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#ifdef HAVE_CONFIG_H
# include "config.h" /* so that EAPI in Eet.h is correctly defined */
#endif
#ifdef BUILD_LOADER_EET
# include <Eet.h>
#endif
#include "evas_common.h"
#include "evas_private.h"
#include "evas_image_private.h"
#include "evas_convert_yuv.h"
#include "evas_cs.h"
#ifdef HAVE_VALGRIND
# include <memcheck.h>
#endif
static Evas_Cache_Image * eci = NULL;
static int reference = 0;
/* static RGBA_Image *evas_rgba_line_buffer = NULL; */
#define EVAS_RGBA_LINE_BUFFER_MIN_LEN 256
#define EVAS_RGBA_LINE_BUFFER_MAX_LEN 2048
/* static RGBA_Image *evas_alpha_line_buffer = NULL; */
#define EVAS_ALPHA_LINE_BUFFER_MIN_LEN 256
#define EVAS_ALPHA_LINE_BUFFER_MAX_LEN 2048
static Image_Entry *_evas_common_rgba_image_new(void);
static void _evas_common_rgba_image_delete(Image_Entry *ie);
static int _evas_common_rgba_image_surface_alloc(Image_Entry *ie, unsigned int w, unsigned int h);
static void _evas_common_rgba_image_surface_delete(Image_Entry *ie);
static DATA32 *_evas_common_rgba_image_surface_pixels(Image_Entry *ie);
static void _evas_common_rgba_image_unload(Image_Entry *im);
static void _evas_common_rgba_image_dirty_region(Image_Entry *im, unsigned int x, unsigned int y, unsigned int w, unsigned int h);
static int _evas_common_rgba_image_ram_usage(Image_Entry *ie);
/* Only called when references > 0. Need to provide a fresh copie of im. */
/* The destination surface does have a surface, but no allocated pixel data. */
static int _evas_common_rgba_image_dirty(Image_Entry* dst, const Image_Entry* src);
#if 0
static void
_evas_common_rgba_image_debug(const char* context, Image_Entry *eim)
{
DBG("%p = [%s] {%s,%s} %i [%i|%i]", eim, context, eim->file, eim->key, eim->references, eim->w, eim->h);
}
#endif
static const Evas_Cache_Image_Func _evas_common_image_func =
{
_evas_common_rgba_image_new,
_evas_common_rgba_image_delete,
_evas_common_rgba_image_surface_alloc,
_evas_common_rgba_image_surface_delete,
_evas_common_rgba_image_surface_pixels,
evas_common_load_rgba_image_module_from_file,
_evas_common_rgba_image_unload,
_evas_common_rgba_image_dirty_region,
_evas_common_rgba_image_dirty,
evas_common_rgba_image_size_set,
evas_common_rgba_image_from_copied_data,
evas_common_rgba_image_from_data,
evas_common_rgba_image_colorspace_set,
evas_common_load_rgba_image_data_from_file,
_evas_common_rgba_image_ram_usage,
/* _evas_common_rgba_image_debug */
NULL
};
EAPI void
evas_common_image_init(void)
{
if (!eci)
eci = evas_cache_image_init(&_evas_common_image_func);
reference++;
//// ERR("REF++=%i", reference);
#ifdef BUILD_LOADER_EET
eet_init();
#endif
evas_common_scalecache_init();
}
EAPI void
evas_common_image_shutdown(void)
{
if (--reference == 0)
{
//// printf("REF--=%i\n", reference);
// DISABLE for now - something wrong with cache shutdown freeing things
// still in use - rage_thumb segv's now.
//
// actually - i think i see it. cache ref goes to 0 (and thus gets freed)
// because in eng_setup() when a buffer changes size it is FIRST freed
// THEN allocated again - thus brignhjing ref to 0 then back to 1 immediately
// where it should stay at 1. - see evas_engine.c in the buffer enigne for
// example. eng_output_free() is called BEFORE _output_setup(). although this
// is only a SIGNE of the problem. we can patch this up with either freeing
// after the setup (so we just pt a ref of 2 then back to 1), or just
// evas_common_image_init() at the start and evas_common_image_shutdown()
// after it all. really ref 0 should only be reached when no more canvases
// with no more objects exist anywhere.
