gtk/gdk-pixbuf/io-tga.c
2001-08-21 08:51:06 +00:00

1163 lines
28 KiB
C

/*
* GdkPixbuf library - TGA image loader
* Copyright (C) 1999 Nicola Girardi <nikke@swlibero.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*
* Some NOTES about the TGA loader (2001/06/07, nikke@swlibero.org)
*
* - The module doesn't currently provide support for TGA images where the
* order of the pixels isn't left-to-right and top-to-bottom. I plan to
* add support for those files as soon as I get one of them. I haven't
* run into one yet. (And I don't seem to be able to create it with GIMP.)
*
* - The TGAFooter isn't present in all TGA files. In fact, there's an older
* format specification, still in use, which doesn't cover the TGAFooter.
* Actually, most TGA files I have are of the older type. Anyway I put the
* struct declaration here for completeness.
*
* - Error handling was designed to be very paranoid.
*/
#include <stdio.h>
#include <string.h>
#include "gdk-pixbuf.h"
#include "gdk-pixbuf-io.h"
#include "gdk-pixbuf-private.h"
#define TGA_INTERLEAVE_MASK 0xc0
#define TGA_INTERLEAVE_NONE 0x00
#define TGA_INTERLEAVE_2WAY 0x40
#define TGA_INTERLEAVE_4WAY 0x80
#define TGA_ORIGIN_MASK 0x30
#define TGA_ORIGIN_LEFT 0x00
#define TGA_ORIGIN_RIGHT 0x10
#define TGA_ORIGIN_LOWER 0x00
#define TGA_ORIGIN_UPPER 0x20
enum {
TGA_TYPE_NODATA = 0,
TGA_TYPE_PSEUDOCOLOR = 1,
TGA_TYPE_TRUECOLOR = 2,
TGA_TYPE_GRAYSCALE = 3,
TGA_TYPE_RLE_PSEUDOCOLOR = 9,
TGA_TYPE_RLE_TRUECOLOR = 10,
TGA_TYPE_RLE_GRAYSCALE = 11
};
#define LE16(p) ((p)[0] + ((p)[1] << 8))
typedef struct _IOBuffer IOBuffer;
typedef struct _TGAHeader TGAHeader;
typedef struct _TGAFooter TGAFooter;
typedef struct _TGAColormap TGAColormap;
typedef struct _TGAColor TGAColor;
typedef struct _TGAContext TGAContext;
struct _TGAHeader {
guint8 infolen;
guint8 has_cmap;
guint8 type;
guint8 cmap_start[2];
guint8 cmap_n_colors[2];
guint8 cmap_bpp;
guint8 x_origin[2];
guint8 y_origin[2];
guint8 width[2];
guint8 height[2];
guint8 bpp;
guint8 flags;
};
struct _TGAFooter {
guint32 extension_area_offset;
guint32 developer_directory_offset;
/* Standard TGA signature, "TRUEVISION-XFILE.\0". */
union {
gchar sig_full[18];
struct {
gchar sig_chunk[16];
gchar dot, null;
} sig_struct;
} sig;
};
struct _TGAColormap {
gint size;
TGAColor *cols;
};
struct _TGAColor {
guchar r, g, b, a;
};
struct _TGAContext {
TGAHeader *hdr;
guint rowstride;
gboolean run_length_encoded;
TGAColormap *cmap;
guint cmap_size;
GdkPixbuf *pbuf;
guint pbuf_bytes;
guint pbuf_bytes_done;
guchar *pptr;
IOBuffer *in;
gboolean skipped_info;
gboolean prepared;
gboolean done;
ModulePreparedNotifyFunc pfunc;
ModuleUpdatedNotifyFunc ufunc;
gpointer udata;
};
struct _IOBuffer {
guchar *data;
guint size;
};
static IOBuffer *io_buffer_new(GError **err)
{
IOBuffer *buffer;
buffer = g_try_malloc(sizeof(IOBuffer));
if (!buffer) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for IOBuffer struct"));
return NULL;
}
buffer->data = NULL;
buffer->size = 0;
return buffer;
}
static IOBuffer *io_buffer_append(IOBuffer *buffer,
const guchar *data, guint len,
GError **err)
{
if (!buffer)
return NULL;
if (!buffer->data) {
buffer->data = g_try_malloc(len);
