#ifdef HAVE_CONFIG_H # include "elementary_config.h" #endif #define ELM_INTERFACE_ATSPI_ACCESSIBLE_PROTECTED #define ELM_INTERFACE_ATSPI_WIDGET_ACTION_PROTECTED #define ELM_WIN_PROTECTED #include #include #include "elm_priv.h" #include "elm_widget_menu.h" #define MY_CLASS ELM_WIN_CLASS #define MY_CLASS_NAME "Elm_Win" #define MY_CLASS_NAME_LEGACY "elm_win" static const Elm_Win_Trap *trap = NULL; #define TRAP(sd, name, ...) \ do \ { \ if (sd->type != ELM_WIN_FAKE) \ if ((!trap) || (!trap->name) || \ ((trap->name) && \ (trap->name(sd->trap_data, sd->obj, ## __VA_ARGS__)))) \ ecore_evas_##name(sd->ee, ##__VA_ARGS__); \ } \ while (0) #define ELM_WIN_DATA_GET(o, sd) \ Elm_Win_Data * sd = eo_data_scope_get(o, MY_CLASS) #define ELM_WIN_DATA_GET_OR_RETURN(o, ptr) \ ELM_WIN_DATA_GET(o, ptr); \ if (!ptr) \ { \ CRI("No widget data for object %p (%s)", \ o, evas_object_type_get(o)); \ return; \ } #define ELM_WIN_DATA_GET_OR_RETURN_VAL(o, ptr, val) \ ELM_WIN_DATA_GET(o, ptr); \ if (!ptr) \ { \ CRI("No widget data for object %p (%s)", \ o, evas_object_type_get(o)); \ return val; \ } #define ELM_WIN_CHECK(obj) \ if (!obj || !eo_isa(obj, MY_CLASS)) \ return #define DECREMENT_MODALITY() \ EINA_LIST_FOREACH(_elm_win_list, l, current) \ { \ ELM_WIN_DATA_GET_OR_RETURN(current, cursd); \ if ((obj != current) && (cursd->modal_count > 0)) \ { \ cursd->modal_count--; \ } \ if (cursd->modal_count == 0) \ { \ edje_object_signal_emit(cursd->edje, \ "elm,action,hide_blocker", "elm"); \ eo_event_callback_call(cursd->main_menu, ELM_MENU_EVENT_ELM_ACTION_UNBLOCK_MENU, NULL); \ } \ } #define INCREMENT_MODALITY() \ EINA_LIST_FOREACH(_elm_win_list, l, current) \ { \ ELM_WIN_DATA_GET_OR_RETURN(current, cursd); \ if (obj != current) \ { \ cursd->modal_count++; \ } \ if (cursd->modal_count > 0) \ { \ edje_object_signal_emit(cursd->edje, \ "elm,action,show_blocker", "elm"); \ eo_event_callback_call(cursd->main_menu, ELM_WIN_EVENT_ELM_ACTION_BLOCK_MENU, NULL); \ } \ } #define ENGINE_GET() (_elm_preferred_engine ? _elm_preferred_engine : _elm_config->engine) typedef struct _Elm_Win_Data Elm_Win_Data; struct _Elm_Win_Data { Ecore_Evas *ee; Evas *evas; Evas_Object *parent; /* parent *window* object*/ Evas_Object *img_obj, *frame_obj; Evas_Object *client_obj; /* rect representing the client */ Eo *edje; /**< edje object for a window layout */ Eo *box; Evas_Object *obj; /* The object itself */ #ifdef HAVE_ELEMENTARY_X struct { Ecore_X_Window xwin; Ecore_Event_Handler *client_message_handler; Ecore_Event_Handler *property_handler; } x; #endif #ifdef HAVE_ELEMENTARY_WL2 struct { Ecore_Wl2_Window *win; Eina_Bool opaque_dirty : 1; } wl; #endif #ifdef HAVE_ELEMENTARY_COCOA struct { Ecore_Cocoa_Window *win; } cocoa; #endif #ifdef HAVE_ELEMENTARY_WIN32 struct { Ecore_Win32_Window *win; } win32; #endif Eina_Bool deferred_resize_job; Ecore_Job *deferred_child_eval_job; Elm_Win_Type type; Elm_Win_Keyboard_Mode kbdmode; Elm_Win_Indicator_Mode indmode; Elm_Win_Indicator_Opacity_Mode ind_o_mode; struct { const char *info; Ecore_Timer *timer; int repeat_count; int shot_counter; } shot; int resize_location; int *autodel_clear, rot; struct { int x, y; } screen; struct { #if 0 Ecore_Evas *ee; #endif Evas *evas; Evas_Object *obj, *hot_obj; int hot_x, hot_y; } pointer; struct { Evas_Object *fobj; /* focus highlight edje object */ struct { Evas_Object *target; Eina_Bool visible : 1; Eina_Bool in_theme: 1; /**< focus highlight is handled by theme. this is set true if edc data item "focus_highlight" is set to "on" during focus in callback. */ } cur, prev; const char *style; Ecore_Job *reconf_job; Eina_Bool enabled : 1; Eina_Bool theme_changed : 1; /* set true when the focus theme is changed */ Eina_Bool animate : 1; /* set true when the focus highlight animate is enabled */ Eina_Bool animate_supported : 1; /* set true when the focus highlight animate is supported by theme */ Eina_Bool geometry_changed : 1; Eina_Bool auto_enabled : 1; Eina_Bool auto_animate : 1; } focus_highlight; Evas_Object *icon; const char *title; const char *icon_name; const char *role; Eina_Stringshare *name; Evas_Object *main_menu; struct { const char *name; const char **available_list; unsigned int count; } profile; struct { int preferred_rot; /* indicates preferred rotation value, -1 means invalid. */ int *rots; /* indicates available rotations */ unsigned int count; /* number of elements in available rotations */ Eina_Bool wm_supported : 1; /* set true when the window manager support window rotation */ Eina_Bool use : 1; /* set ture when application use window