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/*
Copyright (c) 1996-2007 Han The Thanh, <thanh@pdftex.org>
This file is part of pdfTeX.
pdfTeX is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
pdfTeX is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with pdfTeX; if not, write to the Free Software Foundation, Inc., 51
Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/*
* NAME
* pkin.c - implementation of readchar()
* DESCRIPTION
* This implementation of readchar() uses parts of the program dvips
* written by Tomas Rokicki--the inventor of the pkformat--(loadfont.c,
* download.c and unpack.c). Dvips in turn is derived from pktype.
* Pktype(TeX) is described in debt in ``The PKtype processor'',
* which is available as pktype.weave as part of the METAFONTware.
* What was needed to implement readchar() is rearranged in pkfile.c to
* get more modularity in the style of MODULA2.
* BUGFIXES
* May 1997: Eric Delaunay <delaunay@lix.polytechnique.fr> reports a
* problem with huge fonts (greater than 1008 DPI). The code for
* handling PK characters in `extended format' was wrongly derived
* from dvips. Made some minor improvements regarding error handling.
* REDESIGN
* Piet Tutelaers
* rcpt@urc.tue.nl
*
* Modified for use with pdftex by Han The Thanh <thanh@fi.muni.cz>.
*/
#include "ptexlib.h"
/*
* Now we have some routines to get stuff from the pk file. pkbyte returns
* the next byte from the pk file.
*/
/*
static FILE *pkfile ;
*/
#define pkfile t3_file
static shalfword pkbyte(void)
{
register shalfword i;
if ((i = xgetc(pkfile)) == EOF)
pdftex_fail("unexpected eof in pk file");
return (i);
}
static integer pkduo(void)
{
register integer i;
i = pkbyte();
if (i > 127)
i -= 256;
i = i * 256 + pkbyte();
return (i);
}
static integer pktrio(void)
{
register integer i;
i = pkbyte();
if (i > 127)
i -= 256;
i = i * 256 + pkbyte();
i = i * 256 + pkbyte();
return (i);
}
static integer pkquad(void)
{
register integer i;
i = pkbyte();
if (i > 127)
i -= 256;
i = i * 256 + pkbyte();
i = i * 256 + pkbyte();
i = i * 256 + pkbyte();
return (i);
}
/*
* The next part is devoted to unpacking the character data.
*/
/*
* We need procedures to get a nybble, bit, and packed word from the
* packed data structure.
*/
static halfword inputbyte, flagbyte;
static halfword bitweight;
static halfword dynf;
static halfword repeatcount;
static shalfword getnyb(void)
{
halfword temp;
if (bitweight == 0) {
bitweight = 16;
inputbyte = pkbyte();
temp = inputbyte >> 4;
} else {
bitweight = 0;
temp = inputbyte & 15;
}
return (temp);
}
static boolean getbit(void)
{
bitweight >>= 1;
if (bitweight == 0) {
inputbyte = pkbyte();
bitweight = 128;
}
return (inputbyte & bitweight);
}
static halfword(*realfunc) (void);
long pk_remainder;
static halfword handlehuge(halfword i, halfword k);
static halfword pkpackednum(void)
{
register halfword i, j;
i = getnyb();
if (i == 0) {
do {
j = getnyb();
i++;
} while (!(j != 0));
if (i > 3) {
/*
* Damn, we got a huge count! We *fake* it by giving an artificially
* large repeat count.
*/
return (handlehuge(i, j));
} else {
while (i > 0) {
j = j * 16 + getnyb();
i--;
}
return (j - 15 + (13 - dynf) * 16 + dynf);
}
} else if (i <= dynf)
return (i);
else if (i < 14)
return ((i - dynf - 1) * 16 + getnyb() + dynf + 1);
else {
if (i == 14)
repeatcount = pkpackednum();
else
repeatcount = 1;
return ((*realfunc) ());
}
}
static halfword rest(void)
{
halfword i;
if (pk_remainder < 0) {
pk_remainder = -pk_remainder;
return (0);
} else if (pk_remainder > 0) {
if (pk_remainder > 4000) {
pk_remainder = 4000 - pk_remainder;
return (4000);
} else {
i = pk_remainder;
pk_remainder = 0;
realfunc = pkpackednum;
return (i);
}
} else {
pdftex_fail("shouldn't happen");
return 0;
/*NOTREACHED*/}
}
static halfword handlehuge(halfword i, halfword k)
{
register long j = k;
while (i) {
j = (j << 4L) + getnyb();
i--;
}
pk_remainder = j - 15 + (13 - dynf) * 16 + dynf;
realfunc = rest;
return (rest());
}
/*
* And now we have our unpacking routine.
