static long php_jpeg_emit_message(j_common_ptr jpeg_info, int level)
{
char message[JMSG_LENGTH_MAX];
jmpbuf_wrapper *jmpbufw;
int ignore_warning = 0;
jmpbufw = (jmpbuf_wrapper *) jpeg_info->client_data;
if (jmpbufw != 0) {
ignore_warning = jmpbufw->ignore_warning;
}
(jpeg_info->err->format_message)(jpeg_info,message);
/* It is a warning message */
if (level < 0) {
/* display only the 1st warning, as would do a default libjpeg
* unless strace_level >= 3
*/
if ((jpeg_info->err->num_warnings == 0) || (jpeg_info->err->trace_level >= 3)) {
php_gd_error_ex(ignore_warning ? E_NOTICE : E_WARNING, "gd-jpeg, libjpeg: recoverable error: %s\n", message);
}
jpeg_info->err->num_warnings++;
} else {
/* strace msg, Show it if trace_level >= level. */
if (jpeg_info->err->trace_level >= level) {
php_gd_error_ex(E_NOTICE, "gd-jpeg, libjpeg: strace message: %s\n", message);
}
}
return 1;
}
/* Called by the IJG JPEG library upon encountering a fatal error */
static void fatal_jpeg_error (j_common_ptr cinfo)
{
jmpbuf_wrapper *jmpbufw;
php_gd_error("gd-jpeg: JPEG library reports unrecoverable error: ");
(*cinfo->err->output_message) (cinfo);
jmpbufw = (jmpbuf_wrapper *) cinfo->client_data;
jpeg_destroy (cinfo);
if (jmpbufw != 0) {
longjmp (jmpbufw->jmpbuf, 1);
php_gd_error_ex(E_ERROR, "gd-jpeg: EXTREMELY fatal error: longjmp returned control; terminating");
} else {
php_gd_error_ex(E_ERROR, "gd-jpeg: EXTREMELY fatal error: jmpbuf unrecoverable; terminating");
}
exit (99);
}
static void gdPngErrorHandler (png_structp png_ptr, png_const_charp msg)
{
jmpbuf_wrapper *jmpbuf_ptr;
/* This function, aside from the extra step of retrieving the "error
* pointer" (below) and the fact that it exists within the application
* rather than within libpng, is essentially identical to libpng's
* default error handler. The second point is critical: since both
* setjmp() and longjmp() are called from the same code, they are
* guaranteed to have compatible notions of how big a jmp_buf is,
* regardless of whether _BSD_SOURCE or anything else has (or has not)
* been defined.
*/
php_gd_error_ex(E_WARNING, "gd-png: fatal libpng error: %s", msg);
jmpbuf_ptr = (jmpbuf_wrapper*) png_get_error_ptr (png_ptr);
if (jmpbuf_ptr == NULL) { /* we are completely hosed now */
php_gd_error_ex(E_ERROR, "gd-png: EXTREMELY fatal error: jmpbuf unrecoverable; terminating.");
}
longjmp (jmpbuf_ptr->jmpbuf, 1);
}
gdImagePtr gdImageCreateFromJpegCtxEx (gdIOCtx * infile, int ignore_warning)
{
struct jpeg_decompress_struct cinfo;
struct jpeg_error_mgr jerr;
jmpbuf_wrapper jmpbufw;
/* volatile so we can gdFree them after longjmp */
volatile JSAMPROW row = 0;
volatile gdImagePtr im = 0;
JSAMPROW rowptr[1];
unsigned int i, j;
int retval;
JDIMENSION nrows;
int channels = 3;
int inverted = 0;
memset (&cinfo, 0, sizeof (cinfo));
memset (&jerr, 0, sizeof (jerr));
jmpbufw.ignore_warning = ignore_warning;
cinfo.err = jpeg_std_error (&jerr);
cinfo.client_data = &jmpbufw;
cinfo.err->emit_message = (void (*)(j_common_ptr,int)) php_jpeg_emit_message;
if (setjmp (jmpbufw.jmpbuf) != 0) {
/* we're here courtesy of longjmp */
if (row) {