if (!buffer->data) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for IOBuffer data"));
g_free(buffer);
return NULL;
}
g_memmove(buffer->data, data, len);
buffer->size = len;
} else {
buffer->data = g_try_realloc(buffer->data, buffer->size + len);
if (!buffer->data) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't realloc IOBuffer data"));
g_free(buffer);
return NULL;
}
g_memmove(&buffer->data[buffer->size], data, len);
buffer->size += len;
}
return buffer;
}
static IOBuffer *io_buffer_free_segment(IOBuffer *buffer,
guint count,
GError **err)
{
g_return_val_if_fail(buffer != NULL, NULL);
g_return_val_if_fail(buffer->data != NULL, NULL);
if (count == buffer->size) {
g_free(buffer->data);
buffer->data = NULL;
buffer->size = 0;
} else {
guchar *new_buf;
guint new_size;
new_size = buffer->size - count;
new_buf = g_try_malloc(new_size);
if (!new_buf) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate temporary IOBuffer data"));
g_free(buffer->data);
g_free(buffer);
return NULL;
}
g_memmove(new_buf, &buffer->data[count], new_size);
g_free(buffer->data);
buffer->data = new_buf;
buffer->size = new_size;
}
return buffer;
}
static void io_buffer_free(IOBuffer *buffer)
{
g_return_if_fail(buffer != NULL);
if (buffer->data)
g_free(buffer->data);
g_free(buffer);
}
static void free_buffer(guchar *pixels, gpointer data)
{
g_free(pixels);
}
static gboolean fread_check(gpointer dest,
size_t size, size_t count,
FILE *f, GError **err)
{
if (fread(dest, size, count, f) != count) {
g_set_error(err, GDK_PIXBUF_ERROR, GDK_PIXBUF_ERROR_FAILED,
_("fread() failed -- premature end-of-file probably encountered"));
return FALSE;
}
return TRUE;
}
static gboolean fseek_check(FILE *f, glong offset, gint whence, GError **err)
{
if (fseek(f, offset, whence) != 0) {
g_set_error(err, GDK_PIXBUF_ERROR, GDK_PIXBUF_ERROR_FAILED,
_("fseek() failed -- premature end-of-file probably encountered"));
return FALSE;
}
return TRUE;
}
static gboolean fill_in_context(TGAContext *ctx, GError **err)
{
gboolean alpha;
g_return_val_if_fail(ctx != NULL, FALSE);
ctx->run_length_encoded =
((ctx->hdr->type == TGA_TYPE_RLE_PSEUDOCOLOR)
|| (ctx->hdr->type == TGA_TYPE_RLE_TRUECOLOR)
|| (ctx->hdr->type == TGA_TYPE_RLE_GRAYSCALE));
if (ctx->hdr->has_cmap)
ctx->cmap_size = ((ctx->hdr->cmap_bpp + 7) >> 3) *
LE16(ctx->hdr->cmap_n_colors);
alpha = ((ctx->hdr->bpp == 32) ||
(ctx->hdr->has_cmap && (ctx->hdr->cmap_bpp == 32)));
ctx->pbuf = gdk_pixbuf_new(GDK_COLORSPACE_RGB, alpha, 8,
LE16(ctx->hdr->width),
LE16(ctx->hdr->height));
if (!ctx->pbuf) {
g_set_error(err, GDK_PIXBUF_ERROR, GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate new pixbuf"));
return FALSE;
}
ctx->pbuf_bytes = ctx->pbuf->rowstride * ctx->pbuf->height;
ctx->pptr = ctx->pbuf->pixels;
if ((ctx->hdr->type == TGA_TYPE_PSEUDOCOLOR) ||
(ctx->hdr->type == TGA_TYPE_GRAYSCALE))
ctx->rowstride = ctx->pbuf->width;
else if (ctx->hdr->type == TGA_TYPE_TRUECOLOR)
ctx->rowstride = ctx->pbuf->rowstride;
return TRUE;
}
static void parse_data_for_row_pseudocolor(TGAContext *ctx)
{
guchar *s = ctx->in->data;
guint upper_bound = ctx->pbuf->width;
for (; upper_bound; upper_bound--, s++) {
