#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifdef WITH_GIF
#include <stdio.h>
#include <math.h>
#include <string.h>
#include <stdlib.h>
#include "gd.h"
#define TRUE 1
#define FALSE 0
/* Code drawn from ppmtogif.c, from the pbmplus package
**
** Based on GIFENCOD by David Rowley <[email protected]>. A
** Lempel-Zim compression based on "compress".
**
** Modified by Marcel Wijkstra <[email protected]>
**
** Copyright (C) 1989 by Jef Poskanzer.
**
** Permission 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. This software is provided "as is" without express or
** implied warranty.
**
** The Graphics Interchange Format(c) is the Copyright property of
** CompuServe Incorporated. GIF(sm) is a Service Mark property of
** CompuServe Incorporated.
*
* Heavily modified by Mouse, 1998-02-12.
* Remove LZW compression.
* Added miGIF run length compression.
*
*/
/*
* a code_int must be able to hold 2**GIFBITS values of type int, and also -1
*/
typedef int code_int;
static int colorstobpp(int colors);
static void BumpPixel (void);
static int GIFNextPixel (gdImagePtr im);
static void GIFEncode (gdIOCtx *ctx, int GWidth, int GHeight, int GInterlace, int Background, int Transparent, int BitsPerPixel, int *Red, int *Green, int *Blue, gdImagePtr im);
static void compress (int, gdIOCtx *, gdImagePtr, int);
static void output (code_int code);
/* Allows for reuse */
static void init_statics(void);
void gdImageGif(gdImagePtr im, FILE *outFile)
{
gdIOCtx *out = gdNewFileCtx(outFile);
gdImageGifCtx(im, out);
out->gd_free(out);
}
void* gdImageGifPtr(gdImagePtr im, int *size)
{
void *rv;
gdIOCtx *out = gdNewDynamicCtx(2048, NULL);
gdImageGifCtx(im, out);
rv = gdDPExtractData(out, size);
out->gd_free(out);
return rv;
}
void gdImageGifCtx(gdImagePtr im, gdIOCtx *out)
{
int interlace, transparent, BitsPerPixel;
interlace = im->interlace;
transparent = im->transparent;
BitsPerPixel = colorstobpp(im->colorsTotal);
/* Clear any old values in statics strewn through the GIF code */
init_statics();
/* All set, let's do it. */
GIFEncode(
out, im->sx, im->sy, interlace, 0, transparent, BitsPerPixel,
im->red, im->green, im->blue, im);
}
static int
colorstobpp(int colors)
{
int bpp = 0;
if ( colors <= 2 )
bpp = 1;
else if ( colors <= 4 )
bpp = 2;
else if ( colors <= 8 )
bpp = 3;
else if ( colors <= 16 )
bpp = 4;
else if ( colors <= 32 )
bpp = 5;
else if ( colors <= 64 )
bpp = 6;
else if ( colors <= 128 )
bpp = 7;
else if ( colors <= 256 )
bpp = 8;
return bpp;
}
/*****************************************************************************
*
* GIFENCODE.C - GIF Image compression interface
*
* GIFEncode( FName, GHeight, GWidth, GInterlace, Background, Transparent,
* BitsPerPixel, Red, Green, Blue, gdImagePtr )
*
*****************************************************************************/
#define TRUE 1
#define FALSE 0
static int Width, Height;
static int curx, cury;
static long CountDown;
static int Pass = 0;
static int Interlace;
/*
* Bump the 'curx' and 'cury' to point to the next pixel
*/
static void
BumpPixel(void)
{
/*
* Bump the current X position
*/
++curx;
/*
* If we are at the end of a scan line, set curx back to the beginning
* If we are interlaced, bump the cury to the appropriate spot,
* otherwise, just increment it.