// ENABLE IT AGAIN, hope it is fixed. Gustavo @ January 22nd, 2009.
evas_cache_image_shutdown(eci);
eci = NULL;
}
#ifdef BUILD_LOADER_EET
eet_shutdown();
#endif
evas_common_scalecache_shutdown();
}
EAPI void
evas_common_image_image_all_unload(void)
{
evas_common_rgba_image_scalecache_dump();
evas_cache_image_unload_all(eci);
}
static Image_Entry *
_evas_common_rgba_image_new(void)
{
RGBA_Image *im;
im = calloc(1, sizeof(RGBA_Image));
if (!im) return NULL;
im->flags = RGBA_IMAGE_NOTHING;
im->ref = 1;
#ifdef EVAS_FRAME_QUEUING
LKI(im->cache_entry.ref_fq_add);
LKI(im->cache_entry.ref_fq_del);
eina_condition_new(&(im->cache_entry.cond_fq_del),
&(im->cache_entry.ref_fq_del));
#endif
evas_common_rgba_image_scalecache_init(&im->cache_entry);
return &im->cache_entry;
}
static void
_evas_common_rgba_image_delete(Image_Entry *ie)
{
RGBA_Image *im = (RGBA_Image *)ie;
#ifdef BUILD_PIPE_RENDER
evas_common_pipe_free(im);
# ifdef EVAS_FRAME_QUEUING
LKD(im->cache_entry.ref_fq_add);
LKD(im->cache_entry.ref_fq_del);
eina_condition_free(&(im->cache_entry.cond_fq_del));
# endif
#endif
evas_common_rgba_image_scalecache_shutdown(&im->cache_entry);
if (ie->info.module) evas_module_unref((Evas_Module *)ie->info.module);
/* memset the image to 0x99 because i recently saw a segv where an
* seemed to be used BUT its contents were wrong - it looks like it was
* overwritten by something from efreet - as there was an execute command
* for a command there and some other signs - but to make sure, I am
* going to empty this struct out in case this happens again so i know
* that something else is overwritign this struct - or not */
// memset(im, 0x99, sizeof(im));
#ifdef EVAS_CSERVE
if (ie->data1) evas_cserve_image_free(ie);
#endif
/*
* FIXME: This doesn't seem to be needed... But I'm not sure why.
* -- nash
{
Filtered_Image *fi;
EINA_LIST_FREE(im->filtered, fi)
{
free(fi->key);
_evas_common_rgba_image_delete((Image_Entry *)(fi->image));
free(fi);
}
}
*/
if (ie->frames)
{
Eina_List *l;
Image_Entry_Frame *frame;
EINA_LIST_FOREACH(ie->frames, l, frame)
{
if (frame)
{
if (frame->data) free(frame->data);
if (frame->info) free(frame->info);
free (frame);
}
}
}
free(im);
}
EAPI void
evas_common_rgba_image_free(Image_Entry *ie)
{
_evas_common_rgba_image_surface_delete(ie);
_evas_common_rgba_image_delete(ie);
}
EAPI void
evas_common_rgba_image_unload(Image_Entry *ie)
{
RGBA_Image *im = (RGBA_Image *) ie;
if (!ie->flags.loaded) return;
if ((!ie->info.module) && (!ie->data1)) return;
if (!ie->file) return;
ie->flags.loaded = 0;
if ((im->cs.data) && (im->image.data))
{
if (im->cs.data != im->image.data)
{
if (!im->cs.no_free) free(im->cs.data);
}
}
else if (im->cs.data)
{
if (!im->cs.no_free) free(im->cs.data);
}
im->cs.data = NULL;
#ifdef EVAS_CSERVE
if (ie->data1)
{
evas_cserve_image_useless(ie);
im->image.data = NULL;
ie->allocated.w = 0;
ie->allocated.h = 0;
ie->flags.loaded = 0;
#ifdef BUILD_ASYNC_PRELOAD
ie->flags.preload_done = 0;
#endif
return;
}
#endif
if (im->image.data && !im->image.no_free)
free(im->image.data);
im->image.data = NULL;
ie->allocated.w = 0;
ie->allocated.h = 0;
ie->flags.loaded = 0;
#ifdef BUILD_ASYNC_PRELOAD
