#ifdef HAVE_CONFIG_H # include "config.h" /* so that EAPI in Evas.h is correctly defined */ #endif #include #include #include #ifdef HAVE_SYS_MMAN_H # include #endif #include #include "evas_common.h" #include "evas_private.h" #include "../engines/common/evas_convert_color.h" #include "../engines/common/evas_convert_colorspace.h" #include "../engines/common/evas_convert_yuv.h" #define VERBOSE_PROXY_ERROR 1 /* private magic number for image objects */ static const char o_type[] = "image"; /* private struct for rectangle object internal data */ typedef struct _Evas_Object_Image Evas_Object_Image; struct _Evas_Object_Image { DATA32 magic; struct { int spread; Evas_Coord_Rectangle fill; struct { short w, h, stride; } image; struct { short l, r, t, b; unsigned char fill; double scale; } border; Evas_Object *source; Evas_Map *defmap; const char *file; const char *key; int frame; Evas_Colorspace cspace; unsigned char smooth_scale : 1; unsigned char has_alpha :1; unsigned char opaque :1; unsigned char opaque_valid :1; } cur, prev; int pixels_checked_out; int load_error; Eina_List *pixel_updates; struct { unsigned char scale_down_by; double dpi; short w, h; struct { short x, y, w, h; } region; Eina_Bool orientation : 1; } load_opts; struct { Evas_Object_Image_Pixels_Get_Cb get_pixels; void *get_pixels_data; } func; Evas_Video_Surface video; const char *tmpf; int tmpf_fd; Evas_Image_Scale_Hint scale_hint; Evas_Image_Content_Hint content_hint; void *engine_data; unsigned char changed : 1; unsigned char dirty_pixels : 1; unsigned char filled : 1; unsigned char proxyrendering : 1; unsigned char preloading : 1; unsigned char video_rendering : 1; unsigned char video_surface : 1; unsigned char video_visible : 1; unsigned char created : 1; }; /* private methods for image objects */ static void evas_object_image_unload(Evas_Object *obj, Eina_Bool dirty); static void evas_object_image_load(Evas_Object *obj); static Evas_Coord evas_object_image_figure_x_fill(Evas_Object *obj, Evas_Coord start, Evas_Coord size, Evas_Coord *size_ret); static Evas_Coord evas_object_image_figure_y_fill(Evas_Object *obj, Evas_Coord start, Evas_Coord size, Evas_Coord *size_ret); static void evas_object_image_init(Evas_Object *obj); static void *evas_object_image_new(void); static void evas_object_image_render(Evas_Object *obj, void *output, void *context, void *surface, int x, int y); static void evas_object_image_free(Evas_Object *obj); static void evas_object_image_render_pre(Evas_Object *obj); static void evas_object_image_render_post(Evas_Object *obj); static unsigned int evas_object_image_id_get(Evas_Object *obj); static unsigned int evas_object_image_visual_id_get(Evas_Object *obj); static void *evas_object_image_engine_data_get(Evas_Object *obj); static int evas_object_image_is_opaque(Evas_Object *obj); static int evas_object_image_was_opaque(Evas_Object *obj); static int evas_object_image_is_inside(Evas_Object *obj, Evas_Coord x, Evas_Coord y); static int evas_object_image_has_opaque_rect(Evas_Object *obj); static int evas_object_image_get_opaque_rect(Evas_Object *obj, Evas_Coord *x, Evas_Coord *y, Evas_Coord *w, Evas_Coord *h); static int evas_object_image_can_map(Evas_Object *obj); static void *evas_object_image_data_convert_internal(Evas_Object_Image *o, void *data, Evas_Colorspace to_cspace); static void evas_object_image_filled_resize_listener(void *data, Evas *e, Evas_Object *obj, void *einfo); static void _proxy_unset(Evas_Object *proxy); static void _proxy_set(Evas_Object *proxy, Evas_Object *src); static void _proxy_error(Evas_Object *proxy, void *context, void *output, void *surface, int x, int y); static void _cleanup_tmpf(Evas_Object *obj); static const Evas_Object_Func object_func = { /* methods (compulsory) */ evas_object_image_free, evas_object_image_render, evas_object_image_render_pre, evas_object_image_render_post, evas_object_image_id_get, evas_object_image_visual_id_get, evas_object_image_engine_data_get, /* these are optional. NULL = nothing */ NULL, NULL, NULL, NULL, evas_object_image_is_opaque, evas_object_image_was_opaque, evas_object_image_is_inside, NULL, NULL, NULL, evas_object_image_has_opaque_rect, evas_object_image_get_opaque_rect, evas_object_image_can_map }; EVAS_MEMPOOL(_mp_obj); static void _evas_object_image_cleanup(Evas_Object *obj, Evas_Object_Image *o) { if ((o->preloading) && (o->engine_data)) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } if (o->tmpf) _cleanup_tmpf(obj); if (o->cur.source) _proxy_unset(obj); } EAPI Evas_Object * evas_object_image_add(Evas *e) { Evas_Object *obj; Evas_Object_Image *o; MAGIC_CHECK(e, Evas, MAGIC_EVAS); return NULL; MAGIC_CHECK_END(); obj = evas_object_new(e); evas_object_image_init(obj); evas_object_inject(obj, e); o = (Evas_Object_Image *)(obj->object_data); o->cur.cspace = obj->layer->evas->engine.func->image_colorspace_get(obj->layer->evas->engine.data.output, o->engine_data); return obj; } EAPI Evas_Object * evas_object_image_filled_add(Evas *e) { Evas_Object *obj; obj = evas_object_image_add(e); evas_object_image_filled_set(obj, 1); return obj; } static void _cleanup_tmpf(Evas_Object *obj) { #ifdef HAVE_SYS_MMAN_H Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (!o->tmpf) return; #ifdef __linux__ #else unlink(o->tmpf); #endif if (o->tmpf_fd >= 0) close(o->tmpf_fd); eina_stringshare_del(o->tmpf); o->tmpf_fd = -1; o->tmpf = NULL; #else (void) obj; #endif } static void _create_tmpf(Evas_Object *obj, void *data, int size, char *format __UNUSED__) { #ifdef HAVE_SYS_MMAN_H Evas_Object_Image *o; char buf[4096]; void *dst; int fd = -1; o = (Evas_Object_Image *)(obj->object_data); #ifdef __linux__ snprintf(buf, sizeof(buf), "/dev/shm/.evas-tmpf-%i-%p-%i-XXXXXX", (int)getpid(), data, (int)size); fd = mkstemp(buf); #endif if (fd < 0) { snprintf(buf, sizeof(buf), "/tmp/.evas-tmpf-%i-%p-%i-XXXXXX", (int)getpid(), data, (int)size); fd = mkstemp(buf); } if (fd < 0) return; if (ftruncate(fd, size) < 0) { unlink(buf); close(fd); return; } unlink(buf); eina_mmap_safety_enabled_set(EINA_TRUE); dst = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (dst == MAP_FAILED) { close(fd); return; } o->tmpf_fd = fd; #ifdef __linux__ snprintf(buf, sizeof(buf), "/proc/%li/fd/%i", (long)getpid(), fd); #endif o->tmpf = eina_stringshare_add(buf); memcpy(dst, data, size); munmap(dst, size); #else (void) obj; (void) data; (void) size; (void) format; #endif } EAPI void evas_object_image_memfile_set(Evas_Object *obj, void *data, int size, char *format, char *key) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _cleanup_tmpf(obj); evas_object_image_file_set(obj, NULL, NULL); // invalidate the cache effectively evas_object_image_alpha_set(obj, !o->cur.has_alpha); evas_object_image_alpha_set(obj, !o->cur.has_alpha); if ((size < 1) || (!data)) return; _create_tmpf(obj, data, size, format); evas_object_image_file_set(obj, o->tmpf, key); if (!o->engine_data) { ERR("unable to load '%s' from memory", o->tmpf); _cleanup_tmpf(obj); return; } } EAPI void evas_object_image_file_set(Evas_Object *obj, const char *file, const char *key) { Evas_Object_Image *o; Evas_Image_Load_Opts lo; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if ((o->tmpf) && (file != o->tmpf)) _cleanup_tmpf(obj); if ((o->cur.file) && (file) && (!strcmp(o->cur.file, file))) { if ((!o->cur.key) && (!key)) return; if ((o->cur.key) && (key) && (!strcmp(o->cur.key, key))) return; } /* * WTF? why cancel a null image preload? this is just silly (tm) if (!o->engine_data) obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); */ if (o->cur.source) _proxy_unset(obj); if (o->cur.file) eina_stringshare_del(o->cur.file); if (o->cur.key) eina_stringshare_del(o->cur.key); if (file) o->cur.file = eina_stringshare_add(file); else o->cur.file = NULL; if (key) o->cur.key = eina_stringshare_add(key); else o->cur.key = NULL; o->prev.file = NULL; o->prev.key = NULL; if (o->engine_data) { if (o->preloading) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } obj->layer->evas->engine.func->image_free(obj->layer->evas->engine.data.output, o->engine_data); } o->load_error = EVAS_LOAD_ERROR_NONE; lo.scale_down_by = o->load_opts.scale_down_by; lo.dpi = o->load_opts.dpi; lo.w = o->load_opts.w; lo.h = o->load_opts.h; lo.region.x = o->load_opts.region.x; lo.region.y = o->load_opts.region.y; lo.region.w = o->load_opts.region.w; lo.region.h = o->load_opts.region.h; lo.orientation = o->load_opts.orientation; o->engine_data = obj->layer->evas->engine.func->image_load(obj->layer->evas->engine.data.output, o->cur.file, o->cur.key, &o->load_error, &lo); if (o->engine_data) { int w, h; int stride; obj->layer->evas->engine.func->image_size_get(obj->layer->evas->engine.data.output, o->engine_data, &w, &h); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get(obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = w * 4; o->cur.has_alpha = obj->layer->evas->engine.func->image_alpha_get(obj->layer->evas->engine.data.output, o->engine_data); o->cur.cspace = obj->layer->evas->engine.func->image_colorspace_get(obj->layer->evas->engine.data.output, o->engine_data); o->cur.image.w = w; o->cur.image.h = h; o->cur.image.stride = stride; } else { if (o->load_error == EVAS_LOAD_ERROR_NONE) o->load_error = EVAS_LOAD_ERROR_GENERIC; o->cur.has_alpha = 1; o->cur.cspace = EVAS_COLORSPACE_ARGB8888; o->cur.image.w = 0; o->cur.image.h = 0; o->cur.image.stride = 0; } o->changed = 1; evas_object_change(obj); } EAPI void evas_object_image_file_get(const Evas_Object *obj, const char **file, const char **key) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); if (file) *file = NULL; if (key) *key = NULL; return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); if (file) *file = NULL; if (key) *key = NULL; return; MAGIC_CHECK_END(); if (file) *file = o->cur.file; if (key) *key = o->cur.key; } EAPI Eina_Bool evas_object_image_source_set(Evas_Object *obj, Evas_Object *src) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EINA_FALSE; MAGIC_CHECK_END(); o = obj->object_data; MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EINA_FALSE; MAGIC_CHECK_END(); if (src == obj) return EINA_FALSE; if (o->cur.source == src) return EINA_TRUE; _evas_object_image_cleanup(obj, o); /* Kill the image if any */ if (o->cur.file || o->cur.key) evas_object_image_file_set(obj, NULL, NULL); if (src) { _proxy_set(obj, src); } return EINA_TRUE; } EAPI Evas_Object * evas_object_image_source_get(Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return NULL; MAGIC_CHECK_END(); o = obj->object_data; MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return