*/
if( curx == Width ) {
curx = 0;
if( !Interlace )
++cury;
else {
switch( Pass ) {
case 0:
cury += 8;
if( cury >= Height ) {
++Pass;
cury = 4;
}
break;
case 1:
cury += 8;
if( cury >= Height ) {
++Pass;
cury = 2;
}
break;
case 2:
cury += 4;
if( cury >= Height ) {
++Pass;
cury = 1;
}
break;
case 3:
cury += 2;
break;
}
}
}
}
/*
* Return the next pixel from the image
*/
static int
GIFNextPixel(gdImagePtr im)
{
int r;
if( CountDown == 0 )
return EOF;
--CountDown;
r = gdImageGetPixel(im, curx, cury);
BumpPixel();
return r;
}
/* public */
static void
GIFEncode(gdIOCtx *ctx, int GWidth, int GHeight, int GInterlace, int Background, int Transparent, int BitsPerPixel, int *Red, int *Green, int *Blue, gdImagePtr im)
{
int B;
int RWidth, RHeight;
int LeftOfs, TopOfs;
int Resolution;
int ColorMapSize;
int InitCodeSize;
int i;
Interlace = GInterlace;
ColorMapSize = 1 << BitsPerPixel;
RWidth = Width = GWidth;
RHeight = Height = GHeight;
LeftOfs = TopOfs = 0;
Resolution = BitsPerPixel;
/*
* Calculate number of bits we are expecting
*/
CountDown = (long)Width * (long)Height;
/*
* Indicate which pass we are on (if interlace)
*/
Pass = 0;
/*
* The initial code size
*/
if( BitsPerPixel <= 1 )
InitCodeSize = 2;
else
InitCodeSize = BitsPerPixel;
/*
* Set up the current x and y position
*/
curx = cury = 0;
/*
* Write the Magic header
*/
gdPutBuf( Transparent < 0 ? "GIF87a" : "GIF89a", 6, ctx );
/*
* Write out the screen width and height
*/
Putword( RWidth, ctx );
Putword( RHeight, ctx );
/*
* Indicate that there is a global colour map
*/
B = 0x80; /* Yes, there is a color map */
/*
* OR in the resolution
*/
B |= (Resolution - 1) << 4;
/*
* OR in the Bits per Pixel
*/
B |= (BitsPerPixel - 1);
/*
* Write it out
*/
Putchar( B, ctx );
/*
* Write out the Background colour
*/
Putchar( Background, ctx );
/*
* Byte of 0's (future expansion)
*/
Putchar( 0, ctx );
/*
* Write out the Global Colour Map
*/
for( i=0; i<ColorMapSize; ++i ) {
Putchar( Red[i], ctx );
Putchar( Green[i], ctx );
Putchar( Blue[i], ctx );
}
/*
* Write out extension for transparent colour index, if necessary.
*/
if ( Transparent >= 0 ) {
Putchar( '!', ctx );
Putchar( 0xf9, ctx );
Putchar( 4, ctx );
Putchar( 1, ctx );
Putchar( 0, ctx );
Putchar( 0, ctx );
Putchar( (unsigned char) Transparent, ctx );
Putchar( 0, ctx );
}
/*
* Write an Image separator
*/
Putchar( ',', ctx );
/*
* Write the Image header
*/
Putword( LeftOfs, ctx );
Putword( TopOfs, ctx );
Putword( Width, ctx );
Putword( Height, ctx );
/*
* Write out whether or not the image is interlaced
*/
if( Interlace )
Putchar( 0x40, ctx );
else
Putchar( 0x00, ctx );
/*
* Write out the initial code size
*/
Putchar( InitCodeSize, ctx );
/*
* Go and actually compress the data
*/
compress( InitCodeSize+1, ctx, im, Background );
/*
* Write out a Zero-length packet (to end the series)
*/
Putchar( 0, ctx );
/*
* Write the GIF file terminator
*/
Putchar( ';', ctx );
}
#define GIFBITS 12
/*-----------------------------------------------------------------------
*
* miGIF Compression - mouse and ivo's GIF-compatible compression
*
* -run length encoding compression routines-
*
* Copyright (C) 1998 Hutchison Avenue Software Corporation
* http://www.hasc.com
* [email protected]
*
* Permission 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. This software is provided "AS IS." The Hutchison Avenue
* Software Corporation disclaims all warranties, either express or implied,
* including but not limited to implied warranties of merchantability and
* fitness for a particular purpose, with respect to this code and accompanying
* documentation.
