Tizen Native API
3.0
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evas-smart-object.c
#ifdef HAVE_CONFIG_H #include "config.h" #else #define PACKAGE_EXAMPLES_DIR "." #endif #include <Ecore.h> #include <Ecore_Evas.h> #include <stdio.h> #include <errno.h> #include "evas-common.h" #define WIDTH (320) #define HEIGHT (240) static const char *commands = \ "commands are:\n" "\tl - insert child rectangle on the left\n" "\tr - insert child rectangle on the right\n" "\tw - remove and delete all members from the smart object\n" "\tright arrow - move smart object to the right\n" "\tleft arrow - move smart object to the left\n" "\tup arrow - move smart object up\n" "\tdown arrow - move smart object down\n" "\td - decrease smart object's size\n" "\ti - increase smart object's size\n" "\tc - change smart object's clipper color\n" "\t. - rotate object to the right\n" "\t, - rotate object to the left\n" "\th - print help\n" "\tq - quit\n" ; #define WHITE {255, 255, 255, 255} #define RED {255, 0, 0, 255} #define GREEN {0, 255, 0, 255} #define BLUE {0, 0, 255, 255} struct test_data { Ecore_Evas *ee; Evas *evas; Evas_Object *smt, *bg, *clipper, *rects[2]; }; struct color_tuple { int r, g, b, a; } clipper_colors[4] = {WHITE, RED, GREEN, BLUE}; int cur_color = 0; int cur_angle = 0; static const char * _index_to_color(int i) { switch (i) { case 0: return "WHITE (default)"; case 1: return "RED"; case 2: return "GREEN"; case 3: return "BLUE"; default: return "other"; } } static struct test_data d = {0}; static const char *border_img_path = PACKAGE_EXAMPLES_DIR EVAS_IMAGE_FOLDER "/red.png"; #define _evas_smart_example_type "Evas_Smart_Example" #define EVT_CHILDREN_NUMBER_CHANGED "children,changed" static const Evas_Smart_Cb_Description _smart_callbacks[] = { {EVT_CHILDREN_NUMBER_CHANGED, "i"}, {NULL, NULL} }; typedef struct _Evas_Smart_Example_Data Evas_Smart_Example_Data; /* * This structure augments clipped smart object's instance data, * providing extra members required by our example smart object's * implementation. */ struct _Evas_Smart_Example_Data { Evas_Object_Smart_Clipped_Data base; Evas_Object *children[2], *border; int child_count; }; #define EVAS_SMART_EXAMPLE_DATA_GET(o, ptr) \ Evas_Smart_Example_Data * ptr = evas_object_smart_data_get(o) #define EVAS_SMART_EXAMPLE_DATA_GET_OR_RETURN(o, ptr) \ EVAS_SMART_EXAMPLE_DATA_GET(o, ptr); \ if (!ptr) \ { \ fprintf(stderr, "No widget data for object %p (%s)!", \ o, evas_object_type_get(o)); \ fflush(stderr); \ abort(); \ return; \ } #define EVAS_SMART_EXAMPLE_DATA_GET_OR_RETURN_VAL(o, ptr, val) \ EVAS_SMART_EXAMPLE_DATA_GET(o, ptr); \ if (!ptr) \ { \ fprintf(stderr, "No widget data for object %p (%s)!", \ o, evas_object_type_get(o)); \ fflush(stderr); \ abort(); \ return val; \ } EVAS_SMART_SUBCLASS_NEW(_evas_smart_example_type, _evas_smart_example, Evas_Smart_Class, Evas_Smart_Class, evas_object_smart_clipped_class_get, _smart_callbacks); static void _on_destroy(Ecore_Evas *ee EINA_UNUSED) { ecore_main_loop_quit(); } /* here just to keep our example's window size and background image's * size in synchrony */ static void _canvas_resize_cb(Ecore_Evas *ee) { int w, h; ecore_evas_geometry_get(ee, NULL, NULL, &w, &h); evas_object_resize(d.bg, w, h); } static void _on_child_del(void *data, Evas *evas EINA_UNUSED, Evas_Object *o, void *einfo EINA_UNUSED) { Evas_Object *example_smart = data; long idx; EVAS_SMART_EXAMPLE_DATA_GET(example_smart, priv); idx = (long)(uintptr_t)evas_object_data_get(o, "index"); idx--; priv->children[idx] = NULL; evas_object_smart_member_del(o); evas_object_smart_changed(example_smart); } static void _evas_smart_example_child_callbacks_unregister(Evas_Object *obj) { evas_object_data_set(obj, "index", NULL); evas_object_event_callback_del(obj, EVAS_CALLBACK_FREE, _on_child_del); } static void _evas_smart_example_child_callbacks_register(Evas_Object *o, Evas_Object *child, long idx) { evas_object_event_callback_add(child, EVAS_CALLBACK_FREE, _on_child_del, o); evas_object_data_set(child, "index", (void *)(uintptr_t)(++idx)); } /* create and setup a