* File: GD IO
*
* Read and write GD images.
*
* The GD image format is a proprietary image format of libgd. *It has to be*
* *regarded as being obsolete, and should only be used for development and*
* *testing purposes.*
*
* Structure of a GD image file:
* - file header
* - color header (either truecolor or palette)
* - image data
*
* All numbers are stored in big-endian format. Note that all GD output is done
* in the GD 2.x format (not to be confused with the GD2 format), but input may
* also be in the GD 1.x format.
*
* GD 1.x file header structure:
* width - 1 word
* height - 1 word
*
* GD 1.x color header (palette only):
* count - 1 byte (the number of used palette colors)
* transparent - 1 word (257 signals no transparency)
* palette - 256×3 bytes (RGB triplets)
*
* GD 2.x file header structure:
* signature - 1 word ("\xFF\xFE" for truecolor, "\xFF\xFF" for palette)
* width - 1 word
* height - 1 word
*
* GD 2.x truecolor image color header:
* truecolor - 1 byte (always "\001")
* transparent - 1 dword (ARGB color); "\377\377\377\377" means that no
* transparent color is set
*
* GD 2.x palette image color header:
* truecolor - 1 byte (always "\0")
* count - 1 word (the number of used palette colors)
* transparent - 1 dword (palette index); "\377\377\377\377" means that no
* transparent color is set
* palette - 256 dwords (RGBA colors)
*
* Image data:
* Sequential pixel data; row-major from top to bottom, left to right:
* - 1 byte per pixel for palette images
* - 1 dword (ARGB) per pixel for truecolor images
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#include <math.h>
#include <string.h>
#include <stdlib.h>
#include "gd.h"
#include "gd_errors.h"
#if ENABLE_GD_FORMATS
#define TRUE 1
#define FALSE 0
#define GD2_DBG(s)
int
_gdGetColors (gdIOCtx * in, gdImagePtr im, int gd2xFlag)
{
int i;
if (gd2xFlag) {
int trueColorFlag;
if (!gdGetByte (&trueColorFlag, in)) {
goto fail1;
}
Beginning in 2.0.12 truecolor is indicated by the initial 2-byte
signature. */
if (trueColorFlag != im->trueColor) {
goto fail1;
}
if (!im->trueColor) {
if (!gdGetWord (&im->colorsTotal, in)) {
goto fail1;
}
if (im->colorsTotal > gdMaxColors) {
goto fail1;
}
}
if (!gdGetInt (&im->transparent, in)) {
goto fail1;
}
} else {
if (!gdGetByte (&im->colorsTotal, in)) {
goto fail1;
}
if (!gdGetWord (&im->transparent, in)) {
goto fail1;
}
}
if (!(im->trueColor) && (im->transparent >= im->colorsTotal || im->transparent < 0)) {
im->transparent = (-1);
}
GD2_DBG (printf
("Palette had %d colours (T=%d)\n", im->colorsTotal,
im->transparent));
if (im->trueColor) {
return TRUE;
}
for (i = 0; (i < gdMaxColors); i++) {
if (!gdGetByte (&im->red[i], in)) {
goto fail1;
}
if (!gdGetByte (&im->green[i], in)) {
goto fail1;
}
if (!gdGetByte (&im->blue[i], in)) {
goto fail1;
}
if (gd2xFlag) {
if (!gdGetByte (&im->alpha[i], in)) {
goto fail1;
}
}
}
for (i = 0; (i < im->colorsTotal); i++) {
im->open[i] = 0;
};
return TRUE;
fail1:
return FALSE;
}
static gdImagePtr
_gdCreateFromFile (gdIOCtx * in, int *sx, int *sy)
{
gdImagePtr im;
int gd2xFlag = 0;
int trueColorFlag = 0;
if (!gdGetWord (sx, in)) {
goto fail1;
}
if ((*sx == 65535) || (*sx == 65534)) {
gd2xFlag = 1;
There is a slight redundancy here but we can
live with it. */
if (*sx == 65534) {
trueColorFlag = 1;
}
if (!gdGetWord (sx, in)) {
goto fail1;
}
}
if (!gdGetWord (sy, in)) {
goto fail1;
}
GD2_DBG (printf ("Image is %dx%d\n", *sx, *sy));
if (trueColorFlag) {
im = gdImageCreateTrueColor (*sx, *sy);
} else {
im = gdImageCreate (*sx, *sy);
}
if (!im) {
goto fail1;
}
if (!_gdGetColors (in, im, gd2xFlag)) {
goto fail2;
}
return im;
fail2:
gdImageDestroy (im);
fail1:
return 0;
}
Function: gdImageCreateFromGd
<gdImageCreateFromGd> is called to load images from gd format
files. Invoke <gdImageCreateFromGd> with an already opened pointer
to a file containing the desired image in the gd file format,
which is specific to gd and intended for very fast loading. (It is
not intended for compression; for compression, use PNG or JPEG.)
<gdImageCreateFromGd> returns a <gdImagePtr> to the new image, or
NULL if unable to load the image (most often because the file is
corrupt or does not contain a gd format
image). <gdImageCreateFromGd> does not close the file. You can
inspect the sx and sy members of the image to determine its
size. The image must eventually be destroyed using
<gdImageDestroy>.
