#undef LOCAL_DEBUG
-#include "lib/lib.h"
-#include "lib/mempool.h"
-#include "lib/fastbuf.h"
-#include "images/images.h"
-#include "images/io-main.h"
+#include <ucw/lib.h>
+#include <ucw/mempool.h>
+#include <ucw/fastbuf.h>
+#include <images/images.h>
+#include <images/error.h>
+#include <images/color.h>
+#include <images/io-main.h>
+
#include <gif_lib.h>
+struct libungif_read_data {
+ GifFileType *gif;
+ int transparent_index;
+};
+
static int
libungif_read_func(GifFileType *gif, GifByteType *ptr, int len)
{
{
DBG("libungif_read_cancel()");
- DGifCloseFile(io->read_data);
+ struct libungif_read_data *rd = io->read_data;
+ DGifCloseFile(rd->gif);
}
int
/* Create libungif structure */
GifFileType *gif;
- if (unlikely(!(gif = io->read_data = DGifOpen(io->fastbuf, libungif_read_func))))
+ if (unlikely(!(gif = DGifOpen(io->fastbuf, libungif_read_func))))
{
- image_thread_err(io->thread, IMAGE_ERR_READ_FAILED, "Cannot create libungif structure.");
+ IMAGE_ERROR(io->context, IMAGE_ERROR_READ_FAILED, "Cannot create libungif structure.");
return 0;
}
+ struct libungif_read_data *rd = io->read_data = mp_alloc(io->internal_pool, sizeof(*rd));
+ rd->gif = gif;
+
+ DBG("executing DGifSlurp()");
if (unlikely(DGifSlurp(gif) != GIF_OK))
{
- image_thread_err(io->thread, IMAGE_ERR_READ_FAILED, "Gif read failed.");
+ IMAGE_ERROR(io->context, IMAGE_ERROR_READ_FAILED, "Gif read failed.");
DGifCloseFile(gif);
return 0;
}
+ DBG("ImageCount=%d ColorResolution=%d SBackGroundColor=%d SColorMap=%p", gif->ImageCount, gif->SColorResolution, gif->SBackGroundColor, gif->SColorMap);
if (unlikely(!gif->ImageCount))
{
- image_thread_err(io->thread, IMAGE_ERR_READ_FAILED, "There are no images in gif file.");
+ IMAGE_ERROR(io->context, IMAGE_ERROR_READ_FAILED, "There are no images in gif file.");
DGifCloseFile(gif);
return 0;
}
/* Read image parameters */
SavedImage *image = gif->SavedImages;
if (unlikely(image->ImageDesc.Width <= 0 || image->ImageDesc.Height <= 0 ||
- image->ImageDesc.Width > (int)IMAGE_MAX_SIZE || image->ImageDesc.Height > (int)IMAGE_MAX_SIZE))
+ image->ImageDesc.Width > (int)image_max_dim || image->ImageDesc.Height > (int)image_max_dim))
{
- image_thread_err(io->thread, IMAGE_ERR_INVALID_DIMENSIONS, "Invalid gif dimensions.");
+ IMAGE_ERROR(io->context, IMAGE_ERROR_INVALID_DIMENSIONS, "Invalid gif dimensions.");
DGifCloseFile(gif);
return 0;
}
ColorMapObject *color_map = image->ImageDesc.ColorMap ? : gif->SColorMap;
if (unlikely(!color_map))
{
- image_thread_err(io->thread, IMAGE_ERR_READ_FAILED, "Missing palette.");
+ IMAGE_ERROR(io->context, IMAGE_ERROR_READ_FAILED, "Missing palette.");
DGifCloseFile(gif);
return 0;
}
io->cols = image->ImageDesc.Width;
io->rows = image->ImageDesc.Height;
- io->number_of_colors = color_map->ColorCount;
+ if (unlikely((io->number_of_colors = color_map->ColorCount) > 256))
+ {
+ IMAGE_ERROR(io->context, IMAGE_ERROR_READ_FAILED, "Too many gif colors.");
+ DGifCloseFile(gif);
+ return 0;
+ }
io->flags = COLOR_SPACE_RGB | IMAGE_IO_HAS_PALETTE;
- if ((uns)gif->SBackGroundColor < (uns)color_map->ColorCount)
- io->flags |= IMAGE_ALPHA;
+
+ /* Search extension blocks */
+ rd->transparent_index = -1;