*ctx->pptr++ = ctx->cmap->cols[*s].r;
*ctx->pptr++ = ctx->cmap->cols[*s].g;
*ctx->pptr++ = ctx->cmap->cols[*s].b;
if (ctx->hdr->cmap_bpp == 32)
*ctx->pptr++ = ctx->cmap->cols[*s].a;
}
ctx->pbuf_bytes_done += ctx->pbuf->n_channels * ctx->pbuf->width;
if (ctx->pbuf_bytes_done == ctx->pbuf_bytes)
ctx->done = TRUE;
}
static void swap_channels(TGAContext *ctx)
{
register guchar swap;
register guint count;
for (count = ctx->pbuf->width; count; count--) {
swap = ctx->pptr[0];
ctx->pptr[0] = ctx->pptr[2];
ctx->pptr[2] = swap;
ctx->pptr += ctx->pbuf->n_channels;
}
}
static void parse_data_for_row_truecolor(TGAContext *ctx)
{
g_memmove(ctx->pptr, ctx->in->data, ctx->pbuf->rowstride);
swap_channels(ctx);
ctx->pbuf_bytes_done += ctx->pbuf->rowstride;
if (ctx->pbuf_bytes_done == ctx->pbuf_bytes)
ctx->done = TRUE;
}
static void parse_data_for_row_grayscale(TGAContext *ctx)
{
guchar *s = ctx->in->data;
guint upper_bound = ctx->pbuf->width;
for (; upper_bound; upper_bound--) {
ctx->pptr[0] = ctx->pptr[1] = ctx->pptr[2] = *s++;
ctx->pptr += 3;
}
ctx->pbuf_bytes_done = ctx->pbuf->width * 3;
if (ctx->pbuf_bytes_done == ctx->pbuf_bytes)
ctx->done = TRUE;
}
static gboolean parse_data_for_row(TGAContext *ctx, GError **err)
{
if (ctx->hdr->type == TGA_TYPE_PSEUDOCOLOR)
parse_data_for_row_pseudocolor(ctx);
else if (ctx->hdr->type == TGA_TYPE_TRUECOLOR)
parse_data_for_row_truecolor(ctx);
else if (ctx->hdr->type == TGA_TYPE_GRAYSCALE)
parse_data_for_row_grayscale(ctx);
ctx->in = io_buffer_free_segment(ctx->in, ctx->rowstride, err);
if (!ctx->in)
return FALSE;
(*ctx->ufunc) (ctx->pbuf, 0,
(ctx->pbuf_bytes_done / ctx->pbuf->rowstride) - 1,
ctx->pbuf->width, 1, ctx->udata);
return TRUE;
}
static void write_rle_data(TGAContext *ctx, TGAColor *color, guint *rle_count)
{
ctx->pbuf_bytes_done += ctx->pbuf->n_channels * (*rle_count);
for (; *rle_count; (*rle_count)--) {
g_memmove(ctx->pptr, (guchar *) color, ctx->pbuf->n_channels);
ctx->pptr += ctx->pbuf->n_channels;
}
}
static guint parse_rle_data_pseudocolor(TGAContext *ctx)
{
guint rle_num, raw_num;
guchar *s, tag;
guint n;
g_return_val_if_fail(ctx->in->size > 0, 0);
s = ctx->in->data;
for (n = 0; n < ctx->in->size; ) {
tag = *s;
s++, n++;
if (tag & 0x80) {
if (n == ctx->in->size) {
return --n;
} else {
rle_num = (tag & 0x7f) + 1;
write_rle_data(ctx, &ctx->cmap->cols[*s], &rle_num);
s++, n++;
}
} else {
raw_num = tag + 1;
if (n + raw_num >= ctx->in->size) {
return --n;
} else {
for (; raw_num; raw_num--) {
*ctx->pptr++ =
ctx->cmap->cols[*s].r;
*ctx->pptr++ =
ctx->cmap->cols[*s].g;
*ctx->pptr++ =
ctx->cmap->cols[*s].b;
if (ctx->pbuf->n_channels == 4)
*ctx->pptr++ = ctx->cmap->cols[*s].a;
s++, n++;
ctx->pbuf_bytes_done += ctx->pbuf->n_channels;
}
}
}
}
if (ctx->pbuf_bytes_done == ctx->pbuf_bytes)
ctx->done = TRUE;
return n;
}
static void swap_channels_rle(TGAContext *ctx, guint count)
{
register guchar swap;
for (; count; count--) {
swap = ctx->pptr[0];
ctx->pptr[0] = ctx->pptr[2];
ctx->pptr[2] = swap;
ctx->pptr += ctx->pbuf->n_channels;
}
}
static guint parse_rle_data_truecolor(TGAContext *ctx)
{
TGAColor col;
guint rle_num, raw_num;
guchar *s, tag;
guint n = 0;