Variants:
<gdImageCreateFromGdPtr> creates an image from GD data (i.e. the
contents of a GD file) already in memory.
<gdImageCreateFromGdCtx> reads in an image using the functions in
a <gdIOCtx> struct.
Parameters:
infile - The input FILE pointer
Returns:
A pointer to the new image or NULL if an error occurred.
Example:
> gdImagePtr im;
> FILE *in;
> in = fopen("mygd.gd", "rb");
> im = gdImageCreateFromGd(in);
> fclose(in);
> // ... Use the image ...
> gdImageDestroy(im);
*/
BGD_DECLARE(gdImagePtr) gdImageCreateFromGd (FILE * inFile)
{
gdImagePtr im;
gdIOCtx *in;
in = gdNewFileCtx (inFile);
if (in == NULL) return NULL;
im = gdImageCreateFromGdCtx (in);
in->gd_free (in);
return im;
}
Function: gdImageCreateFromGdPtr
Parameters:
size - size of GD data in bytes.
data - GD data (i.e. contents of a GIF file).
Reads in GD data from memory. See <gdImageCreateFromGd>.
*/
BGD_DECLARE(gdImagePtr) gdImageCreateFromGdPtr (int size, void *data)
{
gdImagePtr im;
gdIOCtx *in = gdNewDynamicCtxEx (size, data, 0);
if(!in)
return 0;
im = gdImageCreateFromGdCtx (in);
in->gd_free (in);
return im;
}
Function: gdImageCreateFromGdCtx
Reads in a GD image via a <gdIOCtx> struct. See
<gdImageCreateFromGd>.
*/
BGD_DECLARE(gdImagePtr) gdImageCreateFromGdCtx (gdIOCtxPtr in)
{
int sx, sy;
int x, y;
gdImagePtr im;
im = _gdCreateFromFile (in, &sx, &sy);
if (im == NULL) {
goto fail1;
};
Problem reported by Andreas Pfaller. */
if (im->trueColor) {
for (y = 0; (y < sy); y++) {
for (x = 0; (x < sx); x++) {
int pix;
if (!gdGetInt (&pix, in)) {
goto fail2;
}
im->tpixels[y][x] = pix;
}
}
} else {
for (y = 0; (y < sy); y++) {
for (x = 0; (x < sx); x++) {
int ch;
ch = gdGetC (in);
if (ch == EOF) {
goto fail2;
}
im->pixels[y][x] = ch;
}
}
}
return im;
fail2:
gdImageDestroy (im);
fail1:
return 0;
}
void
_gdPutColors (gdImagePtr im, gdIOCtx * out)
{
int i;
gdPutC (im->trueColor, out);
if (!im->trueColor) {
gdPutWord (im->colorsTotal, out);
}
gdPutInt (im->transparent, out);
if (!im->trueColor) {
for (i = 0; (i < gdMaxColors); i++) {
gdPutC ((unsigned char) im->red[i], out);
gdPutC ((unsigned char) im->green[i], out);
gdPutC ((unsigned char) im->blue[i], out);
gdPutC ((unsigned char) im->alpha[i], out);
}
}
}
static void
_gdPutHeader (gdImagePtr im, gdIOCtx * out)
{
2.0.12: 65534 indicates truecolor. */
if (im->trueColor) {
gdPutWord (65534, out);
} else {
gdPutWord (65535, out);
}
gdPutWord (im->sx, out);
gdPutWord (im->sy, out);
_gdPutColors (im, out);
}
static void
_gdImageGd (gdImagePtr im, gdIOCtx * out)
{
int x, y;
_gdPutHeader (im, out);
for (y = 0; (y < im->sy); y++) {
for (x = 0; (x < im->sx); x++) {
if (im->trueColor) {
gdPutInt (im->tpixels[y][x], out);
} else {
gdPutC ((unsigned char) im->pixels[y][x], out);
}
}
}
}
Function: gdImageGd
*/
BGD_DECLARE(void) gdImageGd (gdImagePtr im, FILE * outFile)
{
gdIOCtx *out = gdNewFileCtx (outFile);
if (out == NULL) return;
_gdImageGd (im, out);
out->gd_free (out);
}
Function: gdImageGdPtr
*/
BGD_DECLARE(void *) gdImageGdPtr (gdImagePtr im, int *size)
{
void *rv;
gdIOCtx *out = gdNewDynamicCtx (2048, NULL);
if (out == NULL) return NULL;
_gdImageGd (im, out);
rv = gdDPExtractData (out, size);
out->gd_free (out);
return rv;
}
#else
static void _noGdError (void)
{
gd_error("GD image support has been disabled\n");
}
BGD_DECLARE(gdImagePtr) gdImageCreateFromGd (FILE * inFile)
{
_noGdError();
return NULL;
}
BGD_DECLARE(gdImagePtr) gdImageCreateFromGdPtr (int size, void *data)
{
_noGdError();
return NULL;
}
BGD_DECLARE(gdImagePtr) gdImageCreateFromGdCtx (gdIOCtxPtr in)
{
_noGdError();
return NULL;
}
BGD_DECLARE(void) gdImageGd (gdImagePtr im, FILE * outFile)
{
_noGdError();
}
BGD_DECLARE(void *) gdImageGdPtr (gdImagePtr im, int *size)
{
_noGdError();
return NULL;
}
#endif