*
* The miGIF compression routines do not, strictly speaking, generate files
* conforming to the GIF spec, since the image data is not LZW-compressed
* (this is the point: in order to avoid transgression of the Unisys patent
* on the LZW algorithm.) However, miGIF generates data streams that any
* reasonably sane LZW decompresser will decompress to what we want.
*
* miGIF compression uses run length encoding. It compresses horizontal runs
* of pixels of the same color. This type of compression gives good results
* on images with many runs, for example images with lines, text and solid
* shapes on a solid-colored background. It gives little or no compression
* on images with few runs, for example digital or scanned photos.
*
* der Mouse
* [email protected]
* 7D C8 61 52 5D E7 2D 39 4E F1 31 3E E8 B3 27 4B
*
* [email protected]
*
* The Graphics Interchange Format(c) is the Copyright property of
* CompuServe Incorporated. GIF(sm) is a Service Mark property of
* CompuServe Incorporated.
*
*/
static int rl_pixel;
static int rl_basecode;
static int rl_count;
static int rl_table_pixel;
static int rl_table_max;
static int just_cleared;
static int out_bits;
static int out_bits_init;
static int out_count;
static int out_bump;
static int out_bump_init;
static int out_clear;
static int out_clear_init;
static int max_ocodes;
static int code_clear;
static int code_eof;
static unsigned int obuf;
static int obits;
static gdIOCtx *octx;
static unsigned char oblock[256];
static int oblen;
/* Used only when debugging GIF compression code */
/* #define DEBUGGING_ENVARS */
#ifdef DEBUGGING_ENVARS
static int verbose_set = 0;
static int verbose;
#define VERBOSE (verbose_set?verbose:set_verbose())
static int set_verbose(void)
{
verbose = !!getenv("GIF_VERBOSE");
verbose_set = 1;
return(verbose);
}
#else
#define VERBOSE 0
#endif
static const char *binformat(unsigned int v, int nbits)
{
static char bufs[8][64];
static int bhand = 0;
unsigned int bit;
int bno;
char *bp;
bhand --;
if (bhand < 0) bhand = (sizeof(bufs)/sizeof(bufs[0]))-1;
bp = &bufs[bhand][0];
for (bno=nbits-1,bit=1U<<bno;bno>=0;bno--,bit>>=1)
{ *bp++ = (v & bit) ? '1' : '0';
if (((bno&3) == 0) && (bno != 0)) *bp++ = '.';
}
*bp = '\0';
return(&bufs[bhand][0]);
}
static void write_block(void)
{
int i;
if (VERBOSE)
{ printf("write_block %d:",oblen);
for (i=0;i<oblen;i++) printf(" %02x",oblock[i]);
printf("\n");
}
Putchar(oblen,octx);
gdPutBuf(&oblock[0],oblen,octx);
oblen = 0;
}
static void block_out(unsigned char c)
{
if (VERBOSE) printf("block_out %s\n",binformat(c,8));
oblock[oblen++] = c;
if (oblen >= 255) write_block();
}
static void block_flush(void)
{
if (VERBOSE) printf("block_flush\n");
if (oblen > 0) write_block();
}
static void output(int val)
{
if (VERBOSE) printf("output %s [%s %d %d]\n",binformat(val,out_bits),binformat(obuf,obits),obits,out_bits);
obuf |= val << obits;
obits += out_bits;
while (obits >= 8)
{ block_out(obuf&0xff);
obuf >>= 8;
obits -= 8;
}
if (VERBOSE) printf("output leaving [%s %d]\n",binformat(obuf,obits),obits);