ie->flags.preload_done = 0;
#endif
}
void
_evas_common_rgba_image_post_surface(Image_Entry *ie)
{
#ifdef HAVE_PIXMAN
# ifdef PIXMAN_IMAGE
RGBA_Image *im = (RGBA_Image *)ie;
if (im->pixman.im) pixman_image_unref(im->pixman.im);
if (im->cache_entry.flags.alpha)
{
im->pixman.im = pixman_image_create_bits
(
// FIXME: endianess determines this
PIXMAN_a8r8g8b8,
// PIXMAN_b8g8r8a8,
im->cache_entry.w, im->cache_entry.h,
im->image.data,
im->cache_entry.w * 4
);
}
else
{
im->pixman.im = pixman_image_create_bits
(
// FIXME: endianess determines this
PIXMAN_x8r8g8b8,
// PIXMAN_b8g8r8x8,
im->cache_entry.w, im->cache_entry.h,
im->image.data,
im->cache_entry.w * 4
);
}
# else
(void)ie;
# endif
#else
(void)ie;
#endif
}
static int
_evas_common_rgba_image_surface_alloc(Image_Entry *ie, unsigned int w, unsigned int h)
{
RGBA_Image *im = (RGBA_Image *) ie;
size_t siz = 0;
#ifdef EVAS_CSERVE
if (ie->data1) return 0;
#endif
if (im->image.no_free) return 0;
if (im->flags & RGBA_IMAGE_ALPHA_ONLY)
siz = w * h * sizeof(DATA8);
else
siz = w * h * sizeof(DATA32);
if (im->image.data) free(im->image.data);
im->image.data = malloc(siz);
if (!im->image.data) return -1;
#ifdef HAVE_VALGRIND
# ifdef VALGRIND_MAKE_READABLE
VALGRIND_MAKE_READABLE(im->image.data, siz);
# else
# ifdef VALGRIND_MAKE_MEM_DEFINED
VALGRIND_MAKE_MEM_DEFINED(im->image.data, siz);
# endif
# endif
#endif
_evas_common_rgba_image_post_surface(ie);
return 0;
}
static void
_evas_common_rgba_image_surface_delete(Image_Entry *ie)
{
RGBA_Image *im = (RGBA_Image *) ie;
#ifdef HAVE_PIXMAN
# ifdef PIXMAN_IMAGE
if (im->pixman.im)
{
pixman_image_unref(im->pixman.im);
im->pixman.im = NULL;
}
# endif
#endif
if (ie->file)
DBG("unload: [%p] %s %s", ie, ie->file, ie->key);
if ((im->cs.data) && (im->image.data))
{
if (im->cs.data != im->image.data)
{
if (!im->cs.no_free) free(im->cs.data);
}
}
else if (im->cs.data)
{
if (!im->cs.no_free) free(im->cs.data);
}
im->cs.data = NULL;
if (im->image.data && !im->image.no_free)
free(im->image.data);
#ifdef EVAS_CSERVE
else if (ie->data1)
evas_cserve_image_free(ie);
#endif
im->image.data = NULL;
ie->allocated.w = 0;
ie->allocated.h = 0;
#ifdef BUILD_ASYNC_PRELOAD
ie->flags.preload_done = 0;
#endif
ie->flags.loaded = 0;
evas_common_rgba_image_scalecache_dirty(&im->cache_entry);
}
static void
_evas_common_rgba_image_unload(Image_Entry *im)
{
// DBG("unload: [%p] %s %s", im, im->file, im->key);
evas_common_rgba_image_scalecache_dirty(im);
evas_common_rgba_image_unload(im);
}
static void
_evas_common_rgba_image_dirty_region(Image_Entry* ie, unsigned int x __UNUSED__, unsigned int y __UNUSED__, unsigned int w __UNUSED__, unsigned int h __UNUSED__)
{
RGBA_Image *im = (RGBA_Image *) ie;
#ifdef EVAS_CSERVE
if (ie->data1) evas_cserve_image_free(ie);
#endif
im->flags |= RGBA_IMAGE_IS_DIRTY;
evas_common_rgba_image_scalecache_dirty(&im->cache_entry);
}
/* Only called when references > 0. Need to provide a fresh copie of im. */
static int
_evas_common_rgba_image_dirty(Image_Entry *ie_dst, const Image_Entry *ie_src)
{
RGBA_Image *dst = (RGBA_Image *) ie_dst;
RGBA_Image *src = (RGBA_Image *) ie_src;
evas_common_rgba_image_scalecache_dirty((Image_Entry *)ie_src);