gdFree (row);
}
if (im) {
gdImageDestroy (im);
}
return 0;
}
cinfo.err->error_exit = fatal_jpeg_error;
jpeg_create_decompress (&cinfo);
jpeg_gdIOCtx_src (&cinfo, infile);
/* 2.0.22: save the APP14 marker to check for Adobe Photoshop CMYK files with inverted components. */
jpeg_save_markers(&cinfo, JPEG_APP0 + 14, 256);
retval = jpeg_read_header (&cinfo, TRUE);
if (retval != JPEG_HEADER_OK) {
php_gd_error_ex(E_WARNING, "gd-jpeg: warning: jpeg_read_header returned %d, expected %d", retval, JPEG_HEADER_OK);
}
if (cinfo.image_height > INT_MAX) {
php_gd_error_ex(E_WARNING, "gd-jpeg: warning: JPEG image height (%u) is greater than INT_MAX (%d) (and thus greater than gd can handle)", cinfo.image_height, INT_MAX);
}
if (cinfo.image_width > INT_MAX) {
php_gd_error_ex(E_WARNING, "gd-jpeg: warning: JPEG image width (%u) is greater than INT_MAX (%d) (and thus greater than gd can handle)", cinfo.image_width, INT_MAX);
}
im = gdImageCreateTrueColor ((int) cinfo.image_width, (int) cinfo.image_height);
if (im == 0) {
php_gd_error("gd-jpeg error: cannot allocate gdImage struct");
goto error;
}
/* 2.0.22: very basic support for reading CMYK colorspace files. Nice for
* thumbnails but there's no support for fussy adjustment of the
* assumed properties of inks and paper. */
if ((cinfo.jpeg_color_space == JCS_CMYK) || (cinfo.jpeg_color_space == JCS_YCCK)) {
cinfo.out_color_space = JCS_CMYK;
} else {
cinfo.out_color_space = JCS_RGB;
}
if (jpeg_start_decompress (&cinfo) != TRUE) {
php_gd_error("gd-jpeg: warning: jpeg_start_decompress reports suspended data source");
}
/* REMOVED by TBB 2/12/01. This field of the structure is
* documented as private, and sure enough it's gone in the
* latest libjpeg, replaced by something else. Unfortunately
* there is still no right way to find out if the file was
* progressive or not; just declare your intent before you
* write one by calling gdImageInterlace(im, 1) yourself.
* After all, we're not really supposed to rework JPEGs and
* write them out again anyway. Lossy compression, remember?
*/
#if 0
gdImageInterlace (im, cinfo.progressive_mode != 0);
#endif
if (cinfo.out_color_space == JCS_RGB) {
if (cinfo.output_components != 3) {
php_gd_error_ex(E_WARNING, "gd-jpeg: error: JPEG color quantization request resulted in output_components == %d (expected 3 for RGB)", cinfo.output_components);
goto error;
}
channels = 3;
} else if (cinfo.out_color_space == JCS_CMYK) {
jpeg_saved_marker_ptr marker;
if (cinfo.output_components != 4) {
php_gd_error_ex(E_WARNING, "gd-jpeg: error: JPEG color quantization request resulted in output_components == %d (expected 4 for CMYK)", cinfo.output_components);
goto error;
}
channels = 4;
marker = cinfo.marker_list;
while (marker) {
if ((marker->marker == (JPEG_APP0 + 14)) && (marker->data_length >= 12) && (!strncmp((const char *) marker->data, "Adobe", 5))) {
inverted = 1;
break;
}
marker = marker->next;
}
} else {
php_gd_error_ex(E_WARNING, "gd-jpeg: error: unexpected colorspace.");
goto error;
}
#if BITS_IN_JSAMPLE == 12