}
static void output_flush(void)
{
if (VERBOSE) printf("output_flush\n");
if (obits > 0) block_out(obuf);
block_flush();
}
static void did_clear(void)
{
if (VERBOSE) printf("did_clear\n");
out_bits = out_bits_init;
out_bump = out_bump_init;
out_clear = out_clear_init;
out_count = 0;
rl_table_max = 0;
just_cleared = 1;
}
static void output_plain(int c)
{
if (VERBOSE) printf("output_plain %s\n",binformat(c,out_bits));
just_cleared = 0;
output(c);
out_count ++;
if (out_count >= out_bump)
{ out_bits ++;
out_bump += 1 << (out_bits - 1);
}
if (out_count >= out_clear)
{ output(code_clear);
did_clear();
}
}
static unsigned int isqrt(unsigned int x)
{
unsigned int r;
unsigned int v;
if (x < 2) return(x);
for (v=x,r=1;v;v>>=2,r<<=1) ;
while (1)
{ v = ((x / r) + r) / 2;
if ((v == r) || (v == r+1)) return(r);
r = v;
}
}
static unsigned int compute_triangle_count(unsigned int count, unsigned int nrepcodes)
{
unsigned int perrep;
unsigned int cost;
cost = 0;
perrep = (nrepcodes * (nrepcodes+1)) / 2;
while (count >= perrep)
{ cost += nrepcodes;
count -= perrep;
}
if (count > 0)
{ unsigned int n;
n = isqrt(count);
while ((n*(n+1)) >= 2*count) n --;
while ((n*(n+1)) < 2*count) n ++;
cost += n;
}
return(cost);
}
static void max_out_clear(void)
{
out_clear = max_ocodes;
}
static void reset_out_clear(void)
{
out_clear = out_clear_init;
if (out_count >= out_clear)
{ output(code_clear);
did_clear();
}
}
static void rl_flush_fromclear(int count)
{
int n;
if (VERBOSE) printf("rl_flush_fromclear %d\n",count);
max_out_clear();
rl_table_pixel = rl_pixel;
n = 1;
while (count > 0)
{ if (n == 1)
{ rl_table_max = 1;
output_plain(rl_pixel);
count --;
}
else if (count >= n)
{ rl_table_max = n;
output_plain(rl_basecode+n-2);
count -= n;
}
else if (count == 1)
{ rl_table_max ++;
output_plain(rl_pixel);
count = 0;
}
else
{ rl_table_max ++;
output_plain(rl_basecode+count-2);
count = 0;
}
if (out_count == 0) n = 1; else n ++;
}
reset_out_clear();
if (VERBOSE) printf("rl_flush_fromclear leaving table_max=%d\n",rl_table_max);
}
static void rl_flush_clearorrep(int count)
{
int withclr;
if (VERBOSE) printf("rl_flush_clearorrep %d\n",count);
withclr = 1 + compute_triangle_count(count,max_ocodes);
if (withclr < count)
{ output(code_clear);
did_clear();
rl_flush_fromclear(count);
}
else
{ for (;count>0;count--) output_plain(rl_pixel);
}
}
static void rl_flush_withtable(int count)
{
int repmax;
int repleft;
int leftover;
if (VERBOSE) printf("rl_flush_withtable %d\n",count);
repmax = count / rl_table_max;
leftover = count % rl_table_max;
repleft = (leftover ? 1 : 0);
if (out_count+repmax+repleft > max_ocodes)
{ repmax = max_ocodes - out_count;
leftover = count - (repmax * rl_table_max);
repleft = 1 + compute_triangle_count(leftover,max_ocodes);
}
if (VERBOSE) printf("rl_flush_withtable repmax=%d leftover=%d repleft=%d\n",repmax,leftover,repleft);
if (1+compute_triangle_count(count,max_ocodes) < repmax+repleft)
{ output(code_clear);
did_clear();
rl_flush_fromclear(count);
return;
}
max_out_clear();
