}
static void
-_efl_ui_image_internal_sizing_eval(Evas_Object *obj, Efl_Ui_Image_Data *sd)
+_image_sizing_eval(Efl_Ui_Image_Data *sd, Evas_Object *img)
{
- if (!sd->img) return;
- if (efl_isa(sd->img, EDJE_OBJECT_CLASS))
+ if (efl_isa(img, EDJE_OBJECT_CLASS))
{
- evas_object_move(sd->img, sd->img_x, sd->img_y);
- evas_object_resize(sd->img, sd->img_w, sd->img_h);
+ evas_object_move(img, sd->img_x, sd->img_y);
+ evas_object_resize(img, sd->img_w, sd->img_h);
evas_object_move(sd->hit_rect, sd->img_x, sd->img_y);
evas_object_resize(sd->hit_rect, sd->img_w, sd->img_h);
int iw = 0, ih = 0, offset_x = 0, offset_y = 0;
//1. Get the original image size (iw x ih)
- evas_object_image_size_get(sd->img, &iw, &ih);
+ evas_object_image_size_get(img, &iw, &ih);
iw = ((double)iw) * sd->scale;
ih = ((double)ih) * sd->scale;
}
//3. Calculate offset according to align value
- if (!elm_widget_is_legacy(obj))
+ if (!elm_widget_is_legacy(sd->self))
{
offset_x = ((sd->img_w - w) * sd->align_x);
offset_y = ((sd->img_h - h) * sd->align_y);
}
else
{
- evas_object_size_hint_align_get(obj, &alignh, &alignv);
+ evas_object_size_hint_align_get(sd->self, &alignh, &alignv);
if (EINA_DBL_EQ(alignh, EVAS_HINT_FILL)) alignh = 0.5;
if (EINA_DBL_EQ(alignv, EVAS_HINT_FILL)) alignv = 0.5;
if (offset_x >= 0) offset_x = 0;
if (offset_y >= 0) offset_y = 0;
- evas_object_image_fill_set(sd->img, offset_x, offset_y, w, h);
+ evas_object_image_fill_set(img, offset_x, offset_y, w, h);
if (offset_x < 0)
{
h = sd->img_h;
}
- evas_object_move(sd->img, x, y);
- evas_object_resize(sd->img, w, h);
+ evas_object_move(img, x, y);
+ evas_object_resize(img, w, h);
evas_object_move(sd->hit_rect, x, y);
evas_object_resize(sd->hit_rect, w, h);
}
}
+static void
+_efl_ui_image_internal_sizing_eval(Evas_Object *obj EINA_UNUSED, Efl_Ui_Image_Data *sd)
+{
+ if (!sd->img) return;
+ _image_sizing_eval(sd, sd->img);
+ if (sd->prev_img) _image_sizing_eval(sd, sd->prev_img);
+}
+
static inline void
_async_open_data_free(Async_Open_Data *data)
{