+ for (int i = 0; i < image->ExtensionBlockCount; i++)
+ {
+ ExtensionBlock *e = image->ExtensionBlocks + i;
+ if (e->Function == 0xF9)
+ {
+ DBG("Found graphics control extension");
+ if (unlikely(e->ByteCount != 4))
+ {
+ IMAGE_ERROR(io->context, IMAGE_ERROR_READ_FAILED, "Invalid graphics control extension.");
+ DGifCloseFile(gif);
+ return 0;
+ }
+ byte *b = e->Bytes;
+ /* transparent color present */
+ if (b[0] & 1)
+ {
+ rd->transparent_index = b[3];
+ io->flags |= IMAGE_ALPHA;
+ if (gif->SColorMap)
+ {
+ GifColorType *background = color_map->Colors + gif->SBackGroundColor;
+ color_make_rgb(&io->background_color, background->Red, background->Green, background->Blue);
+ }
+ }
+ /* We've got everything we need :-) */
+ break;
+ }
+ else
+ DBG("Found unknown extension: type=%d size=%d", e->Function, e->ByteCount);
+ }
/* Success */
io->read_cancel = libungif_read_cancel;
return 1;
}
-static inline byte
-libungif_pixel_to_gray(GifColorType *pixel)
-{
- return ((uns)pixel->Red * 19660 + (uns)pixel->Green * 38666 + (uns)pixel->Blue * 7210) >> 16;
-}
-
int
libungif_read_data(struct image_io *io)
{
DBG("libungif_read_data()");
- GifFileType *gif = io->read_data;
+ struct libungif_read_data *rd = io->read_data;
+ GifFileType *gif = rd->gif;
SavedImage *image = gif->SavedImages;
/* Prepare image */
struct image_io_read_data_internals rdi;
- if (unlikely(!image_io_read_data_prepare(&rdi, io, image->ImageDesc.Width, image->ImageDesc.Height)))
+ uint read_flags = io->flags;
+ uint cs = read_flags & IMAGE_COLOR_SPACE;
+ if (cs != COLOR_SPACE_GRAYSCALE && cs != COLOR_SPACE_RGB)
+ read_flags = (read_flags & ~IMAGE_COLOR_SPACE & IMAGE_CHANNELS_FORMAT) | COLOR_SPACE_RGB;
+ if (unlikely(!image_io_read_data_prepare(&rdi, io, image->ImageDesc.Width, image->ImageDesc.Height, read_flags)))
{
DGifCloseFile(gif);
return 0;
byte *pixels = (byte *)image->RasterBits;
ColorMapObject *color_map = image->ImageDesc.ColorMap ? : gif->SColorMap;
GifColorType *palette = color_map->Colors;
- uns background = gif->SBackGroundColor;
byte *img_end = rdi.image->pixels + rdi.image->image_size;
/* Handle deinterlacing */
- uns dein_step, dein_next;
+ uint dein_step, dein_next;
if (image->ImageDesc.Interlace)
- dein_step = dein_next = rdi.image->row_size << 3;
+ {
+ DBG("Deinterlaced image");
+ dein_step = dein_next = rdi.image->row_size << 3;
+ }
else
dein_step = dein_next = rdi.image->row_size;
case 1:
{
byte pal[256], *pal_pos = pal, *pal_end = pal + 256;
- for (uns i = 0; i < (uns)color_map->ColorCount; i++, pal_pos++, palette++)
- *pal_pos = libungif_pixel_to_gray(palette);
+ for (uint i = 0; i < (uint)color_map->ColorCount; i++, pal_pos++, palette++)
+ *pal_pos = rgb_to_gray_func(palette->Red, palette->Green, palette->Blue);
if (pal_pos != pal_end)
bzero(pal_pos, pal_end - pal_pos);
+ if (rd->transparent_index >= 0 && (io->flags & IMAGE_IO_USE_BACKGROUND))
+ if (!color_put(io->context, &io->background_color, pal + rd->transparent_index, COLOR_SPACE_GRAYSCALE))
+ {
+ DGifCloseFile(gif);
+ return 0;
+ }
# define DO_ROW_END do{ \
- walk_row_start += dein_step; \
- if (walk_row_start > img_end) \
- { uns n = dein_next >> 1; walk_row_start = rdi.image->pixels + n, dein_step = dein_next; dein_next = n; } \