for (;repmax>0;repmax--) output_plain(rl_basecode+rl_table_max-2);
if (leftover)
{ if (just_cleared)
{ rl_flush_fromclear(leftover);
}
else if (leftover == 1)
{ output_plain(rl_pixel);
}
else
{ output_plain(rl_basecode+leftover-2);
}
}
reset_out_clear();
}
static void rl_flush(void)
{
if (VERBOSE) printf("rl_flush [ %d %d\n",rl_count,rl_pixel);
if (rl_count == 1)
{ output_plain(rl_pixel);
rl_count = 0;
if (VERBOSE) printf("rl_flush ]\n");
return;
}
if (just_cleared)
{ rl_flush_fromclear(rl_count);
}
else if ((rl_table_max < 2) || (rl_table_pixel != rl_pixel))
{ rl_flush_clearorrep(rl_count);
}
else
{ rl_flush_withtable(rl_count);
}
if (VERBOSE) printf("rl_flush ]\n");
rl_count = 0;
}
static void compress(int init_bits, gdIOCtx *ctx, gdImagePtr im, int background)
{
int c;
octx = ctx;
obuf = 0;
obits = 0;
oblen = 0;
code_clear = 1 << (init_bits - 1);
code_eof = code_clear + 1;
rl_basecode = code_eof + 1;
out_bump_init = (1 << (init_bits - 1)) - 1;
/* for images with a lot of runs, making out_clear_init larger will
give better compression. */
out_clear_init = (init_bits <= 3) ? 9 : (out_bump_init-1);
#ifdef DEBUGGING_ENVARS
{ const char *ocienv;
ocienv = getenv("GIF_OUT_CLEAR_INIT");
if (ocienv)
{ out_clear_init = atoi(ocienv);
if (VERBOSE) printf("[overriding out_clear_init to %d]\n",out_clear_init);
}
}
#endif
out_bits_init = init_bits;
max_ocodes = (1 << GIFBITS) - ((1 << (out_bits_init - 1)) + 3);
did_clear();
output(code_clear);
rl_count = 0;
while (1)
{ c = GIFNextPixel(im);
if ((rl_count > 0) && (c != rl_pixel)) rl_flush();
if (c == EOF) break;
if (rl_pixel == c)
{ rl_count ++;
}
else
{ rl_pixel = c;
rl_count = 1;
}
}
output(code_eof);
output_flush();
}
/*-----------------------------------------------------------------------
*
* End of miGIF section - See copyright notice at start of section.
*
*-----------------------------------------------------------------------*/
/******************************************************************************
*
* GIF Specific routines
*
******************************************************************************/
static void init_statics(void) {
/* Some of these are properly initialized later. What I'm doing
here is making sure code that depends on C's initialization
of statics doesn't break when the code gets called more
than once. */
Width = 0;
Height = 0;
curx = 0;
cury = 0;
CountDown = 0;
Pass = 0;
Interlace = 0;
}
/* +-------------------------------------------------------------------+ */
/* | Copyright 1990, 1991, 1993, David Koblas. ([email protected]) | */
/* | Permission 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. This software is | */
/* | provided "as is" without express or implied warranty. | */
/* +-------------------------------------------------------------------+ */
#define MAXCOLORMAPSIZE 256
#define TRUE 1
#define FALSE 0
#define CM_RED 0
#define CM_GREEN 1
#define CM_BLUE 2
#define MAX_LWZ_BITS 12
#define INTERLACE 0x40
#define LOCALCOLORMAP 0x80
#define BitSet(byte, bit) (((byte) & (bit)) == (bit))