new example smart object's internals */ static void _evas_smart_example_smart_add(Evas_Object *o) { EVAS_SMART_DATA_ALLOC(o, Evas_Smart_Example_Data); /* call parent_sc->add() before member_adding the children, otherwise the * smart object's clipper won't be created yet, and the children won't be * clipped to it */ _evas_smart_example_parent_sc->add(o); /* this is a border around the smart object's area, delimiting it */ priv->border = evas_object_image_filled_add(evas_object_evas_get(o)); evas_object_image_file_set(priv->border, border_img_path, NULL); evas_object_image_border_set(priv->border, 3, 3, 3, 3); evas_object_image_border_center_fill_set( priv->border, EVAS_BORDER_FILL_NONE); evas_object_show(priv->border); evas_object_smart_member_add(priv->border, o); } static void _evas_smart_example_smart_del(Evas_Object *o) { EVAS_SMART_EXAMPLE_DATA_GET(o, priv); if (priv->children[0]) { _evas_smart_example_child_callbacks_unregister(priv->children[0]); priv->children[0] = NULL; } if (priv->children[1]) { _evas_smart_example_child_callbacks_unregister(priv->children[1]); priv->children[1] = NULL; } _evas_smart_example_parent_sc->del(o); } static void _evas_smart_example_smart_resize(Evas_Object *o, Evas_Coord w, Evas_Coord h) { Evas_Coord ow, oh; evas_object_geometry_get(o, NULL, NULL, &ow, &oh); if ((ow == w) && (oh == h)) return; /* this will trigger recalculation */ evas_object_smart_changed(o); } /* act on child objects' properties, before rendering */ static void _evas_smart_example_smart_calculate(Evas_Object *o) { Evas_Coord x, y, w, h; EVAS_SMART_EXAMPLE_DATA_GET_OR_RETURN(o, priv); evas_object_geometry_get(o, &x, &y, &w, &h); evas_object_resize(priv->border, w, h); evas_object_move(priv->border, x, y); if (priv->children[0]) { evas_object_move(priv->children[0], x + 3, y + 3); evas_object_resize(priv->children[0], (w / 2) - 3, (h / 2) - 3); } if (priv->children[1]) { evas_object_move(priv->children[1], x + (w / 2), y + (h / 2)); evas_object_resize(priv->children[1], (w / 2) - 3, (h / 2) - 3); } } /* setting our smart interface */ static void _evas_smart_example_smart_set_user(Evas_Smart_Class *sc) { /* specializing these two */ sc->add = _evas_smart_example_smart_add; sc->del = _evas_smart_example_smart_del; /* clipped smart object has no hook on resizes or calculations */ sc->resize = _evas_smart_example_smart_resize; sc->calculate = _evas_smart_example_smart_calculate; } /* BEGINS example smart object's own interface */ /* add a new example smart object to a canvas */ Evas_Object * evas_smart_example_add(Evas *evas) { return evas_object_smart_add(evas, _evas_smart_example_smart_class_new()); } static void _evas_smart_example_remove_do(Evas_Smart_Example_Data *priv, Evas_Object *child, int idx) { priv->children[idx] = NULL; priv->child_count--; _evas_smart_example_child_callbacks_unregister(child); evas_object_smart_member_del(child); } /* remove a child element, return its pointer (or NULL on errors) */ Evas_Object * evas_smart_example_remove(Evas_Object *o, Evas_Object *child) { long idx; EVAS_SMART_EXAMPLE_DATA_GET_OR_RETURN_VAL(o, priv, NULL); if (priv->children[0] != child && priv->children[1] != child) { fprintf(stderr, "You are trying to remove something not belonging to" " the example smart object!\n"); return NULL; } idx = (long)(uintptr_t)evas_object_data_get(child, "index"); idx--; _evas_smart_example_remove_do(priv, child, idx); evas_object_smart_callback_call( o, EVT_CHILDREN_NUMBER_CHANGED, (void *)(uintptr_t)priv->child_count); evas_object_smart_changed(o); return child; } /* set to return any previous object set to the left position of the * smart object or NULL, if any (or on errors) */ Evas_Object * evas_smart_example_set_left(Evas_Object *o, Evas_Object *child) { Evas_Object *ret = NULL; EVAS_SMART_EXAMPLE_DATA_GET_OR_RETURN_VAL(o, priv, NULL); if (!child) return NULL; if (priv->children[1] == child) { fprintf(stderr, "You mustn't place a child on both slots of" " the example smart object!