NULL; MAGIC_CHECK_END(); return o->cur.source; } EAPI Eina_Bool evas_object_image_source_unset(Evas_Object *obj) { return evas_object_image_source_set(obj, NULL); } EAPI void evas_object_image_border_set(Evas_Object *obj, int l, int r, int t, int b) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (l < 0) l = 0; if (r < 0) r = 0; if (t < 0) t = 0; if (b < 0) b = 0; if ((o->cur.border.l == l) && (o->cur.border.r == r) && (o->cur.border.t == t) && (o->cur.border.b == b)) return; o->cur.border.l = l; o->cur.border.r = r; o->cur.border.t = t; o->cur.border.b = b; o->cur.opaque_valid = 0; o->changed = 1; evas_object_change(obj); } EAPI void evas_object_image_border_get(const Evas_Object *obj, int *l, int *r, int *t, int *b) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); if (l) *l = 0; if (r) *r = 0; if (t) *t = 0; if (b) *b = 0; return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); if (l) *l = 0; if (r) *r = 0; if (t) *t = 0; if (b) *b = 0; return; MAGIC_CHECK_END(); if (l) *l = o->cur.border.l; if (r) *r = o->cur.border.r; if (t) *t = o->cur.border.t; if (b) *b = o->cur.border.b; } EAPI void evas_object_image_border_center_fill_set(Evas_Object *obj, Evas_Border_Fill_Mode fill) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (fill == o->cur.border.fill) return; o->cur.border.fill = fill; o->changed = 1; evas_object_change(obj); } EAPI Evas_Border_Fill_Mode evas_object_image_border_center_fill_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->cur.border.fill; } EAPI void evas_object_image_filled_set(Evas_Object *obj, Eina_Bool setting) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); setting = !!setting; if (o->filled == setting) return; o->filled = setting; if (!o->filled) evas_object_event_callback_del(obj, EVAS_CALLBACK_RESIZE, evas_object_image_filled_resize_listener); else { Evas_Coord w, h; evas_object_geometry_get(obj, NULL, NULL, &w, &h); evas_object_image_fill_set(obj, 0, 0, w, h); evas_object_event_callback_add(obj, EVAS_CALLBACK_RESIZE, evas_object_image_filled_resize_listener, NULL); } } EAPI Eina_Bool evas_object_image_filled_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->filled; } EAPI void evas_object_image_border_scale_set(Evas_Object *obj, double scale) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (scale == o->cur.border.scale) return; o->cur.border.scale = scale; o->changed = 1; evas_object_change(obj); } EAPI double evas_object_image_border_scale_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 1.0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 1.0; MAGIC_CHECK_END(); return o->cur.border.scale; } EAPI void evas_object_image_fill_set(Evas_Object *obj, Evas_Coord x, Evas_Coord y, Evas_Coord w, Evas_Coord h) { Evas_Object_Image *o; if (w < 0) w = -w; if (h < 0) h = -h; if (w == 0) return; if (h == 0) return; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if ((o->cur.fill.x == x) && (o->cur.fill.y == y) && (o->cur.fill.w == w) && (o->cur.fill.h == h)) return; o->cur.fill.x = x; o->cur.fill.y = y; o->cur.fill.w = w; o->cur.fill.h = h; o->cur.opaque_valid = 0; o->changed = 1; evas_object_change(obj); } EAPI void evas_object_image_fill_get(const Evas_Object *obj, Evas_Coord *x, Evas_Coord *y, Evas_Coord *w, Evas_Coord *h) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); if (x) *x = 0; if (y) *y = 0; if (w) *w = 0; if (h) *h = 0; return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); if (x) *x = 0; if (y) *y = 0; if (w) *w = 0; if (h) *h = 0; return; MAGIC_CHECK_END(); if (x) *x = o->cur.fill.x; if (y) *y = o->cur.fill.y; if (w) *w = o->cur.fill.w; if (h) *h = o->cur.fill.h; } EAPI void evas_object_image_fill_spread_set(Evas_Object *obj, Evas_Fill_Spread spread) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (spread == (Evas_Fill_Spread)o->cur.spread) return; o->cur.spread = spread; o->changed = 1; evas_object_change(obj); } EAPI Evas_Fill_Spread evas_object_image_fill_spread_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EVAS_TEXTURE_REPEAT; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EVAS_TEXTURE_REPEAT; MAGIC_CHECK_END(); return (Evas_Fill_Spread)o->cur.spread; } EAPI void evas_object_image_size_set(Evas_Object *obj, int w, int h) { Evas_Object_Image *o; int stride = 0; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); if (w < 1) w = 1; if (h < 1) h = 1; if (w > 32768) return; if (h > 32768) return; if ((w == o->cur.image.w) && (h == o->cur.image.h)) return; o->cur.image.w = w; o->cur.image.h = h; if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_size_set(obj->layer->evas->engine.data.output, o->engine_data, w, h); else o->engine_data = obj->layer->evas->engine.func->image_new_from_copied_data (obj->layer->evas->engine.data.output, w, h, NULL, o->cur.has_alpha, o->cur.cspace); if (o->engine_data) { if (obj->layer->evas->engine.func->image_scale_hint_set) obj->layer->evas->engine.func->image_scale_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->scale_hint); if (obj->layer->evas->engine.func->image_content_hint_set) obj->layer->evas->engine.func->image_content_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->content_hint); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = w * 4; } else stride = w * 4; o->cur.image.stride = stride; /* FIXME - in engine call above if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_alpha_set(obj->layer->evas->engine.data.output, o->engine_data, o->cur.has_alpha); */ EVAS_OBJECT_IMAGE_FREE_FILE_AND_KEY(o); o->changed = 1; evas_object_change(obj); } EAPI void evas_object_image_size_get(const Evas_Object *obj, int *w, int *h) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); if (w) *w = 0; if (h) *h = 0; return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); if (w) *w = 0; if (h) *h = 0; return; MAGIC_CHECK_END(); if (w) *w = o->cur.image.w; if (h) *h = o->cur.image.h; } EAPI int evas_object_image_stride_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->cur.image.stride; } EAPI Evas_Load_Error evas_object_image_load_error_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->load_error; } EAPI void * evas_object_image_data_convert(Evas_Object *obj, Evas_Colorspace to_cspace) { Evas_Object_Image *o; DATA32 *data; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return NULL; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return NULL; MAGIC_CHECK_END(); if ((o->preloading) && (o->engine_data)) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } if (!o->engine_data) return NULL; if (o->video_surface) o->video.update_pixels(o->video.data, obj, &o->video); if (o->cur.cspace == to_cspace) return NULL; data = NULL; o->engine_data = obj->layer->evas->engine.func->image_data_get(obj->layer->evas->engine.data.output, o->engine_data, 0, &data, &o->load_error); return evas_object_image_data_convert_internal(o, data, to_cspace); } EAPI void evas_object_image_data_set(Evas_Object *obj, void *data) { Evas_Object_Image *o; void *p_data; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); #ifdef EVAS_FRAME_QUEUING if (o->engine_data) evas_common_pipe_op_image_flush(o->engine_data); #endif p_data = o->engine_data; if (data) { if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_data_put(obj->layer->evas->engine.data.output, o->engine_data, data); else o->engine_data = obj->layer->evas->engine.func->image_new_from_data(obj->layer->evas->engine.data.output, o->cur.image.w, o->cur.image.h, data, o->cur.has_alpha, o->cur.cspace); if (o->engine_data) { int stride = 0; if (obj->layer->evas->engine.func->image_scale_hint_set) obj->layer->evas->engine.func->image_scale_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->scale_hint); if (obj->layer->evas->engine.func->image_content_hint_set) obj->layer->evas->engine.func->image_content_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->content_hint); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = o->cur.image.w * 4; o->cur.image.stride = stride; } } else { if (o->engine_data) obj->layer->evas->engine.func->image_free(obj->layer->evas->engine.data.output, o->engine_data); o->load_error = EVAS_LOAD_ERROR_NONE; o->cur.image.w = 0; o->cur.image.h = 0; o->cur.image.stride = 0; o->engine_data = NULL; } /* FIXME - in engine call above if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_alpha_set(obj->layer->evas->engine.data.output, o->engine_data, o->cur.has_alpha); */ if (o->pixels_checked_out > 0) o->pixels_checked_out--; if (p_data != o->engine_data) { EVAS_OBJECT_IMAGE_FREE_FILE_AND_KEY(o); o->pixels_checked_out = 0; } o->changed = 1; evas_object_change(obj); } EAPI void * evas_object_image_data_get(const Evas_Object *obj, Eina_Bool for_writing) { Evas_Object_Image *o; DATA32 *data; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return NULL; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return NULL; MAGIC_CHECK_END(); if (!o->engine_data) return NULL; #ifdef EVAS_FRAME_QUEUING evas_common_pipe_op_image_flush(o->engine_data); #endif data = NULL; if (obj->layer->evas->engine.func->image_scale_hint_set) obj->layer->evas->engine.func->image_scale_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->scale_hint); if (obj->layer->evas->engine.func->image_content_hint_set) obj->layer->evas->engine.func->image_content_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->content_hint); o->engine_data = obj->layer->evas->engine.func->image_data_get(obj->layer->evas->engine.data.output, o->engine_data, for_writing, &data, &o->load_error); /* if we fail to get engine_data, we have to return NULL */ if (!o->engine_data) return NULL; if (o->engine_data) { int stride = 0; if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = o->cur.image.w * 4; o->cur.image.stride = stride; } o->pixels_checked_out++; if (for_writing) { EVAS_OBJECT_IMAGE_FREE_FILE_AND_KEY(o); } return data; } EAPI void evas_object_image_preload(Evas_Object *obj, Eina_Bool cancel) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return ; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return ; MAGIC_CHECK_END(); if (!o->engine_data) { o->preloading = 1; evas_object_inform_call_image_preloaded(obj); return; } // FIXME: if already busy preloading, then dont request again until // preload done if (cancel) { if (o->preloading) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } } else { if (!o->preloading) { o->preloading = 1; obj->layer->evas->engine.func->image_data_preload_request(obj->layer->evas->engine.data.output, o->engine_data, obj); } } } EAPI void evas_object_image_data_copy_set(Evas_Object *obj, void *data) { Evas_Object_Image *o; if (!data) return; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); if ((o->cur.image.w <= 0) || (o->cur.image.h <= 0)) return; if (o->engine_data) obj->layer->evas->engine.func->image_free(obj->layer->evas->engine.data.output, o->engine_data); o->engine_data = obj->layer->evas->engine.func->image_new_from_copied_data(obj->layer->evas->engine.data.output, o->cur.image.w, o->cur.image.h, data, o->cur.has_alpha, o->cur.cspace); if (o->engine_data) { int stride = 0; o->engine_data = obj->layer->evas->engine.func->image_alpha_set(obj->layer->evas->engine.data.output, o->engine_data, o->cur.has_alpha); if (obj->layer->evas->engine.func->image_scale_hint_set) obj->layer->evas->engine.func->image_scale_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->scale_hint); if (obj->layer->evas->engine.func->image_content_hint_set) obj->layer->evas->engine.func->image_content_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->content_hint); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = o->cur.image.w * 4; o->cur.image.stride = stride; } o->pixels_checked_out = 0; EVAS_OBJECT_IMAGE_FREE_FILE_AND_KEY(o); } EAPI void evas_object_image_data_update_add(Evas_Object *obj, int x, int y, int w, int h) { Evas_Object_Image *o; Eina_Rectangle *r; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); RECTS_CLIP_TO_RECT(x, y, w, h, 0, 0, o->cur.image.w, o->cur.image.h); if ((w <= 0) || (h <= 0)) return; NEW_RECT(r, x, y, w, h); if (r) o->pixel_updates = eina_list_append(o->pixel_updates, r); o->changed = 1; evas_object_change(obj); } EAPI void evas_object_image_alpha_set(Evas_Object *obj, Eina_Bool has_alpha) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if ((o->preloading) && (o->engine_data)) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } if (((has_alpha) && (o->cur.has_alpha)) || ((!has_alpha) && (!o->cur.has_alpha))) return; o->cur.has_alpha = has_alpha; if (o->engine_data) { int stride = 0; #ifdef EVAS_FRAME_QUEUING evas_common_pipe_op_image_flush(o->engine_data); #endif o->engine_data = obj->layer->evas->engine.func->image_alpha_set(obj->layer->evas->engine.data.output, o->engine_data, o->cur.has_alpha); if (obj->layer->evas->engine.func->image_scale_hint_set) obj->layer->evas->engine.func->image_scale_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->scale_hint); if (obj->layer->evas->engine.func->image_content_hint_set) obj->layer->evas->engine.func->image_content_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->content_hint); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = o->cur.image.w * 4; o->cur.image.stride = stride; } evas_object_image_data_update_add(obj, 0, 0, o->cur.image.w, o->cur.image.h); EVAS_OBJECT_IMAGE_FREE_FILE_AND_KEY(o); } EAPI Eina_Bool evas_object_image_alpha_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->cur.has_alpha; } EAPI void evas_object_image_smooth_scale_set(Evas_Object *obj, Eina_Bool smooth_scale) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (((smooth_scale) && (o->cur.smooth_scale)) || ((!smooth_scale) && (!o->cur.smooth_scale))) return; o->cur.smooth_scale = smooth_scale; o->changed = 1; evas_object_change(obj); } EAPI Eina_Bool evas_object_image_smooth_scale_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->cur.smooth_scale; } EAPI void evas_object_image_reload(Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if ((o->preloading) && (o->engine_data)) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } if ((!o->cur.file) || (o->pixels_checked_out > 0)) return; if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_dirty_region(obj->layer->evas->engine.data.output, o->engine_data, 0, 0, o->cur.image.w, o->cur.image.h); evas_object_image_unload(obj, 1); evas_object_inform_call_image_unloaded(obj); evas_object_image_load(obj); o->prev.file = NULL; o->prev.key = NULL; o->changed = 1; evas_object_change(obj); } EAPI Eina_Bool evas_object_image_save(const Evas_Object *obj, const char *file, const char *key, const char *flags) { Evas_Object_Image *o; DATA32 *data = NULL; int quality = 80, compress = 9, ok = 0; RGBA_Image *im; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); if (!o->engine_data) return 0; o->engine_data = obj->layer->evas->engine.func->image_data_get(obj->layer->evas->engine.data.output, o->engine_data, 0, &data, &o->load_error); if (flags) { char *p, *pp; char *tflags; tflags = alloca(strlen(flags) + 1); strcpy(tflags, flags); p = tflags; while (p) { pp = strchr(p, ' '); if (pp) *pp = 0; sscanf(p, "quality=%i", &quality); sscanf(p, "compress=%i", &compress); if (pp) p = pp + 1; else break; } } im = (RGBA_Image*) evas_cache_image_data(evas_common_image_cache_get(), o->cur.image.w, o->cur.image.h, data, o->cur.has_alpha, EVAS_COLORSPACE_ARGB8888); if (im) { if (o->cur.cspace == EVAS_COLORSPACE_ARGB8888) im->image.data = data; else im->image.data = evas_object_image_data_convert_internal(o, data, EVAS_COLORSPACE_ARGB8888); if (im->image.data) { ok = evas_common_save_image_to_file(im, file, key, quality, compress); if (o->cur.cspace != EVAS_COLORSPACE_ARGB8888) free(im->image.data); } evas_cache_image_drop(&im->cache_entry); } return ok; } EAPI Eina_Bool evas_object_image_pixels_import(Evas_Object *obj, Evas_Pixel_Import_Source *pixels) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); if ((pixels->w != o->cur.image.w) || (pixels->h != o->cur.image.h)) return 0; switch (pixels->format) { #if 0 case EVAS_PIXEL_FORMAT_ARGB32: { if (o->engine_data) { DATA32 *image_pixels = NULL; o->engine_data = obj->layer->evas->engine.func->image_data_get(obj->layer->evas->engine.data.output, o->engine_data, 1, &image_pixels, &o->load_error); /* FIXME: need to actualyl support this */ /* memcpy(image_pixels, pixels->rows, o->cur.image.w * o->cur.image.h * 4);*/ if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_data_put(obj->layer->evas->engine.data.output, o->engine_data, image_pixels); if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_alpha_set(obj->layer->evas->engine.data.output, o->engine_data, o->cur.has_alpha); o->changed = 1; evas_object_change(obj); } } break; #endif #ifdef BUILD_CONVERT_YUV case EVAS_PIXEL_FORMAT_YUV420P_601: { if (o->engine_data) { DATA32 *image_pixels = NULL; o->engine_data = obj->layer->evas->engine.func->image_data_get(obj->layer->evas->engine.data.output, o->engine_data, 1, &image_pixels, &o->load_error); if (image_pixels) evas_common_convert_yuv_420p_601_rgba((DATA8 **) pixels->rows, (DATA8 *) image_pixels, o->cur.image.w, o->cur.image.h); if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_data_put(obj->layer->evas->engine.data.output, o->engine_data, image_pixels); if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_alpha_set(obj->layer->evas->engine.data.output, o->engine_data, o->cur.has_alpha); o->changed = 1; evas_object_change(obj); } } break; #endif default: return 0; break; } return 1; } EAPI void evas_object_image_pixels_get_callback_set(Evas_Object *obj, Evas_Object_Image_Pixels_Get_Cb func, void *data) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); o->func.get_pixels = func; o->func.get_pixels_data = data; } EAPI void evas_object_image_pixels_dirty_set(Evas_Object *obj, Eina_Bool dirty) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (dirty) o->dirty_pixels = 1; else o->dirty_pixels = 0; o->changed = 1; evas_object_change(obj); } EAPI Eina_Bool evas_object_image_pixels_dirty_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); if (o->dirty_pixels) return 1; return 0; } EAPI void evas_object_image_load_dpi_set(Evas_Object *obj, double dpi) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (dpi == o->load_opts.dpi) return; o->load_opts.dpi = dpi; if (o->cur.file) { evas_object_image_unload(obj, 0); evas_object_inform_call_image_unloaded(obj); evas_object_image_load(obj); o->changed = 1; evas_object_change(obj); } } EAPI double evas_object_image_load_dpi_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0.0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0.0; MAGIC_CHECK_END(); return o->load_opts.dpi; } EAPI void evas_object_image_load_size_set(Evas_Object *obj, int w, int h) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if ((o->load_opts.w == w) && (o->load_opts.h == h)) return; o->load_opts.w = w; o->load_opts.h = h; if (o->cur.file) { evas_object_image_unload(obj, 0); evas_object_inform_call_image_unloaded(obj); evas_object_image_load(obj); o->changed = 1; evas_object_change(obj); } } EAPI void evas_object_image_load_size_get(const Evas_Object *obj, int *w, int *h) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (w) *w = o->load_opts.w; if (h) *h = o->load_opts.h; } EAPI void evas_object_image_load_scale_down_set(Evas_Object *obj, int scale_down) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (o->load_opts.scale_down_by == scale_down) return; o->load_opts.scale_down_by = scale_down; if (o->cur.file) { evas_object_image_unload(obj, 0); evas_object_inform_call_image_unloaded(obj); evas_object_image_load(obj); o->changed = 1; evas_object_change(obj); } } EAPI int evas_object_image_load_scale_down_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return 0; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return 0; MAGIC_CHECK_END(); return o->load_opts.scale_down_by; } EAPI void evas_object_image_load_region_set(Evas_Object *obj, int x, int y, int w, int h) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if ((o->load_opts.region.x == x) && (o->load_opts.region.y == y) && (o->load_opts.region.w == w) && (o->load_opts.region.h == h)) return; o->load_opts.region.x = x; o->load_opts.region.y = y; o->load_opts.region.w = w; o->load_opts.region.h = h; if (o->cur.file) { evas_object_image_unload(obj, 0); evas_object_inform_call_image_unloaded(obj); evas_object_image_load(obj); o->changed = 1; evas_object_change(obj); } } EAPI void evas_object_image_load_region_get(const Evas_Object *obj, int *x, int *y, int *w, int *h) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (x) *x = o->load_opts.region.x; if (y) *y = o->load_opts.region.y; if (w) *w = o->load_opts.region.w; if (h) *h = o->load_opts.region.h; } EAPI void evas_object_image_load_orientation_set(Evas_Object *obj, Eina_Bool enable) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); o->load_opts.orientation = !!enable; } EAPI Eina_Bool evas_object_image_load_orientation_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EINA_FALSE; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EINA_FALSE; MAGIC_CHECK_END(); return o->load_opts.orientation; } EAPI void evas_object_image_colorspace_set(Evas_Object *obj, Evas_Colorspace