php_gd_error("gd-jpeg: error: jpeg library was compiled for 12-bit precision. This is mostly useless, because JPEGs on the web are 8-bit and such versions of the jpeg library won't read or write them. GD doesn't support these unusual images. Edit your jmorecfg.h file to specify the correct precision and completely 'make clean' and 'make install' libjpeg again. Sorry.");
goto error;
#endif /* BITS_IN_JSAMPLE == 12 */
row = safe_emalloc(cinfo.output_width * channels, sizeof(JSAMPLE), 0);
memset(row, 0, cinfo.output_width * channels * sizeof(JSAMPLE));
rowptr[0] = row;
if (cinfo.out_color_space == JCS_CMYK) {
for (i = 0; i < cinfo.output_height; i++) {
register JSAMPROW currow = row;
register int *tpix = im->tpixels[i];
nrows = jpeg_read_scanlines (&cinfo, rowptr, 1);
if (nrows != 1) {
php_gd_error_ex(E_WARNING, "gd-jpeg: error: jpeg_read_scanlines returns %u, expected 1", nrows);
goto error;
}
for (j = 0; j < cinfo.output_width; j++, currow += 4, tpix++) {
*tpix = CMYKToRGB (currow[0], currow[1], currow[2], currow[3], inverted);
}
}
} else {
for (i = 0; i < cinfo.output_height; i++) {
register JSAMPROW currow = row;
register int *tpix = im->tpixels[i];
nrows = jpeg_read_scanlines (&cinfo, rowptr, 1);
if (nrows != 1) {
php_gd_error_ex(E_WARNING, "gd-jpeg: error: jpeg_read_scanlines returns %u, expected 1", nrows);
goto error;
}
for (j = 0; j < cinfo.output_width; j++, currow += 3, tpix++) {
*tpix = gdTrueColor (currow[0], currow[1], currow[2]);
}
}
}
if (jpeg_finish_decompress (&cinfo) != TRUE) {
php_gd_error("gd-jpeg: warning: jpeg_finish_decompress reports suspended data source");
}
if (!ignore_warning) {
if (cinfo.err->num_warnings > 0) {
goto error;
}
}
jpeg_destroy_decompress (&cinfo);
gdFree (row);
return im;
error:
jpeg_destroy_decompress (&cinfo);
if (row) {
gdFree (row);
}
if (im) {
gdImageDestroy (im);
}
return 0;
}
void gdImageJpegCtx (gdImagePtr im, gdIOCtx * outfile, int quality)
{
struct jpeg_compress_struct cinfo;
struct jpeg_error_mgr jerr;
int i, j, jidx;
/* volatile so we can gdFree it on return from longjmp */
volatile JSAMPROW row = 0;
JSAMPROW rowptr[1];
jmpbuf_wrapper jmpbufw;
JDIMENSION nlines;
char comment[255];
memset (&cinfo, 0, sizeof (cinfo));
memset (&jerr, 0, sizeof (jerr));
cinfo.err = jpeg_std_error (&jerr);
cinfo.client_data = &jmpbufw;
if (setjmp (jmpbufw.jmpbuf) != 0) {
/* we're here courtesy of longjmp */
if (row) {
gdFree (row);
}
return;
}
cinfo.err->error_exit = fatal_jpeg_error;
jpeg_create_compress (&cinfo);
cinfo.image_width = im->sx;
cinfo.image_height = im->sy;
cinfo.input_components = 3; /* # of color components per pixel */
cinfo.in_color_space = JCS_RGB; /* colorspace of input image */
jpeg_set_defaults (&cinfo);
if (quality >= 0) {
jpeg_set_quality (&cinfo, quality, TRUE);
}
/* If user requests interlace, translate that to progressive JPEG */
if (gdImageGetInterlaced (im)) {
jpeg_simple_progression (&cinfo);
}
jpeg_gdIOCtx_dest (&cinfo, outfile);
row = (JSAMPROW) safe_emalloc(cinfo.image_width * cinfo.input_components, sizeof(JSAMPLE), 0);
memset(row, 0, cinfo.image_width * cinfo.input_components * sizeof(JSAMPLE));
rowptr[0] = row;
jpeg_start_compress (&cinfo, TRUE);
if (quality >= 0) {
