/* * vim:ts=8:sw=3:sts=8:noexpandtab:cino=>5n-3f0^-2{2 */ #ifdef HAVE_CONFIG_H # include "config.h" /* so that EAPI in Eet.h is correctly defined */ #endif #ifdef BUILD_LOADER_EET # include #endif #include "evas_common.h" #include "evas_private.h" #include "evas_image_private.h" #include "evas_convert_yuv.h" #ifdef HAVE_VALGRIND # include #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, int w, 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, int x, int y, int w, 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); static void _evas_common_rgba_image_debug(const char* context, Image_Entry *eim) { fprintf(stderr, "%p = [%s] {%s,%s} %i [%i|%i]\n", eim, context, eim->file, eim->key, eim->references, eim->w, eim->h); } 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++; //// printf("REF++=%i\n", reference); #ifdef BUILD_LOADER_EET eet_init(); #endif } 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. // evas_cache_image_shutdown(eci); // eci = NULL; } #ifdef BUILD_LOADER_EET eet_shutdown(); #endif } 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; return &im->cache_entry; } static void _evas_common_rgba_image_delete(Image_Entry *ie) { RGBA_Image *im = (RGBA_Image *) ie; evas_common_pipe_free(im); 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)); free(im); } static int _evas_common_rgba_image_surface_alloc(Image_Entry *ie, int w, int h) { RGBA_Image *im = (RGBA_Image *) ie; size_t siz = 0; 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 == NULL) 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 return 0; } static void _evas_common_rgba_image_surface_delete(Image_Entry *ie) { RGBA_Image *im = (RGBA_Image *) ie; 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); im->image.data = NULL; } static void _evas_common_rgba_image_unload(Image_Entry* im) { } static void _evas_common_rgba_image_dirty_region(Image_Entry* ie, int x, int y, int w, int h) { RGBA_Image *im = (RGBA_Image *) ie; im->flags |= RGBA_IMAGE_IS_DIRTY; } /* 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_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)) return 1; 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; // ram += sizeof(struct _RGBA_Image); // if (im->info.real_file) ram += strlen(im->info.real_file); // if (im->info.comment) ram += strlen(im->info.comment); if ((im->image.data) && (!im->image.no_free)) return im->cache_entry.w * im->cache_entry.h * sizeof(DATA32); return 0; } 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(int w, 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(int w, 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->flags |= RGBA_IMAGE_ALPHA_ONLY; 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; } 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) { 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; default: break; } im->cs.dirty = 0; } EAPI void evas_common_image_colorspace_dirty(RGBA_Image *im) { im->cs.dirty = 1; } EAPI void evas_common_image_set_cache(int size) { if (eci != NULL) { Evas_Cache_Image *cache = eci; evas_cache_image_set(eci, size); while (cache->scaledmem > (cache->limit >> 2)) { Eina_List *l; Image_Entry *ie; l = eina_list_last(cache->scaled); while (l) { ie = l->data; if (ie->scalecache.parent) break; l = l->prev; } if (!l) { break; } ie->scalecache.parent->scalecache.mem -= ie->scalecache.dst_w * ie->scalecache.dst_h; cache->scaledmem -= ie->scalecache.dst_w * ie->scalecache.dst_h; cache->scaled = eina_list_remove_list(cache->scaled, l); ie->scalecache.parent->scalecache.others = eina_list_remove(ie->scalecache.parent->scalecache.others, ie); ie->scalecache.parent = NULL; evas_cache_image_drop(ie); } } } 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 == NULL) 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 *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 a = 1 + (*s >> 24); *s = (*s & 0xff000000) + (((((*s) >> 8) & 0xff) * a) & 0xff00) + (((((*s) & 0x00ff00ff) * a) >> 8) & 0x00ff00ff); s++; if ((a == 1) || (a == 256)) nas++; } 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; }