#define ReadOK(file,buffer,len) (fread(buffer, len, 1, file) != 0)
#define LM_to_uint(a,b) (((b)<<8)|(a))
/* We may eventually want to use this information, but def it out for now */
#if 0
static struct {
unsigned int Width;
unsigned int Height;
unsigned char ColorMap[3][MAXCOLORMAPSIZE];
unsigned int BitPixel;
unsigned int ColorResolution;
unsigned int Background;
unsigned int AspectRatio;
} GifScreen;
#endif
#if 0
/* never used */
static struct {
int transparent;
int delayTime;
int inputFlag;
int disposal;
} Gif89 = { -1, -1, -1, 0 };
#endif
static int ReadColorMap (FILE *fd, int number, unsigned char (*buffer)[256]);
static int DoExtension (FILE *fd, int label, int *Transparent);
static int GetDataBlock (FILE *fd, unsigned char *buf);
static int GetCode (FILE *fd, int code_size, int flag);
static int LWZReadByte (FILE *fd, int flag, int input_code_size);
static void ReadImage (gdImagePtr im, FILE *fd, int len, int height, unsigned char (*cmap)[256], int interlace, int ignore);
int ZeroDataBlock;
gdImagePtr
gdImageCreateFromGif(FILE *fd)
{
int imageNumber;
int BitPixel;
#if 0
/* never used */
int ColorResolution;
int Background;
int AspectRatio;
#endif
int Transparent = (-1);
unsigned char buf[16];
unsigned char c;
unsigned char ColorMap[3][MAXCOLORMAPSIZE];
unsigned char localColorMap[3][MAXCOLORMAPSIZE];
int imw, imh;
int useGlobalColormap;
int bitPixel;
int imageCount = 0;
char version[4];
gdImagePtr im = 0;
ZeroDataBlock = FALSE;
imageNumber = 1;
if (! ReadOK(fd,buf,6)) {
return 0;
}
if (strncmp((char *)buf,"GIF",3) != 0) {
return 0;
}
strncpy(version, (char *)buf + 3, 3);
version[3] = '\0';
if ((strcmp(version, "87a") != 0) && (strcmp(version, "89a") != 0)) {
return 0;
}
if (! ReadOK(fd,buf,7)) {
return 0;
}
BitPixel = 2<<(buf[4]&0x07);
#if 0
/* never used */
ColorResolution = (int) (((buf[4]&0x70)>>3)+1);
Background = buf[5];
AspectRatio = buf[6];
#endif
if (BitSet(buf[4], LOCALCOLORMAP)) { /* Global Colormap */
if (ReadColorMap(fd, BitPixel, ColorMap)) {
return 0;
}
}
for (;;) {
if (! ReadOK(fd,&c,1)) {
return 0;
}
if (c == ';') { /* GIF terminator */
int i;
if (imageCount < imageNumber) {
return 0;
}
/* Terminator before any image was declared! */
if (!im) {
return 0;
}
/* Check for open colors at the end, so
we can reduce colorsTotal and ultimately
BitsPerPixel */
for (i=((im->colorsTotal-1)); (i>=0); i--) {
if (im->open[i]) {
im->colorsTotal--;
} else {
break;
}
}
return im;
}
if (c == '!') { /* Extension */
if (! ReadOK(fd,&c,1)) {
return 0;
}
DoExtension(fd, c, &Transparent);
continue;
}
if (c != ',') { /* Not a valid start character */
continue;
}
++imageCount;
if (! ReadOK(fd,buf,9)) {
return 0;
}
useGlobalColormap = ! BitSet(buf[8], LOCALCOLORMAP);
bitPixel = 1<<((buf[8]&0x07)+1);
imw = LM_to_uint(buf[4],buf[5]);
imh = LM_to_uint(buf[6],buf[7]);
if (!(im = gdImageCreate(imw, imh))) {
return 0;
}
im->interlace = BitSet(buf[8], INTERLACE);
if (! useGlobalColormap) {
if (ReadColorMap(fd, bitPixel, localColorMap)) {
return 0;
}
ReadImage(im, fd, imw, imh, localColorMap,