snprintf(comment, sizeof(comment)-1, "CREATOR: gd-jpeg v%s (using IJG JPEG v%d), quality = %d\n", GD_JPEG_VERSION, JPEG_LIB_VERSION, quality);
} else {
snprintf(comment, sizeof(comment)-1, "CREATOR: gd-jpeg v%s (using IJG JPEG v%d), default quality\n", GD_JPEG_VERSION, JPEG_LIB_VERSION);
}
jpeg_write_marker (&cinfo, JPEG_COM, (unsigned char *) comment, (unsigned int) strlen (comment));
if (im->trueColor) {
#if BITS_IN_JSAMPLE == 12
php_gd_error("gd-jpeg: error: jpeg library was compiled for 12-bit precision. This is mostly useless, because JPEGs on the web are 8-bit and such versions of the jpeg library won't read or write them. GD doesn't support these unusual images. Edit your jmorecfg.h file to specify the correct precision and completely 'make clean' and 'make install' libjpeg again. Sorry");
goto error;
#endif /* BITS_IN_JSAMPLE == 12 */
for (i = 0; i < im->sy; i++) {
for (jidx = 0, j = 0; j < im->sx; j++) {
int val = im->tpixels[i][j];
row[jidx++] = gdTrueColorGetRed (val);
row[jidx++] = gdTrueColorGetGreen (val);
row[jidx++] = gdTrueColorGetBlue (val);
}
nlines = jpeg_write_scanlines (&cinfo, rowptr, 1);
if (nlines != 1) {
php_gd_error_ex(E_WARNING, "gd_jpeg: warning: jpeg_write_scanlines returns %u -- expected 1", nlines);
}
}
} else {
for (i = 0; i < im->sy; i++) {
for (jidx = 0, j = 0; j < im->sx; j++) {
int idx = im->pixels[i][j];
/* NB: Although gd RGB values are ints, their max value is
* 255 (see the documentation for gdImageColorAllocate())
* -- perfect for 8-bit JPEG encoding (which is the norm)
*/
#if BITS_IN_JSAMPLE == 8
row[jidx++] = im->red[idx];
row[jidx++] = im->green[idx];
row[jidx++] = im->blue[idx];
#elif BITS_IN_JSAMPLE == 12
row[jidx++] = im->red[idx] << 4;
row[jidx++] = im->green[idx] << 4;
row[jidx++] = im->blue[idx] << 4;
#else
#error IJG JPEG library BITS_IN_JSAMPLE value must be 8 or 12
#endif
}
nlines = jpeg_write_scanlines (&cinfo, rowptr, 1);
if (nlines != 1) {
php_gd_error_ex(E_WARNING, "gd_jpeg: warning: jpeg_write_scanlines returns %u -- expected 1", nlines);
}
}
}
jpeg_finish_compress (&cinfo);
jpeg_destroy_compress (&cinfo);
gdFree (row);
}
static void _gdImageGd2 (gdImagePtr im, gdIOCtx * out, int cs, int fmt)
{
int ncx, ncy, cx, cy;
int x, y, ylo, yhi, xlo, xhi;
int chunkLen;
int chunkNum = 0;
char *chunkData = NULL; /* So we can gdFree it with impunity. */
char *compData = NULL; /* So we can gdFree it with impunity. */
uLongf compLen;
int idxPos = 0;
int idxSize;
t_chunk_info *chunkIdx = NULL; /* So we can gdFree it with impunity. */
int posSave;
int bytesPerPixel = im->trueColor ? 4 : 1;
int compMax = 0;
/* Force fmt to a valid value since we don't return anything. */
if ((fmt != GD2_FMT_RAW) && (fmt != GD2_FMT_COMPRESSED)) {
fmt = GD2_FMT_COMPRESSED;
}
if (im->trueColor) {
fmt += 2;
}
/* Make sure chunk size is valid. These are arbitrary values; 64 because it seems
* a little silly to expect performance improvements on a 64x64 bit scale, and
* 4096 because we buffer one chunk, and a 16MB buffer seems a little large - it may be
* OK for one user, but for another to read it, they require the buffer.