cspace) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); #ifdef EVAS_FRAME_QUEUING if ((Evas_Colorspace)o->cur.cspace != cspace) { if (o->engine_data) evas_common_pipe_op_image_flush(o->engine_data); } #endif o->cur.cspace = cspace; if (o->engine_data) obj->layer->evas->engine.func->image_colorspace_set(obj->layer->evas->engine.data.output, o->engine_data, cspace); } EAPI Evas_Colorspace evas_object_image_colorspace_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EVAS_COLORSPACE_ARGB8888; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EVAS_COLORSPACE_ARGB8888; MAGIC_CHECK_END(); return o->cur.cspace; } EAPI void evas_object_image_video_surface_set(Evas_Object *obj, Evas_Video_Surface *surf) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); if (o->video_surface) { o->video_surface = 0; obj->layer->evas->video_objects = eina_list_remove(obj->layer->evas->video_objects, obj); } if (surf) { if (surf->version != EVAS_VIDEO_SURFACE_VERSION) return ; if (!surf->update_pixels || !surf->move || !surf->resize || !surf->hide || !surf->show) return ; o->created = EINA_TRUE; o->video_surface = 1; o->video = *surf; obj->layer->evas->video_objects = eina_list_append(obj->layer->evas->video_objects, obj); } else { o->video_surface = 0; o->video.update_pixels = NULL; o->video.move = NULL; o->video.resize = NULL; o->video.hide = NULL; o->video.show = NULL; o->video.data = NULL; } } EAPI const Evas_Video_Surface * evas_object_image_video_surface_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return NULL; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return NULL; MAGIC_CHECK_END(); if (!o->video_surface) return NULL; return &o->video; } EAPI void evas_object_image_native_surface_set(Evas_Object *obj, Evas_Native_Surface *surf) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); _evas_object_image_cleanup(obj, o); if (!obj->layer->evas->engine.func->image_native_set) return; if ((surf) && ((surf->version < 2) || (surf->version > EVAS_NATIVE_SURFACE_VERSION))) return; o->engine_data = obj->layer->evas->engine.func->image_native_set(obj->layer->evas->engine.data.output, o->engine_data, surf); } EAPI Evas_Native_Surface * evas_object_image_native_surface_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return NULL; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return NULL; MAGIC_CHECK_END(); if (!obj->layer->evas->engine.func->image_native_get) return NULL; return obj->layer->evas->engine.func->image_native_get(obj->layer->evas->engine.data.output, o->engine_data); } EAPI void evas_object_image_scale_hint_set(Evas_Object *obj, Evas_Image_Scale_Hint hint) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (o->scale_hint == hint) return; #ifdef EVAS_FRAME_QUEUING if (o->engine_data) evas_common_pipe_op_image_flush(o->engine_data); #endif o->scale_hint = hint; if (o->engine_data) { int stride = 0; if (obj->layer->evas->engine.func->image_scale_hint_set) obj->layer->evas->engine.func->image_scale_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->scale_hint); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = o->cur.image.w * 4; o->cur.image.stride = stride; } } EAPI Evas_Image_Scale_Hint evas_object_image_scale_hint_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EVAS_IMAGE_SCALE_HINT_NONE; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EVAS_IMAGE_SCALE_HINT_NONE; MAGIC_CHECK_END(); return o->scale_hint; } EAPI void evas_object_image_content_hint_set(Evas_Object *obj, Evas_Image_Content_Hint hint) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (o->content_hint == hint) return; #ifdef EVAS_FRAME_QUEUING if (o->engine_data) evas_common_pipe_op_image_flush(o->engine_data); #endif o->content_hint = hint; if (o->engine_data) { int stride = 0; if (obj->layer->evas->engine.func->image_content_hint_set) obj->layer->evas->engine.func->image_content_hint_set (obj->layer->evas->engine.data.output, o->engine_data, o->content_hint); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = o->cur.image.w * 4; o->cur.image.stride = stride; } } EAPI void evas_object_image_alpha_mask_set(Evas_Object *obj, Eina_Bool ismask) { Evas_Object_Image *o; if (!ismask) return; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); /* Convert to A8 if not already */ /* done */ } #define FRAME_MAX 1024 EAPI Evas_Image_Content_Hint evas_object_image_content_hint_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EVAS_IMAGE_CONTENT_HINT_NONE; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EVAS_IMAGE_CONTENT_HINT_NONE; MAGIC_CHECK_END(); return o->content_hint; } EAPI Eina_Bool evas_object_image_region_support_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EINA_FALSE; MAGIC_CHECK_END(); o = (Evas_Object_Image *) (obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EINA_FALSE; MAGIC_CHECK_END(); return obj->layer->evas->engine.func->image_can_region_get( obj->layer->evas->engine.data.output, o->engine_data); } /* animated feature */ EAPI Eina_Bool evas_object_image_animated_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EINA_FALSE; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EINA_FALSE; MAGIC_CHECK_END(); if (obj->layer->evas->engine.func->image_animated_get) return obj->layer->evas->engine.func->image_animated_get(obj->layer->evas->engine.data.output, o->engine_data); return EINA_FALSE; } EAPI int evas_object_image_animated_frame_count_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return -1; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return -1; MAGIC_CHECK_END(); if (!evas_object_image_animated_get(obj)) return -1; if (obj->layer->evas->engine.func->image_animated_frame_count_get) return obj->layer->evas->engine.func->image_animated_frame_count_get(obj->layer->evas->engine.data.output, o->engine_data); return -1; } EAPI Evas_Image_Animated_Loop_Hint evas_object_image_animated_loop_type_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return EVAS_IMAGE_ANIMATED_HINT_NONE; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EVAS_IMAGE_ANIMATED_HINT_NONE; MAGIC_CHECK_END(); if (!evas_object_image_animated_get(obj)) return EVAS_IMAGE_ANIMATED_HINT_NONE; if (obj->layer->evas->engine.func->image_animated_loop_type_get) return obj->layer->evas->engine.func->image_animated_loop_type_get(obj->layer->evas->engine.data.output, o->engine_data); return EVAS_IMAGE_ANIMATED_HINT_NONE; } EAPI int evas_object_image_animated_loop_count_get(const Evas_Object *obj) { Evas_Object_Image *o; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return -1; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return -1; MAGIC_CHECK_END(); if (!evas_object_image_animated_get(obj)) return -1; if (obj->layer->evas->engine.func->image_animated_loop_count_get) return obj->layer->evas->engine.func->image_animated_loop_count_get(obj->layer->evas->engine.data.output, o->engine_data); return -1; } EAPI double evas_object_image_animated_frame_duration_get(const Evas_Object *obj, int start_frame, int frame_num) { Evas_Object_Image *o; int frame_count = 0; if (start_frame < 1) return -1; if (frame_num < 0) return -1; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return -1; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return -1; MAGIC_CHECK_END(); if (!evas_object_image_animated_get(obj)) return -1; if (!obj->layer->evas->engine.func->image_animated_frame_count_get) return -1; frame_count = obj->layer->evas->engine.func->image_animated_frame_count_get(obj->layer->evas->engine.data.output, o->engine_data); if ((start_frame + frame_num) > frame_count) return -1; if (obj->layer->evas->engine.func->image_animated_frame_duration_get) return obj->layer->evas->engine.func->image_animated_frame_duration_get(obj->layer->evas->engine.data.output, o->engine_data, start_frame, frame_num); return -1; } EAPI void evas_object_image_animated_frame_set(Evas_Object *obj, int frame_index) { Evas_Object_Image *o; int frame_count = 0; MAGIC_CHECK(obj, Evas_Object, MAGIC_OBJ); return; MAGIC_CHECK_END(); o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); if (!o->cur.file) return; if (o->cur.frame == frame_index) return; if (!evas_object_image_animated_get(obj)) return; frame_count = evas_object_image_animated_frame_count_get(obj); /* limit the size of frame to FRAME_MAX */ if ((frame_count > FRAME_MAX) || (frame_count < 0) || (frame_index > frame_count)) return; if (!obj->layer->evas->engine.func->image_animated_frame_set) return; if (!obj->layer->evas->engine.func->image_animated_frame_set(obj->layer->evas->engine.data.output, o->engine_data, frame_index)) return; o->prev.frame = o->cur.frame; o->cur.frame = frame_index; o->changed = 1; evas_object_change(obj); } EAPI void evas_image_cache_flush(Evas *e) { MAGIC_CHECK(e, Evas, MAGIC_EVAS); return; MAGIC_CHECK_END(); e->engine.func->image_cache_flush(e->engine.data.output); } EAPI void evas_image_cache_reload(Evas *e) { Evas_Layer *layer; MAGIC_CHECK(e, Evas, MAGIC_EVAS); return; MAGIC_CHECK_END(); evas_image_cache_flush(e); EINA_INLIST_FOREACH(e->layers, layer) { Evas_Object *obj; EINA_INLIST_FOREACH(layer->objects, obj) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (o->magic == MAGIC_OBJ_IMAGE) { evas_object_image_unload(obj, 1); evas_object_inform_call_image_unloaded(obj); } } } evas_image_cache_flush(e); EINA_INLIST_FOREACH(e->layers, layer) { Evas_Object *obj; EINA_INLIST_FOREACH(layer->objects, obj) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (o->magic == MAGIC_OBJ_IMAGE) { evas_object_image_load(obj); o->changed = 1; evas_object_change(obj); } } } evas_image_cache_flush(e); } EAPI void evas_image_cache_set(Evas *e, int size) { MAGIC_CHECK(e, Evas, MAGIC_EVAS); return; MAGIC_CHECK_END(); if (size < 0) size = 0; e->engine.func->image_cache_set(e->engine.data.output, size); } EAPI int evas_image_cache_get(const Evas *e) { MAGIC_CHECK(e, Evas, MAGIC_EVAS); return 0; MAGIC_CHECK_END(); return e->engine.func->image_cache_get(e->engine.data.output); } EAPI Eina_Bool evas_image_max_size_get(const Evas *e, int *maxw, int *maxh) { int w = 0, h = 0; MAGIC_CHECK(e, Evas, MAGIC_EVAS); return EINA_FALSE; MAGIC_CHECK_END(); if (maxw) *maxw = 0xffff; if (maxh) *maxh = 0xffff; if (!e->engine.func->image_max_size_get) return EINA_FALSE; e->engine.func->image_max_size_get(e->engine.data.output, &w, &h); if (maxw) *maxw = w; if (maxh) *maxh = h; return EINA_TRUE; } /* all nice and private */ static void _proxy_unset(Evas_Object *proxy) { Evas_Object_Image *o; o = proxy->object_data; if (!o->cur.source) return; o->cur.source->proxy.proxies = eina_list_remove(o->cur.source->proxy.proxies, proxy); o->cur.source = NULL; if (o->cur.defmap) { evas_map_free(o->cur.defmap); o->cur.defmap = NULL; } } static void _proxy_set(Evas_Object *proxy, Evas_Object *src) { Evas_Object_Image *o; o = proxy->object_data; evas_object_image_file_set(proxy, NULL, NULL); o->cur.source = src; src->proxy.proxies = eina_list_append(src->proxy.proxies, proxy); src->proxy.redraw = EINA_TRUE; } /* Some moron just set a proxy on a proxy. * Give them some pixels. A random color */ static void _proxy_error(Evas_Object *proxy, void *context, void *output, void *surface, int x, int y) { Evas_Func *func; int r = rand() % 255; int g = rand() % 255; int b = rand() % 255; /* XXX: Eina log error or something I'm sure * If it bugs you, just fix it. Don't tell me */ if (VERBOSE_PROXY_ERROR) printf("Err: Argh! Recursive proxies.