g_return_val_if_fail(ctx->in->size > 0, 0);
s = ctx->in->data;
for (n = 0; n < ctx->in->size; ) {
tag = *s;
s++, n++;
if (tag & 0x80) {
if (n + ctx->pbuf->n_channels >= ctx->in->size) {
return --n;
} else {
rle_num = (tag & 0x7f) + 1;
col.b = *s++;
col.g = *s++;
col.r = *s++;
if (ctx->hdr->bpp == 32)
col.a = *s++;
write_rle_data(ctx, &col, &rle_num);
n += ctx->pbuf->n_channels;
}
} else {
raw_num = tag + 1;
if (n + (raw_num * ctx->pbuf->n_channels) >= ctx->in->size) {
return --n;
} else {
g_memmove(ctx->pptr, s, raw_num * ctx->pbuf->n_channels);
swap_channels_rle(ctx, raw_num);
s += raw_num * ctx->pbuf->n_channels;
n += raw_num * ctx->pbuf->n_channels;
ctx->pbuf_bytes_done += raw_num * ctx->pbuf->n_channels;
}
}
}
if (ctx->pbuf_bytes_done == ctx->pbuf_bytes)
ctx->done = TRUE;
return n;
}
static guint parse_rle_data_grayscale(TGAContext *ctx)
{
TGAColor tone;
guint rle_num, raw_num;
guchar *s, tag;
guint n;
g_return_val_if_fail(ctx->in->size > 0, 0);
s = ctx->in->data;
for (n = 0; n < ctx->in->size; ) {
tag = *s;
s++, n++;
if (tag & 0x80) {
if (n == ctx->in->size) {
return --n;
} else {
rle_num = (tag & 0x7f) + 1;
tone.r = tone.g = tone.b = *s;
s++, n++;
write_rle_data(ctx, &tone, &rle_num);
}
} else {
raw_num = tag + 1;
if (n + raw_num >= ctx->in->size) {
return --n;
} else {
for (; raw_num; raw_num--) {
ctx->pptr[0] = ctx->pptr[1] = ctx->pptr[2] = *s;
s++, n++;
ctx->pptr += 3;
ctx->pbuf_bytes_done += 3;
}
}
}
}
if (ctx->pbuf_bytes_done == ctx->pbuf_bytes)
ctx->done = TRUE;
return n;
}
static gboolean parse_rle_data(TGAContext *ctx, GError **err)
{
guint count = 0;
guint pbuf_count = 0;
if (ctx->hdr->type == TGA_TYPE_RLE_PSEUDOCOLOR) {
count = parse_rle_data_pseudocolor(ctx);
pbuf_count = count *ctx->pbuf->n_channels;
} else if (ctx->hdr->type == TGA_TYPE_RLE_TRUECOLOR) {
count = parse_rle_data_truecolor(ctx);
pbuf_count = count;
} else if (ctx->hdr->type == TGA_TYPE_RLE_GRAYSCALE) {
count = parse_rle_data_grayscale(ctx);
pbuf_count = count * 3;
}
ctx->in = io_buffer_free_segment(ctx->in, count, err);
if (!ctx->in)
return FALSE;
(*ctx->ufunc) (ctx->pbuf, 0, ctx->pbuf_bytes_done / ctx->pbuf->rowstride,
ctx->pbuf->width, pbuf_count / ctx->pbuf->rowstride,
ctx->udata);
return TRUE;
}
static gboolean try_colormap(TGAContext *ctx, GError **err)
{
static guchar *p;
static guint n;
g_return_val_if_fail(ctx != NULL, FALSE);
g_return_val_if_fail(ctx->cmap_size > 0, TRUE);
ctx->cmap = g_try_malloc(sizeof(TGAColormap));
if (!ctx->cmap) {
g_set_error(err, GDK_PIXBUF_ERROR, GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate colormap structure"));
return FALSE;
}
ctx->cmap->size = LE16(ctx->hdr->cmap_n_colors);
ctx->cmap->cols = g_try_malloc(sizeof(TGAColor) * ctx->cmap->size);
if (!ctx->cmap->cols) {
g_set_error(err, GDK_PIXBUF_ERROR, GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate colormap entries"));
g_free(ctx->cmap);
return FALSE;
}
p = ctx->in->data;
for (n = 0; n < ctx->cmap->size; n++) {
if ((ctx->hdr->cmap_bpp == 15) || (ctx->hdr->cmap_bpp == 16)) {
guint16 col = p[0] + (p[1] << 8);
ctx->cmap->cols[n].b = (col >> 7) & 0xf8;
ctx->cmap->cols[n].g = (col >> 2) & 0xf8;
ctx->cmap->cols[n].r = col << 3;