evas_common_rgba_image_scalecache_dirty(ie_dst);
evas_cache_image_load_data(&src->cache_entry);
if (_evas_common_rgba_image_surface_alloc(&dst->cache_entry,
src->cache_entry.w, src->cache_entry.h))
{
#ifdef EVAS_CSERVE
if (ie_src->data1) evas_cserve_image_free((Image_Entry*) ie_src);
#endif
return 1;
}
#ifdef EVAS_CSERVE
if (ie_src->data1) evas_cserve_image_free((Image_Entry*) ie_src);
#endif
evas_common_image_colorspace_normalize(src);
evas_common_image_colorspace_normalize(dst);
/* evas_common_blit_rectangle(src, dst, 0, 0, src->cache_entry.w, src->cache_entry.h, 0, 0); */
/* evas_common_cpu_end_opt(); */
return 0;
}
static int
_evas_common_rgba_image_ram_usage(Image_Entry *ie)
{
RGBA_Image *im = (RGBA_Image *)ie;
int size = sizeof(struct _RGBA_Image);
if (ie->cache_key) size += strlen(ie->cache_key);
if (ie->file) size += strlen(ie->file);
if (ie->key) size += strlen(ie->key);
if (im->image.data)
{
#ifdef EVAS_CSERVE
if ((!im->image.no_free) || (ie->data1))
#else
if ((!im->image.no_free))
#endif
size += im->cache_entry.w * im->cache_entry.h * sizeof(DATA32);
}
size += evas_common_rgba_image_scalecache_usage_get(&im->cache_entry);
return size;
}
static DATA32 *
_evas_common_rgba_image_surface_pixels(Image_Entry *ie)
{
RGBA_Image *im = (RGBA_Image *) ie;
return im->image.data;
}
#if 0
void
evas_common_image_surface_alpha_tiles_calc(RGBA_Surface *is, int tsize)
{
int x, y;
DATA32 *ptr;
if (is->spans) return;
if (!is->im->cache_entry.flags.alpha) return;
/* FIXME: dont handle alpha only images yet */
if ((is->im->flags & RGBA_IMAGE_ALPHA_ONLY)) return;
if (tsize < 0) tsize = 0;
is->spans = calloc(1, sizeof(RGBA_Image_Span *) * is->h);
if (!is->spans) return;
ptr = is->data;
for (y = 0; y < is->h; y++)
{
RGBA_Image_Span *sp;
sp = NULL;
for (x = 0; x < is->w; x++)
{
DATA8 a;
a = A_VAL(ptr);
if (sp)
{
if (a == 0)
{
is->spans[y] = eina_inlist_append(is->spans[y], sp);
sp = NULL;
}
else
{
sp->w++;
if ((sp->v == 2) && (a != 255)) sp->v = 1;
}
}
else
{
if (a == 255)
{
sp = calloc(1, sizeof(RGBA_Image_Span));
sp->x = x;
sp->w = 1;
sp->v = 2;
}
else if (a > 0)
{
sp = calloc(1, sizeof(RGBA_Image_Span));
sp->x = x;
sp->w = 1;
sp->v = 1;
}
}
ptr++;
}
if (sp)
{
is->spans[y] = eina_inlist_append(is->spans[y], sp);
sp = NULL;
}
}
}
#endif
/* EAPI void */
/* evas_common_image_surface_dealloc(RGBA_Surface *is) */
/* { */
/* if ((is->data) && (!is->no_free)) */
/* { */
/* free(is->data); */
/* is->data = NULL; */
/* } */
/* } */
static RGBA_Image *
evas_common_image_create(unsigned int w, unsigned int h)
{
RGBA_Image *im;
im = (RGBA_Image *) _evas_common_rgba_image_new();
if (!im) return NULL;
im->cache_entry.w = w;
im->cache_entry.h = h;
if (_evas_common_rgba_image_surface_alloc(&im->cache_entry, w, h))
{
_evas_common_rgba_image_delete(&im->cache_entry);
return NULL;
}
im->cache_entry.flags.cached = 0;
return im;
}
EAPI RGBA_Image *
evas_common_image_alpha_create(unsigned int w, unsigned int h)
{
RGBA_Image *im;
im = (RGBA_Image *) _evas_common_rgba_image_new();
if (!im) return NULL;
im->cache_entry.w = w;
im->cache_entry.h = h;
im->cache_entry.flags.alpha = 1;