*/
if (cs == 0) {
cs = GD2_CHUNKSIZE;
} else if (cs < GD2_CHUNKSIZE_MIN) {
cs = GD2_CHUNKSIZE_MIN;
} else if (cs > GD2_CHUNKSIZE_MAX) {
cs = GD2_CHUNKSIZE_MAX;
}
/* Work out number of chunks. */
ncx = (im->sx + cs - 1) / cs;
ncy = (im->sy + cs - 1) / cs;
/* Write the standard header. */
_gd2PutHeader (im, out, cs, fmt, ncx, ncy);
if (gd2_compressed(fmt)) {
/* Work out size of buffer for compressed data, If CHUNKSIZE is large,
* then these will be large!
*/
/* The zlib notes say output buffer size should be (input size) * 1.01 * 12
* - we'll use 1.02 to be paranoid.
*/
compMax = (int)(cs * bytesPerPixel * cs * 1.02f) + 12;
/* Allocate the buffers. */
chunkData = safe_emalloc(cs * bytesPerPixel, cs, 0);
memset(chunkData, 0, cs * bytesPerPixel * cs);
if (compMax <= 0) {
goto fail;
}
compData = gdCalloc(compMax, 1);
/* Save the file position of chunk index, and allocate enough space for
* each chunk_info block .
*/
idxPos = gdTell(out);
idxSize = ncx * ncy * sizeof(t_chunk_info);
GD2_DBG(php_gd_error("Index size is %d", idxSize));
gdSeek(out, idxPos + idxSize);
chunkIdx = safe_emalloc(idxSize, sizeof(t_chunk_info), 0);
memset(chunkIdx, 0, idxSize * sizeof(t_chunk_info));
}
_gdPutColors (im, out);
GD2_DBG(php_gd_error("Size: %dx%d", im->sx, im->sy));
GD2_DBG(php_gd_error("Chunks: %dx%d", ncx, ncy));
for (cy = 0; (cy < ncy); cy++) {
for (cx = 0; (cx < ncx); cx++) {
ylo = cy * cs;
yhi = ylo + cs;
if (yhi > im->sy) {
yhi = im->sy;
}
GD2_DBG(php_gd_error("Processing Chunk (%dx%d), y from %d to %d", cx, cy, ylo, yhi));
chunkLen = 0;
for (y = ylo; (y < yhi); y++) {
GD2_DBG(php_gd_error("y=%d: ",y));
xlo = cx * cs;
xhi = xlo + cs;
if (xhi > im->sx) {
xhi = im->sx;
}
if (gd2_compressed(fmt)) {
for (x = xlo; x < xhi; x++) {
GD2_DBG(php_gd_error("%d...",x));
if (im->trueColor) {
int p = im->tpixels[y][x];
chunkData[chunkLen++] = gdTrueColorGetAlpha(p);
chunkData[chunkLen++] = gdTrueColorGetRed(p);
chunkData[chunkLen++] = gdTrueColorGetGreen(p);
chunkData[chunkLen++] = gdTrueColorGetBlue(p);
} else {
chunkData[chunkLen++] = im->pixels[y][x];
}
}
} else {
for (x = xlo; x < xhi; x++) {
GD2_DBG(php_gd_error("%d, ",x));
if (im->trueColor) {
gdPutInt(im->tpixels[y][x], out);
} else {
gdPutC((unsigned char) im->pixels[y][x], out);
}
}
}
GD2_DBG(php_gd_error("y=%d done.",y));
}
if (gd2_compressed(fmt)) {
compLen = compMax;
if (compress((unsigned char *) &compData[0], &compLen, (unsigned char *) &chunkData[0], chunkLen) != Z_OK) {
php_gd_error("Error from compressing");
} else {
chunkIdx[chunkNum].offset = gdTell(out);