p += 2;
}
else if ((ctx->hdr->cmap_bpp == 24) || (ctx->hdr->cmap_bpp == 32)) {
ctx->cmap->cols[n].b = *p++;
ctx->cmap->cols[n].g = *p++;
ctx->cmap->cols[n].r = *p++;
if (ctx->hdr->cmap_bpp == 32)
ctx->cmap->cols[n].a = *p++;
} else {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_CORRUPT_IMAGE,
_("Unexpected bitdepth for colormap entries"));
g_free(ctx->cmap->cols);
g_free(ctx->cmap);
return FALSE;
}
}
ctx->in = io_buffer_free_segment(ctx->in, ctx->cmap_size, err);
if (!ctx->in)
return FALSE;
return TRUE;
}
static gboolean try_preload(TGAContext *ctx, GError **err)
{
if (!ctx->hdr) {
if (ctx->in->size >= sizeof(TGAHeader)) {
ctx->hdr = g_try_malloc(sizeof(TGAHeader));
if (!ctx->hdr) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate TGA header memory"));
return FALSE;
}
g_memmove(ctx->hdr, ctx->in->data, sizeof(TGAHeader));
ctx->in = io_buffer_free_segment(ctx->in, sizeof(TGAHeader), err);
if (!ctx->in)
return FALSE;
if (!fill_in_context(ctx, err))
return FALSE;
if (ctx->hdr->infolen > 255) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_CORRUPT_IMAGE,
_("TGA image comment length is too long"));
return FALSE;
}
if ((ctx->hdr->flags & TGA_INTERLEAVE_MASK) !=
TGA_INTERLEAVE_NONE ||
ctx->hdr->flags & TGA_ORIGIN_RIGHT ||
ctx->hdr->flags & TGA_ORIGIN_LOWER) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_UNKNOWN_TYPE,
_("TGA image type not supported"));
return FALSE;
}
} else {
return TRUE;
}
}
if (!ctx->skipped_info) {
if (ctx->in->size >= ctx->hdr->infolen) {
ctx->in = io_buffer_free_segment(ctx->in, ctx->hdr->infolen, err);
if (!ctx->in)
return FALSE;
ctx->skipped_info = TRUE;
} else {
return TRUE;
}
}
if (ctx->hdr->has_cmap && !ctx->cmap) {
if (ctx->in->size >= ctx->cmap_size) {
if (!try_colormap(ctx, err))
return FALSE;
} else {
return TRUE;
}
}
if (!ctx->prepared) {
(*ctx->pfunc) (ctx->pbuf, NULL, ctx->udata);
ctx->prepared = TRUE;
}
/* We shouldn't get here anyway. */
return TRUE;
}
static gpointer gdk_pixbuf__tga_begin_load(ModulePreparedNotifyFunc f1,
ModuleUpdatedNotifyFunc f2,
gpointer udata, GError **err)
{
TGAContext *ctx;
ctx = g_try_malloc(sizeof(TGAContext));
if (!ctx) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for TGA context struct"));
return NULL;
}
ctx->hdr = NULL;
ctx->rowstride = 0;
ctx->run_length_encoded = FALSE;
ctx->cmap = NULL;
ctx->cmap_size = 0;
ctx->pbuf = NULL;
ctx->pbuf_bytes = 0;
ctx->pbuf_bytes_done = 0;
ctx->pptr = NULL;
ctx->in = io_buffer_new(err);
if (!ctx->in) {
g_free(ctx);
return NULL;
}
ctx->skipped_info = FALSE;
ctx->prepared = FALSE;
ctx->done = FALSE;
ctx->pfunc = f1;
ctx->ufunc = f2;
ctx->udata = udata;
return ctx;
}
static gboolean gdk_pixbuf__tga_load_increment(gpointer data,
const guchar *buffer,
guint size,
GError **err)
{
TGAContext *ctx = (TGAContext*) data;
g_return_val_if_fail(ctx != NULL, FALSE);
if (ctx->done)
return TRUE;
g_return_val_if_fail(buffer != NULL, TRUE);
ctx->in = io_buffer_append(ctx->in, buffer, size, err);
if (!ctx->in)
return FALSE;
if (!ctx->prepared) {
if (!try_preload(ctx, err))
return FALSE;
if (!ctx->prepared)
return TRUE;
if (ctx->in->size == 0)
return TRUE;
}
if (ctx->run_length_encoded) {