BitSet(buf[8], INTERLACE),
imageCount != imageNumber);
} else {
ReadImage(im, fd, imw, imh,
ColorMap,
BitSet(buf[8], INTERLACE),
imageCount != imageNumber);
}
if (Transparent != (-1)) {
gdImageColorTransparent(im, Transparent);
}
}
}
static int
ReadColorMap(FILE *fd, int number, unsigned char (*buffer)[256])
{
int i;
unsigned char rgb[3];
for (i = 0; i < number; ++i) {
if (! ReadOK(fd, rgb, sizeof(rgb))) {
return TRUE;
}
buffer[CM_RED][i] = rgb[0] ;
buffer[CM_GREEN][i] = rgb[1] ;
buffer[CM_BLUE][i] = rgb[2] ;
}
return FALSE;
}
static int
DoExtension(FILE *fd, int label, int *Transparent)
{
static unsigned char buf[256];
switch (label) {
case 0xf9: /* Graphic Control Extension */
(void) GetDataBlock(fd, (unsigned char*) buf);
#if 0
/* never used */
Gif89.disposal = (buf[0] >> 2) & 0x7;
Gif89.inputFlag = (buf[0] >> 1) & 0x1;
Gif89.delayTime = LM_to_uint(buf[1],buf[2]);
#endif
if ((buf[0] & 0x1) != 0)
*Transparent = buf[3];
while (GetDataBlock(fd, (unsigned char*) buf) != 0)
;
return FALSE;
default:
break;
}
while (GetDataBlock(fd, (unsigned char*) buf) != 0)
;
return FALSE;
}
static int
GetDataBlock_(FILE *fd, unsigned char *buf)
{
unsigned char count;
if (! ReadOK(fd,&count,1)) {
return -1;
}
ZeroDataBlock = count == 0;
if ((count != 0) && (! ReadOK(fd, buf, count))) {
return -1;
}
return count;
}
static int
GetDataBlock(FILE *fd, unsigned char *buf)
{
int rv;
int i;
rv = GetDataBlock_(fd,buf);
if (VERBOSE)
{ printf("[GetDataBlock returning %d",rv);
if (rv > 0)
{ printf(":");
for (i=0;i<rv;i++) printf(" %02x",buf[i]);
}
printf("]\n");
}
return(rv);
}
static int
GetCode_(FILE *fd, int code_size, int flag)
{
static unsigned char buf[280];
static int curbit, lastbit, done, last_byte;
int i, j, ret;
unsigned char count;
if (flag) {
curbit = 0;
lastbit = 0;
done = FALSE;
return 0;
}
if ( (curbit+code_size) >= lastbit) {
if (done) {
if (curbit >= lastbit) {
/* Oh well */
}
return -1;
}
buf[0] = buf[last_byte-2];
buf[1] = buf[last_byte-1];
if ((count = GetDataBlock(fd, &buf[2])) == 0)
done = TRUE;
last_byte = 2 + count;
curbit = (curbit - lastbit) + 16;
lastbit = (2+count)*8 ;
}
ret = 0;
for (i = curbit, j = 0; j < code_size; ++i, ++j)
ret |= ((buf[ i / 8 ] & (1 << (i % 8))) != 0) << j;
curbit += code_size;
return ret;
}
static int
GetCode(FILE *fd, int code_size, int flag)
{
int rv;
rv = GetCode_(fd,code_size,flag);
if (VERBOSE) printf("[GetCode(,%d,%d) returning %d]\n",code_size,flag,rv);
return(rv);
}
static int
LWZReadByte_(FILE *fd, int flag, int input_code_size)
{
static int fresh = FALSE;
int code, incode;
static int code_size, set_code_size;
static int max_code, max_code_size;
static int firstcode, oldcode;
static int clear_code, end_code;
static int table[2][(1<< MAX_LWZ_BITS)];
static int stack[(1<<(MAX_LWZ_BITS))*2], *sp;
register int i;
if (flag) {
set_code_size = input_code_size;
code_size = set_code_size+1;
clear_code = 1 << set_code_size ;
end_code = clear_code + 1;
max_code_size = 2*clear_code;
max_code = clear_code+2;
GetCode(fd, 0, TRUE);
fresh = TRUE;
