full_range[0].min_char_high = pfont->info.firstRow;
full_range[0].max_char_low = pfont->info.lastCol;
full_range[0].max_char_high = pfont->info.lastRow;
num_expected_ranges = 1;
expected_ranges = full_range;
}
for (i = 0; i < num_expected_ranges; i++)
{
int row, col;
for (row = expected_ranges[i].min_char_high;
row <= expected_ranges[i].max_char_high;
row++)
{
register CharInfoPtr encoding = fsfont->encoding +
((row - pfont->info.firstRow) *
(pfont->info.lastCol -
pfont->info.firstCol + 1) +
expected_ranges[i].min_char_low -
pfont->info.firstCol);
for (col = expected_ranges[i].min_char_low;
col <= expected_ranges[i].max_char_low;
encoding++, col++)
{
if (encoding->bits == &_fs_glyph_requested)
encoding->bits = &_fs_glyph_undefined;
}
}
}
}
}
static int
_fs_get_glyphs(FontPtr pFont, unsigned long count, unsigned char *chars,
FontEncoding charEncoding,
unsigned long *glyphCount, /* RETURN */
CharInfoPtr *glyphs) /* RETURN */
{
FSFontPtr fsdata;
unsigned int firstCol;
register unsigned int numCols;
unsigned int firstRow;
unsigned int numRows;
CharInfoPtr *glyphsBase;
register unsigned int c;
register CharInfoPtr pci;
unsigned int r;
CharInfoPtr encoding;
CharInfoPtr pDefault;
FSFontDataPtr fsd = (FSFontDataPtr) pFont->fpePrivate;
int err = Successful;
fsdata = (FSFontPtr) pFont->fontPrivate;
encoding = fsdata->encoding;
pDefault = fsdata->pDefault;
firstCol = pFont->info.firstCol;
numCols = pFont->info.lastCol - firstCol + 1;
glyphsBase = glyphs;
/* In this age of glyph caching, any glyphs gotten through this
procedure should already be loaded. If they are not, we are
dealing with someone (perhaps a ddx driver optimizing a font)
that doesn't understand the finer points of glyph caching. The
CHECK_ENCODING macro checks for this condition... if found, it
calls fs_load_all_glyphs(), which corrects it. Since the caller
of this code will not know how to handle a return value of
Suspended, the fs_load_all_glyphs() procedure will block and
freeze the server until the load operation is done. Moral: the
glyphCachingMode flag really must indicate the capabilities of
the ddx drivers. */
#define CHECK_ENCODING(cnum) \
( pci = encoding + (cnum), \
fsd->glyphs_to_get ? \
( pci->bits == &_fs_glyph_undefined || pci->bits == &_fs_glyph_requested ? \
((err = fs_load_all_glyphs(pFont)), pci) : \
pci ) : \
pci )
switch (charEncoding) {
case Linear8Bit:
case TwoD8Bit:
if (pFont->info.firstRow > 0)
break;
if (pFont->info.allExist && pDefault) {
while (err == Successful && count--) {
c = (*chars++) - firstCol;
if (c < numCols)
*glyphs++ = CHECK_ENCODING(c);
else
*glyphs++ = pDefault;
}
} else {
while (err == Successful && count--) {
c = (*chars++) - firstCol;
if (c < numCols && CHECK_ENCODING(c)->bits)
*glyphs++ = pci;
else if (pDefault)
*glyphs++ = pDefault;
}
}
break;
case Linear16Bit:
if (pFont->info.allExist && pDefault) {
while (err == Successful && count--) {
c = *chars++ << 8;
c = (c | *chars++) - firstCol;
if (c < numCols)
*glyphs++ = CHECK_ENCODING(c);
else
*glyphs++ = pDefault;
}
} else {
while (err == Successful && count--) {
c = *chars++ << 8;
c = (c | *chars++) - firstCol;
if (c < numCols && CHECK_ENCODING(c)->bits)
*glyphs++ = pci;
else if (pDefault)
*glyphs++ = pDefault;
}
}
break;
case TwoD16Bit:
firstRow = pFont->info.firstRow;
numRows = pFont->info.lastRow - firstRow + 1;
while (err == Successful && count--) {
r = (*chars++) - firstRow;
c = (*chars++) - firstCol;
if (r < numRows && c < numCols &&
CHECK_ENCODING(r * numCols + c)->bits)
*glyphs++ = pci;
else if (pDefault)
*glyphs++ = pDefault;
}
break;
}
*glyphCount = glyphs - glyphsBase;
return err;
}
static int
_fs_get_metrics(FontPtr pFont, unsigned long count, unsigned char *chars,
FontEncoding charEncoding,
unsigned long *glyphCount, /* RETURN */
xCharInfo **glyphs) /* RETURN */
{
FSFontPtr fsdata;
unsigned int firstCol;
register unsigned int numCols;
unsigned int firstRow;
unsigned int numRows;
xCharInfo **glyphsBase;
register unsigned int c;
unsigned int r;
CharInfoPtr encoding;
CharInfoPtr pDefault;
fsdata = (FSFontPtr) pFont->fontPrivate;
encoding = fsdata->inkMetrics;