\n"); func = proxy->layer->evas->engine.func; func->context_color_set(output, context, r, g, b, 255); func->context_multiplier_unset(output, context); func->context_render_op_set(output, context, proxy->cur.render_op); func->rectangle_draw(output, context, surface, proxy->cur.geometry.x + x, proxy->cur.geometry.y + y, proxy->cur.geometry.w, proxy->cur.geometry.h); return; } /* static void _proxy_subrender_recurse(Evas_Object *obj, Evas_Object *clip, void *output, void *surface, void *ctx, int x, int y) { Evas_Object *obj2; Evas *e = obj->layer->evas; if (obj->clip.clipees) return; if (!obj->cur.visible) return; if ((!clip) || (clip != obj->cur.clipper)) { if (!obj->cur.cache.clip.visible) return; if ((obj->cur.cache.clip.a == 0) && (obj->cur.render_op == EVAS_RENDER_BLEND)) return; } if ((obj->func->is_visible) && (!obj->func->is_visible(obj))) return; if (!obj->pre_render_done) obj->func->render_pre(obj); ctx = e->engine.func->context_new(output); if (obj->smart.smart) { EINA_INLIST_FOREACH(evas_object_smart_members_get_direct(obj), obj2) { _proxy_subrender_recurse(obj2, clip, output, surface, ctx, x, y); } } else { obj->func->render(obj, output, ctx, surface, x, y); } e->engine.func->context_free(output, ctx); } */ /** * Render the source object when a proxy is set. * * Used to force a draw if necessary, else just makes sures it's available. */ static void _proxy_subrender(Evas *e, Evas_Object *source) { void *ctx; /* Evas_Object *obj2, *clip;*/ int w, h; if (!source) return; w = source->cur.geometry.w; h = source->cur.geometry.h; source->proxy.redraw = EINA_FALSE; /* We need to redraw surface then */ if ((source->proxy.surface) && ((source->proxy.w != w) || (source->proxy.h != h))) { e->engine.func->image_map_surface_free(e->engine.data.output, source->proxy.surface); source->proxy.surface = NULL; } /* FIXME: Hardcoded alpha 'on' */ /* FIXME (cont): Should see if the object has alpha */ if (!source->proxy.surface) { source->proxy.surface = e->engine.func->image_map_surface_new (e->engine.data.output, w, h, 1); source->proxy.w = w; source->proxy.h = h; } ctx = e->engine.func->context_new(e->engine.data.output); e->engine.func->context_color_set(e->engine.data.output, ctx, 0, 0, 0, 0); e->engine.func->context_render_op_set(e->engine.data.output, ctx, EVAS_RENDER_COPY); e->engine.func->rectangle_draw(e->engine.data.output, ctx, source->proxy.surface, 0, 0, w, h); e->engine.func->context_free(e->engine.data.output, ctx); ctx = e->engine.func->context_new(e->engine.data.output); evas_render_mapped(e, source, ctx, source->proxy.surface, -source->cur.geometry.x, -source->cur.geometry.y, 1, 0, 0, e->output.w, e->output.h); e->engine.func->context_free(e->engine.data.output, ctx); source->proxy.surface = e->engine.func->image_dirty_region (e->engine.data.output, source->proxy.surface, 0, 0, w, h); /* ctx = e->engine.func->context_new(e->engine.data.output); if (source->smart.smart) { clip = evas_object_smart_clipped_clipper_get(source); EINA_INLIST_FOREACH(evas_object_smart_members_get_direct(source), obj2) { _proxy_subrender_recurse(obj2, clip, e->engine.data.output, source->proxy.surface, ctx, -source->cur.geometry.x, -source->cur.geometry.y); } } else { if (!source->pre_render_done) source->func->render_pre(source); source->func->render(source, e->engine.data.output, ctx, source->proxy.surface, -source->cur.geometry.x, -source->cur.geometry.y); } e->engine.func->context_free(e->engine.data.output, ctx); source->proxy.surface = e->engine.func->image_dirty_region (e->engine.data.output, source->proxy.surface, 0, 0, w, h); */ } #if 0 // filtering disabled /* * * Note that this is similar to proxy_subrender_recurse. It should be * possible to merge I guess */ static void image_filter_draw_under_recurse(Evas *e, Evas_Object *obj, Evas_Object *stop, void *output, void *ctx, void *surface, int x, int y) { Evas_Object *obj2; if (obj->clip.clipees) return; /* FIXME: Doing bounding box test */ if (!evas_object_is_in_output_rect(obj, stop->cur.geometry.x, stop->cur.geometry.y, stop->cur.geometry.w, stop->cur.geometry.h)) return; if (!evas_object_is_visible(obj)) return; obj->pre_render_done = 1; ctx = e->engine.func->context_new(output); if (obj->smart.smart) { EINA_INLIST_FOREACH(evas_object_smart_members_get_direct(obj), obj2) { if (obj2 == stop) return; image_filter_draw_under_recurse(e, obj2, stop, output, surface, ctx, x, y); } } else obj->func->render(obj, output, ctx, surface, x ,y); e->engine.func->context_free(output, ctx); } /* * Draw all visible objects intersecting an object which are _beneath_ it. */ static void image_filter_draw_under(Evas *e, Evas_Object *stop, void *output, void *ctx, void *surface, int dx, int dy) { Evas_Layer *lay; int x, y; x = stop->cur.geometry.x - dx; y = stop->cur.geometry.y - dy; EINA_INLIST_FOREACH(e->layers, lay) { Evas_Object *obj; EINA_INLIST_FOREACH(lay->objects, obj) { if (obj->delete_me) continue; if (obj == stop) return; /* FIXME: Do bounding box check */ image_filter_draw_under_recurse(e, obj, stop, output, ctx, surface, -x, -y); } } e->engine.func->image_dirty_region(output, surface, 0, 0, 300, 300); e->engine.func->output_flush(output); } /* * Update the filtered object. * * Creates a new context, and renders stuff (filtered) onto that. */ Filtered_Image * image_filter_update(Evas *e, Evas_Object *obj, void *src, int imagew, int imageh, int *outw, int *outh) { int w, h; void *ctx; Evas_Filter_Info *info; void *surface; Eina_Bool alpha; info = obj->filter; if (info->mode == EVAS_FILTER_MODE_BELOW) { w = obj->cur.geometry.w; h = obj->cur.geometry.h; evas_filter_get_size(info, w, h, &imagew, &imageh, EINA_TRUE); alpha = EINA_FALSE; } else { evas_filter_get_size(info, imagew, imageh, &w, &h, EINA_FALSE); alpha = e->engine.func->image_alpha_get(e->engine.data.output, src); } /* Certain filters may make alpha images anyway */ if (alpha == EINA_FALSE) alpha = evas_filter_always_alpha(info); surface = e->engine.func->image_map_surface_new(e->engine.data.output, w, h, alpha); if (info->mode == EVAS_FILTER_MODE_BELOW) { void *subsurface; int disw, dish; int dx, dy; disw = obj->cur.geometry.w; dish = obj->cur.geometry.h; dx = (imagew - w) >> 1; dy = (imageh - h) >> 1; subsurface = e->engine.func->image_map_surface_new (e->engine.data.output, imagew, imageh, 1); ctx = e->engine.func->context_new(e->engine.data.output); e->engine.func->context_color_set(e->engine.data.output, ctx, 0, 255, 0, 255); e->engine.func->context_render_op_set(e->engine.data.output, ctx, EVAS_RENDER_COPY); e->engine.func->rectangle_draw(e->engine.data.output, ctx, subsurface, 0, 0, imagew, imageh); image_filter_draw_under(e, obj, e->engine.data.output, ctx, subsurface, dx, dy); e->engine.func->context_free(e->engine.data.output, ctx); ctx = e->engine.func->context_new(e->engine.data.output); e->engine.func->image_draw_filtered(e->engine.data.output, ctx, surface, subsurface, info); e->engine.func->context_free(e->engine.data.output, ctx); e->engine.func->image_map_surface_free(e->engine.data.output, subsurface); } else { ctx = e->engine.func->context_new(e->engine.data.output); e->engine.func->image_draw_filtered(e->engine.data.output, ctx, surface, src, info); e->engine.func->context_free(e->engine.data.output, ctx); } e->engine.func->image_dirty_region(e->engine.data.output, surface, 0, 0, w, h); if (outw) *outw = w; if (outh) *outh = h; return e->engine.func->image_filtered_save(src, surface, obj->filter->key, obj->filter->len); } #endif static void evas_object_image_unload(Evas_Object *obj, Eina_Bool dirty) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if ((!o->cur.file) || (o->pixels_checked_out > 0)) return; if (dirty) { if (o->engine_data) o->engine_data = obj->layer->evas->engine.func->image_dirty_region (obj->layer->evas->engine.data.output, o->engine_data, 0, 0, o->cur.image.w, o->cur.image.h); } if (o->engine_data) { if (o->preloading) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } obj->layer->evas->engine.func->image_free(obj->layer->evas->engine.data.output, o->engine_data); } o->engine_data = NULL; o->load_error = EVAS_LOAD_ERROR_NONE; o->cur.has_alpha = 1; o->cur.cspace = EVAS_COLORSPACE_ARGB8888; o->cur.image.w = 0; o->cur.image.h = 0; o->cur.image.stride = 0; } static void evas_object_image_load(Evas_Object *obj) { Evas_Object_Image *o; Evas_Image_Load_Opts lo; o = (Evas_Object_Image *)(obj->object_data); if (o->engine_data) return; lo.scale_down_by = o->load_opts.scale_down_by; lo.dpi = o->load_opts.dpi; lo.w = o->load_opts.w; lo.h = o->load_opts.h; lo.region.x = o->load_opts.region.x; lo.region.y = o->load_opts.region.y; lo.region.w = o->load_opts.region.w; lo.region.h = o->load_opts.region.h; lo.orientation = o->load_opts.orientation; o->engine_data = obj->layer->evas->engine.func->image_load (obj->layer->evas->engine.data.output, o->cur.file, o->cur.key, &o->load_error, &lo); if (o->engine_data) { int w, h; int stride = 0; obj->layer->evas->engine.func->image_size_get (obj->layer->evas->engine.data.output, o->engine_data, &w, &h); if (obj->layer->evas->engine.func->image_stride_get) obj->layer->evas->engine.func->image_stride_get (obj->layer->evas->engine.data.output, o->engine_data, &stride); else stride = w * 4; o->cur.has_alpha = obj->layer->evas->engine.func->image_alpha_get (obj->layer->evas->engine.data.output, o->engine_data); o->cur.cspace = obj->layer->evas->engine.func->image_colorspace_get (obj->layer->evas->engine.data.output, o->engine_data); o->cur.image.w = w; o->cur.image.h = h; o->cur.image.stride = stride; } else { o->load_error = EVAS_LOAD_ERROR_GENERIC; } } static Evas_Coord evas_object_image_figure_x_fill(Evas_Object *obj, Evas_Coord start, Evas_Coord size, Evas_Coord *size_ret) { Evas_Coord w; w = ((size * obj->layer->evas->output.w) / (Evas_Coord)obj->layer->evas->viewport.w); if (size <= 0) size = 1; if (start > 0) { while (start - size > 0) start -= size; } else if (start < 0) { while (start < 0) start += size; } start = ((start * obj->layer->evas->output.w) / (Evas_Coord)obj->layer->evas->viewport.w); *size_ret = w; return start; } static Evas_Coord evas_object_image_figure_y_fill(Evas_Object *obj, Evas_Coord start, Evas_Coord size, Evas_Coord *size_ret) { Evas_Coord h; h = ((size * obj->layer->evas->output.h) / (Evas_Coord)obj->layer->evas->viewport.h); if (size <= 0) size = 1; if (start > 0) { while (start - size > 0) start -= size; } else if (start < 0) { while (start < 0) start += size; } start = ((start * obj->layer->evas->output.h) / (Evas_Coord)obj->layer->evas->viewport.h); *size_ret = h; return start; } static void evas_object_image_init(Evas_Object *obj) { /* alloc image ob, setup methods and default values */ obj->object_data = evas_object_image_new(); /* set up default settings for this kind of object */ obj->cur.color.r = 255; obj->cur.color.g = 255; obj->cur.color.b = 255; obj->cur.color.a = 255; obj->cur.geometry.x = 0; obj->cur.geometry.y = 0; obj->cur.geometry.w = 0; obj->cur.geometry.h = 0; obj->cur.layer = 0; obj->cur.anti_alias = 0; obj->cur.render_op = EVAS_RENDER_BLEND; /* set up object-specific settings */ obj->prev = obj->cur; /* set up methods (compulsory) */ obj->func = &object_func; obj->type = o_type; } static void * evas_object_image_new(void) { Evas_Object_Image *o; /* alloc obj private data */ EVAS_MEMPOOL_INIT(_mp_obj, "evas_object_image", Evas_Object_Image, 256, NULL); o = EVAS_MEMPOOL_ALLOC(_mp_obj, Evas_Object_Image); if (!o) return NULL; EVAS_MEMPOOL_PREP(_mp_obj, o, Evas_Object_Image); o->magic = MAGIC_OBJ_IMAGE; o->cur.fill.w = 0; o->cur.fill.h = 0; o->cur.smooth_scale = 1; o->cur.border.fill = 1; o->cur.border.scale = 1.0; o->cur.cspace = EVAS_COLORSPACE_ARGB8888; o->cur.spread = EVAS_TEXTURE_REPEAT; o->cur.opaque_valid = 0; o->cur.source = NULL; o->prev = o->cur; o->tmpf_fd = -1; return o; } static void evas_object_image_free(Evas_Object *obj) { Evas_Object_Image *o; Eina_Rectangle *r; /* frees private object data. very simple here */ o = (Evas_Object_Image *)(obj->object_data); MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return; MAGIC_CHECK_END(); /* free obj */ _cleanup_tmpf(obj); if (o->cur.file) eina_stringshare_del(o->cur.file); if (o->cur.key) eina_stringshare_del(o->cur.key); if (o->cur.source) _proxy_unset(obj); if (o->engine_data) { if (o->preloading) { o->preloading = 0; obj->layer->evas->engine.func->image_data_preload_cancel(obj->layer->evas->engine.data.output, o->engine_data, obj); } obj->layer->evas->engine.func->image_free(obj->layer->evas->engine.data.output, o->engine_data); } if (o->video_surface) { o->video_surface = 0; obj->layer->evas->video_objects = eina_list_remove(obj->layer->evas->video_objects, obj); } o->engine_data = NULL; o->magic = 0; EINA_LIST_FREE(o->pixel_updates, r) eina_rectangle_free(r); EVAS_MEMPOOL_FREE(_mp_obj, o); } static void evas_object_image_render(Evas_Object *obj, void *output, void *context, void *surface, int x, int y) { Evas_Object_Image *o; int imagew, imageh, uvw, uvh; void *pixels; /* render object to surface with context, and offset by x,y */ o = (Evas_Object_Image *)(obj->object_data); if ((o->cur.fill.w < 1) || (o->cur.fill.h < 1)) return; /* no error message, already printed in pre_render */ /* Proxy sanity */ if (o->proxyrendering) { _proxy_error(obj, context, output, surface, x, y); return; } /* We are displaying the overlay */ if (o->video_visible) { /* Create a transparent rectangle */ obj->layer->evas->engine.func->context_color_set(output, context, 0, 0, 0, 0); obj->layer->evas->engine.func->context_multiplier_unset(output, context); obj->layer->evas->engine.func->context_render_op_set(output, context, EVAS_RENDER_COPY); obj->layer->evas->engine.func->rectangle_draw(output, context, surface, obj->cur.geometry.x + x, obj->cur.geometry.y + y, obj->cur.geometry.w, obj->cur.geometry.h); return ; } obj->layer->evas->engine.func->context_color_set(output, context, 255, 255, 255, 255); if ((obj->cur.cache.clip.r == 255) && (obj->cur.cache.clip.g == 255) && (obj->cur.cache.clip.b == 255) && (obj->cur.cache.clip.a == 255)) { obj->layer->evas->engine.func->context_multiplier_unset(output, context); } else obj->layer->evas->engine.func->context_multiplier_set(output, context, obj->cur.cache.clip.r, obj->cur.cache.clip.g, obj->cur.cache.clip.b, obj->cur.cache.clip.a); obj->layer->evas->engine.func->context_render_op_set(output, context, obj->cur.render_op); if (!o->cur.source) { pixels = o->engine_data; imagew = o->cur.image.w; imageh = o->cur.image.h; uvw = imagew; uvh = imageh; } else if (o->cur.source->proxy.surface && !o->cur.source->proxy.redraw) { pixels = o->cur.source->proxy.surface; imagew = o->cur.source->proxy.w; imageh = o->cur.source->proxy.h; uvw = imagew; uvh = imageh; } else if (o->cur.source->type == o_type && ((Evas_Object_Image *)o->cur.source->object_data)->engine_data) { Evas_Object_Image *oi; oi = o->cur.source->object_data; pixels = oi->engine_data; imagew = oi->cur.image.w; imageh = oi->cur.image.h; uvw = o->cur.source->cur.geometry.w; uvh = o->cur.source->cur.geometry.h; } else { o->proxyrendering = 1; _proxy_subrender(obj->layer->evas, o->cur.source); pixels = o->cur.source->proxy.surface; imagew = o->cur.source->proxy.w; imageh = o->cur.source->proxy.h; uvw = imagew; uvh = imageh; o->proxyrendering = 0; } #if 0 // filtering disabled /* Now check/update filter */ if (obj->filter && obj->filter->filter) { Filtered_Image *fi = NULL; //printf("%p has filter: %s\n", obj,obj->filter->dirty?"dirty":"clean"); if (obj->filter->dirty) { if (obj->filter->mode != EVAS_FILTER_MODE_BELOW) { uint32_t len; uint8_t *key; if (obj->filter->key) free(obj->filter->key); obj->filter->key = NULL; obj->filter->len = 0; key = evas_filter_key_get(obj->filter, &len); if (key) { obj->filter->key = key; obj->filter->len = len; fi = obj->layer->evas->engine.func->image_filtered_get (o->engine_data, key, len); if (obj->filter->cached && fi != obj->filter->cached) { obj->layer->evas->engine.func->image_filtered_free (o->engine_data, obj->filter->cached); obj->filter->cached = NULL; } } } else if (obj->filter->cached) { obj->layer->evas->engine.func->image_filtered_free (o->engine_data, obj->filter->cached); } if (!fi) fi = image_filter_update(obj->layer->evas, obj, pixels, imagew, imageh, &imagew, &imageh); pixels = fi->image; obj->filter->dirty = 0; obj->filter->cached = fi; } else { fi = obj->filter->cached; pixels = fi->image; } } #endif if (pixels) { Evas_Coord idw, idh, idx, idy; int ix, iy, iw, ih; if (o->dirty_pixels) { if (o->func.get_pixels) { o->func.get_pixels(o->func.get_pixels_data, obj); if (o->engine_data != pixels) pixels = o->engine_data; o->engine_data = obj->layer->evas->engine.func->image_dirty_region (obj->layer->evas->engine.data.output, o->engine_data, 0, 0, o->cur.image.w, o->cur.image.h); } o->dirty_pixels = 0; } if ((obj->cur.map) && (obj->cur.map->count > 3) && (obj->cur.usemap)) { const Evas_Map_Point *p, *p_end; RGBA_Map_Point pts[obj->cur.map->count], *pt; p = obj->cur.map->points; p_end = p + obj->cur.map->count; pt = pts; pts[0].px = obj->cur.map->persp.px << FP; pts[0].py = obj->cur.map->persp.py << FP; pts[0].foc = obj->cur.map->persp.foc << FP; pts[0].z0 = obj->cur.map->persp.z0 << FP; // draw geom +x +y for (; p < p_end; p++, pt++) { pt->x = (lround(p->x) + x) * FP1; pt->y = (lround(p->y) + y) * FP1; pt->z = (lround(p->z) ) * FP1; pt->fx = p->px; pt->fy = p->py; pt->fz = p->z; pt->u = ((lround(p->u) * imagew) / uvw) * FP1; pt->v = ((lround(p->v) * imageh) / uvh) * FP1; if (pt->u < 0) pt->u = 0; else if (pt->u > (imagew * FP1)) pt->u = (imagew * FP1); if (pt->v < 0) pt->v = 0; else if (pt->v > (imageh * FP1)) pt->v = (imageh * FP1); pt->col = ARGB_JOIN(p->a, p->r, p->g, p->b); } if (obj->cur.map->count & 0x1) { pts[obj->cur.map->count] = pts[obj->cur.map->count -1]; } obj->layer->evas->engine.func->image_map_draw (output, context, surface, pixels, obj->cur.map->count, pts, o->cur.smooth_scale | obj->cur.map->smooth, 0); } else { obj->layer->evas->engine.func->image_scale_hint_set(output, pixels, o->scale_hint); /* This is technically a bug here: If the value is recreated * (which is returned)it may be a new object, however exactly 0 * of all the evas engines do this. */ obj->layer->evas->engine.func->image_border_set(output, pixels, o->cur.border.l, o->cur.border.r, o->cur.border.t, o->cur.border.b); idx = evas_object_image_figure_x_fill(obj, o->cur.fill.x, o->cur.fill.w, &idw); idy = evas_object_image_figure_y_fill(obj, o->cur.fill.y, o->cur.fill.h, &idh); if (idw < 1) idw = 1; if (idh < 1) idh = 1; if (idx > 0) idx -= idw; if (idy > 0) idy -= idh; while ((int)idx < obj->cur.geometry.w) { Evas_Coord ydy; int dobreak_w = 0; ydy = idy; ix = idx; if ((o->cur.fill.w == obj->cur.geometry.w) && (o->cur.fill.x == 0)) { dobreak_w = 1; iw = obj->cur.geometry.w; } else iw = ((int)(idx + idw)) - ix; while ((int)idy < obj->cur.geometry.h) { int dobreak_h = 0; iy = idy; if ((o->cur.fill.h == obj->cur.geometry.h) && (o->cur.fill.y == 0)) { ih = obj->cur.geometry.h; dobreak_h = 1; } else ih = ((int)(idy + idh)) - iy; if ((o->cur.border.l == 0) && (o->cur.border.r == 0) && (o->cur.border.t == 0) && (o->cur.border.b == 0) && (o->cur.border.fill != 0)) obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, 0, 0, imagew, imageh, obj->cur.geometry.x + ix + x, obj->cur.geometry.y + iy + y, iw, ih, o->cur.smooth_scale); else { int inx, iny, inw, inh, outx, outy, outw, outh; int bl, br, bt, bb, bsl, bsr, bst, bsb; int imw, imh, ox, oy; ox = obj->cur.geometry.x + ix + x; oy = obj->cur.geometry.y + iy + y; imw = imagew; imh = imageh; bl = o->cur.border.l; br = o->cur.border.r; bt = o->cur.border.t; bb = o->cur.border.b; if ((bl + br) > iw) { bl = iw / 2; br = iw - bl; } if ((bl + br) > imw) { bl = imw / 2; br = imw - bl; } if ((bt + bb) > ih) { bt = ih / 2; bb = ih - bt; } if ((bt + bb) > imh) { bt = imh / 2; bb = imh - bt; } if (o->cur.border.scale != 1.0) { bsl = ((double)bl * o->cur.border.scale); bsr = ((double)br * o->cur.border.scale); bst = ((double)bt * o->cur.border.scale); bsb = ((double)bb * o->cur.border.scale); } else { bsl = bl; bsr = br; bst = bt; bsb = bb; } // #-- // | inx = 0; iny = 0; inw = bl; inh = bt; outx = ox; outy = oy; outw = bsl; outh = bst; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // .## // | inx = bl; iny = 0; inw = imw - bl - br; inh = bt; outx = ox + bsl; outy = oy; outw = iw - bsl - bsr; outh = bst; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // --# // | inx = imw - br; iny = 0; inw = br; inh = bt; outx = ox + iw - bsr; outy = oy; outw = bsr; outh = bst; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // .-- // # inx = 0; iny = bt; inw = bl; inh = imh - bt - bb; outx = ox; outy = oy + bst; outw = bsl; outh = ih - bst - bsb; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // .--. // |##| if (o->cur.border.fill > EVAS_BORDER_FILL_NONE) { inx = bl; iny = bt; inw = imw - bl - br; inh = imh - bt - bb; outx = ox + bsl; outy = oy + bst; outw = iw - bsl - bsr; outh = ih - bst - bsb; if ((o->cur.border.fill == EVAS_BORDER_FILL_SOLID) && (obj->cur.cache.clip.a == 255) && (obj->cur.render_op == EVAS_RENDER_BLEND)) { obj->layer->evas->engine.func->context_render_op_set(output, context, EVAS_RENDER_COPY); obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); obj->layer->evas->engine.func->context_render_op_set(output, context, obj->cur.render_op); } else obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); } // --. // # inx = imw - br; iny = bt; inw = br; inh = imh - bt - bb; outx = ox + iw - bsr; outy = oy + bst; outw = bsr; outh = ih - bst - bsb; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // | // #-- inx = 0; iny = imh - bb; inw = bl; inh = bb; outx = ox; outy = oy + ih - bsb; outw = bsl; outh = bsb; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // | // .## inx = bl; iny = imh - bb; inw = imw - bl - br; inh = bb; outx = ox + bsl; outy = oy + ih - bsb; outw = iw - bsl - bsr; outh = bsb; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); // | // --# inx = imw - br; iny = imh - bb; inw = br; inh = bb; outx = ox + iw - bsr; outy = oy + ih - bsb; outw = bsr; outh = bsb; obj->layer->evas->engine.func->image_draw(output, context, surface, pixels, inx, iny, inw, inh, outx, outy, outw, outh, o->cur.smooth_scale); } idy += idh; if (dobreak_h) break; } idx += idw; idy = ydy; if (dobreak_w) break; } } } } static void evas_object_image_render_pre(Evas_Object *obj) { Evas_Object_Image *o; int is_v = 0, was_v = 0; Evas *e; /* dont pre-render the obj twice! */ if (obj->pre_render_done) return; obj->pre_render_done = 1; /* pre-render phase. this does anything an object needs to do just before */ /* rendering. this could mean loading the image data, retrieving it from */ /* elsewhere, decoding video etc. */ /* then when this is done the object needs to figure if it changed and */ /* if so what and where and add the appropriate redraw rectangles */ o = (Evas_Object_Image *)(obj->object_data); e = obj->layer->evas; if ((o->cur.fill.w < 1) || (o->cur.fill.h < 1)) { ERR("%p has invalid fill size: %dx%d. Ignored", obj, o->cur.fill.w, o->cur.fill.h); return; } /* if someone is clipping this obj - go calculate the clipper */ if (obj->cur.clipper) { if (obj->cur.cache.clip.dirty) evas_object_clip_recalc(obj->cur.clipper); obj->cur.clipper->func->render_pre(obj->cur.clipper); } /* Proxy: Do it early */ if (o->cur.source && (o->cur.source->proxy.redraw || o->cur.source->changed)) { /* XXX: Do I need to sort out the map here? */ evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); goto done; } /* now figure what changed and add draw rects */ /* if it just became visible or invisible */ is_v = evas_object_is_visible(obj); was_v = evas_object_was_visible(obj); if (is_v != was_v) { evas_object_render_pre_visible_change(&e->clip_changes, obj, is_v, was_v); if (!o->pixel_updates) goto done; } if ((obj->cur.map != obj->prev.map) || (obj->cur.usemap != obj->prev.usemap)) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); goto done; } /* it's not visible - we accounted for it appearing or not so just abort */ if (!is_v) goto done; /* clipper changed this is in addition to anything else for obj */ evas_object_render_pre_clipper_change(&e->clip_changes, obj); /* if we restacked (layer or just within a layer) and don't clip anyone */ if (obj->restack) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } /* if it changed color */ if ((obj->cur.color.r != obj->prev.color.r) || (obj->cur.color.g != obj->prev.color.g) || (obj->cur.color.b != obj->prev.color.b) || (obj->cur.color.a != obj->prev.color.a)) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } /* if it changed render op */ if (obj->cur.render_op != obj->prev.render_op) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } /* if it changed anti_alias */ if (obj->cur.anti_alias != obj->prev.anti_alias) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if (o->changed) { if (((o->cur.file) && (!o->prev.file)) || ((!o->cur.file) && (o->prev.file)) || ((o->cur.key) && (!o->prev.key)) || ((!o->cur.key) && (o->prev.key)) ) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if ((o->cur.image.w != o->prev.image.w) || (o->cur.image.h != o->prev.image.h) || (o->cur.has_alpha != o->prev.has_alpha) || (o->cur.cspace != o->prev.cspace) || (o->cur.smooth_scale != o->prev.smooth_scale)) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if ((o->cur.border.l != o->prev.border.l) || (o->cur.border.r != o->prev.border.r) || (o->cur.border.t != o->prev.border.t) || (o->cur.border.b != o->prev.border.b) || (o->cur.border.fill != o->prev.border.fill) || (o->cur.border.scale != o->prev.border.scale)) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if (o->dirty_pixels) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if (o->cur.frame != o->prev.frame) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } } /* if it changed geometry - and obviously not visibility or color */ /* calculate differences since we have a constant color fill */ /* we really only need to update the differences */ #if 0 // XXX: maybe buggy? if (((obj->cur.geometry.x != obj->prev.geometry.x) || (obj->cur.geometry.y != obj->prev.geometry.y) || (obj->cur.geometry.w != obj->prev.geometry.w) || (obj->cur.geometry.h != obj->prev.geometry.h)) && (o->cur.fill.w == o->prev.fill.w) && (o->cur.fill.h == o->prev.fill.h) && ((o->cur.fill.x + obj->cur.geometry.x) == (o->prev.fill.x + obj->prev.geometry.x)) && ((o->cur.fill.y + obj->cur.geometry.y) == (o->prev.fill.y + obj->prev.geometry.y)) && (!o->pixel_updates) ) { evas_rects_return_difference_rects(&e->clip_changes, obj->cur.geometry.x, obj->cur.geometry.y, obj->cur.geometry.w, obj->cur.geometry.h, obj->prev.geometry.x, obj->prev.geometry.y, obj->prev.geometry.w, obj->prev.geometry.h); if (!o->pixel_updates) goto done; } #endif if (((obj->cur.geometry.x != obj->prev.geometry.x) || (obj->cur.geometry.y != obj->prev.geometry.y) || (obj->cur.geometry.w != obj->prev.geometry.w) || (obj->cur.geometry.h != obj->prev.geometry.h)) ) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if (o->changed) { if ((o->cur.fill.x != o->prev.fill.x) || (o->cur.fill.y != o->prev.fill.y) || (o->cur.fill.w != o->prev.fill.w) || (o->cur.fill.h != o->prev.fill.h)) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); if (!o->pixel_updates) goto done; } if (o->pixel_updates) { if ((o->cur.border.l == 0) && (o->cur.border.r == 0) && (o->cur.border.t == 0) && (o->cur.border.b == 0) && (o->cur.image.w > 0) && (o->cur.image.h > 0) && (!((obj->cur.map) && (obj->cur.usemap)))) { Eina_Rectangle *rr; EINA_LIST_FREE(o->pixel_updates, rr) { Evas_Coord idw, idh, idx, idy; int x, y, w, h; e->engine.func->image_dirty_region(e->engine.data.output, o->engine_data, rr->x, rr->y, rr->w, rr->h); idx = evas_object_image_figure_x_fill(obj, o->cur.fill.x, o->cur.fill.w, &idw); idy = evas_object_image_figure_y_fill(obj, o->cur.fill.y, o->cur.fill.h, &idh); if (idw < 1) idw = 1; if (idh < 1) idh = 1; if (idx > 0) idx -= idw; if (idy > 0) idy -= idh; while (idx < obj->cur.geometry.w) { Evas_Coord ydy; ydy = idy; x = idx; w = ((int)(idx + idw)) - x; while (idy < obj->cur.geometry.h) { Eina_Rectangle r; y = idy; h = ((int)(idy + idh)) - y; r.x = ((rr->x - 1) * w) / o->cur.image.w; r.y = ((rr->y - 1) * h) / o->cur.image.h; r.w = ((rr->w + 2) * w) / o->cur.image.w; r.h = ((rr->h + 2) * h) / o->cur.image.h; r.x += obj->cur.geometry.x + x; r.y += obj->cur.geometry.y + y; RECTS_CLIP_TO_RECT(r.x, r.y, r.w, r.h, obj->cur.cache.clip.x, obj->cur.cache.clip.y, obj->cur.cache.clip.w, obj->cur.cache.clip.h); evas_add_rect(&e->clip_changes, r.x, r.y, r.w, r.h); idy += h; } idx += idw; idy = ydy; } eina_rectangle_free(rr); } goto done; } else { Eina_Rectangle *r; EINA_LIST_FREE(o->pixel_updates, r) eina_rectangle_free(r); e->engine.func->image_dirty_region(e->engine.data.output, o->engine_data, 0, 0, o->cur.image.w, o->cur.image.h); evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); goto done; } } } #if 0 // filtering disabled if (obj->filter && obj->filter->dirty) { evas_object_render_pre_prev_cur_add(&e->clip_changes, obj); } #endif /* it obviously didn't change - add a NO obscure - this "unupdates" this */ /* area so if there were updates for it they get wiped. don't do it if we */ /* aren't fully opaque and we are visible */ if (evas_object_is_visible(obj) && evas_object_is_opaque(obj)) { Evas_Coord x, y, w, h; x = obj->cur.cache.clip.x; y = obj->cur.cache.clip.y; w = obj->cur.cache.clip.w; h = obj->cur.cache.clip.h; if (obj->cur.clipper) { RECTS_CLIP_TO_RECT(x, y, w, h, obj->cur.clipper->cur.cache.clip.x, obj->cur.clipper->cur.cache.clip.y, obj->cur.clipper->cur.cache.clip.w, obj->cur.clipper->cur.cache.clip.h); } e->engine.func->output_redraws_rect_del(e->engine.data.output, x, y, w, h); } done: evas_object_render_pre_effect_updates(&e->clip_changes, obj, is_v, was_v); } static void evas_object_image_render_post(Evas_Object *obj) { Evas_Object_Image *o; Eina_Rectangle *r; /* this moves the current data to the previous state parts of the object */ /* in whatever way is safest for the object. also if we don't need object */ /* data anymore we can free it if the object deems this is a good idea */ o = (Evas_Object_Image *)(obj->object_data); /* remove those pesky changes */ evas_object_clip_changes_clean(obj); EINA_LIST_FREE(o->pixel_updates, r) eina_rectangle_free(r); /* move cur to prev safely for object data */ obj->prev = obj->cur; o->prev = o->cur; o->changed = 0; /* FIXME: copy strings across */ } static unsigned int evas_object_image_id_get(Evas_Object *obj) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (!o) return 0; return MAGIC_OBJ_IMAGE; } static unsigned int evas_object_image_visual_id_get(Evas_Object *obj) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (!o) return 0; return MAGIC_OBJ_IMAGE; } static void *evas_object_image_engine_data_get(Evas_Object *obj) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (!o) return NULL; return o->engine_data; } static int evas_object_image_is_opaque(Evas_Object *obj) { Evas_Object_Image *o; /* this returns 1 if the internal object data implies that the object is */ /* currently fully opaque over the entire rectangle it occupies */ o = (Evas_Object_Image *)(obj->object_data); /* disable caching due tyo maps screwing with this o->cur.opaque_valid = 0; if (o->cur.opaque_valid) { if (!o->cur.opaque) return 0; } else */ { o->cur.opaque = 0; /* disable caching */ /* o->cur.opaque_valid = 1; */ if ((o->cur.fill.w < 1) || (o->cur.fill.h < 1)) return o->cur.opaque; if (((o->cur.border.l != 0) || (o->cur.border.r != 0) || (o->cur.border.t != 0) || (o->cur.border.b != 0)) && (!o->cur.border.fill)) return o->cur.opaque; if (!o->engine_data) return o->cur.opaque; o->cur.opaque = 1; } // FIXME: use proxy if (o->cur.source) { o->cur.opaque = evas_object_is_opaque(o->cur.source); return o->cur.opaque; /* FIXME: Should go poke at the object */ } if (o->cur.has_alpha) { o->cur.opaque = 0; return o->cur.opaque; } if ((obj->cur.map) && (obj->cur.usemap)) { Evas_Map *m = obj->cur.map; if ((m->points[0].a == 255) && (m->points[1].a == 255) && (m->points[2].a == 255) && (m->points[3].a == 255)) { if ( ((m->points[0].x == m->points[3].x) && (m->points[1].x == m->points[2].x) && (m->points[0].y == m->points[1].y) && (m->points[2].y == m->points[3].y)) || ((m->points[0].x == m->points[1].x) && (m->points[2].x == m->points[3].x) && (m->points[0].y == m->points[3].y) && (m->points[1].y == m->points[2].y)) ) { if ((m->points[0].x == obj->cur.geometry.x) && (m->points[0].y == obj->cur.geometry.y) && (m->points[2].x == (obj->cur.geometry.x + obj->cur.geometry.w)) && (m->points[2].y == (obj->cur.geometry.y + obj->cur.geometry.h))) return o->cur.opaque; } } o->cur.opaque = 0; return o->cur.opaque; } if (obj->cur.render_op == EVAS_RENDER_COPY) return o->cur.opaque; return o->cur.opaque; } static int evas_object_image_was_opaque(Evas_Object *obj) { Evas_Object_Image *o; /* this returns 1 if the internal object data implies that the object was */ /* previously fully opaque over the entire rectangle it occupies */ o = (Evas_Object_Image *)(obj->object_data); if (o->prev.opaque_valid) { if (!o->prev.opaque) return 0; } else { o->prev.opaque = 0; o->prev.opaque_valid = 1; if ((o->prev.fill.w < 1) || (o->prev.fill.h < 1)) return 0; if (((o->prev.border.l != 0) || (o->prev.border.r != 0) || (o->prev.border.t != 0) || (o->prev.border.b != 0)) && (!o->prev.border.fill)) return 0; if (!o->engine_data) return 0; o->prev.opaque = 1; } // FIXME: use proxy if (o->prev.source) return 0; /* FIXME: Should go poke at the object */ if (obj->prev.usemap) return 0; if (obj->prev.render_op == EVAS_RENDER_COPY) return 1; if (o->prev.has_alpha) return 0; if (obj->prev.render_op != EVAS_RENDER_BLEND) return 0; return 1; } static int evas_object_image_is_inside(Evas_Object *obj, Evas_Coord x, Evas_Coord y) { Evas_Object_Image *o; DATA32 *data; int w, h, stride, iw, ih; int a; o = (Evas_Object_Image *)(obj->object_data); x -= obj->cur.cache.clip.x; y -= obj->cur.cache.clip.y; w = obj->cur.cache.clip.w; h = obj->cur.cache.clip.h; iw = o->cur.image.w; ih = o->cur.image.h; if ((x < 0) || (y < 0) || (x >= w) || (y >= h)) return 0; if (!o->cur.has_alpha) return 1; // FIXME: proxy needs to be honored if (obj->cur.map) { x = obj->cur.map->mx; y = obj->cur.map->my; } else { int bl, br, bt, bb, bsl, bsr, bst, bsb; bl = o->cur.border.l; br = o->cur.border.r; bt = o->cur.border.t; bb = o->cur.border.b; if ((bl + br) > iw) { bl = iw / 2; br = iw - bl; } if ((bl + br) > iw) { bl = iw / 2; br = iw - bl; } if ((bt + bb) > ih) { bt = ih / 2; bb = ih - bt; } if ((bt + bb) > ih) { bt = ih / 2; bb = ih - bt; } if (o->cur.border.scale != 1.0) { bsl = ((double)bl * o->cur.border.scale); bsr = ((double)br * o->cur.border.scale); bst = ((double)bt * o->cur.border.scale); bsb = ((double)bb * o->cur.border.scale); } else { bsl = bl; bsr = br; bst = bt; bsb = bb; } w = o->cur.fill.w; h = o->cur.fill.h; x -= o->cur.fill.x; y -= o->cur.fill.y; x %= w; y %= h; if (x < 0) x += w; if (y < 0) y += h; if (o->cur.border.fill != EVAS_BORDER_FILL_DEFAULT) { if ((x > bsl) && (x < (w - bsr)) && (y > bst) && (y < (h - bsb))) { if (o->cur.border.fill == EVAS_BORDER_FILL_SOLID) return 1; return 0; } } if (x < bsl) x = (x * bl) / bsl; else if (x > (w - bsr)) x = iw - (((w - x) * br) / bsr); else if ((bsl + bsr) < w) x = bl + (((x - bsl) * (iw - bl - br)) / (w - bsl - bsr)); else return 1; if (y < bst) y = (y * bt) / bst; else if (y > (h - bsb)) y = ih - (((h - y) * bb) / bsb); else if ((bst + bsb) < h) y = bt + (((y - bst) * (ih - bt - bb)) / (h - bst - bsb)); else return 1; } if (x < 0) x = 0; if (y < 0) y = 0; if (x >= iw) x = iw - 1; if (y >= ih) y = ih - 1; stride = o->cur.image.stride; o->engine_data = obj->layer->evas->engine.func->image_data_get (obj->layer->evas->engine.data.output, o->engine_data, 0, &data, &o->load_error); if (!data) return 0; switch (o->cur.cspace) { case EVAS_COLORSPACE_ARGB8888: data = ((DATA32*)(data) + ((y * (stride >> 2)) + x)); a = (*((DATA32*)(data)) >> 24) & 0xff; break; case EVAS_COLORSPACE_RGB565_A5P: data = (void*) ((DATA16*)(data) + (h * (stride >> 1))); data = (void*) ((DATA8*)(data) + ((y * (stride >> 1)) + x)); a = (*((DATA8*)(data))) & 0x1f; break; default: return 1; break; } return (a != 0); } static int evas_object_image_has_opaque_rect(Evas_Object *obj) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if ((obj->cur.map) && (obj->cur.usemap)) return 0; if (((o->cur.border.l | o->cur.border.r | o->cur.border.t | o->cur.border.b) != 0) && (o->cur.border.fill == EVAS_BORDER_FILL_SOLID) && (obj->cur.render_op == EVAS_RENDER_BLEND) && (obj->cur.cache.clip.a == 255) && (o->cur.fill.x == 0) && (o->cur.fill.y == 0) && (o->cur.fill.w == obj->cur.geometry.w) && (o->cur.fill.h == obj->cur.geometry.h) ) return 1; return 0; } static int evas_object_image_get_opaque_rect(Evas_Object *obj, Evas_Coord *x, Evas_Coord *y, Evas_Coord *w, Evas_Coord *h) { Evas_Object_Image *o; o = (Evas_Object_Image *)(obj->object_data); if (o->cur.border.scale == 1.0) { *x = obj->cur.geometry.x + o->cur.border.l; *y = obj->cur.geometry.y + o->cur.border.t; *w = obj->cur.geometry.w - (o->cur.border.l + o->cur.border.r); if (*w < 0) *w = 0; *h = obj->cur.geometry.h - (o->cur.border.t + o->cur.border.b); if (*h < 0) *h = 0; } else { *x = obj->cur.geometry.x + (o->cur.border.l * o->cur.border.scale); *y = obj->cur.geometry.y + (o->cur.border.t * o->cur.border.scale); *w = obj->cur.geometry.w - ((o->cur.border.l * o->cur.border.scale) + (o->cur.border.r * o->cur.border.scale)); if (*w < 0) *w = 0; *h = obj->cur.geometry.h - ((o->cur.border.t * o->cur.border.scale) + (o->cur.border.b * o->cur.border.scale)); if (*h < 0) *h = 0; } return 1; } static int evas_object_image_can_map(Evas_Object *obj __UNUSED__) { return 1; } static void * evas_object_image_data_convert_internal(Evas_Object_Image *o, void *data, Evas_Colorspace to_cspace) { void *out = NULL; if (!data) return NULL; switch (o->cur.cspace) { case EVAS_COLORSPACE_ARGB8888: out = evas_common_convert_argb8888_to(data, o->cur.image.w, o->cur.image.h, o->cur.image.stride >> 2, o->cur.has_alpha, to_cspace); break; case EVAS_COLORSPACE_RGB565_A5P: out = evas_common_convert_rgb565_a5p_to(data, o->cur.image.w, o->cur.image.h, o->cur.image.stride >> 1, o->cur.has_alpha, to_cspace); break; case EVAS_COLORSPACE_YCBCR422601_PL: out = evas_common_convert_yuv_422_601_to(data, o->cur.image.w, o->cur.image.h, to_cspace); break; case EVAS_COLORSPACE_YCBCR422P601_PL: out = evas_common_convert_yuv_422P_601_to(data, o->cur.image.w, o->cur.image.h, to_cspace); break; case EVAS_COLORSPACE_YCBCR420NV12601_PL: out = evas_common_convert_yuv_420_601_to(data, o->cur.image.w, o->cur.image.h, to_cspace); break; case EVAS_COLORSPACE_YCBCR420TM12601_PL: out = evas_common_convert_yuv_420T_601_to(data, o->cur.image.w, o->cur.image.h, to_cspace); break; default: WRN("unknow colorspace: %i\n", o->cur.cspace); break; } return out; } static void evas_object_image_filled_resize_listener(void *data __UNUSED__, Evas *e __UNUSED__, Evas_Object *obj, void *einfo __UNUSED__) { Evas_Coord w, h; evas_object_geometry_get(obj, NULL, NULL, &w, &h); evas_object_image_fill_set(obj, 0, 0, w, h); } Eina_Bool _evas_object_image_preloading_get(const Evas_Object *obj) { Evas_Object_Image *o = (Evas_Object_Image *)(obj->object_data); if (!o) return EINA_FALSE; MAGIC_CHECK(o, Evas_Object_Image, MAGIC_OBJ_IMAGE); return EINA_FALSE; MAGIC_CHECK_END(); return o->preloading; } void _evas_object_image_preloading_set(Evas_Object *obj, Eina_Bool preloading) { Evas_Object_Image *o = (Evas_Object_Image *)(obj->object_data); o->preloading = preloading; } void _evas_object_image_preloading_check(Evas_Object *obj) { Evas_Object_Image *o = (Evas_Object_Image *)(obj->object_data); if (obj->layer->evas->engine.func->image_load_error_get) o->load_error = obj->layer->evas->engine.func->image_load_error_get (obj->layer->evas->engine.data.output, o->engine_data); } Evas_Object * _evas_object_image_video_parent_get(Evas_Object *obj) { Evas_Object_Image *o = (Evas_Object_Image *)(obj->object_data); return o->video_surface ? o->video.parent : NULL; } void _evas_object_image_video_overlay_show(Evas_Object *obj) { Evas_Object_Image *o = (Evas_Object_Image *)(obj->object_data); if (obj->cur.cache.clip.x != obj->prev.cache.clip.x || obj->cur.cache.clip.y != obj->prev.cache.clip.y || o->created || !o->video_visible) o->video.move(o->video.data, obj, &o->video, obj->cur.cache.clip.x, obj->cur.cache.clip.y); if (obj->cur.cache.clip.w != obj->prev.cache.clip.w || obj->cur.cache.clip.h != obj->prev.cache.clip.h || o->created || !o->video_visible) o->video.resize(o->video.data, obj, &o->video, obj->cur.cache.clip.w, obj->cur.cache.clip.h); if (!o->video_visible || o->created) { o->video.show(o->video.data, obj, &o->video); } else { /* Cancel dirty on the image */ Eina_Rectangle *r; o->dirty_pixels = 0; EINA_LIST_FREE(o->pixel_updates, r) eina_rectangle_free(r); } o->video_visible = EINA_TRUE; o->created = EINA_FALSE; } void _evas_object_image_video_overlay_hide(Evas_Object *obj) { Evas_Object_Image *o = (Evas_Object_Image *)(obj->object_data); if (o->video_visible || o->created) o->video.hide(o->video.data, obj, &o->video); if (evas_object_is_visible(obj)) o->video.update_pixels(o->video.data, obj, &o->video); o->video_visible = EINA_FALSE; o->created = EINA_FALSE; } /* vim:set ts=8 sw=3 sts=3 expandtab cino=>5n-2f0^-2{2(0W1st0 :*/