\n"); return NULL; } if (priv->children[0]) { if (priv->children[0] != child) { ret = priv->children[0]; _evas_smart_example_remove_do(priv, priv->children[0], 0); } else return child; } priv->children[0] = child; _evas_smart_example_child_callbacks_register(o, child, 0); evas_object_smart_member_add(child, o); evas_object_smart_changed(o); priv->child_count++; if (!ret) { evas_object_smart_callback_call( o, EVT_CHILDREN_NUMBER_CHANGED, (void *)(uintptr_t)priv->child_count); } return ret; } /* set to return any previous object set to the right position of the * smart object or NULL, if any (or on errors) */ Evas_Object * evas_smart_example_set_right(Evas_Object *o, Evas_Object *child) { Evas_Object *ret = NULL; EVAS_SMART_EXAMPLE_DATA_GET_OR_RETURN_VAL(o, priv, NULL); if (!child) return NULL; if (priv->children[0] == child) { fprintf(stderr, "You mustn't place a child on both slots of" " the example smart object!\n"); return NULL; } if (priv->children[1]) { if (priv->children[1] != child) { ret = priv->children[1]; _evas_smart_example_remove_do(priv, priv->children[1], 1); } else return child; } priv->children[1] = child; _evas_smart_example_child_callbacks_register(o, child, 1); evas_object_smart_member_add(child, o); evas_object_smart_changed(o); priv->child_count++; if (!ret) { evas_object_smart_callback_call( o, EVT_CHILDREN_NUMBER_CHANGED, (void *)(uintptr_t)priv->child_count); } return ret; } /* END OF example smart object's own interface */ static void _map_update(void) { Evas_Map *m; Evas_Coord x, y, w, h; evas_object_geometry_get(d.smt, &x, &y, &w, &h); m = evas_map_new(4); evas_map_util_points_populate_from_object(m, d.smt); evas_map_util_rotate(m, cur_angle, x + (w / 2), y + (h / 2)); evas_object_map_set(d.smt, m); evas_object_map_enable_set(d.smt, EINA_TRUE); evas_map_free(m); } static void _on_keydown(void *data EINA_UNUSED, Evas *evas EINA_UNUSED, Evas_Object *o EINA_UNUSED, void *einfo) { Evas_Event_Key_Down *ev = einfo; if (strcmp(ev->key, "q") == 0) /* print help */ { _on_destroy(NULL); return; } if (strcmp(ev->key, "h") == 0) /* print help */ { puts(commands); return; } if (strcmp(ev->key, "w") == 0) /* clear out smart object (WRT * members) */ { if (d.rects[0]) { evas_smart_example_remove(d.smt, d.rects[0]); evas_object_del(d.rects[0]); } if (d.rects[1]) { evas_smart_example_remove(d.smt, d.rects[1]); evas_object_del(d.rects[1]); } memset(d.rects, 0, sizeof(d.rects)); fprintf(stdout, "Deleting all members of the smart object.\n"); return; } if (strcmp(ev->key, "l") == 0) /* insert random colored * rectangle on the left */ { Evas_Object *rect = evas_object_rectangle_add(d.evas), *prev; evas_object_color_set( rect, rand() % 255, rand() % 255, rand() % 255, 255); evas_object_show(rect); prev = evas_smart_example_set_left(d.smt, rect); d.rects[0] = rect; fprintf(stdout, "Setting smart object's left spot with a new" " rectangle.\n"); fprintf(stdout, "Checking its new smart object parent: %s\n", evas_object_smart_parent_get(rect) == d.smt ? "OK!" : "Failure!"); if (prev) { int r, g, b; evas_object_color_get(prev, &r, &g, &b, NULL); fprintf(stdout, "Deleting previous left child," " which had colors (%d, %d, %d)\n", r, g, b); evas_object_del(prev); } return; } if (strcmp(ev->key, "r") == 0) /* insert random colored * rectangle on the right */ { Evas_Object *rect = evas_object_rectangle_add(d.evas), *prev; evas_object_color_set( rect, rand() % 255, rand() % 255, rand() % 255, 255); evas_object_show(rect); prev = evas_smart_example_set_right(d.smt, rect); d.rects[1] = rect; fprintf(stdout, "Setting smart object's right spot with a new" " rectangle.