+ walk_row_start += dein_step; \
+ while (walk_row_start >= img_end) \
+ { uint n = dein_next >> 1; walk_row_start = rdi.image->pixels + n, dein_step = dein_next; dein_next = n; } \
}while(0)
# define IMAGE_WALK_PREFIX(x) walk_##x
# define IMAGE_WALK_INLINE
# define IMAGE_WALK_ROW_STEP 0
# define IMAGE_WALK_DO_STEP do{ *walk_pos = pal[*pixels++]; }while(0)
# define IMAGE_WALK_DO_ROW_END DO_ROW_END
-# include "images/image-walk.h"
+# include <images/image-walk.h>
break;
}
case 2:
{
byte pal[256 * 2], *pal_pos = pal, *pal_end = pal + 256 * 2;
- for (uns i = 0; i < (uns)color_map->ColorCount; i++, pal_pos += 2, palette++)
+ for (uint i = 0; i < (uint)color_map->ColorCount; i++, pal_pos += 2, palette++)
{
- pal_pos[0] = libungif_pixel_to_gray(palette);
+ pal_pos[0] = rgb_to_gray_func(palette->Red, palette->Green, palette->Blue);
pal_pos[1] = 255;
}
if (pal_pos != pal_end)
bzero(pal_pos, pal_end - pal_pos);
- if (background < 256)
- pal[background * 2 + 1] = 0;
+ if (rd->transparent_index >= 0)
+ pal[rd->transparent_index * 2 + 1] = 0;
# define IMAGE_WALK_PREFIX(x) walk_##x
# define IMAGE_WALK_INLINE
# define IMAGE_WALK_IMAGE (rdi.image)
# define IMAGE_WALK_ROW_STEP 0
# define IMAGE_WALK_DO_STEP do{ *(u16 *)walk_pos = ((u16 *)pal)[*pixels++]; }while(0)
# define IMAGE_WALK_DO_ROW_END DO_ROW_END
-# include "images/image-walk.h"
+# include <images/image-walk.h>
break;
}
case 3:
{
byte pal[256 * 4], *pal_pos = pal, *pal_end = pal + 256 * 4;
- for (uns i = 0; i < (uns)color_map->ColorCount; i++, pal_pos += 4, palette++)
+ for (uint i = 0; i < (uint)color_map->ColorCount; i++, pal_pos += 4, palette++)
{
pal_pos[0] = palette->Red;
pal_pos[1] = palette->Green;
}
if (pal_pos != pal_end)
bzero(pal_pos, pal_end - pal_pos);
+ if (rd->transparent_index >= 0 && (io->flags & IMAGE_IO_USE_BACKGROUND))
+ if (!color_put(io->context, &io->background_color, pal + 4 * rd->transparent_index, COLOR_SPACE_RGB))
+ {
+ DGifCloseFile(gif);
+ return 0;
+ }
# define IMAGE_WALK_PREFIX(x) walk_##x
# define IMAGE_WALK_INLINE
# define IMAGE_WALK_IMAGE (rdi.image)
# define IMAGE_WALK_ROW_STEP 0
# define IMAGE_WALK_DO_STEP do{ byte *p = pal + 4 * (*pixels++); walk_pos[0] = p[0]; walk_pos[1] = p[1]; walk_pos[2] = p[2]; }while(0)
# define IMAGE_WALK_DO_ROW_END DO_ROW_END
-# include "images/image-walk.h"
+# include <images/image-walk.h>
break;
}
case 4:
{
byte pal[256 * 4], *pal_pos = pal, *pal_end = pal + 256 * 4;
- for (uns i = 0; i < (uns)color_map->ColorCount; i++, pal_pos += 4, palette++)
+ for (uint i = 0; i < (uint)color_map->ColorCount; i++, pal_pos += 4, palette++)
{
pal_pos[0] = palette->Red;
pal_pos[1] = palette->Green;
}
if (pal_pos != pal_end)
bzero(pal_pos, pal_end - pal_pos);
- if (background < 256)
- pal[background * 4 + 3] = 0;
+ if (rd->transparent_index >= 0)
+ pal[rd->transparent_index * 4 + 3] = 0;
# define IMAGE_WALK_PREFIX(x) walk_##x
# define IMAGE_WALK_INLINE
# define IMAGE_WALK_IMAGE (rdi.image)
# define IMAGE_WALK_ROW_STEP 0
# define IMAGE_WALK_DO_STEP do{ *(u32 *)walk_pos = ((u32 *)pal)[*pixels++]; }while(0)
# define IMAGE_WALK_DO_ROW_END DO_ROW_END
-# include "images/image-walk.h"
+# include <images/image-walk.h>
break;
}
default: