#include #include "elm_priv.h" /** * @defgroup Win Win * * The window class of Elementary. Contains functions to manipulate * windows. The Evas engine used to render the window contents is specified * in the system or user elementary config files (whichever is found last), * and can be overridden with the ELM_ENGINE environment variable for testing. * Engines that may be supported (depending on Evas and Ecore-Evas compilation * setup and modules actually installed at runtime) are (listed in order of * best supported and most likely to be complete and work to lowest quality). * * "x11", "x", "software-x11", "software_x11" * (Software rendering in X11) * "gl", "opengl", "opengl-x11", "opengl_x11" * (OpenGL or OpenGL-ES2 rendering in X11) * "shot:..." * (Virtual screenshot renderer - renders to output file and exits) * "fb", "software-fb", "software_fb" * (Linux framebuffer direct software rendering) * "sdl", "software-sdl", "software_sdl" * (SDL software rendering to SDL buffer) * "gl-sdl", "gl_sdl", "opengl-sdl", "opengl_sdl" * (OpenGL or OpenGL-ES2 rendering using SDL as the buffer) * "gdi", "software-gdi", "software_gdi" * (Windows WIN32 rendering via GDI with software) * "dfb", "directfb" * (Rendering to a DirectFB window) * "x11-8", "x8", "software-8-x11", "software_8_x11" * (Rendering in grayscale using dedicated 8bit software engine in X11) * "x11-16", "x16", "software-16-x11", "software_16_x11" * (Rendering in X11 using 16bit software engine) * "wince-gdi", "software-16-wince-gdi", "software_16_wince_gdi" * (Windows CE rendering via GDI with 16bit software renderer) * "sdl-16", "software-16-sdl", "software_16_sdl" * (Rendering to SDL buffer with 16bit software renderer) * * All engines use a simple string to select the engine to render, EXCEPT * the "shot" engine. This actually encodes the output of the virtual * screenshot and how long to delay in the engine string. The engine string * is encoded in the following way: * * "shot:[delay=XX][:][repeat=DDD][:][file=XX]" * * Where options are separated by a ":" char if more than one option is given, * with delay, if provided being the first option and file the last (order * is important). The delay specifies how long to wait after the window is * shown before doing the virtual "in memory" rendering and then save the * output to the file specified by the file option (and then exit). If no * delay is given, the default is 0.5 seconds. If no file is given the * default output file is "out.png". Repeat option is for continous * capturing screenshots. Repeat range is from 1 to 999 and * filename is fixed to "out001.png" * Some examples of using the shot engine: * * ELM_ENGINE="shot:delay=1.0:repeat=5:file=elm_test.png" elementary_test * ELM_ENGINE="shot:delay=1.0:file=elm_test.png" elementary_test * ELM_ENGINE="shot:file=elm_test2.png" elementary_test * ELM_ENGINE="shot:delay=2.0" elementary_test * ELM_ENGINE="shot:" elementary_test * * Signals that you can add callbacks for are: * * "delete,request" - the user requested to delete the window * "focus,in" - window got focus * "focus,out" - window lost focus * "moved" - window that holds the canvas was moved */ typedef struct _Elm_Win Elm_Win; struct _Elm_Win { Ecore_Evas *ee; Evas *evas; Evas_Object *parent, *win_obj, *img_obj, *frame_obj; Eina_List *subobjs; #ifdef HAVE_ELEMENTARY_X Ecore_X_Window xwin; Ecore_Event_Handler *client_message_handler; #endif Ecore_Job *deferred_resize_job; Ecore_Job *deferred_child_eval_job; Elm_Win_Type type; Elm_Win_Keyboard_Mode kbdmode; struct { const char *info; Ecore_Timer *timer; int repeat_count; int shot_counter; } shot; Eina_Bool autodel : 1; int *autodel_clear, rot; struct { int x, y; } screen; struct { Evas_Object *top; struct { Evas_Object *target; Eina_Bool visible : 1; Eina_Bool handled : 1; } cur, prev; const char *style; Ecore_Job *reconf_job; Eina_Bool enabled : 1; Eina_Bool changed_theme : 1; Eina_Bool top_animate : 1; Eina_Bool geometry_changed : 1; } focus_highlight; }; static const char *widtype = NULL; static void _elm_win_obj_callback_del(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _elm_win_obj_callback_img_obj_del(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _elm_win_obj_callback_parent_del(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _elm_win_obj_intercept_move(void *data, Evas_Object *obj, Evas_Coord x, Evas_Coord y); static void _elm_win_obj_intercept_show(void *data, Evas_Object *obj); static void _elm_win_move(Ecore_Evas *ee); static void _elm_win_resize(Ecore_Evas *ee); static void _elm_win_delete_request(Ecore_Evas *ee); static void _elm_win_resize_job(void *data); #ifdef HAVE_ELEMENTARY_X static void _elm_win_xwin_update(Elm_Win *win); #endif static void _elm_win_eval_subobjs(Evas_Object *obj); static void _elm_win_subobj_callback_del(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _elm_win_subobj_callback_changed_size_hints(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _elm_win_focus_highlight_init(Elm_Win *win); static void _elm_win_focus_highlight_shutdown(Elm_Win *win); static void _elm_win_focus_highlight_visible_set(Elm_Win *win, Eina_Bool visible); static void _elm_win_focus_highlight_reconfigure_job_start(Elm_Win *win); static void _elm_win_focus_highlight_reconfigure_job_stop(Elm_Win *win); static void _elm_win_focus_highlight_anim_end(void *data, Evas_Object *obj, const char *emission, const char *source); static void _elm_win_focus_highlight_reconfigure(Elm_Win *win); static const char SIG_DELETE_REQUEST[] = "delete,request"; static const char SIG_FOCUS_OUT[] = "focus,in"; static const char SIG_FOCUS_IN[] = "focus,out"; static const char SIG_MOVED[] = "moved"; static const Evas_Smart_Cb_Description _signals[] = { {SIG_DELETE_REQUEST, ""}, {SIG_FOCUS_OUT, ""}, {SIG_FOCUS_IN, ""}, {SIG_MOVED, ""}, {NULL, NULL} }; Eina_List *_elm_win_list = NULL; int _elm_win_deferred_free = 0; // exmaple shot spec (wait 0.1 sec then save as my-window.png): // ELM_ENGINE="shot:delay=0.1:file=my-window.png" static double _shot_delay_get(Elm_Win *win) { char *p, *pd; char *d = strdup(win->shot.info); if (!d) return 0.5; for (p = (char *)win->shot.info; *p; p++) { if (!strncmp(p, "delay=", 6)) { double v; for (pd = d, p += 6; (*p) && (*p != ':'); p++, pd++) { *pd = *p; } *pd = 0; v = atof(d); free(d); return v; } } free(d); return 0.5; } static char * _shot_file_get(Elm_Win *win) { char *p; char *tmp = strdup(win->shot.info); char *repname = NULL; if (!tmp) return NULL; for (p = (char *)win->shot.info; *p; p++) { if (!strncmp(p, "file=", 5)) { strcpy(tmp, p + 5); if (!win->shot.repeat_count) return tmp; else { char *dotptr = rindex(tmp, '.'); if (dotptr) { repname = malloc(sizeof(char)*(strlen(tmp) + 16)); strncpy(repname, tmp, dotptr - tmp); sprintf(repname + (dotptr - tmp), "%03i", win->shot.shot_counter + 1); strcat(repname, dotptr); return repname; } } } } free(tmp); if (!win->shot.repeat_count) return strdup("out.png"); else { repname = malloc(sizeof(char) * 24); sprintf(repname, "out%03i.png", win->shot.shot_counter + 1); return repname; } } static int _shot_repeat_count_get(Elm_Win *win) { char *p, *pd; char *d = strdup(win->shot.info); if (!d) return 0; for (p = (char *)win->shot.info; *p; p++) { if (!strncmp(p, "repeat=", 7)) { int v; for (pd = d, p += 7; (*p) && (*p != ':'); p++, pd++) { *pd = *p; } *pd = 0; v = atoi(d); if (v < 0) v = 0; if (v > 1000) v = 999; free(d); return v; } } free(d); return 0; } static char * _shot_key_get(Elm_Win *win __UNUSED__) { return NULL; } static char * _shot_flags_get(Elm_Win *win __UNUSED__) { return NULL; } static void _shot_do(Elm_Win *win) { Ecore_Evas *ee; Evas_Object *o; unsigned int *pixels; int w, h; char *file, *key, *flags; ecore_evas_manual_render(win->ee); pixels = (void *)ecore_evas_buffer_pixels_get(win->ee); if (!pixels) return; ecore_evas_geometry_get(win->ee, NULL, NULL, &w, &h); if ((w < 1) || (h < 1)) return; file = _shot_file_get(win); if (!file) return; key = _shot_key_get(win); flags = _shot_flags_get(win); ee = ecore_evas_buffer_new(1, 1); o = evas_object_image_add(ecore_evas_get(ee)); evas_object_image_alpha_set(o, ecore_evas_alpha_get(win->ee)); evas_object_image_size_set(o, w, h); evas_object_image_data_set(o, pixels); if (!evas_object_image_save(o, file, key, flags)) { ERR("Cannot save window to '%s' (key '%s', flags '%s')", file, key, flags); } free(file); if (key) free(key); if (flags) free(flags); ecore_evas_free(ee); if (win->shot.repeat_count) win->shot.shot_counter++; } static Eina_Bool _shot_delay(void *data) { Elm_Win *win = data; _shot_do(win); if (win->shot.repeat_count) { int remainshot = (win->shot.repeat_count - win->shot.shot_counter); if (remainshot > 0) return EINA_TRUE; } win->shot.timer = NULL; elm_exit(); return EINA_FALSE; } static void _shot_init(Elm_Win *win) { if (!win->shot.info) return; win->shot.repeat_count = _shot_repeat_count_get(win); win->shot.shot_counter = 0; } static void _shot_handle(Elm_Win *win) { if (!win->shot.info) return; win->shot.timer = ecore_timer_add(_shot_delay_get(win), _shot_delay, win); } static void _elm_win_move(Ecore_Evas *ee) { Evas_Object *obj = ecore_evas_object_associate_get(ee); Elm_Win *win; int x, y; if (!obj) return; win = elm_widget_data_get(obj); if (!win) return; ecore_evas_geometry_get(ee, &x, &y, NULL, NULL); win->screen.x = x; win->screen.y = y; evas_object_smart_callback_call(win->win_obj, SIG_MOVED, NULL); } static void _elm_win_resize(Ecore_Evas *ee) { Evas_Object *obj = ecore_evas_object_associate_get(ee); Elm_Win *win; if (!obj) return; win = elm_widget_data_get(obj); if (!win) return; if (win->deferred_resize_job) ecore_job_del(win->deferred_resize_job); win->deferred_resize_job = ecore_job_add(_elm_win_resize_job, win); } static void _elm_win_focus_in(Ecore_Evas *ee) { Evas_Object *obj = ecore_evas_object_associate_get(ee); Elm_Win *win; if (!obj) return; win = elm_widget_data_get(obj); if (!win) return; /*NB: Why two different "focus signals" here ??? */ evas_object_smart_callback_call(win->win_obj, SIG_FOCUS_IN, NULL); win->focus_highlight.cur.visible = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(win); if (win->frame_obj) { } else if (win->img_obj) { /* do nothing */ } } static void _elm_win_focus_out(Ecore_Evas *ee) { Evas_Object *obj = ecore_evas_object_associate_get(ee); Elm_Win *win; if (!obj) return; win = elm_widget_data_get(obj); if (!win) return; evas_object_smart_callback_call(win->win_obj, SIG_FOCUS_OUT, NULL); win->focus_highlight.cur.visible = EINA_FALSE; _elm_win_focus_highlight_reconfigure_job_start(win); if (win->frame_obj) { } else if (win->img_obj) { /* do nothing */ } } static Eina_Bool _elm_win_focus_next_hook(const Evas_Object *obj, Elm_Focus_Direction dir, Evas_Object **next) { Elm_Win *wd = elm_widget_data_get(obj); const Eina_List *items; void *(*list_data_get) (const Eina_List *list); if (!wd) return EINA_FALSE; /* Focus chain */ if (wd->subobjs) { if (!(items = elm_widget_focus_custom_chain_get(obj))) { items = wd->subobjs; if (!items) return EINA_FALSE; } list_data_get = eina_list_data_get; elm_widget_focus_list_next_get(obj, items, list_data_get, dir, next); if (*next) return EINA_TRUE; } *next = (Evas_Object *)obj; return EINA_FALSE; } static void _elm_win_on_focus_hook(void *data __UNUSED__, Evas_Object *obj) { Elm_Win *win = elm_widget_data_get(obj); if (!win) return; if (win->img_obj) evas_object_focus_set(win->img_obj, elm_widget_focus_get(obj)); else evas_object_focus_set(obj, elm_widget_focus_get(obj)); } static Eina_Bool _elm_win_event_cb(Evas_Object *obj, Evas_Object *src __UNUSED__, Evas_Callback_Type type, void *event_info) { if (type == EVAS_CALLBACK_KEY_DOWN) { Evas_Event_Key_Down *ev = event_info; if (!strcmp(ev->keyname, "Tab")) { if (evas_key_modifier_is_set(ev->modifiers, "Shift")) elm_widget_focus_cycle(obj, ELM_FOCUS_PREVIOUS); else elm_widget_focus_cycle(obj, ELM_FOCUS_NEXT); ev->event_flags |= EVAS_EVENT_FLAG_ON_HOLD; return EINA_TRUE; } } return EINA_FALSE; } static void _deferred_ecore_evas_free(void *data) { ecore_evas_free(data); _elm_win_deferred_free--; } static void _elm_win_obj_callback_show(void *data __UNUSED__, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__) { Elm_Win *win = data; elm_object_focus(obj); if (win->shot.info) _shot_handle(win); } static void _elm_win_obj_callback_hide(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; if (win->frame_obj) { } else if (win->img_obj) { evas_object_hide(win->img_obj); } } static void _elm_win_obj_callback_del(void *data, Evas *e, Evas_Object *obj, void *event_info __UNUSED__) { Elm_Win *win = data; Evas_Object *child; if (win->parent) { evas_object_event_callback_del_full(win->parent, EVAS_CALLBACK_DEL, _elm_win_obj_callback_parent_del, win); win->parent = NULL; } if (win->autodel_clear) *(win->autodel_clear) = -1; _elm_win_list = eina_list_remove(_elm_win_list, win->win_obj); while (win->subobjs) elm_win_resize_object_del(obj, win->subobjs->data); if (win->ee) { ecore_evas_callback_delete_request_set(win->ee, NULL); ecore_evas_callback_resize_set(win->ee, NULL); } if (win->deferred_resize_job) ecore_job_del(win->deferred_resize_job); if (win->deferred_child_eval_job) ecore_job_del(win->deferred_child_eval_job); if (win->shot.info) eina_stringshare_del(win->shot.info); if (win->shot.timer) ecore_timer_del(win->shot.timer); while (((child = evas_object_bottom_get(win->evas))) && (child != obj)) { evas_object_del(child); } while (((child = evas_object_top_get(win->evas))) && (child != obj)) { evas_object_del(child); } #ifdef HAVE_ELEMENTARY_X if (win->client_message_handler) ecore_event_handler_del(win->client_message_handler); #endif // FIXME: Why are we flushing edje on every window destroy ?? // edje_file_cache_flush(); // edje_collection_cache_flush(); // evas_image_cache_flush(win->evas); // evas_font_cache_flush(win->evas); // FIXME: we are in the del handler for the object and delete the canvas // that lives under it from the handler... nasty. deferring doesn't help either if (win->img_obj) { win->img_obj = NULL; } else { if (win->ee) { ecore_job_add(_deferred_ecore_evas_free, win->ee); _elm_win_deferred_free++; } } _elm_win_focus_highlight_shutdown(win); eina_stringshare_del(win->focus_highlight.style); free(win); if ((!_elm_win_list) && (elm_policy_get(ELM_POLICY_QUIT) == ELM_POLICY_QUIT_LAST_WINDOW_CLOSED)) { edje_file_cache_flush(); edje_collection_cache_flush(); evas_image_cache_flush(e); evas_font_cache_flush(e); elm_exit(); } } static void _elm_win_obj_callback_img_obj_del(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; if (!win->img_obj) return; evas_object_event_callback_del_full (win->img_obj, EVAS_CALLBACK_DEL, _elm_win_obj_callback_img_obj_del, win); evas_object_del(win->img_obj); } static void _elm_win_obj_callback_parent_del(void *data, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__) { Elm_Win *win = data; if (obj == win->parent) win->parent = NULL; } static void _elm_win_obj_intercept_move(void *data, Evas_Object *obj, Evas_Coord x, Evas_Coord y) { Elm_Win *win = data; if (win->img_obj) { if ((x != win->screen.x) || (y != win->screen.y)) { win->screen.x = x; win->screen.y = y; evas_object_smart_callback_call(win->win_obj, SIG_MOVED, NULL); } } else { evas_object_move(obj, x, y); } } static void _elm_win_obj_intercept_show(void *data, Evas_Object *obj) { Elm_Win *win = data; // this is called to make sure all smart containers have calculated their // sizes BEFORE we show the window to make sure it initially appears at // our desired size (ie min size is known first) evas_smart_objects_calculate(evas_object_evas_get(obj)); evas_object_show(obj); if (win->frame_obj) { } else if (win->img_obj) { evas_object_show(win->img_obj); } } static void _elm_win_obj_callback_move(void *data, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__) { Elm_Win *win = data; if (ecore_evas_override_get(win->ee)) { Evas_Coord x, y; evas_object_geometry_get(obj, &x, &y, NULL, NULL); win->screen.x = x; win->screen.y = y; evas_object_smart_callback_call(win->win_obj, SIG_MOVED, NULL); } if (win->frame_obj) { } else if (win->img_obj) { Evas_Coord x, y; evas_object_geometry_get(obj, &x, &y, NULL, NULL); win->screen.x = x; win->screen.y = y; // evas_object_move(win->img_obj, x, y); } } static void _elm_win_obj_callback_resize(void *data, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__) { Elm_Win *win = data; if (win->frame_obj) { } else if (win->img_obj) { Evas_Coord w = 1, h = 1; evas_object_geometry_get(obj, NULL, NULL, &w, &h); if (w < 1) w = 1; if (h < 1) h = 1; evas_object_image_size_set(win->img_obj, w, h); } } static void _elm_win_delete_request(Ecore_Evas *ee) { Evas_Object *obj = ecore_evas_object_associate_get(ee); Elm_Win *win; if (strcmp(elm_widget_type_get(obj), "win")) return; win = elm_widget_data_get(obj); if (!win) return; int autodel = win->autodel; win->autodel_clear = &autodel; evas_object_ref(win->win_obj); evas_object_smart_callback_call(win->win_obj, SIG_DELETE_REQUEST, NULL); // FIXME: if above callback deletes - then the below will be invalid if (autodel) evas_object_del(win->win_obj); else win->autodel_clear = NULL; evas_object_unref(win->win_obj); } static void _elm_win_resize_job(void *data) { Elm_Win *win = data; const Eina_List *l; Evas_Object *obj; int w, h; win->deferred_resize_job = NULL; ecore_evas_geometry_get(win->ee, NULL, NULL, &w, &h); evas_object_resize(win->win_obj, w, h); if (win->frame_obj) { } else if (win->img_obj) { } EINA_LIST_FOREACH(win->subobjs, l, obj) { evas_object_move(obj, 0, 0); evas_object_resize(obj, w, h); } } #ifdef HAVE_ELEMENTARY_X static void _elm_win_xwindow_get(Elm_Win *win) { win->xwin = 0; #define ENGINE_COMPARE(name) (!strcmp(_elm_config->engine, name)) if (ENGINE_COMPARE(ELM_SOFTWARE_X11)) { if (win->ee) win->xwin = ecore_evas_software_x11_window_get(win->ee); } else if (ENGINE_COMPARE(ELM_SOFTWARE_X11) || ENGINE_COMPARE(ELM_SOFTWARE_FB) || ENGINE_COMPARE(ELM_SOFTWARE_16_WINCE) || ENGINE_COMPARE(ELM_SOFTWARE_SDL) || ENGINE_COMPARE(ELM_SOFTWARE_16_SDL) || ENGINE_COMPARE(ELM_OPENGL_SDL)) { } else if (ENGINE_COMPARE(ELM_SOFTWARE_16_X11)) { if (win->ee) win->xwin = ecore_evas_software_x11_16_window_get(win->ee); } else if (ENGINE_COMPARE(ELM_SOFTWARE_8_X11)) { if (win->ee) win->xwin = ecore_evas_software_x11_8_window_get(win->ee); } /* killed else if (ENGINE_COMPARE(ELM_XRENDER_X11)) { if (win->ee) win->xwin = ecore_evas_xrender_x11_window_get(win->ee); } */ else if (ENGINE_COMPARE(ELM_OPENGL_X11)) { if (win->ee) win->xwin = ecore_evas_gl_x11_window_get(win->ee); } else if (ENGINE_COMPARE(ELM_SOFTWARE_WIN32)) { if (win->ee) win->xwin = (long)ecore_evas_win32_window_get(win->ee); } #undef ENGINE_COMPARE } #endif #ifdef HAVE_ELEMENTARY_X static void _elm_win_xwin_update(Elm_Win *win) { _elm_win_xwindow_get(win); if (win->parent) { Elm_Win *win2; win2 = elm_widget_data_get(win->parent); if (win2) { if (win->xwin) ecore_x_icccm_transient_for_set(win->xwin, win2->xwin); } } if (!win->xwin) return; /* nothing more to do */ switch (win->type) { case ELM_WIN_BASIC: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_NORMAL); break; case ELM_WIN_DIALOG_BASIC: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_DIALOG); break; case ELM_WIN_DESKTOP: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_DESKTOP); break; case ELM_WIN_DOCK: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_DOCK); break; case ELM_WIN_TOOLBAR: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_TOOLBAR); break; case ELM_WIN_MENU: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_MENU); break; case ELM_WIN_UTILITY: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_UTILITY); break; case ELM_WIN_SPLASH: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_SPLASH); break; case ELM_WIN_DROPDOWN_MENU: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_DROPDOWN_MENU); break; case ELM_WIN_POPUP_MENU: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_POPUP_MENU); break; case ELM_WIN_TOOLTIP: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_TOOLTIP); break; case ELM_WIN_NOTIFICATION: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_NOTIFICATION); break; case ELM_WIN_COMBO: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_COMBO); break; case ELM_WIN_DND: ecore_x_netwm_window_type_set(win->xwin, ECORE_X_WINDOW_TYPE_DND); break; default: break; } ecore_x_e_virtual_keyboard_state_set (win->xwin, (Ecore_X_Virtual_Keyboard_State)win->kbdmode); } #endif static void _elm_win_eval_subobjs(Evas_Object *obj) { const Eina_List *l; const Evas_Object *child; Elm_Win *win = elm_widget_data_get(obj); Evas_Coord w, h, minw = -1, minh = -1, maxw = -1, maxh = -1; int xx = 1, xy = 1; double wx, wy; EINA_LIST_FOREACH(win->subobjs, l, child) { evas_object_size_hint_weight_get(child, &wx, &wy); if (wx == 0.0) xx = 0; if (wy == 0.0) xy = 0; evas_object_size_hint_min_get(child, &w, &h); if (w < 1) w = -1; if (h < 1) h = -1; if (w > minw) minw = w; if (h > minh) minh = h; evas_object_size_hint_max_get(child, &w, &h); if (w < 1) w = -1; if (h < 1) h = -1; if (maxw == -1) maxw = w; else if ((w > 0) && (w < maxw)) maxw = w; if (maxh == -1) maxh = h; else if ((h > 0) && (h < maxh)) maxh = h; } if (!xx) maxw = minw; else maxw = 32767; if (!xy) maxh = minh; else maxh = 32767; evas_object_size_hint_min_set(obj, minw, minh); evas_object_size_hint_max_set(obj, maxw, maxh); evas_object_geometry_get(obj, NULL, NULL, &w, &h); if (w < minw) w = minw; if (h < minh) h = minh; if ((maxw >= 0) && (w > maxw)) w = maxw; if ((maxh >= 0) && (h > maxh)) h = maxh; evas_object_resize(obj, w, h); } static void _elm_win_subobj_callback_del(void *data, Evas *e __UNUSED__, Evas_Object *obj, void *event_info __UNUSED__) { Elm_Win *win = elm_widget_data_get(data); win->subobjs = eina_list_remove(win->subobjs, obj); _elm_win_eval_subobjs(win->win_obj); } static void _elm_win_subobj_callback_changed_size_hints(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { _elm_win_eval_subobjs(data); } void _elm_win_shutdown(void) { while (_elm_win_list) evas_object_del(_elm_win_list->data); } void _elm_win_rescale(Elm_Theme *th, Eina_Bool use_theme) { const Eina_List *l; Evas_Object *obj; if (!use_theme) { EINA_LIST_FOREACH(_elm_win_list, l, obj) elm_widget_theme(obj); } else { EINA_LIST_FOREACH(_elm_win_list, l, obj) elm_widget_theme_specific(obj, th, EINA_FALSE); } } #ifdef HAVE_ELEMENTARY_X static Eina_Bool _elm_win_client_message(void *data, int type __UNUSED__, void *event) { Elm_Win *win = data; Ecore_X_Event_Client_Message *e = event; if (e->format != 32) return ECORE_CALLBACK_PASS_ON; if (e->message_type == ECORE_X_ATOM_E_COMP_FLUSH) { if ((unsigned)e->data.l[0] == win->xwin) { Evas *evas = evas_object_evas_get(win->win_obj); if (evas) { edje_file_cache_flush(); edje_collection_cache_flush(); evas_image_cache_flush(evas); evas_font_cache_flush(evas); } } } else if (e->message_type == ECORE_X_ATOM_E_COMP_DUMP) { if ((unsigned)e->data.l[0] == win->xwin) { Evas *evas = evas_object_evas_get(win->win_obj); if (evas) { edje_file_cache_flush(); edje_collection_cache_flush(); evas_image_cache_flush(evas); evas_font_cache_flush(evas); evas_render_dump(evas); } } } return ECORE_CALLBACK_PASS_ON; } #endif static void _elm_win_focus_target_move(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; win->focus_highlight.geometry_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(win); } static void _elm_win_focus_target_resize(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; win->focus_highlight.geometry_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(win); } static void _elm_win_focus_target_del(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; win->focus_highlight.cur.target = NULL; _elm_win_focus_highlight_reconfigure_job_start(win); } static void _elm_win_focus_target_callbacks_add(Elm_Win *win) { Evas_Object *obj = win->focus_highlight.cur.target; evas_object_event_callback_add(obj, EVAS_CALLBACK_MOVE, _elm_win_focus_target_move, win); evas_object_event_callback_add(obj, EVAS_CALLBACK_RESIZE, _elm_win_focus_target_resize, win); evas_object_event_callback_add(obj, EVAS_CALLBACK_DEL, _elm_win_focus_target_del, win); } static void _elm_win_focus_target_callbacks_del(Elm_Win *win) { Evas_Object *obj = win->focus_highlight.cur.target; evas_object_event_callback_del_full(obj, EVAS_CALLBACK_MOVE, _elm_win_focus_target_move, win); evas_object_event_callback_del_full(obj, EVAS_CALLBACK_RESIZE, _elm_win_focus_target_resize, win); evas_object_event_callback_del_full(obj, EVAS_CALLBACK_DEL, _elm_win_focus_target_del, win); } static Evas_Object * _elm_win_focus_target_get(Evas_Object *obj) { Evas_Object *o = obj; do { if (elm_widget_is(o)) { if (!elm_widget_highlight_ignore_get(o)) break; o = elm_widget_parent_get(o); if (!o) o = evas_object_smart_parent_get(o); } else { o = elm_widget_parent_widget_get(o); if (!o) o = evas_object_smart_parent_get(o); } } while (o); return o; } static void _elm_win_object_focus_in(void *data, Evas *e __UNUSED__, void *event_info) { Evas_Object *obj = event_info, *target; Elm_Win *win = data; if (win->focus_highlight.cur.target == obj) return; target = _elm_win_focus_target_get(obj); win->focus_highlight.cur.target = target; if (elm_widget_highlight_in_theme_get(target)) win->focus_highlight.cur.handled = EINA_TRUE; else _elm_win_focus_target_callbacks_add(win); _elm_win_focus_highlight_reconfigure_job_start(win); } static void _elm_win_object_focus_out(void *data, Evas *e __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; if (!win->focus_highlight.cur.target) return; if (!win->focus_highlight.cur.handled) _elm_win_focus_target_callbacks_del(win); win->focus_highlight.cur.target = NULL; win->focus_highlight.cur.handled = EINA_FALSE; _elm_win_focus_highlight_reconfigure_job_start(win); } static void _elm_win_focus_highlight_hide(void *data __UNUSED__, Evas_Object *obj, const char *emission __UNUSED__, const char *source __UNUSED__) { evas_object_hide(obj); } static void _elm_win_focus_highlight_init(Elm_Win *win) { evas_event_callback_add(win->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_IN, _elm_win_object_focus_in, win); evas_event_callback_add(win->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_OUT, _elm_win_object_focus_out, win); win->focus_highlight.cur.target = evas_focus_get(win->evas); win->focus_highlight.top = edje_object_add(win->evas); win->focus_highlight.changed_theme = EINA_TRUE; edje_object_signal_callback_add(win->focus_highlight.top, "elm,action,focus,hide,end", "", _elm_win_focus_highlight_hide, NULL); edje_object_signal_callback_add(win->focus_highlight.top, "elm,action,focus,anim,end", "", _elm_win_focus_highlight_anim_end, win); _elm_win_focus_highlight_reconfigure_job_start(win); } static void _elm_win_focus_highlight_shutdown(Elm_Win *win) { _elm_win_focus_highlight_reconfigure_job_stop(win); if (win->focus_highlight.cur.target) { _elm_win_focus_target_callbacks_del(win); win->focus_highlight.cur.target = NULL; } if (win->focus_highlight.top) { evas_object_del(win->focus_highlight.top); win->focus_highlight.top = NULL; } evas_event_callback_del_full(win->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_IN, _elm_win_object_focus_in, win); evas_event_callback_del_full(win->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_OUT, _elm_win_object_focus_out, win); } static void _elm_win_focus_highlight_visible_set(Elm_Win *win, Eina_Bool visible) { Evas_Object *top; top = win->focus_highlight.top; if (visible) { if (top) { evas_object_show(top); edje_object_signal_emit(top, "elm,action,focus,show", "elm"); } } else { if (top) edje_object_signal_emit(top, "elm,action,focus,hide", "elm"); } } static void _elm_win_focus_highlight_reconfigure_job(void *data) { _elm_win_focus_highlight_reconfigure((Elm_Win *)data); } static void _elm_win_focus_highlight_reconfigure_job_start(Elm_Win *win) { if (win->focus_highlight.reconf_job) ecore_job_del(win->focus_highlight.reconf_job); win->focus_highlight.reconf_job = ecore_job_add( _elm_win_focus_highlight_reconfigure_job, win); } static void _elm_win_focus_highlight_reconfigure_job_stop(Elm_Win *win) { if (win->focus_highlight.reconf_job) ecore_job_del(win->focus_highlight.reconf_job); win->focus_highlight.reconf_job = NULL; } static void _elm_win_focus_highlight_simple_setup(Elm_Win *win, Evas_Object *obj) { Evas_Object *clip, *target = win->focus_highlight.cur.target; Evas_Coord x, y, w, h; clip = evas_object_clip_get(target); evas_object_geometry_get(target, &x, &y, &w, &h); evas_object_move(obj, x, y); evas_object_resize(obj, w, h); evas_object_clip_set(obj, clip); } static void _elm_win_focus_highlight_anim_setup(Elm_Win *win, Evas_Object *obj) { Evas_Coord tx, ty, tw, th; Evas_Coord w, h, px, py, pw, ph; Edje_Message_Int_Set *m; Evas_Object *previous = win->focus_highlight.prev.target; Evas_Object *target = win->focus_highlight.cur.target; evas_object_geometry_get(win->win_obj, NULL, NULL, &w, &h); evas_object_geometry_get(target, &tx, &ty, &tw, &th); evas_object_geometry_get(previous, &px, &py, &pw, &ph); evas_object_move(obj, 0, 0); evas_object_resize(obj, tw, th); evas_object_clip_unset(obj); m = alloca(sizeof(*m) + (sizeof(int) * 8)); m->count = 8; m->val[0] = px; m->val[1] = py; m->val[2] = pw; m->val[3] = ph; m->val[4] = tx; m->val[5] = ty; m->val[6] = tw; m->val[7] = th; edje_object_message_send(obj, EDJE_MESSAGE_INT_SET, 1, m); } static void _elm_win_focus_highlight_anim_end(void *data, Evas_Object *obj, const char *emission __UNUSED__, const char *source __UNUSED__) { Elm_Win *win = data; _elm_win_focus_highlight_simple_setup(win, obj); } static void _elm_win_focus_highlight_reconfigure(Elm_Win *win) { Evas_Object *target = win->focus_highlight.cur.target; Evas_Object *previous = win->focus_highlight.prev.target; Evas_Object *top = win->focus_highlight.top; Eina_Bool visible_changed; Eina_Bool common_visible; const char *sig = NULL; _elm_win_focus_highlight_reconfigure_job_stop(win); visible_changed = (win->focus_highlight.cur.visible != win->focus_highlight.prev.visible); if ((target == previous) && (!visible_changed) && (!win->focus_highlight.geometry_changed)) return; if ((previous) && (win->focus_highlight.prev.handled)) elm_widget_signal_emit(previous, "elm,action,focus_highlight,hide", "elm"); if (!target) common_visible = EINA_FALSE; else if (win->focus_highlight.cur.handled) { common_visible = EINA_FALSE; if (win->focus_highlight.cur.visible) sig = "elm,action,focus_highlight,show"; else sig = "elm,action,focus_highlight,hide"; } else common_visible = win->focus_highlight.cur.visible; _elm_win_focus_highlight_visible_set(win, common_visible); if (sig) elm_widget_signal_emit(target, sig, "elm"); if ((!target) || (!common_visible) || (win->focus_highlight.cur.handled)) goto the_end; if (win->focus_highlight.changed_theme) { const char *str; if (win->focus_highlight.style) str = win->focus_highlight.style; else str = "default"; _elm_theme_object_set(win->win_obj, top, "focus_highlight", "top", str); win->focus_highlight.changed_theme = EINA_FALSE; if (_elm_config->focus_highlight_animate) { str = edje_object_data_get(win->focus_highlight.top, "animate"); win->focus_highlight.top_animate = ((str) && (!strcmp(str, "on"))); } } if ((win->focus_highlight.top_animate) && (previous) && (!win->focus_highlight.prev.handled)) _elm_win_focus_highlight_anim_setup(win, top); else _elm_win_focus_highlight_simple_setup(win, top); evas_object_raise(top); the_end: win->focus_highlight.geometry_changed = EINA_FALSE; win->focus_highlight.prev = win->focus_highlight.cur; } #ifdef ELM_DEBUG static void _debug_key_down(void *data __UNUSED__, Evas *e __UNUSED__, Evas_Object *obj, void *event_info) { Evas_Event_Key_Down *ev = event_info; if (ev->event_flags & EVAS_EVENT_FLAG_ON_HOLD) return; if ((strcmp(ev->keyname, "F12")) || (!evas_key_modifier_is_set(ev->modifiers, "Control"))) return; printf("Tree graph generated.\n"); elm_object_tree_dot_dump(obj, "./dump.dot"); } #endif static void _win_img_hide(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; elm_widget_focus_hide_handle(win->win_obj); } static void _win_img_mouse_down(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; elm_widget_focus_mouse_down_handle(win->win_obj); } static void _win_img_focus_in(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; elm_widget_focus_steal(win->win_obj); } static void _win_img_focus_out(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { Elm_Win *win = data; elm_widget_focused_object_clear(win->win_obj); } static void _win_inlined_image_set(Elm_Win *win) { evas_object_image_alpha_set(win->img_obj, EINA_FALSE); evas_object_image_filled_set(win->img_obj, EINA_TRUE); evas_object_event_callback_add(win->img_obj, EVAS_CALLBACK_DEL, _elm_win_obj_callback_img_obj_del, win); evas_object_event_callback_add(win->img_obj, EVAS_CALLBACK_HIDE, _win_img_hide, win); evas_object_event_callback_add(win->img_obj, EVAS_CALLBACK_MOUSE_DOWN, _win_img_mouse_down, win); evas_object_event_callback_add(win->img_obj, EVAS_CALLBACK_FOCUS_IN, _win_img_focus_in, win); evas_object_event_callback_add(win->img_obj, EVAS_CALLBACK_FOCUS_OUT, _win_img_focus_out, win); } /** * Adds a window object. If this is the first window created, pass NULL as * @p parent. * * @param parent Parent object to add the window to, or NULL * @param name The name of the window * @param type The window type, one of the following: * ELM_WIN_BASIC * ELM_WIN_DIALOG_BASIC * ELM_WIN_DESKTOP * ELM_WIN_DOCK * ELM_WIN_TOOLBAR * ELM_WIN_MENU * ELM_WIN_UTILITY * ELM_WIN_SPLASH * * @return The created object, or NULL on failure * * @ingroup Win */ EAPI Evas_Object * elm_win_add(Evas_Object *parent, const char *name, Elm_Win_Type type) { Elm_Win *win; const Eina_List *l; const char *fontpath; win = ELM_NEW(Elm_Win); #define FALLBACK_TRY(engine) \ if (!win->ee) \ do { \ CRITICAL(engine " engine creation failed. Trying software X11."); \ win->ee = ecore_evas_software_x11_new(NULL, 0, 0, 0, 1, 1); \ } while (0) #define ENGINE_COMPARE(name) (!strcmp(_elm_config->engine, name)) switch (type) { case ELM_WIN_INLINED_IMAGE: { if (parent) { Evas *e = evas_object_evas_get(parent); if (e) { Ecore_Evas *ee = ecore_evas_ecore_evas_get(e); if (ee) { win->img_obj = ecore_evas_object_image_new(ee); if (win->img_obj) { win->ee = ecore_evas_object_ecore_evas_get(win->img_obj); if (win->ee) { _win_inlined_image_set(win); } else { evas_object_del(win->img_obj); win->img_obj = NULL; } } } } } } break; default: if (ENGINE_COMPARE(ELM_SOFTWARE_X11)) { win->ee = ecore_evas_software_x11_new(NULL, 0, 0, 0, 1, 1); #ifdef HAVE_ELEMENTARY_X win->client_message_handler = ecore_event_handler_add (ECORE_X_EVENT_CLIENT_MESSAGE, _elm_win_client_message, win); #endif } else if (ENGINE_COMPARE(ELM_SOFTWARE_FB)) { win->ee = ecore_evas_fb_new(NULL, 0, 1, 1); FALLBACK_TRY("Sofware FB"); } else if (ENGINE_COMPARE(ELM_SOFTWARE_DIRECTFB)) { win->ee = ecore_evas_directfb_new(NULL, 1, 0, 0, 1, 1); FALLBACK_TRY("Sofware DirectFB"); } else if (ENGINE_COMPARE(ELM_SOFTWARE_16_X11)) { win->ee = ecore_evas_software_x11_16_new(NULL, 0, 0, 0, 1, 1); FALLBACK_TRY("Sofware-16"); #ifdef HAVE_ELEMENTARY_X win->client_message_handler = ecore_event_handler_add (ECORE_X_EVENT_CLIENT_MESSAGE, _elm_win_client_message, win); #endif } else if (ENGINE_COMPARE(ELM_SOFTWARE_8_X11)) { win->ee = ecore_evas_software_x11_8_new(NULL, 0, 0, 0, 1, 1); FALLBACK_TRY("Sofware-8"); #ifdef HAVE_ELEMENTARY_X win->client_message_handler = ecore_event_handler_add (ECORE_X_EVENT_CLIENT_MESSAGE, _elm_win_client_message, win); #endif } /* killed else if (ENGINE_COMPARE(ELM_XRENDER_X11)) { win->ee = ecore_evas_xrender_x11_new(NULL, 0, 0, 0, 1, 1); FALLBACK_TRY("XRender"); #ifdef HAVE_ELEMENTARY_X win->client_message_handler = ecore_event_handler_add (ECORE_X_EVENT_CLIENT_MESSAGE, _elm_win_client_message, win); #endif } */ else if (ENGINE_COMPARE(ELM_OPENGL_X11)) { int opt[10]; int opt_i = 0; if (_elm_config->vsync) { opt[opt_i] = ECORE_EVAS_GL_X11_OPT_VSYNC; opt_i++; opt[opt_i] = 1; opt_i++; } if (opt_i > 0) win->ee = ecore_evas_gl_x11_options_new(NULL, 0, 0, 0, 1, 1, opt); else win->ee = ecore_evas_gl_x11_new(NULL, 0, 0, 0, 1, 1); FALLBACK_TRY("OpenGL"); #ifdef HAVE_ELEMENTARY_X win->client_message_handler = ecore_event_handler_add (ECORE_X_EVENT_CLIENT_MESSAGE, _elm_win_client_message, win); #endif } else if (ENGINE_COMPARE(ELM_SOFTWARE_WIN32)) { win->ee = ecore_evas_software_gdi_new(NULL, 0, 0, 1, 1); FALLBACK_TRY("Sofware Win32"); } else if (ENGINE_COMPARE(ELM_SOFTWARE_16_WINCE)) { win->ee = ecore_evas_software_wince_gdi_new(NULL, 0, 0, 1, 1); FALLBACK_TRY("Sofware-16-WinCE"); } else if (ENGINE_COMPARE(ELM_SOFTWARE_SDL)) { win->ee = ecore_evas_sdl_new(NULL, 0, 0, 0, 0, 0, 1); FALLBACK_TRY("Sofware SDL"); } else if (ENGINE_COMPARE(ELM_SOFTWARE_16_SDL)) { win->ee = ecore_evas_sdl16_new(NULL, 0, 0, 0, 0, 0, 1); FALLBACK_TRY("Sofware-16-SDL"); } else if (ENGINE_COMPARE(ELM_OPENGL_SDL)) { win->ee = ecore_evas_gl_sdl_new(NULL, 1, 1, 0, 0); FALLBACK_TRY("OpenGL SDL"); } else if (!strncmp(_elm_config->engine, "shot:", 5)) { win->ee = ecore_evas_buffer_new(1, 1); ecore_evas_manual_render_set(win->ee, EINA_TRUE); win->shot.info = eina_stringshare_add(_elm_config->engine + 5); _shot_init(win); } #undef FALLBACK_TRY break; } if (!win->ee) { ERR("Cannot create window."); free(win); return NULL; } #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); #endif if ((_elm_config->bgpixmap) && (!_elm_config->compositing)) ecore_evas_avoid_damage_set(win->ee, ECORE_EVAS_AVOID_DAMAGE_EXPOSE); // bg pixmap done by x - has other issues like can be redrawn by x before it // is filled/ready by app // ecore_evas_avoid_damage_set(win->ee, ECORE_EVAS_AVOID_DAMAGE_BUILT_IN); win->type = type; win->parent = parent; if (win->parent) evas_object_event_callback_add(win->parent, EVAS_CALLBACK_DEL, _elm_win_obj_callback_parent_del, win); win->evas = ecore_evas_get(win->ee); win->win_obj = elm_widget_add(win->evas); elm_widget_type_set(win->win_obj, "win"); ELM_SET_WIDTYPE(widtype, "win"); elm_widget_data_set(win->win_obj, win); elm_widget_event_hook_set(win->win_obj, _elm_win_event_cb); elm_widget_on_focus_hook_set(win->win_obj, _elm_win_on_focus_hook, NULL); elm_widget_can_focus_set(win->win_obj, EINA_TRUE); elm_widget_highlight_ignore_set(win->win_obj, EINA_TRUE); elm_widget_focus_next_hook_set(win->win_obj, _elm_win_focus_next_hook); evas_object_color_set(win->win_obj, 0, 0, 0, 0); evas_object_move(win->win_obj, 0, 0); evas_object_resize(win->win_obj, 1, 1); evas_object_layer_set(win->win_obj, 50); evas_object_pass_events_set(win->win_obj, EINA_TRUE); ecore_evas_object_associate(win->ee, win->win_obj, ECORE_EVAS_OBJECT_ASSOCIATE_BASE | ECORE_EVAS_OBJECT_ASSOCIATE_STACK | ECORE_EVAS_OBJECT_ASSOCIATE_LAYER); evas_object_event_callback_add(win->win_obj, EVAS_CALLBACK_SHOW, _elm_win_obj_callback_show, win); evas_object_event_callback_add(win->win_obj, EVAS_CALLBACK_HIDE, _elm_win_obj_callback_hide, win); evas_object_event_callback_add(win->win_obj, EVAS_CALLBACK_DEL, _elm_win_obj_callback_del, win); evas_object_event_callback_add(win->win_obj, EVAS_CALLBACK_MOVE, _elm_win_obj_callback_move, win); evas_object_event_callback_add(win->win_obj, EVAS_CALLBACK_RESIZE, _elm_win_obj_callback_resize, win); if (win->img_obj) evas_object_intercept_move_callback_add(win->win_obj, _elm_win_obj_intercept_move, win); evas_object_intercept_show_callback_add(win->win_obj, _elm_win_obj_intercept_show, win); ecore_evas_name_class_set(win->ee, name, _elm_appname); ecore_evas_callback_delete_request_set(win->ee, _elm_win_delete_request); ecore_evas_callback_resize_set(win->ee, _elm_win_resize); ecore_evas_callback_focus_in_set(win->ee, _elm_win_focus_in); ecore_evas_callback_focus_out_set(win->ee, _elm_win_focus_out); ecore_evas_callback_move_set(win->ee, _elm_win_move); evas_image_cache_set(win->evas, (_elm_config->image_cache * 1024)); evas_font_cache_set(win->evas, (_elm_config->font_cache * 1024)); EINA_LIST_FOREACH(_elm_config->font_dirs, l, fontpath) evas_font_path_append(win->evas, fontpath); if (!_elm_config->font_hinting) evas_font_hinting_set(win->evas, EVAS_FONT_HINTING_NONE); else if (_elm_config->font_hinting == 1) evas_font_hinting_set(win->evas, EVAS_FONT_HINTING_AUTO); else if (_elm_config->font_hinting == 2) evas_font_hinting_set(win->evas, EVAS_FONT_HINTING_BYTECODE); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif _elm_win_list = eina_list_append(_elm_win_list, win->win_obj); if (ENGINE_COMPARE(ELM_SOFTWARE_FB)) { ecore_evas_fullscreen_set(win->ee, 1); } #undef ENGINE_COMPARE if (_elm_config->focus_highlight_enable) elm_win_focus_highlight_enabled_set(win->win_obj, EINA_TRUE); #ifdef ELM_DEBUG Evas_Modifier_Mask mask = evas_key_modifier_mask_get(win->evas, "Control"); evas_object_event_callback_add(win->win_obj, EVAS_CALLBACK_KEY_DOWN, _debug_key_down, win); Eina_Bool ret = evas_object_key_grab(win->win_obj, "F12", mask, 0, EINA_TRUE); printf("Key F12 exclusive for dot tree generation. (%d)\n", ret); #endif evas_object_smart_callbacks_descriptions_set(win->win_obj, _signals); return win->win_obj; } /** * Add @p subobj as a resize object of window @p obj. Note, do not move and * resize window and sub object at the same time. It will cause problem. * * @param obj The window object * @param subobj The resize object to add * * @ingroup Win */ EAPI void elm_win_resize_object_add(Evas_Object *obj, Evas_Object *subobj) { Evas_Coord w, h; Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (eina_list_data_find(win->subobjs, subobj)) return; win->subobjs = eina_list_append(win->subobjs, subobj); elm_widget_sub_object_add(obj, subobj); evas_object_event_callback_add(subobj, EVAS_CALLBACK_DEL, _elm_win_subobj_callback_del, obj); evas_object_event_callback_add(subobj, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _elm_win_subobj_callback_changed_size_hints, obj); ecore_evas_geometry_get(win->ee, NULL, NULL, &w, &h); evas_object_move(subobj, 0, 0); evas_object_resize(subobj, w, h); _elm_win_eval_subobjs(obj); } /** * Delete @p subobj as a resize object of window @p obj. * * @param obj The window object * @param subobj The resize object to add * * @ingroup Win */ EAPI void elm_win_resize_object_del(Evas_Object *obj, Evas_Object *subobj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; evas_object_event_callback_del_full(subobj, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _elm_win_subobj_callback_changed_size_hints, obj); evas_object_event_callback_del_full(subobj, EVAS_CALLBACK_DEL, _elm_win_subobj_callback_del, obj); win->subobjs = eina_list_remove(win->subobjs, subobj); elm_widget_sub_object_del(obj, subobj); _elm_win_eval_subobjs(obj); } /** * Set the title of the window * * @param obj The window object * @param title The title to set * * @ingroup Win */ EAPI void elm_win_title_set(Evas_Object *obj, const char *title) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_title_set(win->ee, title); } /** * Get the title of the window * * @param obj The window object * @return The title * * @ingroup Win */ EAPI const char * elm_win_title_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) NULL; win = elm_widget_data_get(obj); if (!win) return NULL; return ecore_evas_title_get(win->ee); } /** * Set the window's autodel state. * * @param obj The window object * @param autodel If true, the window will automatically delete itself when closed * * @ingroup Win */ EAPI void elm_win_autodel_set(Evas_Object *obj, Eina_Bool autodel) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; win->autodel = autodel; } /** * Get the window's autodel state. * * @param obj The window object * @return If the window will automatically delete itself when closed * * @ingroup Win */ EAPI Eina_Bool elm_win_autodel_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return win->autodel; } /** * Activate a window object. * * @param obj The window object * * @ingroup Win */ EAPI void elm_win_activate(Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_activate(win->ee); } /** * Lower a window object. * * @param obj The window object * * @ingroup Win */ EAPI void elm_win_lower(Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_lower(win->ee); } /** * Raise a window object. * * @param obj The window object * * @ingroup Win */ EAPI void elm_win_raise(Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_raise(win->ee); } /** * Set the borderless state of a window. * * @param obj The window object * @param borderless If true, the window is borderless * * @ingroup Win */ EAPI void elm_win_borderless_set(Evas_Object *obj, Eina_Bool borderless) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_borderless_set(win->ee, borderless); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the borderless state of a window. * * @param obj The window object * @return If true, the window is borderless * * @ingroup Win */ EAPI Eina_Bool elm_win_borderless_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_borderless_get(win->ee); } /** * Set the shaped state of a window. * * @param obj The window object * @param shaped If true, the window is shaped * * @ingroup Win */ EAPI void elm_win_shaped_set(Evas_Object *obj, Eina_Bool shaped) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_shaped_set(win->ee, shaped); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the shaped state of a window. * * @param obj The window object * @return If true, the window is shaped * * @ingroup Win */ EAPI Eina_Bool elm_win_shaped_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_shaped_get(win->ee); } /** * Set the alpha channel state of a window. * * @param obj The window object * @param alpha If true, the window has an alpha channel * * @ingroup Win */ EAPI void elm_win_alpha_set(Evas_Object *obj, Eina_Bool alpha) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (win->frame_obj) { } else if (win->img_obj) { evas_object_image_alpha_set(win->img_obj, alpha); } else { #ifdef HAVE_ELEMENTARY_X if (win->xwin) { if (alpha) { if (!_elm_config->compositing) elm_win_shaped_set(obj, alpha); else ecore_evas_alpha_set(win->ee, alpha); } else ecore_evas_alpha_set(win->ee, alpha); _elm_win_xwin_update(win); } else #endif ecore_evas_alpha_set(win->ee, alpha); } } /** * Get the alpha channel state of a window. * * @param obj The window object * @return If true, the window has an alpha channel * * @ingroup Win */ EAPI Eina_Bool elm_win_alpha_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_alpha_get(win->ee); } /** * Set the transparency state of a window. * * @param obj The window object * @param transparent If true, the window is transparent * * @ingroup Win */ EAPI void elm_win_transparent_set(Evas_Object *obj, Eina_Bool transparent) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (win->frame_obj) { } else if (win->img_obj) { evas_object_image_alpha_set(win->img_obj, transparent); } else { #ifdef HAVE_ELEMENTARY_X if (win->xwin) { ecore_evas_transparent_set(win->ee, transparent); _elm_win_xwin_update(win); } else #endif ecore_evas_transparent_set(win->ee, transparent); } } /** * Get the transparency state of a window. * * @param obj The window object * @return If true, the window is transparent * * @ingroup Win */ EAPI Eina_Bool elm_win_transparent_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_transparent_get(win->ee); } /** * Set the override state of a window. * * @param obj The window object * @param override If true, the window is overridden * * @ingroup Win */ EAPI void elm_win_override_set(Evas_Object *obj, Eina_Bool override) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_override_set(win->ee, override); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the override state of a window. * * @param obj The window object * @return If true, the window is overridden * * @ingroup Win */ EAPI Eina_Bool elm_win_override_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_override_get(win->ee); } /** * Set the fullscreen state of a window. * * @param obj The window object * @param fullscreen If true, the window is fullscreen * * @ingroup Win */ EAPI void elm_win_fullscreen_set(Evas_Object *obj, Eina_Bool fullscreen) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; // YYY: handle if win->img_obj #define ENGINE_COMPARE(name) (!strcmp(_elm_config->engine, name)) if (ENGINE_COMPARE(ELM_SOFTWARE_FB) || ENGINE_COMPARE(ELM_SOFTWARE_16_WINCE)) { // these engines... can ONLY be fullscreen return; } else { ecore_evas_fullscreen_set(win->ee, fullscreen); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } #undef ENGINE_COMPARE } /** * Get the fullscreen state of a window. * * @param obj The window object * @return If true, the window is fullscreen * * @ingroup Win */ EAPI Eina_Bool elm_win_fullscreen_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; #define ENGINE_COMPARE(name) (!strcmp(_elm_config->engine, name)) if (ENGINE_COMPARE(ELM_SOFTWARE_FB) || ENGINE_COMPARE(ELM_SOFTWARE_16_WINCE)) { // these engines... can ONLY be fullscreen return EINA_TRUE; } else { return ecore_evas_fullscreen_get(win->ee); } #undef ENGINE_COMPARE } /** * Set the maximized state of a window. * * @param obj The window object * @param maximized If true, the window is maximized * * @ingroup Win */ EAPI void elm_win_maximized_set(Evas_Object *obj, Eina_Bool maximized) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; // YYY: handle if win->img_obj ecore_evas_maximized_set(win->ee, maximized); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the maximized state of a window. * * @param obj The window object * @return If true, the window is maximized * * @ingroup Win */ EAPI Eina_Bool elm_win_maximized_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_maximized_get(win->ee); } /** * Set the iconified state of a window. * * @param obj The window object * @param iconified If true, the window is iconified * * @ingroup Win */ EAPI void elm_win_iconified_set(Evas_Object *obj, Eina_Bool iconified) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_iconified_set(win->ee, iconified); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the iconified state of a window. * * @param obj The window object * @return If true, the window is iconified * * @ingroup Win */ EAPI Eina_Bool elm_win_iconified_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_iconified_get(win->ee); } /** * Set the layer of the window. * * @param obj The window object * @param layer The layer of the window * * @ingroup Win */ EAPI void elm_win_layer_set(Evas_Object *obj, int layer) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_layer_set(win->ee, layer); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the layer of the window. * * @param obj The window object * @return The layer of the window * * @ingroup Win */ EAPI int elm_win_layer_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) -1; win = elm_widget_data_get(obj); if (!win) return -1; return ecore_evas_layer_get(win->ee); } /** * Set the rotation of the window. * * @param obj The window object * @param rotation The rotation of the window, in degrees (0-360) * * @ingroup Win */ EAPI void elm_win_rotation_set(Evas_Object *obj, int rotation) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (win->rot == rotation) return; win->rot = rotation; ecore_evas_rotation_set(win->ee, rotation); evas_object_size_hint_min_set(obj, -1, -1); evas_object_size_hint_max_set(obj, -1, -1); _elm_win_eval_subobjs(obj); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Rotates the window and resizes it * * @param obj The window object * @param layer The rotation of the window in degrees (0-360) * * @ingroup Win */ EAPI void elm_win_rotation_with_resize_set(Evas_Object *obj, int rotation) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (win->rot == rotation) return; win->rot = rotation; ecore_evas_rotation_with_resize_set(win->ee, rotation); evas_object_size_hint_min_set(obj, -1, -1); evas_object_size_hint_max_set(obj, -1, -1); _elm_win_eval_subobjs(obj); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the rotation of the window. * * @param obj The window object * @return The rotation of the window in degrees (0-360) * * @ingroup Win */ EAPI int elm_win_rotation_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) -1; win = elm_widget_data_get(obj); if (!win) return -1; return win->rot; } /** * Set the sticky state of the window. * * @param obj The window object * @param sticky If true, the window's sticky state is enabled * * @ingroup Win */ EAPI void elm_win_sticky_set(Evas_Object *obj, Eina_Bool sticky) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; ecore_evas_sticky_set(win->ee, sticky); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(win); #endif } /** * Get the sticky state of the window. * * @param obj The window object * @return If true, the window's sticky state is enabled * * @ingroup Win */ EAPI Eina_Bool elm_win_sticky_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; return ecore_evas_sticky_get(win->ee); } /** * Sets the keyboard mode of the window. * * @param obj The window object * @param mode The mode to set; one of: * ELM_WIN_KEYBOARD_UNKNOWN * ELM_WIN_KEYBOARD_OFF * ELM_WIN_KEYBOARD_ON * ELM_WIN_KEYBOARD_ALPHA * ELM_WIN_KEYBOARD_NUMERIC * ELM_WIN_KEYBOARD_PIN * ELM_WIN_KEYBOARD_PHONE_NUMBER * ELM_WIN_KEYBOARD_HEX * ELM_WIN_KEYBOARD_TERMINAL * ELM_WIN_KEYBOARD_PASSWORD * ELM_WIN_KEYBOARD_IP * ELM_WIN_KEYBOARD_HOST * ELM_WIN_KEYBOARD_FILE * ELM_WIN_KEYBOARD_URL * ELM_WIN_KEYBOARD_KEYPAD * ELM_WIN_KEYBOARD_J2ME * * @ingroup Win */ EAPI void elm_win_keyboard_mode_set(Evas_Object *obj, Elm_Win_Keyboard_Mode mode) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (mode == win->kbdmode) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); #endif win->kbdmode = mode; #ifdef HAVE_ELEMENTARY_X if (win->xwin) ecore_x_e_virtual_keyboard_state_set (win->xwin, (Ecore_X_Virtual_Keyboard_State)win->kbdmode); #endif } /** * Gets the keyboard mode of the window. * * @param obj The window object * @return The mode; one of: * ELM_WIN_KEYBOARD_UNKNOWN * ELM_WIN_KEYBOARD_OFF * ELM_WIN_KEYBOARD_ON * ELM_WIN_KEYBOARD_ALPHA * ELM_WIN_KEYBOARD_NUMERIC * ELM_WIN_KEYBOARD_PIN * ELM_WIN_KEYBOARD_PHONE_NUMBER * ELM_WIN_KEYBOARD_HEX * ELM_WIN_KEYBOARD_TERMINAL * ELM_WIN_KEYBOARD_PASSWORD * ELM_WIN_KEYBOARD_IP * ELM_WIN_KEYBOARD_HOST * ELM_WIN_KEYBOARD_FILE * ELM_WIN_KEYBOARD_URL * ELM_WIN_KEYBOARD_KEYPAD * ELM_WIN_KEYBOARD_J2ME * * @ingroup Win */ EAPI Elm_Win_Keyboard_Mode elm_win_keyboard_mode_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) ELM_WIN_KEYBOARD_UNKNOWN; win = elm_widget_data_get(obj); if (!win) return ELM_WIN_KEYBOARD_UNKNOWN; return win->kbdmode; } /** * Sets whether the window is a keyboard. * * @param obj The window object * @param is_keyboard If true, the window is a virtual keyboard * * @ingroup Win */ EAPI void elm_win_keyboard_win_set(Evas_Object *obj, Eina_Bool is_keyboard) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) ecore_x_e_virtual_keyboard_set(win->xwin, is_keyboard); #endif } /** * Gets whether the window is a keyboard. * * @param obj The window object * @return If the window is a virtual keyboard * * @ingroup Win */ EAPI Eina_Bool elm_win_keyboard_win_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) return ecore_x_e_virtual_keyboard_get(win->xwin); #endif return EINA_FALSE; } /** * Get the screen position of a window. * * @param obj The window object * @param x The int to store the x coordinate to * @param y The int to store the y coordinate to * * @ingroup Win */ EAPI void elm_win_screen_position_get(const Evas_Object *obj, int *x, int *y) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; if (x) *x = win->screen.x; if (y) *y = win->screen.y; } /** * Set if this window is an illume conformant window * * @param obj The window object * @param conformant The conformant flag (1 = conformant, 0 = non-conformant) * * @ingroup Win */ EAPI void elm_win_conformant_set(Evas_Object *obj, Eina_Bool conformant) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) ecore_x_e_illume_conformant_set(win->xwin, conformant); #endif } /** * Get if this window is an illume conformant window * * @param obj The window object * @return A boolean if this window is illume conformant or not * * @ingroup Win */ EAPI Eina_Bool elm_win_conformant_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) return ecore_x_e_illume_conformant_get(win->xwin); #endif return EINA_FALSE; } /** * Set a window to be an illume quickpanel window * * By default window objects are not quickpanel windows. * * @param obj The window object * @param quickpanel The quickpanel flag (1 = quickpanel, 0 = normal window) * * @ingroup Win */ EAPI void elm_win_quickpanel_set(Evas_Object *obj, Eina_Bool quickpanel) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) { ecore_x_e_illume_quickpanel_set(win->xwin, quickpanel); if (quickpanel) { Ecore_X_Window_State states[2]; states[0] = ECORE_X_WINDOW_STATE_SKIP_TASKBAR; states[1] = ECORE_X_WINDOW_STATE_SKIP_PAGER; ecore_x_netwm_window_state_set(win->xwin, states, 2); ecore_x_icccm_hints_set(win->xwin, 0, 0, 0, 0, 0, 0, 0); } } #endif } /** * Get if this window is a quickpanel or not * * @param obj The window object * @return A boolean if this window is a quickpanel or not * * @ingroup Win */ EAPI Eina_Bool elm_win_quickpanel_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); if (!win) return EINA_FALSE; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) return ecore_x_e_illume_quickpanel_get(win->xwin); #endif return EINA_FALSE; } /** * Set the major priority of a quickpanel window * * @param obj The window object * @param priority The major priority for this quickpanel * * @ingroup Win */ EAPI void elm_win_quickpanel_priority_major_set(Evas_Object *obj, int priority) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) ecore_x_e_illume_quickpanel_priority_major_set(win->xwin, priority); #endif } /** * Get the major priority of a quickpanel window * * @param obj The window object * @return The major priority of this quickpanel * * @ingroup Win */ EAPI int elm_win_quickpanel_priority_major_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) -1; win = elm_widget_data_get(obj); if (!win) return -1; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) return ecore_x_e_illume_quickpanel_priority_major_get(win->xwin); #endif return -1; } /** * Set the minor priority of a quickpanel window * * @param obj The window object * @param priority The minor priority for this quickpanel * * @ingroup Win */ EAPI void elm_win_quickpanel_priority_minor_set(Evas_Object *obj, int priority) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) ecore_x_e_illume_quickpanel_priority_minor_set(win->xwin, priority); #endif } /** * Get the minor priority of a quickpanel window * * @param obj The window object * @return The minor priority of this quickpanel * * @ingroup Win */ EAPI int elm_win_quickpanel_priority_minor_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) -1; win = elm_widget_data_get(obj); if (!win) return -1; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) return ecore_x_e_illume_quickpanel_priority_minor_get(win->xwin); #endif return -1; } /** * Set which zone this quickpanel should appear in * * @param obj The window object * @param zone The requested zone for this quickpanel * * @ingroup Win */ EAPI void elm_win_quickpanel_zone_set(Evas_Object *obj, int zone) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) ecore_x_e_illume_quickpanel_zone_set(win->xwin, zone); #endif } /** * Get which zone this quickpanel should appear in * * @param obj The window object * @return The requested zone for this quickpanel * * @ingroup Win */ EAPI int elm_win_quickpanel_zone_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) 0; win = elm_widget_data_get(obj); if (!win) return 0; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) return ecore_x_e_illume_quickpanel_zone_get(win->xwin); #endif return 0; } /** * Set the window to be skipped by keyboard focus * * This sets the window to be skipped by normal keyboard input. This means * a window manager will be asked to not focus this window as well as omit * it from things like the taskbar, pager, "alt-tab" list etc. etc. * * Call this and enable it on a window BEFORE you show it for the first time, * otherwise it may have no effect. * * Use this for windows that have only output information or might only be * interacted with by the mouse or fingers, and never for typing input. * Be careful that this may have side-effects like making the window * non-accessible in some cases unless the window is specially handled. Use * this with care. * * @param obj The window object * @param skip The skip flag state (EINA_TRUE if it is to be skipped) * * @ingroup Win */ EAPI void elm_win_prop_focus_skip_set(Evas_Object *obj, Eina_Bool skip) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (skip) { if (win->xwin) { Ecore_X_Window_State states[2]; ecore_x_icccm_hints_set(win->xwin, 0, 0, 0, 0, 0, 0, 0); states[0] = ECORE_X_WINDOW_STATE_SKIP_TASKBAR; states[1] = ECORE_X_WINDOW_STATE_SKIP_PAGER; ecore_x_netwm_window_state_set(win->xwin, states, 2); } } #endif } /** * Send a command to the windowing environment * * This is intended to work in touchscreen or small screen device environments * where there is a more simplistic window management policy in place. This * uses the window object indicated to select which part of the environment * to control (the part that this window lives in), and provides a command * and an optional parameter structure (use NULL for this if not needed). * * @param obj The window object that lives in the environment to control * @param command The command to send * @param params Optional parameters for the command * * @ingroup Win */ EAPI void elm_win_illume_command_send(Evas_Object *obj, Elm_Illume_Command command, void *params __UNUSED__) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); if (!win) return; #ifdef HAVE_ELEMENTARY_X _elm_win_xwindow_get(win); if (win->xwin) { switch (command) { case ELM_ILLUME_COMMAND_FOCUS_BACK: ecore_x_e_illume_focus_back_send(win->xwin); break; case ELM_ILLUME_COMMAND_FOCUS_FORWARD: ecore_x_e_illume_focus_forward_send(win->xwin); break; case ELM_ILLUME_COMMAND_FOCUS_HOME: ecore_x_e_illume_focus_home_send(win->xwin); break; case ELM_ILLUME_COMMAND_CLOSE: ecore_x_e_illume_close_send(win->xwin); break; default: break; } } #endif } /** * Get the inlined image object handle * * When you create a window with elm_win_add() of type ELM_WIN_INLINED_IMAGE, * then the window is in fact an evas image object inlined in the parent * canvas. You can get this object (be careful to not manipulate it as it * is under control of elementary), and use it to do things like get pixel * data, save the image to a file, etc. * * @param obj The window object to get the inlined image from * @return The inlined image object, or NULL if none exists * * @ingroup Win */ EAPI Evas_Object * elm_win_inlined_image_object_get(Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) NULL; win = elm_widget_data_get(obj); if (!win) return NULL; return win->img_obj; } /** * Set the enabled status for the focus highlight in a window * * This function will enable or disable the focus highlight only for the * given window, regardless of the global setting for it * * @param obj The window where to enable the highlight * @param enabled The enabled value for the highlight * * @ingroup Win */ EAPI void elm_win_focus_highlight_enabled_set(Evas_Object *obj, Eina_Bool enabled) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); enabled = !!enabled; if (win->focus_highlight.enabled == enabled) return; win->focus_highlight.enabled = enabled; if (win->focus_highlight.enabled) _elm_win_focus_highlight_init(win); else _elm_win_focus_highlight_shutdown(win); } /** * Get the enabled value of the focus highlight for this window * * @param obj The window in which to check if the focus highlight is enabled * * @return EINA_TRUE if enabled, EINA_FALSE otherwise * * @ingroup Win */ EAPI Eina_Bool elm_win_focus_highlight_enabled_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) EINA_FALSE; win = elm_widget_data_get(obj); return win->focus_highlight.enabled; } /** * Set the style for the focus highlight on this window * * Sets the style to use for theming the highlight of focused objects on * the given window. If @p style is NULL, the default will be used. * * @param obj The window where to set the style * @param style The style to set * * @ingroup Win */ EAPI void elm_win_focus_highlight_style_set(Evas_Object *obj, const char *style) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype); win = elm_widget_data_get(obj); eina_stringshare_replace(&win->focus_highlight.style, style); win->focus_highlight.changed_theme = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(win); } /** * Get the style set for the focus highlight object * * Gets the style set for this windows highilght object, or NULL if none * is set. * * @param obj The window to retrieve the highlights style from * * @return The style set or NULL if none was. Default is used in that case. * * @ingroup Win */ EAPI const char * elm_win_focus_highlight_style_get(const Evas_Object *obj) { Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) NULL; win = elm_widget_data_get(obj); return win->focus_highlight.style; } typedef struct _Widget_Data Widget_Data; struct _Widget_Data { Evas_Object *frm; Evas_Object *content; }; static void _del_hook(Evas_Object *obj); static void _theme_hook(Evas_Object *obj); static void _sizing_eval(Evas_Object *obj); static void _changed_size_hints(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _sub_del(void *data, Evas_Object *obj, void *event_info); static const char *widtype2 = NULL; static void _del_hook(Evas_Object *obj) { Widget_Data *wd = elm_widget_data_get(obj); if (!wd) return; free(wd); } static void _theme_hook(Evas_Object *obj) { Widget_Data *wd = elm_widget_data_get(obj); _elm_theme_object_set(obj, wd->frm, "win", "inwin", elm_widget_style_get(obj)); if (wd->content) edje_object_part_swallow(wd->frm, "elm.swallow.content", wd->content); _sizing_eval(obj); } static Eina_Bool _elm_inwin_focus_next_hook(const Evas_Object *obj, Elm_Focus_Direction dir, Evas_Object **next) { Widget_Data *wd = elm_widget_data_get(obj); if (!wd) return EINA_FALSE; /* Try Focus cycle in subitem */ if (wd->content) { elm_widget_focus_next_get(wd->content, dir, next); if (*next) return EINA_TRUE; } *next = (Evas_Object *)obj; return EINA_FALSE; } static void _sizing_eval(Evas_Object *obj) { Widget_Data *wd = elm_widget_data_get(obj); Evas_Coord minw = -1, minh = -1; evas_object_size_hint_min_get(wd->content, &minw, &minh); edje_object_size_min_calc(wd->frm, &minw, &minh); evas_object_size_hint_min_set(obj, minw, minh); evas_object_size_hint_max_set(obj, -1, -1); } static void _changed_size_hints(void *data, Evas *e __UNUSED__, Evas_Object *obj __UNUSED__, void *event_info __UNUSED__) { _sizing_eval(data); } static void _sub_del(void *data __UNUSED__, Evas_Object *obj, void *event_info) { Widget_Data *wd = elm_widget_data_get(obj); Evas_Object *sub = event_info; if (sub == wd->content) { evas_object_event_callback_del_full (sub, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _changed_size_hints, obj); wd->content = NULL; _sizing_eval(obj); } } /** * @defgroup Inwin Inwin * * An inwin is a window inside a window that is useful for a quick popup. It does not hover. */ EAPI Evas_Object * elm_win_inwin_add(Evas_Object *obj) { Evas_Object *obj2; Widget_Data *wd; Elm_Win *win; ELM_CHECK_WIDTYPE(obj, widtype) NULL; win = elm_widget_data_get(obj); if (!win) return NULL; wd = ELM_NEW(Widget_Data); obj2 = elm_widget_add(win->evas); elm_widget_type_set(obj2, "inwin"); ELM_SET_WIDTYPE(widtype2, "inwin"); elm_widget_sub_object_add(obj, obj2); evas_object_size_hint_weight_set(obj2, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); evas_object_size_hint_align_set(obj2, EVAS_HINT_FILL, EVAS_HINT_FILL); elm_win_resize_object_add(obj, obj2); elm_widget_data_set(obj2, wd); elm_widget_del_hook_set(obj2, _del_hook); elm_widget_theme_hook_set(obj2, _theme_hook); elm_widget_focus_next_hook_set(obj2, _elm_inwin_focus_next_hook); elm_widget_can_focus_set(obj2, EINA_TRUE); elm_widget_highlight_ignore_set(obj2, EINA_TRUE); wd->frm = edje_object_add(win->evas); _elm_theme_object_set(obj, wd->frm, "win", "inwin", "default"); elm_widget_resize_object_set(obj2, wd->frm); evas_object_smart_callback_add(obj2, "sub-object-del", _sub_del, obj2); _sizing_eval(obj2); return obj2; } /** * Activates an inwin object * * @param obj The inwin to activate * * @ingroup Inwin */ EAPI void elm_win_inwin_activate(Evas_Object *obj) { ELM_CHECK_WIDTYPE(obj, widtype2); Widget_Data *wd = elm_widget_data_get(obj); if (!wd) return; evas_object_raise(obj); evas_object_show(obj); edje_object_signal_emit(wd->frm, "elm,action,show", "elm"); elm_object_focus(obj); } /** * Set the content of an inwin object. * * Once the content object is set, a previously set one will be deleted. * If you want to keep that old content object, use the * elm_win_inwin_content_unset() function. * * @param obj The inwin object * @param content The object to set as content * * @ingroup Inwin */ EAPI void elm_win_inwin_content_set(Evas_Object *obj, Evas_Object *content) { ELM_CHECK_WIDTYPE(obj, widtype2); Widget_Data *wd = elm_widget_data_get(obj); if (!wd) return; if (wd->content == content) return; if (wd->content) evas_object_del(wd->content); wd->content = content; if (content) { elm_widget_sub_object_add(obj, content); evas_object_event_callback_add(content, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _changed_size_hints, obj); edje_object_part_swallow(wd->frm, "elm.swallow.content", content); } _sizing_eval(obj); } /** * Get the content of an inwin object. * * Return the content object which is set for this widget. * * @param obj The inwin object * @return The content that is being used * * @ingroup Inwin */ EAPI Evas_Object * elm_win_inwin_content_get(const Evas_Object *obj) { ELM_CHECK_WIDTYPE(obj, widtype2) NULL; Widget_Data *wd = elm_widget_data_get(obj); if (!wd) return NULL; return wd->content; } /** * Unset the content of an inwin object. * * Unparent and return the content object which was set for this widget. * * @param obj The inwin object * @return The content that was being used * * @ingroup Inwin */ EAPI Evas_Object * elm_win_inwin_content_unset(Evas_Object *obj) { ELM_CHECK_WIDTYPE(obj, widtype2) NULL; Widget_Data *wd = elm_widget_data_get(obj); if (!wd) return NULL; if (!wd->content) return NULL; Evas_Object *content = wd->content; elm_widget_sub_object_del(obj, wd->content); edje_object_part_unswallow(wd->frm, wd->content); wd->content = NULL; return content; } /* windowing spcific calls - shall we do this differently? */ static Ecore_X_Window _elm_ee_win_get(const Evas_Object *obj) { if (!obj) return 0; #ifdef HAVE_ELEMENTARY_X Ecore_Evas *ee = ecore_evas_ecore_evas_get(evas_object_evas_get(obj)); if (ee) return (Ecore_X_Window)ecore_evas_window_get(ee); #endif return 0; } /** * Get the Ecore_X_Window of an Evas_Object * * @param obj The object * * @return The Ecore_X_Window of @p obj * * @ingroup Win */ EAPI Ecore_X_Window elm_win_xwindow_get(const Evas_Object *obj) { Ecore_X_Window xwin = 0; Elm_Win *win; const char *type; if (!obj) return 0; type = elm_widget_type_get(obj); if (!type) return 0; if (type != widtype) return _elm_ee_win_get(obj); #ifdef HAVE_ELEMENTARY_X win = elm_widget_data_get(obj); if (!win) return xwin; if (win->xwin) return win->xwin; if (win->parent) return elm_win_xwindow_get(win->parent); #endif return xwin; win = NULL; }