for (i = 0; i < clear_code; ++i) {
table[0][i] = 0;
table[1][i] = i;
}
for (; i < (1<<MAX_LWZ_BITS); ++i)
table[0][i] = table[1][0] = 0;
sp = stack;
return 0;
} else if (fresh) {
fresh = FALSE;
do {
firstcode = oldcode =
GetCode(fd, code_size, FALSE);
} while (firstcode == clear_code);
return firstcode;
}
if (sp > stack)
return *--sp;
while ((code = GetCode(fd, code_size, FALSE)) >= 0) {
if (code == clear_code) {
for (i = 0; i < clear_code; ++i) {
table[0][i] = 0;
table[1][i] = i;
}
for (; i < (1<<MAX_LWZ_BITS); ++i)
table[0][i] = table[1][i] = 0;
code_size = set_code_size+1;
max_code_size = 2*clear_code;
max_code = clear_code+2;
sp = stack;
firstcode = oldcode =
GetCode(fd, code_size, FALSE);
return firstcode;
} else if (code == end_code) {
int count;
unsigned char buf[260];
if (ZeroDataBlock)
return -2;
while ((count = GetDataBlock(fd, buf)) > 0)
;
if (count != 0)
return -2;
}
incode = code;
if (code >= max_code) {
*sp++ = firstcode;
code = oldcode;
}
while (code >= clear_code) {
*sp++ = table[1][code];
if (code == table[0][code]) {
/* Oh well */
}
code = table[0][code];
}
*sp++ = firstcode = table[1][code];
if ((code = max_code) <(1<<MAX_LWZ_BITS)) {
table[0][code] = oldcode;
table[1][code] = firstcode;
++max_code;
if ((max_code >= max_code_size) &&
(max_code_size < (1<<MAX_LWZ_BITS))) {
max_code_size *= 2;
++code_size;
}
}
oldcode = incode;
if (sp > stack)
return *--sp;
}
return code;
}
static int
LWZReadByte(FILE *fd, int flag, int input_code_size)
{
int rv;
rv = LWZReadByte_(fd,flag,input_code_size);
if (VERBOSE) printf("[LWZReadByte(,%d,%d) returning %d]\n",flag,input_code_size,rv);
return(rv);
}
static void
ReadImage(gdImagePtr im, FILE *fd, int len, int height, unsigned char (*cmap)[256], int interlace, int ignore)
{
unsigned char c;
int v;
int xpos = 0, ypos = 0, pass = 0;
int i;
/* Stash the color map into the image */
for (i=0; (i<gdMaxColors); i++) {
im->red[i] = cmap[CM_RED][i];
im->green[i] = cmap[CM_GREEN][i];
im->blue[i] = cmap[CM_BLUE][i];
im->open[i] = 1;
}
/* Many (perhaps most) of these colors will remain marked open. */
im->colorsTotal = gdMaxColors;
/*
** Initialize the Compression routines
*/
if (! ReadOK(fd,&c,1)) {
return;
}
if (LWZReadByte(fd, TRUE, c) < 0) {
return;
}
/*
** If this is an "uninteresting picture" ignore it.
*/
if (ignore) {
while (LWZReadByte(fd, FALSE, c) >= 0)
;
return;
}
while ((v = LWZReadByte(fd,FALSE,c)) >= 0 ) {
/* This how we recognize which colors are actually used. */
if (im->open[v]) {
im->open[v] = 0;
}
gdImageSetPixel(im, xpos, ypos, v);
++xpos;
if (xpos == len) {
xpos = 0;
if (interlace) {
switch (pass) {
case 0:
case 1:
ypos += 8; break;
case 2:
ypos += 4; break;
case 3:
ypos += 2; break;
}
if (ypos >= height) {
++pass;
switch (pass) {
case 1:
ypos = 4; break;
case 2:
ypos = 2; break;
case 3:
ypos = 1; break;
default:
goto fini;
}
}
} else {
++ypos;
}
}
if (ypos >= height)
break;
}
fini:
if (LWZReadByte(fd,FALSE,c)>=0) {
/* Ignore extra */
}
}
#endif /* WITH_GIF */
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