va_end(args);
}
-struct image *
-image_new(struct image_thread *it, uns cols, uns rows, uns flags, struct mempool *pool)
+static inline uns
+flags_to_pixel_size(uns flags)
{
- DBG("image_new(cols=%u rows=%u flags=0x%x pool=%p)", cols, rows, flags, pool);
- if (cols > IMAGE_MAX_SIZE || rows > IMAGE_MAX_SIZE)
- {
- image_thread_err(it, IMAGE_ERR_INVALID_DIMENSIONS, "Image dimension(s) too large");
- return NULL;
- }
- struct image *img;
- uns pixel_size, row_size, image_size, align;
+ uns pixel_size;
switch (flags & IMAGE_COLOR_SPACE)
{
case COLOR_SPACE_GRAYSCALE:
}
if (flags & IMAGE_ALPHA)
pixel_size++;
+ return pixel_size;
+}
+
+struct image *
+image_new(struct image_thread *it, uns cols, uns rows, uns flags, struct mempool *pool)
+{
+ DBG("image_new(cols=%u rows=%u flags=0x%x pool=%p)", cols, rows, flags, pool);
+ flags &= IMAGE_NEW_FLAGS;
+ if (unlikely(!image_dimensions_valid(cols, rows)))
+ {
+ image_thread_err_format(it, IMAGE_ERR_INVALID_DIMENSIONS, "Invalid image dimensions (%ux%u)", cols, rows);
+ return NULL;
+ }
+ struct image *img;
+ uns pixel_size, row_size, align;
+ pixel_size = flags_to_pixel_size(flags);
switch (pixel_size)
{
case 1:
row_size = ALIGN(row_size, align);
u64 image_size_64 = (u64)row_size * rows;
u64 bytes_64 = image_size_64 + (sizeof(struct image) + IMAGE_SSE_ALIGN_SIZE - 1 + sizeof(uns));
- if (bytes_64 > MAX_IMAGE_BYTES)
+ if (unlikely(bytes_64 > MAX_IMAGE_BYTES))
{
image_thread_err(it, IMAGE_ERR_INVALID_DIMENSIONS, "Image does not fit in memory");
return NULL;
}
- if (!(image_size = image_size_64))
+ if (pool)
+ img = mp_alloc(pool, bytes_64);
+ else
{
- image_thread_err(it, IMAGE_ERR_INVALID_DIMENSIONS, "Zero dimension(s)");
- return NULL;
+ img = xmalloc(bytes_64);
+ flags |= IMAGE_NEED_DESTROY;
}
- img = pool ? mp_alloc(pool, (uns)bytes_64) : xmalloc((uns)bytes_64);
bzero(img, sizeof(struct image));
byte *p = (byte *)img + sizeof(struct image);
img->pixels = ALIGN_PTR(p, IMAGE_SSE_ALIGN_SIZE);
img->cols = cols;
img->rows = rows;
img->row_size = row_size;
- img->image_size = image_size;
+ img->image_size = image_size_64;
DBG("img=%p flags=0x%x pixel_size=%u row_size=%u image_size=%u pixels=%p",
img, img->flags, img->pixel_size, img->row_size, img->image_size, img->pixels);
return img;
{
DBG("image_clone(src=%p flags=0x%x pool=%p)", src, src->flags, pool);
struct image *img;
- flags &= ~IMAGE_CHANNELS_FORMAT;
+ flags &= IMAGE_NEW_FLAGS & ~IMAGE_CHANNELS_FORMAT;
flags |= src->flags & IMAGE_CHANNELS_FORMAT;
if (!(img = image_new(it, src->cols, src->rows, flags, pool)))
return NULL;
if (img->image_size)
{
- if (src->pixel_size != img->pixel_size)
+ if (src->pixel_size != img->pixel_size) /* conversion between aligned and unaligned RGB */
{
- struct image *sec_img = src;
+# define IMAGE_WALK_PREFIX(x) walk_##x
# define IMAGE_WALK_INLINE
+# define IMAGE_WALK_IMAGE img
+# define IMAGE_WALK_SEC_IMAGE src
# define IMAGE_WALK_DOUBLE
-# define IMAGE_WALK_DO_STEP do{ *(u32 *)pos = *(u32 *)sec_pos; }while(0)
+# define IMAGE_WALK_DO_STEP do{ walk_pos[0] = walk_sec_pos[0]; walk_pos[1] = walk_sec_pos[1]; walk_pos[2] = walk_sec_pos[2]; }while(0)
# include "images/image-walk.h"
}
else if (src->row_size != img->row_size)
image_destroy(struct image *img)
{
DBG("image_destroy(img=%p)", img);
- xfree((byte *)img);
+ if (img->flags & IMAGE_NEED_DESTROY)
+ xfree(img);
}
void
bzero(img->pixels, img->image_size);
}
+struct image *
+image_init_matrix(struct image_thread *it, struct image *img, byte *pixels, uns cols, uns rows, uns row_size, uns flags)
+{
+ DBG("image_init_matrix(img=%p pixels=%p cols=%u rows=%u row_size=%u flags=0x%x)", img, pixels, cols, rows, row_size, flags);
+ if (unlikely(!image_dimensions_valid(cols, rows)))
+ {
+ image_thread_err_format(it, IMAGE_ERR_INVALID_DIMENSIONS, "Invalid image dimensions (%ux%u)", cols, rows);
+ return NULL;
+ }
+ img->pixels = pixels;
+ img->cols = cols;
+ img->rows = rows;
+ img->pixel_size = flags_to_pixel_size(flags);
+ img->row_size = row_size;
+ img->image_size = rows * row_size;
+ img->flags = flags & (IMAGE_NEW_FLAGS | IMAGE_GAPS_PROTECTED);
+ return img;
+}
+
+struct image *
+image_init_subimage(struct image_thread *it UNUSED, struct image *img, struct image *src, uns left, uns top, uns cols, uns rows)
+{
+ DBG("image_init_subimage(img=%p src=%p left=%u top=%u cols=%u rows=%u)", img, src, left, top, cols, rows);
+ ASSERT(left + cols <= src->cols && top + rows <= src->rows);
+ img->pixels = src->pixels + left * src->pixel_size + top * src->row_size;
+ img->cols = cols;
+ img->rows = rows;
+ img->pixel_size = src->pixel_size;
+ img->row_size = src->row_size;
+ img->image_size = src->row_size * rows;
+ img->flags = src->flags & IMAGE_NEW_FLAGS;
+ img->flags |= IMAGE_GAPS_PROTECTED;
+ return img;
+}
+
byte *
color_space_to_name(enum color_space cs)
{