\n"); fprintf(stdout, "Checking its new smart object parent: %s\n", evas_object_smart_parent_get(rect) == d.smt ? "OK!" : "Failure!"); if (prev) { int r, g, b; evas_object_color_get(prev, &r, &g, &b, NULL); fprintf(stdout, "Deleting previous right child," " which had colors (%d, %d, %d)\n", r, g, b); evas_object_del(prev); } return; } /* move smart object along the canvas */ if (strcmp(ev->key, "Right") == 0 || strcmp(ev->key, "Left") == 0 || strcmp(ev->key, "Up") == 0 || strcmp(ev->key, "Down") == 0) { Evas_Coord x, y; evas_object_geometry_get(d.smt, &x, &y, NULL, NULL); switch (ev->key[0]) { case 'R': x += 20; break; case 'L': x -= 20; break; case 'U': y -= 20; break; case 'D': y += 20; break; } evas_object_move(d.smt, x, y); _map_update(); return; } /* increase smart object's size */ if (strcmp(ev->key, "i") == 0) { Evas_Coord w, h; evas_object_geometry_get(d.smt, NULL, NULL, &w, &h); w *= 1.1; h *= 1.1; evas_object_resize(d.smt, w, h); _map_update(); return; } /* decrease smart object's size */ if (strcmp(ev->key, "d") == 0) { Evas_Coord w, h; evas_object_geometry_get(d.smt, NULL, NULL, &w, &h); w *= 0.9; h *= 0.9; evas_object_resize(d.smt, w, h); _map_update(); return; } /* change smart object's clipper color */ if (strcmp(ev->key, "c") == 0) { cur_color = (cur_color + 1) % 4; evas_object_color_set( d.clipper, clipper_colors[cur_color].r, clipper_colors[cur_color].g, clipper_colors[cur_color].b, clipper_colors[cur_color].a); fprintf(stderr, "Changing clipper's color to %s\n", _index_to_color(cur_color)); return; } /* rotate object to the right */ if (strcmp(ev->key, "period") == 0) { cur_angle = (cur_angle + 30) % 360; _map_update(); return; } if (strcmp(ev->key, "comma") == 0) { cur_angle = (cur_angle - 30) % 360; _map_update(); return; } fprintf(stderr, "Invalid key: '%s'\n", ev->key); } static void /* callback on number of member objects changed */ _on_example_smart_object_child_num_change(void *data EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info) { fprintf(stdout, "Number of child members on our example smart" " object changed to %llu\n", (unsigned long long)(uintptr_t)event_info); } int main(void) { const Evas_Smart_Cb_Description **descriptions; unsigned int count; Eina_Bool ret; srand(time(NULL)); if (!ecore_evas_init()) return EXIT_FAILURE; /* this will give you a window with an Evas canvas under the first * engine available */ d.ee = ecore_evas_new(NULL, 10, 10, WIDTH, HEIGHT, NULL); if (!d.ee) goto error; ecore_evas_callback_destroy_set(d.ee, _on_destroy); ecore_evas_callback_resize_set(d.ee, _canvas_resize_cb); ecore_evas_show(d.ee); /* the canvas pointer, de facto */ d.evas = ecore_evas_get(d.ee); d.bg = evas_object_rectangle_add(d.evas); evas_object_color_set(d.bg, 255, 255, 255, 255); evas_object_move(d.bg, 0, 0); evas_object_resize(d.bg, WIDTH, HEIGHT); evas_object_show(d.bg); d.smt = evas_smart_example_add(d.evas); evas_object_move(d.smt, WIDTH / 4, HEIGHT / 4); evas_object_resize(d.smt, WIDTH / 2, HEIGHT / 2); evas_object_show(d.smt); ret = evas_object_smart_type_check(d.smt, _evas_smart_example_type); fprintf(stdout, "Adding smart object of type \"%s\" to the canvas: %s.\n", _evas_smart_example_type, ret ? "success" : "failure"); d.clipper = evas_object_smart_clipped_clipper_get(d.smt); fprintf(stdout, "Checking if clipped smart object's clipper is a " "\"static\" one: %s\n", evas_object_static_clip_get( d.clipper) ? "yes" : "no"); evas_object_color_set( d.clipper, clipper_colors[cur_color].r, clipper_colors[cur_color].g, clipper_colors[cur_color].b, clipper_colors[cur_color].a); evas_object_smart_callbacks_descriptions_get( d.smt, &descriptions, &count, NULL, NULL); for (; *descriptions; descriptions++) { fprintf(stdout, "We've found a smart callback on the smart object!" "\n\tname: %s\n\ttype: %s\n", (*descriptions)->name, (*descriptions)->type); if (strcmp((*descriptions)->type, "i")) continue; /* we know we don't have other types of smart callbacks * here, just playing with it */ /* for now, we know the only one callback is the one * reporting number of member objects changed on the * example smart object */ evas_object_smart_callback_add( d.smt, (*descriptions)->name, _on_example_smart_object_child_num_change, NULL); } evas_object_focus_set(d.bg, EINA_TRUE); evas_object_event_callback_add( d.bg, EVAS_CALLBACK_KEY_DOWN, _on_keydown, NULL); puts(commands); ecore_main_loop_begin(); ecore_evas_free(d.ee); ecore_evas_shutdown(); return 0; error: fprintf(stderr, "you got to have at least one evas engine built and linked" " up to ecore-evas for this example to run properly.\n"); ecore_evas_shutdown(); return -1; }