if (!parse_rle_data(ctx, err))
return FALSE;
} else {
while (ctx->in->size >= ctx->rowstride)
if (!parse_data_for_row(ctx, err))
return FALSE;
}
return TRUE;
}
static gboolean gdk_pixbuf__tga_stop_load(gpointer data, GError **err)
{
TGAContext *ctx = (TGAContext *) data;
g_return_val_if_fail(ctx != NULL, FALSE);
g_free(ctx->hdr);
if (ctx->cmap)
g_free(ctx->cmap);
gdk_pixbuf_unref(ctx->pbuf);
if (ctx->in->size)
ctx->in = io_buffer_free_segment(ctx->in, ctx->in->size, err);
if (!ctx->in) {
g_free(ctx);
return FALSE;
}
io_buffer_free(ctx->in);
g_free(ctx);
return TRUE;
}
static TGAHeader *get_header_from_file(FILE *f, GError **err)
{
TGAHeader *hdr;
if (!fseek_check(f, 0, SEEK_SET, err))
return NULL;
if (!(hdr = g_try_malloc(sizeof(TGAHeader)))) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for TGA header"));
return NULL;
}
if (!fread_check(hdr, sizeof(TGAHeader), 1, f, err)) {
g_free(hdr);
return NULL;
}
if (hdr->infolen > 255) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_CORRUPT_IMAGE,
_("Too big value in the infolen field of TGA header."));
g_free(hdr);
return NULL;
}
return hdr;
}
static TGAColormap *get_colormap_from_file(FILE *f,
TGAHeader *hdr,
GError **err)
{
TGAColormap *cmap;
guchar *pal_buf, *p;
guint n, pal_size;
if (!fseek_check(f, sizeof(TGAHeader) + hdr->infolen, SEEK_SET, err))
return NULL;
pal_size = LE16(hdr->cmap_n_colors) * ((hdr->cmap_bpp + 7) >> 3);
pal_buf = g_try_malloc(pal_size);
if (!pal_buf) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for TGA cmap temporary buffer"));
return NULL;
}
if (!fread_check(pal_buf, pal_size, 1, f, err)) {
g_free(pal_buf);
return NULL;
}
p = pal_buf;
if (!(cmap = g_try_malloc(sizeof(TGAColormap)))) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for TGA colormap struct"));
g_free(pal_buf);
return NULL;
}
cmap->size = LE16(hdr->cmap_n_colors);
cmap->cols = g_try_malloc(sizeof(TGAColor) * cmap->size);
if (!cmap->cols) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate memory for TGA colormap entries"));
g_free(pal_buf);
g_free(cmap);
return NULL;
}
if (hdr->cmap_bpp != 15 && hdr->cmap_bpp != 16 &&
hdr->cmap_bpp != 24 && hdr->cmap_bpp != 32) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_UNKNOWN_TYPE,
_("Unexpected bitdepth for TGA colormap"));
g_free(pal_buf);
g_free(cmap->cols);
g_free(cmap);
return NULL;
}
for (n = 0; n < cmap->size; n++) {
if ((hdr->cmap_bpp == 15) || (hdr->cmap_bpp == 16)) {
guint16 col = p[0] + (p[1] << 8);
p += 2;
cmap->cols[n].b = (col >> 7) & 0xf8;
cmap->cols[n].g = (col >> 2) & 0xf8;
cmap->cols[n].r = col << 3;
} else if ((hdr->cmap_bpp == 24) || (hdr->cmap_bpp == 32)) {
cmap->cols[n].b = *p++;
cmap->cols[n].g = *p++;
cmap->cols[n].r = *p++;
if (hdr->cmap_bpp == 32)
cmap->cols[n].a = *p++;
}
}
g_free(pal_buf);
return cmap;
}
static GdkPixbuf *get_image_pseudocolor(FILE *f, TGAHeader *hdr,
TGAColormap *cmap, gboolean rle,
GError **err)
{
GdkPixbuf *pbuf;
guchar *p, color, tag;
glong n, image_offset;
guint count;
image_offset = sizeof(TGAHeader) + hdr->infolen;
if (!hdr->has_cmap) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_CORRUPT_IMAGE,
_("Pseudo-Color image without colormap"));
return NULL;
} else {
image_offset += cmap->size * ((hdr->cmap_bpp + 7) >> 3);
}
if (!fseek_check(f, image_offset, SEEK_SET, err)) {
g_set_error(err, GDK_PIXBUF_ERROR, GDK_PIXBUF_ERROR_FAILED,
_("Can't seek to image offset -- end-of-file probably encountered"));
return NULL;
}
pbuf = gdk_pixbuf_new(GDK_COLORSPACE_RGB, (hdr->cmap_bpp == 32), 8,
LE16(hdr->width), LE16(hdr->height));
if (!pbuf) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate pixbuf"));
return NULL;
}
pbuf->destroy_fn = free_buffer;
pbuf->destroy_fn_data = NULL;
p = pbuf->pixels;
if (rle) {
n = count = 0;
for (; n < pbuf->width * pbuf->height;) {
if (!fread_check(&tag, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
if (tag & 0x80) {
count = (tag & 0x7f) + 1;
n += count;
if (!fread_check(&color, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
for (; count; count--) {
*p++ = cmap->cols[color].r;
*p++ = cmap->cols[color].g;
*p++ = cmap->cols[color].b;
if (hdr->cmap_bpp == 32)
*p++ = cmap->cols[color].a;
}
} else {
count = tag + 1;
n += count;
for (; count; count--) {
if (!fread_check(&color, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
*p++ = cmap->cols[color].r;
*p++ = cmap->cols[color].g;
*p++ = cmap->cols[color].b;
if (hdr->cmap_bpp == 32)
*p++ = cmap->cols[color].a;
}
}
}
} else {
for (n = 0; n < pbuf->width * pbuf->height; n++) {
if (!fread_check(&color, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
*p++ = cmap->cols[color].r;
*p++ = cmap->cols[color].g;
*p++ = cmap->cols[color].b;
if (hdr->cmap_bpp == 32)
*p++ = cmap->cols[color].a;
}
}
return pbuf;
}
static void swap_channels_pixbuf(GdkPixbuf *pbuf)
{
guchar *p, swap;
glong n;
p = pbuf->pixels;
for (n = 0; n < pbuf->width * pbuf->height; n++) {
swap = p[0];
p[0] = p[2];
p[2] = swap;
p += pbuf->n_channels;
}
}
static GdkPixbuf *get_image_truecolor(FILE *f, TGAHeader *hdr,
gboolean rle, GError **err)
{
GdkPixbuf *pbuf;
guchar *p, tag;
glong n, image_offset;
guint32 pixel;
guint count;
image_offset = sizeof(TGAHeader) + hdr->infolen;
/* A truecolor image shouldn't actually have a colormap. */
if (hdr->has_cmap)
image_offset += LE16(hdr->cmap_n_colors) * ((hdr->cmap_bpp + 7) >> 3);
if (!fseek_check(f, image_offset, SEEK_SET, err))
return NULL;
pbuf = gdk_pixbuf_new(GDK_COLORSPACE_RGB, (hdr->bpp == 32), 8,
LE16(hdr->width), LE16(hdr->height));
if (!pbuf) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate pixbuf"));
return NULL;
}
pbuf->destroy_fn = free_buffer;
pbuf->destroy_fn_data = NULL;
p = pbuf->pixels;
if (rle) {
n = count = 0;
for (; n < pbuf->width * pbuf->height;) {
if (!fread_check(&tag, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
if (tag & 0x80) {
count = (tag & 0x7f) + 1;
n += count;
if (!fread_check(&pixel, pbuf->n_channels, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
for (; count; count--) {
g_memmove(p, &pixel, pbuf->n_channels);
p += pbuf->n_channels;
}
} else {
count = tag + 1;
n += count;
if (!fread_check(p, pbuf->n_channels * count, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
p += pbuf->n_channels * count;
}
}
} else {
if (!fread_check(p, pbuf->rowstride * pbuf->height, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