chunkIdx[chunkNum++].size = compLen;
GD2_DBG(php_gd_error("Chunk %d size %d offset %d", chunkNum, chunkIdx[chunkNum - 1].size, chunkIdx[chunkNum - 1].offset));
if (gdPutBuf (compData, compLen, out) <= 0) {
/* Any alternate suggestions for handling this? */
php_gd_error_ex(E_WARNING, "Error %d on write", errno);
}
}
}
}
}
if (gd2_compressed(fmt)) {
/* Save the position, write the index, restore position (paranoia). */
GD2_DBG(php_gd_error("Seeking %d to write index", idxPos));
posSave = gdTell(out);
gdSeek(out, idxPos);
GD2_DBG(php_gd_error("Writing index"));
for (x = 0; x < chunkNum; x++) {
GD2_DBG(php_gd_error("Chunk %d size %d offset %d", x, chunkIdx[x].size, chunkIdx[x].offset));
gdPutInt(chunkIdx[x].offset, out);
gdPutInt(chunkIdx[x].size, out);
}
gdSeek(out, posSave);
}
fail:
GD2_DBG(php_gd_error("Freeing memory"));
if (chunkData) {
gdFree(chunkData);
}
if (compData) {
gdFree(compData);
}
if (chunkIdx) {
gdFree(chunkIdx);
}
GD2_DBG(php_gd_error("Done"));
}
gdImagePtr gdImageCreateFromGd2PartCtx (gdIOCtx * in, int srcx, int srcy, int w, int h)
{
int scx, scy, ecx, ecy, fsx, fsy;
int nc, ncx, ncy, cs, cx, cy;
int x, y, ylo, yhi, xlo, xhi;
int dstart, dpos;
int i;
/* 2.0.12: unsigned is correct; fixes problems with color munging. Thanks to Steven Brown. */
unsigned int ch;
int vers, fmt;
t_chunk_info *chunkIdx = NULL;
unsigned char *chunkBuf = NULL;
int chunkNum;
int chunkMax = 0;
uLongf chunkLen;
int chunkPos = 0;
int compMax;
char *compBuf = NULL;
gdImagePtr im;
if (w<1 || h <1) {
return 0;
}
/* The next few lines are basically copied from gd2CreateFromFile
* we change the file size, so don't want to use the code directly.
* but we do need to know the file size.
*/
if (_gd2GetHeader(in, &fsx, &fsy, &cs, &vers, &fmt, &ncx, &ncy, &chunkIdx) != 1) {
goto fail1;
}
GD2_DBG(php_gd_error("File size is %dx%d", fsx, fsy));
/* This is the difference - make a file based on size of chunks. */
if (gd2_truecolor(fmt)) {
im = gdImageCreateTrueColor(w, h);
} else {
im = gdImageCreate(w, h);
}
if (im == NULL) {
goto fail1;
}
if (!_gdGetColors(in, im, vers == 2)) {
goto fail2;
}
GD2_DBG(php_gd_error("Image palette completed: %d colours", im->colorsTotal));
/* Process the header info */
nc = ncx * ncy;
if (gd2_compressed(fmt)) {
/* Find the maximum compressed chunk size. */
compMax = 0;
for (i = 0; (i < nc); i++) {
if (chunkIdx[i].size > compMax) {
compMax = chunkIdx[i].size;
}
}
compMax++;
if (im->trueColor) {
chunkMax = cs * cs * 4;
} else {
chunkMax = cs * cs;
}
if (chunkMax <= 0) {
goto fail2;
}
chunkBuf = gdCalloc(chunkMax, 1);