pDefault = fsdata->pDefault;
/* convert default bitmap metric to default ink metric */
if (pDefault)
pDefault = encoding + (pDefault - fsdata->encoding);
firstCol = pFont->info.firstCol;
numCols = pFont->info.lastCol - firstCol + 1;
glyphsBase = glyphs;
/* XXX - this should be much smarter */
/* make sure the glyphs are there */
switch (charEncoding) {
case Linear8Bit:
case TwoD8Bit:
if (pFont->info.firstRow > 0)
break;
if (pFont->info.allExist && pDefault) {
while (count--) {
c = (*chars++) - firstCol;
if (c < numCols)
*glyphs++ = (xCharInfo *)&encoding[c];
else
*glyphs++ = (xCharInfo *)pDefault;
}
} else {
while (count--) {
c = (*chars++) - firstCol;
if (c < numCols)
*glyphs++ = (xCharInfo *)(encoding + c);
else if (pDefault)
*glyphs++ = (xCharInfo *)pDefault;
}
}
break;
case Linear16Bit:
if (pFont->info.allExist && pDefault) {
while (count--) {
c = *chars++ << 8;
c = (c | *chars++) - firstCol;
if (c < numCols)
*glyphs++ = (xCharInfo *)(encoding + c);
else
*glyphs++ = (xCharInfo *)pDefault;
}
} else {
while (count--) {
c = *chars++ << 8;
c = (c | *chars++) - firstCol;
if (c < numCols)
*glyphs++ = (xCharInfo *)(encoding + c);
else if (pDefault)
*glyphs++ = (xCharInfo *)pDefault;
}
}
break;
case TwoD16Bit:
firstRow = pFont->info.firstRow;
numRows = pFont->info.lastRow - firstRow + 1;
while (count--) {
r = (*chars++) - firstRow;
c = (*chars++) - firstCol;
if (r < numRows && c < numCols)
*glyphs++ = (xCharInfo *)(encoding + (r * numCols + c));
else if (pDefault)
*glyphs++ = (xCharInfo *)pDefault;
}
break;
}
*glyphCount = glyphs - glyphsBase;
return Successful;
}
static void
_fs_unload_font(FontPtr pfont)
{
FSFontPtr fsdata = (FSFontPtr) pfont->fontPrivate;
FSFontDataPtr fsd = (FSFontDataPtr) pfont->fpePrivate;
CharInfoPtr encoding = fsdata->encoding;
FSGlyphPtr glyphs;
/*
* fsdata points at FSFontRec, FSFontDataRec and name
*/
if (encoding)
free(encoding);
while ((glyphs = fsdata->glyphs))
{
fsdata->glyphs = glyphs->next;
free (glyphs);
}
/* XXX we may get called after the resource DB has been cleaned out */
if (find_old_font(fsd->fontid))
DeleteFontClientID (fsd->fontid);
_fs_free_props (&pfont->info);
free(fsdata);
DestroyFontRec(pfont);
}
FontPtr
fs_create_font (FontPathElementPtr fpe,
const char *name,
int namelen,
fsBitmapFormat format,
fsBitmapFormatMask fmask)
{
FontPtr pfont;
FSFontPtr fsfont;
FSFontDataPtr fsd;
int bit, byte, scan, glyph;
pfont = CreateFontRec ();
if (!pfont)
return 0;
fsfont = malloc (sizeof (FSFontRec) + sizeof (FSFontDataRec) + namelen + 1);
if (!fsfont)
{
DestroyFontRec (pfont);
return 0;
}
fsd = (FSFontDataPtr) (fsfont + 1);
bzero((char *) fsfont, sizeof(FSFontRec));
bzero((char *) fsd, sizeof(FSFontDataRec));
pfont->fpe = fpe;
pfont->fontPrivate = (pointer) fsfont;
pfont->fpePrivate = (pointer) fsd;
/* These font components will be needed in packGlyphs */
CheckFSFormat(format, BitmapFormatMaskBit |
BitmapFormatMaskByte |
BitmapFormatMaskScanLineUnit |
BitmapFormatMaskScanLinePad,
&bit,
&byte,
&scan,
&glyph,
NULL);
pfont->format = format;
pfont->bit = bit;
pfont->byte = byte;
pfont->scan = scan;
pfont->glyph = glyph;
pfont->info.nprops = 0;
pfont->info.props = 0;
pfont->info.isStringProp = 0;
/* set font function pointers */
pfont->get_glyphs = _fs_get_glyphs;
pfont->get_metrics = _fs_get_metrics;
pfont->unload_font = _fs_unload_font;
pfont->unload_glyphs = NULL;
/* set the FPE private information */
fsd->format = format;
fsd->fmask = fmask;
fsd->name = (char *) (fsd + 1);
memcpy (fsd->name, name, namelen);
fsd->name[namelen] = '\0';
fsd->fontid = GetNewFontClientID ();
/* save the ID */
if (!StoreFontClientFont(pfont, fsd->fontid))
{
free (fsfont);
DestroyFontRec (pfont);
return 0;
}
return pfont;
}
pointer
fs_alloc_glyphs (FontPtr pFont, int size)
{
FSGlyphPtr glyphs;
FSFontPtr fsfont = (FSFontPtr) pFont->fontPrivate;
if (size < (INT_MAX - sizeof (FSGlyphRec)))
glyphs = malloc (sizeof (FSGlyphRec) + size);
else
glyphs = NULL;
if (glyphs == NULL)
return NULL;
glyphs->next = fsfont->glyphs;
fsfont->glyphs = glyphs;
return (pointer) (glyphs + 1);
}
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