}
swap_channels_pixbuf(pbuf);
return pbuf;
}
static GdkPixbuf *get_image_grayscale(FILE *f, TGAHeader *hdr,
gboolean rle, GError **err)
{
GdkPixbuf *pbuf;
glong n, image_offset;
guchar *p, color, tag;
guint count;
image_offset = sizeof(TGAHeader) + hdr->infolen;
/* A grayscale image shouldn't actually have a colormap. */
if (hdr->has_cmap)
image_offset += LE16(hdr->cmap_n_colors) * ((hdr->cmap_bpp + 7) >> 3);
if (!fseek_check(f, image_offset, SEEK_SET, err))
return NULL;
pbuf = gdk_pixbuf_new(GDK_COLORSPACE_RGB, FALSE, 8,
LE16(hdr->width), LE16(hdr->height));
if (!pbuf) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_INSUFFICIENT_MEMORY,
_("Can't allocate pixbuf"));
return NULL;
}
pbuf->destroy_fn = free_buffer;
pbuf->destroy_fn_data = NULL;
p = pbuf->pixels;
if (rle) {
n = count = 0;
for (; n < pbuf->width * pbuf->height;) {
if (!fread_check(&tag, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
if (tag & 0x80) {
count = (tag & 0x7f) + 1;
n += count;
if (!fread_check(&color, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
for (; count; count--) {
p[0] = p[1] = p[2] = color;
p += 3;
}
} else {
count = tag + 1;
n += count;
for (; count; count--) {
if (!fread_check(&color, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
p[0] = p[1] = p[2] = color;
p += 3;
}
}
}
} else {
for (n = 0; n < pbuf->width * pbuf->height; n++) {
if (!fread_check(&color, 1, 1, f, err)) {
gdk_pixbuf_unref(pbuf);
return NULL;
}
p[0] = p[1] = p[2] = color;
p += 3;
}
}
return pbuf;
}
static GdkPixbuf *gdk_pixbuf__tga_load(FILE *f, GError **err)
{
TGAHeader *hdr;
TGAColormap *cmap;
GdkPixbuf *pbuf;
cmap = NULL;
hdr = get_header_from_file(f, err);
if (!hdr)
return NULL;
if ((hdr->flags & TGA_INTERLEAVE_MASK) != TGA_INTERLEAVE_NONE ||
hdr->flags & TGA_ORIGIN_RIGHT || hdr->flags & TGA_ORIGIN_LOWER) {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_UNKNOWN_TYPE,
_("Unsupported TGA image type"));
g_free(hdr);
return NULL;
}
if (hdr->has_cmap && ((hdr->type == TGA_TYPE_PSEUDOCOLOR) ||
(hdr->type == TGA_TYPE_RLE_PSEUDOCOLOR))) {
cmap = get_colormap_from_file(f, hdr, err);
if (!cmap) {
g_free(hdr);
return NULL;
}
}
if (hdr->type == TGA_TYPE_PSEUDOCOLOR)
pbuf = get_image_pseudocolor(f, hdr, cmap, FALSE, err);
else if (hdr->type == TGA_TYPE_RLE_PSEUDOCOLOR)
pbuf = get_image_pseudocolor(f, hdr, cmap, TRUE, err);
else if (hdr->type == TGA_TYPE_TRUECOLOR)
pbuf = get_image_truecolor(f, hdr, FALSE, err);
else if (hdr->type == TGA_TYPE_RLE_TRUECOLOR)
pbuf = get_image_truecolor(f, hdr, TRUE, err);
else if (hdr->type == TGA_TYPE_GRAYSCALE)
pbuf = get_image_grayscale(f, hdr, FALSE, err);
else if (hdr->type == TGA_TYPE_RLE_GRAYSCALE)
pbuf = get_image_grayscale(f, hdr, TRUE, err);
else {
g_set_error(err, GDK_PIXBUF_ERROR,
GDK_PIXBUF_ERROR_UNKNOWN_TYPE,
_("Unsupported TGA image type"));
pbuf = NULL;
}
if (cmap) {
g_free(cmap->cols);
g_free(cmap);
}
g_free(hdr);
return pbuf;
}
void
gdk_pixbuf__tga_fill_vtable (GdkPixbufModule *module)
{
module->load = gdk_pixbuf__tga_load;
module->begin_load = gdk_pixbuf__tga_begin_load;
module->stop_load = gdk_pixbuf__tga_stop_load;
module->load_increment = gdk_pixbuf__tga_load_increment;
}