if (_evas_common_rgba_image_surface_alloc(&im->cache_entry, w, h))
{
_evas_common_rgba_image_delete(&im->cache_entry);
return NULL;
}
im->cache_entry.flags.cached = 0;
return im;
}
EAPI RGBA_Image *
evas_common_image_new(unsigned int w, unsigned int h, unsigned int alpha)
{
if (alpha)
return evas_common_image_alpha_create(w, h);
return evas_common_image_create(w, h);
}
void
evas_common_image_colorspace_normalize(RGBA_Image *im)
{
if ((!im->cs.data) ||
((!im->cs.dirty) && (!(im->flags & RGBA_IMAGE_IS_DIRTY)))) return;
switch (im->cache_entry.space)
{
case EVAS_COLORSPACE_ARGB8888:
if (im->image.data != im->cs.data)
{
#ifdef EVAS_CSERVE
if (((Image_Entry *)im)->data1) evas_cserve_image_free(&im->cache_entry);
#endif
if (!im->image.no_free) free(im->image.data);
im->image.data = im->cs.data;
im->cs.no_free = im->image.no_free;
}
break;
case EVAS_COLORSPACE_YCBCR422P601_PL:
#ifdef BUILD_CONVERT_YUV
if ((im->image.data) && (*((unsigned char **)im->cs.data)))
evas_common_convert_yuv_420p_601_rgba(im->cs.data, (DATA8*) im->image.data,
im->cache_entry.w, im->cache_entry.h);
#endif
break;
case EVAS_COLORSPACE_YCBCR422601_PL:
#ifdef BUILD_CONVERT_YUV
if ((im->image.data) && (*((unsigned char **)im->cs.data)))
evas_common_convert_yuv_422_601_rgba(im->cs.data, (DATA8*) im->image.data,
im->cache_entry.w, im->cache_entry.h);
#endif
break;
case EVAS_COLORSPACE_YCBCR420NV12601_PL:
#ifdef BUILD_CONVERT_YUV
if ((im->image.data) && (*((unsigned char **)im->cs.data)))
evas_common_convert_yuv_420_601_rgba(im->cs.data, (DATA8*) im->image.data,
im->cache_entry.w, im->cache_entry.h);
#endif
break;
case EVAS_COLORSPACE_YCBCR420TM12601_PL:
#ifdef BUILD_CONVERT_YUV
if ((im->image.data) && (*((unsigned char **)im->cs.data)))
evas_common_convert_yuv_420T_601_rgba(im->cs.data, (DATA8*) im->image.data,
im->cache_entry.w, im->cache_entry.h);
#endif
break;
default:
break;
}
im->cs.dirty = 0;
}
EAPI void
evas_common_image_colorspace_dirty(RGBA_Image *im)
{
im->cs.dirty = 1;
evas_common_rgba_image_scalecache_dirty(&im->cache_entry);
}
EAPI void
evas_common_image_set_cache(unsigned int size)
{
if (eci)
evas_cache_image_set(eci, size);
}
EAPI int
evas_common_image_get_cache(void)
{
return evas_cache_image_get(eci);
}
EAPI RGBA_Image *
evas_common_load_image_from_file(const char *file, const char *key, RGBA_Image_Loadopts *lo, int *error)
{
if (!file)
{
*error = EVAS_LOAD_ERROR_GENERIC;
return NULL;
}
return (RGBA_Image *) evas_cache_image_request(eci, file, key, lo, error);
}
EAPI void
evas_common_image_cache_free(void)
{
evas_common_image_set_cache(0);
}
EAPI Evas_Cache_Image*
evas_common_image_cache_get(void)
{
return eci;
}
EAPI RGBA_Image *
evas_common_image_line_buffer_obtain(int len)
{
if (len < 1) return NULL;
if (len < EVAS_RGBA_LINE_BUFFER_MIN_LEN)
len = EVAS_RGBA_LINE_BUFFER_MIN_LEN;
return evas_common_image_create(len, 1);
/*
if (evas_rgba_line_buffer)
{
if (evas_rgba_line_buffer->image->w >= len)
return evas_rgba_line_buffer;
evas_rgba_line_buffer->image->data = (DATA32 *)realloc(evas_rgba_line_buffer->image->data, len * sizeof(DATA32));
if (!evas_rgba_line_buffer->image->data)
{
evas_common_image_free(evas_rgba_line_buffer);
evas_rgba_line_buffer = NULL;