*/
static halfword gpower[17] = { 0, 1, 3, 7, 15, 31, 63, 127,
255, 511, 1023, 2047, 4095, 8191, 16383, 32767, 65535
};
static void unpack(chardesc * cd)
{
register integer i, j;
register halfword word, wordweight;
halfword *raster;
shalfword rowsleft;
boolean turnon;
shalfword hbit;
halfword count;
shalfword wordwidth;
wordwidth = (cd->cwidth + 15) / 16;
i = 2 * cd->cheight * (long) wordwidth;
if (i <= 0)
i = 2;
if (i > cd->rastersize) {
xfree(cd->raster);
cd->rastersize = i;
cd->raster = xtalloc(cd->rastersize, halfword);
}
raster = cd->raster;
realfunc = pkpackednum;
dynf = flagbyte / 16;
turnon = flagbyte & 8;
if (dynf == 14) {
bitweight = 0;
for (i = 1; i <= cd->cheight; i++) {
word = 0;
wordweight = 32768;
for (j = 1; j <= cd->cwidth; j++) {
if (getbit())
word += wordweight;
wordweight >>= 1;
if (wordweight == 0) {
*raster++ = word;
word = 0;
wordweight = 32768;
}
}
if (wordweight != 32768)
*raster++ = word;
}
} else {
rowsleft = cd->cheight;
hbit = cd->cwidth;
repeatcount = 0;
wordweight = 16;
word = 0;
bitweight = 0;
while (rowsleft > 0) {
count = (*realfunc) ();
while (count != 0) {
if ((count < wordweight) && (count < hbit)) {
if (turnon)
word += gpower[wordweight] - gpower[wordweight - count];
hbit -= count;
wordweight -= count;
count = 0;
} else if ((count >= hbit) && (hbit <= wordweight)) {
if (turnon)
word += gpower[wordweight] - gpower[wordweight - hbit];
*raster++ = word;
for (i = 1; i <= repeatcount; i++) {
for (j = 1; j <= wordwidth; j++) {
*raster = *(raster - wordwidth);
raster++;
}
}
rowsleft -= repeatcount + 1;
repeatcount = 0;
word = 0;
wordweight = 16;
count -= hbit;
hbit = cd->cwidth;
} else {
if (turnon)
word += gpower[wordweight];
*raster++ = word;
word = 0;
count -= wordweight;
hbit -= wordweight;
wordweight = 16;
}
}
turnon = !turnon;
}
if ((rowsleft != 0) || ((integer) hbit != cd->cwidth))
pdftex_fail("error while unpacking; more bits than required");
}
}
/*
* readchar(): the main routine
* Reads the character definition of character `c' into `cd' if available,
* return FALSE (0) otherwise.
*/
/*
* readchar(): the main routine
* check pk preamble if necessary,
* read the next character definition into `cd',
* return EOF if no character definition is available
*/
int readchar(boolean check_preamble, chardesc * cd)
{
register shalfword i;
register integer k;
register integer length = 0;
/*
* Check the preamble of the pkfile
*/
if (check_preamble) {
if (pkbyte() != 247)
pdftex_fail("bad pk file, expected pre");
if (pkbyte() != 89)
pdftex_fail("bad version of pk file");
for (i = pkbyte(); i > 0; i--) /* creator of pkfile */
(void) pkbyte();
(void) pkquad(); /* design size */
k = pkquad(); /* checksum */
k = pkquad(); /* hppp */
k = pkquad(); /* vppp */
}
/*
* Now we skip to the desired character definition
*/
while ((flagbyte = pkbyte()) != 245) {
if (flagbyte < 240) {
switch (flagbyte & 7) {
case 0:
case 1:
case 2:
case 3:
length = (flagbyte & 7) * 256 + pkbyte() - 3;
cd->charcode = pkbyte();
(void) pktrio(); /* TFMwidth */
cd->xescape = pkbyte(); /* pixel width */
cd->cwidth = pkbyte();
cd->cheight = pkbyte();
cd->xoff = pkbyte();
cd->yoff = pkbyte();
if (cd->xoff > 127)
cd->xoff -= 256;
if (cd->yoff > 127)
cd->yoff -= 256;
break;
case 4:
case 5:
case 6:
length = (flagbyte & 3) * 65536L + pkbyte() * 256L;
length = length + pkbyte() - 4L;
cd->charcode = pkbyte();
(void) pktrio(); /* TFMwidth */
cd->xescape = pkduo(); /* pixelwidth */
cd->cwidth = pkduo();
cd->cheight = pkduo();
cd->xoff = pkduo();
cd->yoff = pkduo();
break;
case 7:
length = pkquad() - 9L;
cd->charcode = pkquad();
(void) pkquad(); /* TFMwidth */
cd->xescape = pkquad(); /* pixelwidth */
k = pkquad();
cd->cwidth = pkquad();
cd->cheight = pkquad();
cd->xoff = pkquad();
cd->yoff = pkquad();
}
if (length <= 0)
pdftex_fail("packet length (%i) too small", (int) length);
unpack(cd);
return 1;
} else {
k = 0;
switch (flagbyte) {
case 243:
k = pkbyte();
if (k > 127)
k -= 256;
case 242:
k = k * 256 + pkbyte();
case 241:
k = k * 256 + pkbyte();
case 240:
k = k * 256 + pkbyte();
while (k-- > 0)
i = pkbyte();
break;
case 244:
k = pkquad();
break;
case 246:
break;
default:
pdftex_fail("unexpected command (%i)", (int) flagbyte);
}
}
}
return 0; /* character not found */
}
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