compBuf = gdCalloc(compMax, 1);
}
/* Work out start/end chunks */
scx = srcx / cs;
scy = srcy / cs;
if (scx < 0) {
scx = 0;
}
if (scy < 0) {
scy = 0;
}
ecx = (srcx + w) / cs;
ecy = (srcy + h) / cs;
if (ecx >= ncx) {
ecx = ncx - 1;
}
if (ecy >= ncy) {
ecy = ncy - 1;
}
/* Remember file position of image data. */
dstart = gdTell(in);
GD2_DBG(php_gd_error("Data starts at %d", dstart));
/* Loop through the chunks. */
for (cy = scy; (cy <= ecy); cy++) {
ylo = cy * cs;
yhi = ylo + cs;
if (yhi > fsy) {
yhi = fsy;
}
for (cx = scx; cx <= ecx; cx++) {
xlo = cx * cs;
xhi = xlo + cs;
if (xhi > fsx) {
xhi = fsx;
}
GD2_DBG(php_gd_error("Processing Chunk (%d, %d), from %d to %d", cx, cy, ylo, yhi));
if (!gd2_compressed(fmt)) {
GD2_DBG(php_gd_error("Using raw format data"));
if (im->trueColor) {
dpos = (cy * (cs * fsx) * 4 + cx * cs * (yhi - ylo) * 4) + dstart;
} else {
dpos = cy * (cs * fsx) + cx * cs * (yhi - ylo) + dstart;
}
/* gd 2.0.11: gdSeek returns TRUE on success, not 0. Longstanding bug. 01/16/03 */
if (!gdSeek(in, dpos)) {
php_gd_error_ex(E_WARNING, "Error from seek: %d", errno);
goto fail2;
}
GD2_DBG(php_gd_error("Reading (%d, %d) from position %d", cx, cy, dpos - dstart));
} else {
chunkNum = cx + cy * ncx;
chunkLen = chunkMax;
if (!_gd2ReadChunk (chunkIdx[chunkNum].offset, compBuf, chunkIdx[chunkNum].size, (char *)chunkBuf, &chunkLen, in)) {
php_gd_error("Error reading comproessed chunk");
goto fail2;
}
chunkPos = 0;
GD2_DBG(php_gd_error("Reading (%d, %d) from chunk %d", cx, cy, chunkNum));
}
GD2_DBG(php_gd_error(" into (%d, %d) - (%d, %d)", xlo, ylo, xhi, yhi));
for (y = ylo; (y < yhi); y++) {
for (x = xlo; x < xhi; x++) {
if (!gd2_compressed(fmt)) {
if (im->trueColor) {
if (!gdGetInt((int *)&ch, in)) {
ch = 0;
}
} else {
ch = gdGetC(in);
if ((int)ch == EOF) {
ch = 0;
}
}
} else {
if (im->trueColor) {
ch = chunkBuf[chunkPos++];
ch = (ch << 8) + chunkBuf[chunkPos++];
ch = (ch << 8) + chunkBuf[chunkPos++];
ch = (ch << 8) + chunkBuf[chunkPos++];
} else {
ch = chunkBuf[chunkPos++];
}
}
/* Only use a point that is in the image. */
if ((x >= srcx) && (x < (srcx + w)) && (x < fsx) && (x >= 0) && (y >= srcy) && (y < (srcy + h)) && (y < fsy) && (y >= 0)) {
if (im->trueColor) {
im->tpixels[y - srcy][x - srcx] = ch;
} else {
im->pixels[y - srcy][x - srcx] = ch;
}
}
}
}
}
}
if (chunkBuf) {
gdFree(chunkBuf);
}
if (compBuf) {
gdFree(compBuf);
}
if (chunkIdx) {
gdFree(chunkIdx);
}
return im;
fail2:
gdImageDestroy(im);
fail1:
if (chunkBuf) {
gdFree(chunkBuf);
}
if (compBuf) {
gdFree(compBuf);
}
if (chunkIdx) {
gdFree(chunkIdx);
}
return 0;
}