return NULL;
}
evas_rgba_line_buffer->image->w = len;
return evas_rgba_line_buffer;
}
evas_rgba_line_buffer = evas_common_image_create(len, 1);
if (!evas_rgba_line_buffer) return NULL;
return evas_rgba_line_buffer;
*/
}
EAPI void
evas_common_image_line_buffer_release(RGBA_Image *im)
{
_evas_common_rgba_image_delete(&im->cache_entry);
/*
if (!evas_rgba_line_buffer) return;
if (EVAS_RGBA_LINE_BUFFER_MAX_LEN < evas_rgba_line_buffer->image->w)
{
evas_rgba_line_buffer->image->w = EVAS_RGBA_LINE_BUFFER_MAX_LEN;
evas_rgba_line_buffer->image->data = (DATA32 *)realloc(evas_rgba_line_buffer->image->data,
evas_rgba_line_buffer->image->w * sizeof(DATA32));
if (!evas_rgba_line_buffer->image->data)
{
evas_common_image_free(evas_rgba_line_buffer);
evas_rgba_line_buffer = NULL;
}
}
*/
}
EAPI void
evas_common_image_line_buffer_free(RGBA_Image *im)
{
_evas_common_rgba_image_delete(&im->cache_entry);
/*
if (!evas_rgba_line_buffer) return;
evas_common_image_free(evas_rgba_line_buffer);
evas_rgba_line_buffer = NULL;
*/
}
EAPI RGBA_Image *
evas_common_image_alpha_line_buffer_obtain(int len)
{
if (len < 1) return NULL;
if (len < EVAS_ALPHA_LINE_BUFFER_MIN_LEN)
len = EVAS_ALPHA_LINE_BUFFER_MIN_LEN;
return evas_common_image_alpha_create(len, 1);
/*
if (evas_alpha_line_buffer)
{
if (evas_alpha_line_buffer->image->w >= len)
return evas_alpha_line_buffer;
evas_alpha_line_buffer->image->data = realloc(evas_alpha_line_buffer->image->data, len * sizeof(DATA8));
if (!evas_alpha_line_buffer->image->data)
{
evas_common_image_free(evas_alpha_line_buffer);
evas_alpha_line_buffer = NULL;
return NULL;
}
evas_alpha_line_buffer->image->w = len;
return evas_alpha_line_buffer;
}
evas_alpha_line_buffer = evas_common_image_alpha_create(len, 1);
return evas_alpha_line_buffer;
*/
}
EAPI void
evas_common_image_alpha_line_buffer_release(RGBA_Image *im)
{
_evas_common_rgba_image_delete(&im->cache_entry);
/*
if (!evas_alpha_line_buffer) return;
if (EVAS_ALPHA_LINE_BUFFER_MAX_LEN < evas_alpha_line_buffer->image->w)
{
evas_alpha_line_buffer->image->w = EVAS_ALPHA_LINE_BUFFER_MAX_LEN;
evas_alpha_line_buffer->image->data = realloc(evas_alpha_line_buffer->image->data,
evas_alpha_line_buffer->image->w * sizeof(DATA8));
if (!evas_alpha_line_buffer->image->data)
{
evas_common_image_free(evas_alpha_line_buffer);
evas_alpha_line_buffer = NULL;
}
}
*/
}
EAPI void
evas_common_image_premul(Image_Entry *ie)
{
DATA32 nas = 0;
if (!ie) return ;
if (!evas_cache_image_pixels(ie)) return ;
if (!ie->flags.alpha) return;
nas = evas_common_convert_argb_premul(evas_cache_image_pixels(ie), ie->w * ie->h);
if ((ALPHA_SPARSE_INV_FRACTION * nas) >= (ie->w * ie->h))
ie->flags.alpha_sparse = 1;
}
EAPI void
evas_common_image_set_alpha_sparse(Image_Entry *ie)
{
DATA32 *s, *se;
DATA32 nas = 0;
if (!ie) return;
if (!evas_cache_image_pixels(ie)) return ;
if (!ie->flags.alpha) return;
s = evas_cache_image_pixels(ie);
se = s + (ie->w * ie->h);
while (s < se)
{
DATA32 p = *s & 0xff000000;
if (!p || (p == 0xff000000))
nas++;
s++;
}
if ((ALPHA_SPARSE_INV_FRACTION * nas) >= (ie->w * ie->h))
ie->flags.alpha_sparse = 1;
}
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