manager rotation. */ } wm_rot; void *trap_data; double aspect; int size_base_w, size_base_h; int size_step_w, size_step_h; int norender; int modal_count; Eina_Bool urgent : 1; Eina_Bool modal : 1; Eina_Bool demand_attention : 1; Eina_Bool autodel : 1; Eina_Bool autohide : 1; Eina_Bool constrain : 1; Eina_Bool resizing : 1; Eina_Bool iconified : 1; Eina_Bool withdrawn : 1; Eina_Bool sticky : 1; Eina_Bool fullscreen : 1; Eina_Bool maximized : 1; Eina_Bool skip_focus : 1; Eina_Bool floating : 1; Eina_Bool noblank : 1; Eina_Bool theme_alpha : 1; /**< alpha value fetched by a theme. this has higher priority than application_alpha */ Eina_Bool application_alpha : 1; /**< alpha value set by an elm_win_alpha_set() api. this has lower priority than theme_alpha */ }; static const char SIG_DELETE_REQUEST[] = "delete,request"; static const char SIG_FOCUS_OUT[] = "focus,out"; // deprecated. use "unfocused" instead. static const char SIG_FOCUS_IN[] = "focus,in"; // deprecated. use "focused" instead. static const char SIG_MOVED[] = "moved"; static const char SIG_WITHDRAWN[] = "withdrawn"; static const char SIG_ICONIFIED[] = "iconified"; static const char SIG_NORMAL[] = "normal"; static const char SIG_STICK[] = "stick"; static const char SIG_UNSTICK[] = "unstick"; static const char SIG_FULLSCREEN[] = "fullscreen"; static const char SIG_UNFULLSCREEN[] = "unfullscreen"; static const char SIG_MAXIMIZED[] = "maximized"; static const char SIG_UNMAXIMIZED[] = "unmaximized"; static const char SIG_IOERR[] = "ioerr"; static const char SIG_INDICATOR_PROP_CHANGED[] = "indicator,prop,changed"; static const char SIG_ROTATION_CHANGED[] = "rotation,changed"; static const char SIG_PROFILE_CHANGED[] = "profile,changed"; static const char SIG_WM_ROTATION_CHANGED[] = "wm,rotation,changed"; static const Evas_Smart_Cb_Description _smart_callbacks[] = { {SIG_DELETE_REQUEST, ""}, {SIG_FOCUS_OUT, ""}, {SIG_FOCUS_IN, ""}, {SIG_MOVED, ""}, {SIG_WITHDRAWN, ""}, {SIG_ICONIFIED, ""}, {SIG_NORMAL, ""}, {SIG_STICK, ""}, {SIG_UNSTICK, ""}, {SIG_FULLSCREEN, ""}, {SIG_UNFULLSCREEN, ""}, {SIG_MAXIMIZED, ""}, {SIG_UNMAXIMIZED, ""}, {SIG_IOERR, ""}, {SIG_INDICATOR_PROP_CHANGED, ""}, {SIG_ROTATION_CHANGED, ""}, {SIG_PROFILE_CHANGED, ""}, {SIG_WM_ROTATION_CHANGED, ""}, {SIG_WIDGET_FOCUSED, ""}, /**< handled by elm_widget */ {SIG_WIDGET_UNFOCUSED, ""}, /**< handled by elm_widget */ {NULL, NULL} }; static Eina_Bool _key_action_return(Evas_Object *obj, const char *params); static Eina_Bool _key_action_move(Evas_Object *obj, const char *params); static const Elm_Action key_actions[] = { {"return", _key_action_return}, {"move", _key_action_move}, {NULL, NULL} }; Eina_List *_elm_win_list = NULL; int _elm_win_deferred_free = 0; static int _elm_win_count = 0; static Eina_Bool _elm_win_auto_throttled = EINA_FALSE; static Ecore_Timer *_elm_win_state_eval_timer = NULL; static void _elm_win_on_resize_obj_changed_size_hints(void *data, Evas *e, Evas_Object *obj, void *event_info); static void _elm_win_img_callbacks_del(Evas_Object *obj, Evas_Object *imgobj); static Eina_Bool _elm_win_theme_internal(Eo *obj, Elm_Win_Data *sd); #ifdef HAVE_ELEMENTARY_X static void _elm_win_xwin_update(Elm_Win_Data *sd); #endif EAPI double _elm_startup_time = 0; static void _elm_win_first_frame_do(void *data, Evas *e EINA_UNUSED, void *event_info EINA_UNUSED) { double end = ecore_time_unix_get(); char *first = data; switch (*first) { case 'A': abort(); case 'E': case 'D': exit(-1); case 'T': fprintf(stderr, "Startup time: '%f' - '%f' = '%f' sec\n", end, _elm_startup_time, end - _elm_startup_time); break; } evas_event_callback_del_full(e, EVAS_CALLBACK_RENDER_POST, _elm_win_first_frame_do, data); } static void _win_noblank_eval(void) { Eina_List *l; Evas_Object *obj; int noblanks = 0; Eina_Bool change = EINA_FALSE; #ifdef HAVE_ELEMENTARY_X EINA_LIST_FOREACH(_elm_win_list, l, obj) { ELM_WIN_DATA_GET(obj, sd); if (sd->x.xwin) { if ((sd->noblank) && (!sd->iconified) && (!sd->withdrawn) && evas_object_visible_get(obj)) noblanks++; change = EINA_TRUE; } } if (!change) return; if (noblanks > 0) ecore_x_screensaver_suspend(); else ecore_x_screensaver_resume(); #endif #ifdef HAVE_ELEMENTARY_WL2 // XXX: no wl implementation of this yet - maybe higher up at prop level #endif } static Elm_Process_State _elm_process_state = ELM_PROCESS_STATE_FOREGROUND; EAPI Elm_Process_State elm_process_state_get(void) { return _elm_process_state; } static void _elm_win_apply_alpha(Eo *obj, Elm_Win_Data *sd) { Eina_Bool enabled; enabled = sd->theme_alpha | sd->application_alpha; if (sd->img_obj) { evas_object_image_alpha_set(sd->img_obj, enabled); ecore_evas_alpha_set(sd->ee, enabled); } else { #ifdef HAVE_ELEMENTARY_X if (sd->x.xwin) { if (enabled) { if (!ecore_x_screen_is_composited(0)) elm_win_shaped_set(obj, enabled); else TRAP(sd, alpha_set, enabled); } else TRAP(sd, alpha_set, enabled); _elm_win_xwin_update(sd); } else #endif TRAP(sd, alpha_set, enabled); } } static Eina_Bool _elm_win_state_eval(void *data EINA_UNUSED) { Eina_List *l; Evas_Object *obj; int _elm_win_count_shown = 0; int _elm_win_count_iconified = 0; int _elm_win_count_withdrawn = 0; Eina_Bool throttle = EINA_FALSE; _elm_win_state_eval_timer = NULL; EINA_LIST_FOREACH(_elm_win_list, l, obj) { if (_elm_config->auto_norender_withdrawn) { if ((elm_win_withdrawn_get(obj)) || ((elm_win_iconified_get(obj) && (_elm_config->auto_norender_iconified_same_as_withdrawn)))) { if (!evas_object_data_get(obj, "__win_auto_norender")) { Evas *evas = evas_object_evas_get(obj); elm_win_norender_push(obj); evas_object_data_set(obj, "__win_auto_norender", obj); if (_elm_config->auto_flush_withdrawn) { edje_file_cache_flush(); edje_collection_cache_flush(); evas_image_cache_flush(evas); evas_font_cache_flush(evas); } if (_elm_config->auto_dump_withdrawn) { evas_render_dump(evas); } } continue; } } if (evas_object_data_get(obj, "__win_auto_norender")) { elm_win_norender_pop(obj); evas_object_data_del(obj, "__win_auto_norender"); } } if (((_elm_config->auto_throttle) && (elm_policy_get(ELM_POLICY_THROTTLE) != ELM_POLICY_THROTTLE_NEVER)) || (elm_policy_get(ELM_POLICY_THROTTLE) == ELM_POLICY_THROTTLE_HIDDEN_ALWAYS)) throttle = EINA_TRUE; if (_elm_win_count == 0) { if (_elm_win_auto_throttled) { _elm_process_state = ELM_PROCESS_STATE_FOREGROUND; ecore_event_add(ELM_EVENT_PROCESS_FOREGROUND, NULL, NULL, NULL); if (throttle) ecore_throttle_adjust(-_elm_config->auto_throttle_amount); _elm_win_auto_throttled = EINA_FALSE; } } else { EINA_LIST_FOREACH(_elm_win_list, l, obj) { if (elm_win_withdrawn_get(obj)) _elm_win_count_withdrawn++; else if (elm_win_iconified_get(obj)) _elm_win_count_iconified++; else if (evas_object_visible_get(obj)) _elm_win_count_shown++; } if (_elm_win_count_shown <= 0) { if (!_elm_win_auto_throttled) { _elm_process_state = ELM_PROCESS_STATE_BACKGROUND; ecore_event_add(ELM_EVENT_PROCESS_BACKGROUND, NULL, NULL, NULL); if (throttle) ecore_throttle_adjust(_elm_config->auto_throttle_amount); _elm_win_auto_throttled = EINA_TRUE; } } else { if (_elm_win_auto_throttled) { _elm_process_state = ELM_PROCESS_STATE_FOREGROUND; ecore_event_add(ELM_EVENT_PROCESS_FOREGROUND, NULL, NULL, NULL); if (throttle) ecore_throttle_adjust(-_elm_config->auto_throttle_amount); _elm_win_auto_throttled = EINA_FALSE; } } } _win_noblank_eval(); return EINA_FALSE; } static Eina_Bool _elm_win_policy_quit_triggered(Eo* triggering_obj) { if ((!_elm_win_list) && (elm_policy_get(ELM_POLICY_QUIT) == ELM_POLICY_QUIT_LAST_WINDOW_CLOSED)) { return EINA_TRUE; } if (elm_policy_get(ELM_POLICY_QUIT) == ELM_POLICY_QUIT_LAST_WINDOW_HIDDEN) { Eina_List *l; Evas_Object *win; EINA_LIST_FOREACH(_elm_win_list, l, win) if (win != triggering_obj && evas_object_visible_get(win) == EINA_TRUE) { return EINA_FALSE; } return EINA_TRUE; } return EINA_FALSE; } static void _elm_win_flush_cache_and_exit(Eo *obj) { edje_file_cache_flush(); edje_collection_cache_flush(); evas_image_cache_flush(evas_object_evas_get(obj)); evas_font_cache_flush(evas_object_evas_get(obj)); elm_exit(); } static void _elm_win_state_eval_queue(void) { if (_elm_win_state_eval_timer) ecore_timer_del(_elm_win_state_eval_timer); _elm_win_state_eval_timer = ecore_timer_add(0.5, _elm_win_state_eval, NULL); } // example 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_Data *sd) { char *p, *pd; char *d = strdup(sd->shot.info); if (!d) return 0.5; for (p = (char *)sd->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 = _elm_atof(d); free(d); return v; } } free(d); return 0.5; } static char * _shot_file_get(Elm_Win_Data *sd) { char *p; char *tmp = strdup(sd->shot.info); char *repname = NULL; if (!tmp) return NULL; for (p = (char *)sd->shot.info; *p; p++) { if (!strncmp(p, "file=", 5)) { strcpy(tmp, p + 5); if (!sd->shot.repeat_count) return tmp; else { char *dotptr = strrchr(tmp, '.'); if (dotptr) { size_t size = sizeof(char) * (strlen(tmp) + 16); repname = malloc(size); strncpy(repname, tmp, dotptr - tmp); snprintf(repname + (dotptr - tmp), size - (dotptr - tmp), "%03i", sd->shot.shot_counter + 1); strcat(repname, dotptr); free(tmp); return repname; } } } } free(tmp); if (!sd->shot.repeat_count) return strdup("out.png"); repname = malloc(sizeof(char) * 24); snprintf(repname, sizeof(char) * 24, "out%03i.png", sd->shot.shot_counter + 1); return repname; } static int _shot_repeat_count_get(Elm_Win_Data *sd) { char *p, *pd; char *d = strdup(sd->shot.info); if (!d) return 0; for (p = (char *)sd->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_Data *sd EINA_UNUSED) { return NULL; } static char * _shot_flags_get(Elm_Win_Data *sd EINA_UNUSED) { return NULL; } static void _shot_do(Elm_Win_Data *sd) { Ecore_Evas *ee; Evas_Object *o; unsigned int *pixels; int w, h; char *file, *key, *flags; ecore_evas_manual_render(sd->ee); pixels = (void *)ecore_evas_buffer_pixels_get(sd->ee); if (!pixels) return; ecore_evas_geometry_get(sd->ee, NULL, NULL, &w, &h); if ((w < 1) || (h < 1)) return; file = _shot_file_get(sd); if (!file) return; key = _shot_key_get(sd); flags = _shot_flags_get(sd); ee = ecore_evas_buffer_new(1, 1); o = evas_object_image_add(ecore_evas_get(ee)); evas_object_image_alpha_set(o, sd->theme_alpha | sd->application_alpha); 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); free(key); free(flags); ecore_evas_free(ee); if (sd->shot.repeat_count) sd->shot.shot_counter++; } static Eina_Bool _shot_delay(void *data) { ELM_WIN_DATA_GET(data, sd); _shot_do(sd); if (sd->shot.repeat_count) { int remainshot = (sd->shot.repeat_count - sd->shot.shot_counter); if (remainshot > 0) return EINA_TRUE; } sd->shot.timer = NULL; elm_exit(); return EINA_FALSE; } static void _shot_init(Elm_Win_Data *sd) { if (!sd->shot.info) return; sd->shot.repeat_count = _shot_repeat_count_get(sd); sd->shot.shot_counter = 0; } static void _shot_handle(Elm_Win_Data *sd) { if (!sd->shot.info) return; if (!sd->shot.timer) sd->shot.timer = ecore_timer_add(_shot_delay_get(sd), _shot_delay, sd->obj); } /* elm-win specific associate, does the trap while ecore_evas_object_associate() * does not. */ static Elm_Win_Data * _elm_win_associate_get(const Ecore_Evas *ee) { Evas_Object *obj = ecore_evas_data_get(ee, "elm_win"); if (!obj) return NULL; ELM_WIN_DATA_GET(obj, sd); return sd; } /* Interceptors Callbacks */ static void _elm_win_obj_intercept_raise(void *data, Evas_Object *obj EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); TRAP(sd, raise); } static void _elm_win_obj_intercept_lower(void *data, Evas_Object *obj EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); TRAP(sd, lower); } static void _elm_win_obj_intercept_stack_above(void *data EINA_UNUSED, Evas_Object *obj EINA_UNUSED, Evas_Object *above EINA_UNUSED) { INF("TODO: %s", __FUNCTION__); } static void _elm_win_obj_intercept_stack_below(void *data EINA_UNUSED, Evas_Object *obj EINA_UNUSED, Evas_Object *below EINA_UNUSED) { INF("TODO: %s", __FUNCTION__); } static void _elm_win_obj_intercept_layer_set(void *data, Evas_Object *obj EINA_UNUSED, int l) { ELM_WIN_DATA_GET(data, sd); TRAP(sd, layer_set, l); } /* Event Callbacks */ static void _elm_win_obj_callback_changed_size_hints(void *data, Evas *e EINA_UNUSED, Evas_Object *obj, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); Evas_Coord w, h; evas_object_size_hint_min_get(obj, &w, &h); TRAP(sd, size_min_set, w, h); evas_object_size_hint_max_get(obj, &w, &h); if (w < 1) w = -1; if (h < 1) h = -1; TRAP(sd, size_max_set, w, h); } /* end of elm-win specific associate */ static void _elm_win_move(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); int x, y; if (!sd) return; ecore_evas_geometry_get(ee, &x, &y, NULL, NULL); sd->screen.x = x; sd->screen.y = y; eo_event_callback_call(sd->obj, ELM_WIN_EVENT_MOVED, NULL); evas_nochange_push(evas_object_evas_get(sd->obj)); evas_object_move(sd->obj, x, y); evas_nochange_pop(evas_object_evas_get(sd->obj)); } static void _elm_win_resize_job(void *data) { ELM_WIN_DATA_GET(data, sd); int w, h; sd->deferred_resize_job = EINA_FALSE; ecore_evas_geometry_get(sd->ee, NULL, NULL, &w, &h); if (sd->constrain) { int sw, sh; ecore_evas_screen_geometry_get(sd->ee, NULL, NULL, &sw, &sh); w = MIN(w, sw); h = MIN(h, sh); } if (sd->frame_obj) { int fx, fy, fw, fh; evas_output_framespace_get(sd->evas, &fx, &fy, &fw, &fh); evas_object_move(sd->frame_obj, -fx, -fy); evas_object_resize(sd->frame_obj, w + fw, h + fh); } evas_object_resize(sd->obj, w, h); evas_object_resize(sd->edje, w, h); } static void _elm_win_pre_render(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); if (!sd) return; if (sd->deferred_resize_job) _elm_win_resize_job(sd->obj); } static void _elm_win_resize(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); if (!sd) return; sd->deferred_resize_job = EINA_TRUE; } static void _elm_win_mouse_in(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); if (!sd) return; if (sd->resizing) sd->resizing = EINA_FALSE; } static void _elm_win_focus_highlight_reconfigure_job_stop(Elm_Win_Data *sd) { ELM_SAFE_FREE(sd->focus_highlight.reconf_job, ecore_job_del); } static void _elm_win_focus_highlight_visible_set(Elm_Win_Data *sd, Eina_Bool visible) { Evas_Object *fobj = sd->focus_highlight.fobj; if (!fobj) return; if (visible) { evas_object_show(fobj); edje_object_signal_emit(fobj, "elm,action,focus,show", "elm"); } else { edje_object_signal_emit(fobj, "elm,action,focus,hide", "elm"); } } Evas_Object * _elm_win_focus_highlight_object_get(Evas_Object *obj) { ELM_WIN_DATA_GET(obj, sd); return sd->focus_highlight.fobj; } static void _elm_win_focus_highlight_anim_setup(Elm_Win_Data *sd, Evas_Object *obj) { Evas_Coord tx, ty, tw, th; Evas_Coord px, py, pw, ph; Edje_Message_Int_Set *m; Evas_Object *target = sd->focus_highlight.cur.target; evas_object_geometry_get(obj, &px, &py, &pw, &ph); elm_widget_focus_highlight_geometry_get(target, &tx, &ty, &tw, &th); evas_object_move(obj, tx, ty); evas_object_resize(obj, tw, th); if ((px == tx) && (py == ty) && (pw == tw) && (ph == th)) return; if (!_elm_config->focus_highlight_clip_disable) evas_object_clip_unset(obj); m = alloca(sizeof(*m) + (sizeof(int) * 8)); m->count = 8; m->val[0] = px - tx; m->val[1] = py - ty; m->val[2] = pw; m->val[3] = ph; m->val[4] = 0; m->val[5] = 0; 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_simple_setup(Elm_Win_Data *sd, Evas_Object *obj) { Evas_Object *clip, *target = sd->focus_highlight.cur.target; Evas_Coord x, y, w, h; elm_widget_focus_highlight_geometry_get(target, &x, &y, &w, &h); evas_object_move(obj, x, y); evas_object_resize(obj, w, h); if (!_elm_config->focus_highlight_clip_disable) { clip = evas_object_clip_get(target); if (clip) evas_object_clip_set(obj, clip); } edje_object_signal_emit(obj, "elm,state,anim,stop", "elm"); } static void _elm_win_focus_prev_target_del(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); sd->focus_highlight.prev.target = NULL; } static void _elm_win_focus_highlight_reconfigure_job(void *data) { ELM_WIN_DATA_GET(data, sd); Evas_Object *target = sd->focus_highlight.cur.target; Evas_Object *previous = sd->focus_highlight.prev.target; Evas_Object *fobj = sd->focus_highlight.fobj; Eina_Bool visible_changed; Eina_Bool common_visible; const char *sig = NULL; const char *focus_style_target = NULL; const char *focus_style_previous = NULL; _elm_win_focus_highlight_reconfigure_job_stop(sd); visible_changed = (sd->focus_highlight.cur.visible != sd->focus_highlight.prev.visible); if ((target == previous) && (!visible_changed) && (!sd->focus_highlight.geometry_changed) && (!sd->focus_highlight.theme_changed)) return; if (previous) { evas_object_event_callback_del_full (previous, EVAS_CALLBACK_DEL, _elm_win_focus_prev_target_del, data); if (sd->focus_highlight.prev.in_theme) elm_widget_signal_emit (previous, "elm,action,focus_highlight,hide", "elm"); } if (!target) common_visible = EINA_FALSE; else if (sd->focus_highlight.cur.in_theme) { common_visible = EINA_FALSE; if (sd->focus_highlight.cur.visible) sig = "elm,action,focus_highlight,show"; else sig = "elm,action,focus_highlight,hide"; } else common_visible = sd->focus_highlight.cur.visible; if (sig) elm_widget_signal_emit(target, sig, "elm"); if ((!target) || (!common_visible) || (sd->focus_highlight.cur.in_theme)) { if (target) _elm_win_focus_highlight_simple_setup(sd, fobj); goto the_end; } if (previous) focus_style_previous = elm_widget_focus_highlight_style_get(previous); focus_style_target = elm_widget_focus_highlight_style_get(target); if (sd->focus_highlight.theme_changed || (focus_style_target != focus_style_previous)) { const char *str; if (focus_style_target) str = focus_style_target; else if (sd->focus_highlight.style) str = sd->focus_highlight.style; else str = "default"; elm_widget_theme_object_set (sd->obj, fobj, "focus_highlight", "top", str); sd->focus_highlight.theme_changed = EINA_FALSE; if ((sd->focus_highlight.animate) || (sd->focus_highlight.auto_animate)) { str = edje_object_data_get(sd->focus_highlight.fobj, "animate"); sd->focus_highlight.animate_supported = ((str) && (!strcmp(str, "on"))); } else sd->focus_highlight.animate_supported = EINA_FALSE; } if ((sd->focus_highlight.animate_supported) && (previous) && (!sd->focus_highlight.prev.in_theme)) _elm_win_focus_highlight_anim_setup(sd, fobj); else _elm_win_focus_highlight_simple_setup(sd, fobj); evas_object_raise(fobj); the_end: _elm_win_focus_highlight_visible_set(sd, common_visible); sd->focus_highlight.geometry_changed = EINA_FALSE; sd->focus_highlight.prev = sd->focus_highlight.cur; evas_object_event_callback_add (sd->focus_highlight.prev.target, EVAS_CALLBACK_DEL, _elm_win_focus_prev_target_del, data); } static void _elm_win_focus_highlight_reconfigure_job_start(Elm_Win_Data *sd) { ecore_job_del(sd->focus_highlight.reconf_job); sd->focus_highlight.reconf_job = ecore_job_add( _elm_win_focus_highlight_reconfigure_job, sd->obj); } static void _elm_win_focus_in(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); Evas_Object *obj; unsigned int order = 0; if ((!sd) || (sd->modal_count)) return; obj = sd->obj; _elm_widget_top_win_focused_set(obj, EINA_TRUE); if (sd->type != ELM_WIN_FAKE) { if (!elm_widget_focus_order_get(obj) || (obj == elm_widget_newest_focus_order_get(obj, &order, EINA_TRUE))) { elm_widget_focus_steal(obj, NULL); } else { Evas_Object *newest = NULL; unsigned int newest_focus_order = 0; newest = elm_widget_newest_focus_order_get (obj, &newest_focus_order, EINA_TRUE); if ((newest) && _elm_widget_onscreen_is(newest)) { if (_elm_win_focus_highlight_object_get(obj)) elm_widget_focus_restore(obj); else if (!elm_object_focus_get(newest)) elm_widget_focus_restore(obj); else evas_object_focus_set(obj, EINA_TRUE); } else evas_object_focus_set(obj, EINA_TRUE); } } // FIXME: the event is deprecated but still in use. // Has to be removed in EFL2.0 evas_object_smart_callback_call(obj, SIG_FOCUS_IN, NULL); eo_event_callback_call(obj, ELM_WIDGET_EVENT_FOCUSED, NULL); sd->focus_highlight.cur.visible = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(sd); if (sd->frame_obj) { edje_object_signal_emit(sd->frame_obj, "elm,action,focus", "elm"); } if (_elm_config->atspi_mode) { elm_interface_atspi_window_activated_signal_emit(obj); elm_interface_atspi_accessible_state_changed_signal_emit(obj, ELM_ATSPI_STATE_ACTIVE, EINA_TRUE); } /* do nothing */ /* else if (sd->img_obj) */ /* { */ /* } */ } static void _elm_win_focus_out(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); Evas_Object *obj; if (!sd) return; obj = sd->obj; elm_object_focus_set(obj, EINA_FALSE); _elm_widget_top_win_focused_set(obj, EINA_FALSE); // FIXME: the event is deprecated but still in use. // Has to be removed in EFL2.0 evas_object_smart_callback_call(obj, SIG_FOCUS_OUT, NULL); eo_event_callback_call(obj, ELM_WIDGET_EVENT_UNFOCUSED, NULL); sd->focus_highlight.cur.visible = EINA_FALSE; _elm_win_focus_highlight_reconfigure_job_start(sd); if (sd->frame_obj) { edje_object_signal_emit(sd->frame_obj, "elm,action,unfocus", "elm"); } /* access */ _elm_access_object_highlight_disable(evas_object_evas_get(obj)); if (_elm_config->atspi_mode) { elm_interface_atspi_window_deactivated_signal_emit(obj); elm_interface_atspi_accessible_state_changed_signal_emit(obj, ELM_ATSPI_STATE_ACTIVE, EINA_FALSE); } /* do nothing */ /* if (sd->img_obj) */ /* { */ /* } */ } static void _elm_win_available_profiles_del(Elm_Win_Data *sd) { if (!sd->profile.available_list) return; unsigned int i; for (i = 0; i < sd->profile.count; i++) ELM_SAFE_FREE(sd->profile.available_list[i], eina_stringshare_del); sd->profile.count = 0; ELM_SAFE_FREE(sd->profile.available_list, free); } static void _elm_win_profile_del(Elm_Win_Data *sd) { ELM_SAFE_FREE(sd->profile.name, eina_stringshare_del); } static Eina_Bool _internal_elm_win_profile_set(Elm_Win_Data *sd, const char *profile) { Eina_Bool changed = EINA_FALSE; if (profile) { if (sd->profile.name) { if (strcmp(sd->profile.name, profile) != 0) { eina_stringshare_replace(&(sd->profile.name), profile); changed = EINA_TRUE; } } else { sd->profile.name = eina_stringshare_add(profile); changed = EINA_TRUE; } } else _elm_win_profile_del(sd); return changed; } static void _elm_win_profile_update(Elm_Win_Data *sd) { if (getenv("ELM_PROFILE")) return; if (sd->profile.available_list) { Eina_Bool found = EINA_FALSE; if (sd->profile.name) { unsigned int i; for (i = 0; i < sd->profile.count; i++) { if (!strcmp(sd->profile.name, sd->profile.available_list[i])) { found = EINA_TRUE; break; } } } /* If current profile is not present in an available profiles, * change current profile to the 1st element of an array. */ if (!found) _internal_elm_win_profile_set(sd, sd->profile.available_list[0]); } _config_profile_lock = EINA_TRUE; _elm_config_profile_set(sd->profile.name); /* update sub ee */ Ecore_Evas *ee2; Eina_List *sub, *l = NULL; sub = ecore_evas_sub_ecore_evas_list_get(sd->ee); EINA_LIST_FOREACH(sub, l, ee2) ecore_evas_window_profile_set(ee2, sd->profile.name); eo_event_callback_call(sd->obj, ELM_WIN_EVENT_PROFILE_CHANGED, NULL); } #ifdef HAVE_ELEMENTARY_WL2 static void _elm_win_opaque_update(Elm_Win_Data *sd) { int ox, oy, ow, oh; if (sd->fullscreen) { ecore_evas_geometry_get(sd->ee, NULL, NULL, &ow, &oh); ecore_wl2_window_opaque_region_set(sd->wl.win, 0, 0, ow, oh); ecore_wl2_window_geometry_set(sd->wl.win, 0, 0, ow, oh); return; } edje_object_part_geometry_get(sd->frame_obj, "elm.spacer.opaque", &ox, &oy, &ow, &oh); ecore_wl2_window_opaque_region_set(sd->wl.win, ox, oy, ow, oh); ecore_wl2_window_geometry_set(sd->wl.win, ox, oy, ow, oh); } #endif static void _elm_win_frame_obj_update(Elm_Win_Data *sd) { int fx, fy, fw, fh; int ox, oy, ow, oh; #ifdef HAVE_ELEMENTARY_WL2 sd->wl.opaque_dirty = 1; #endif if (sd->fullscreen) { evas_output_framespace_set(sd->evas, 0, 0, 0, 0); return; } evas_object_geometry_get(sd->frame_obj, &fx, &fy, &fw, &fh); evas_object_geometry_get(sd->client_obj, &ox, &oy, &ow, &oh); evas_output_framespace_set(sd->evas, (ox - fx), (oy - fy), (fw - ow), (fh - oh)); } static void _elm_win_frame_maximized_state_update(Elm_Win_Data *sd, Eina_Bool maximized) { const char *emission; if (maximized) emission = "elm,state,maximized"; else emission = "elm,state,unmaximized"; edje_object_signal_emit(sd->frame_obj, emission, "elm"); edje_object_message_signal_process(sd->frame_obj); evas_object_smart_calculate(sd->frame_obj); _elm_win_frame_obj_update(sd); } static void _elm_win_state_change(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); Evas_Object *obj; Eina_Bool ch_withdrawn = EINA_FALSE; Eina_Bool ch_sticky = EINA_FALSE; Eina_Bool ch_iconified = EINA_FALSE; Eina_Bool ch_fullscreen = EINA_FALSE; Eina_Bool ch_maximized = EINA_FALSE; Eina_Bool ch_profile = EINA_FALSE; Eina_Bool ch_wm_rotation = EINA_FALSE; const char *profile; if (!sd) return; obj = sd->obj; if (sd->withdrawn != ecore_evas_withdrawn_get(sd->ee)) { sd->withdrawn = ecore_evas_withdrawn_get(sd->ee); ch_withdrawn = EINA_TRUE; } if (sd->sticky != ecore_evas_sticky_get(sd->ee)) { sd->sticky = ecore_evas_sticky_get(sd->ee); ch_sticky = EINA_TRUE; } if (sd->iconified != ecore_evas_iconified_get(sd->ee)) { sd->iconified = ecore_evas_iconified_get(sd->ee); ch_iconified = EINA_TRUE; } if (sd->fullscreen != ecore_evas_fullscreen_get(sd->ee)) { sd->fullscreen = ecore_evas_fullscreen_get(sd->ee); ch_fullscreen = EINA_TRUE; } if (sd->maximized != ecore_evas_maximized_get(sd->ee)) { sd->maximized = ecore_evas_maximized_get(sd->ee); ch_maximized = EINA_TRUE; } if (ecore_evas_window_profile_supported_get(sd->ee)) { profile = ecore_evas_window_profile_get(sd->ee); ch_profile = _internal_elm_win_profile_set(sd, profile); } if (sd->wm_rot.use) { if (sd->rot != ecore_evas_rotation_get(sd->ee)) { sd->rot = ecore_evas_rotation_get(sd->ee); ch_wm_rotation = EINA_TRUE; } } _elm_win_state_eval_queue(); if ((ch_withdrawn) || (ch_iconified)) { if (sd->withdrawn) eo_event_callback_call(obj, ELM_WIN_EVENT_WITHDRAWN, NULL); else if (sd->iconified) { eo_event_callback_call(obj, ELM_WIN_EVENT_ICONIFIED, NULL); if (_elm_config->atspi_mode) elm_interface_atspi_window_minimized_signal_emit(obj); } else { eo_event_callback_call(obj, ELM_WIN_EVENT_NORMAL, NULL); if (_elm_config->atspi_mode) elm_interface_atspi_window_restored_signal_emit(obj); } } if (ch_sticky) { if (sd->sticky) eo_event_callback_call(obj, ELM_WIN_EVENT_STICK, NULL); else eo_event_callback_call(obj, ELM_WIN_EVENT_UNSTICK, NULL); } if (ch_fullscreen) { _elm_win_frame_obj_update(sd); if (sd->fullscreen) { int w, h; eo_event_callback_call (obj, ELM_WIN_EVENT_FULLSCREEN, NULL); if (sd->frame_obj) evas_object_hide(sd->frame_obj); ecore_evas_geometry_get(sd->ee, NULL, NULL, &w, &h); ecore_evas_resize(sd->ee, w, h); } else { eo_event_callback_call (obj, ELM_WIN_EVENT_UNFULLSCREEN, NULL); if (sd->frame_obj) evas_object_show(sd->frame_obj); } } if (ch_maximized) { if (sd->maximized) { eo_event_callback_call(obj, ELM_WIN_EVENT_MAXIMIZED, NULL); if (_elm_config->atspi_mode) elm_interface_atspi_window_maximized_signal_emit(obj); } else { eo_event_callback_call(obj, ELM_WIN_EVENT_UNMAXIMIZED, NULL); if (_elm_config->atspi_mode) elm_interface_atspi_window_restored_signal_emit(obj); } _elm_win_frame_maximized_state_update(sd, sd->maximized); } if (ch_profile) { _elm_win_profile_update(sd); } if (ch_wm_rotation) { evas_object_size_hint_min_set(obj, -1, -1); evas_object_size_hint_max_set(obj, -1, -1); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif elm_widget_orientation_set(obj, sd->rot); eo_event_callback_call (obj, ELM_WIN_EVENT_ROTATION_CHANGED, NULL); eo_event_callback_call (obj, ELM_WIN_EVENT_WM_ROTATION_CHANGED, NULL); } } EOLIAN static Eina_Bool _elm_win_elm_widget_focus_next_manager_is(Eo *obj EINA_UNUSED, Elm_Win_Data *_pd EINA_UNUSED) { return EINA_TRUE; } EOLIAN static Eina_Bool _elm_win_elm_widget_focus_next(Eo *obj, Elm_Win_Data *_pd EINA_UNUSED, Elm_Focus_Direction dir, Evas_Object **next, Elm_Object_Item **next_item) { ELM_WIDGET_DATA_GET_OR_RETURN(obj, wd, EINA_FALSE); const Eina_List *items; void *(*list_data_get)(const Eina_List *list); /* 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, next_item); if (*next) return EINA_TRUE; } *next = (Evas_Object *)obj; return EINA_FALSE; } EOLIAN static Eina_Bool _elm_win_elm_widget_focus_direction_manager_is(Eo *obj EINA_UNUSED, Elm_Win_Data *_pd EINA_UNUSED) { return EINA_TRUE; } EOLIAN static Eina_Bool _elm_win_elm_widget_focus_direction(Eo *obj, Elm_Win_Data *_pd EINA_UNUSED, const Evas_Object *base, double degree, Evas_Object **direction, Elm_Object_Item **direction_item, double *weight) { const Eina_List *items; void *(*list_data_get)(const Eina_List *list); ELM_WIDGET_DATA_GET_OR_RETURN(obj, wd, EINA_FALSE); /* Focus chain */ if (wd->subobjs) { if (!(items = elm_widget_focus_custom_chain_get(obj))) items = wd->subobjs; list_data_get = eina_list_data_get; return elm_widget_focus_list_direction_get (obj, base, items, list_data_get, degree, direction, direction_item, weight); } return EINA_FALSE; } EOLIAN static Eina_Bool _elm_win_elm_widget_on_focus(Eo *obj, Elm_Win_Data *sd, Elm_Object_Item *item EINA_UNUSED) { Eina_Bool int_ret = EINA_FALSE; int_ret = elm_obj_widget_on_focus(eo_super(obj, MY_CLASS), NULL); if (!int_ret) return EINA_TRUE; if (sd->img_obj) evas_object_focus_set(sd->img_obj, elm_widget_focus_get(obj)); else evas_object_focus_set(obj, elm_widget_focus_get(obj)); return EINA_TRUE; } static Eina_Bool _key_action_return(Evas_Object *obj EINA_UNUSED, const char *params EINA_UNUSED) { return EINA_FALSE; } static Eina_Bool _key_action_move(Evas_Object *obj, const char *params) { const char *dir = params; _elm_widget_focus_auto_show(obj); if (!strcmp(dir, "previous")) elm_widget_focus_cycle(obj, ELM_FOCUS_PREVIOUS); else if (!strcmp(dir, "next")) elm_widget_focus_cycle(obj, ELM_FOCUS_NEXT); else if (!strcmp(dir, "left")) elm_widget_focus_cycle(obj, ELM_FOCUS_LEFT); else if (!strcmp(dir, "right")) elm_widget_focus_cycle(obj, ELM_FOCUS_RIGHT); else if (!strcmp(dir, "up")) elm_widget_focus_cycle(obj, ELM_FOCUS_UP); else if (!strcmp(dir, "down")) elm_widget_focus_cycle(obj, ELM_FOCUS_DOWN); else return EINA_FALSE; return EINA_TRUE; } EOLIAN static Eina_Bool _elm_win_elm_widget_event(Eo *obj, Elm_Win_Data *_pd EINA_UNUSED, Evas_Object *src EINA_UNUSED, Evas_Callback_Type type, void *event_info) { Evas_Event_Key_Down *ev = event_info; if (elm_widget_disabled_get(obj)) return EINA_FALSE; if (type != EVAS_CALLBACK_KEY_DOWN) return EINA_FALSE; if (!_elm_config_key_binding_call(obj, MY_CLASS_NAME, ev, key_actions)) return EINA_FALSE; ev->event_flags |= EVAS_EVENT_FLAG_ON_HOLD; return EINA_TRUE; } static void _deferred_ecore_evas_free(void *data) { ecore_evas_free(data); _elm_win_deferred_free--; } EOLIAN static void _elm_win_evas_object_smart_show(Eo *obj, Elm_Win_Data *sd) { if (sd->modal_count) return; const Eina_List *l; Evas_Object *current; Eina_Bool do_eval = EINA_FALSE; if (!evas_object_visible_get(obj)) do_eval = EINA_TRUE; evas_obj_smart_show(eo_super(obj, MY_CLASS)); if ((sd->modal) && (!evas_object_visible_get(obj))) { INCREMENT_MODALITY() } evas_smart_objects_calculate(evas_object_evas_get(obj)); TRAP(sd, show); if (_elm_config->atspi_mode) { Eo *root; elm_interface_atspi_window_created_signal_emit(obj); root = elm_interface_atspi_accessible_root_get(ELM_INTERFACE_ATSPI_ACCESSIBLE_MIXIN); if (root) elm_interface_atspi_accessible_children_changed_added_signal_emit(root, obj); } if (do_eval) { if (_elm_win_state_eval_timer) { ecore_timer_del(_elm_win_state_eval_timer); _elm_win_state_eval_timer = NULL; } _elm_win_state_eval(NULL); } if (sd->shot.info) _shot_handle(sd); } EOLIAN static void _elm_win_evas_object_smart_hide(Eo *obj, Elm_Win_Data *sd) { if (sd->modal_count) return; const Eina_List *l; Evas_Object *current; if (evas_object_visible_get(obj)) _elm_win_state_eval_queue(); evas_obj_smart_hide(eo_super(obj, MY_CLASS)); if ((sd->modal) && (evas_object_visible_get(obj))) { DECREMENT_MODALITY() } TRAP(sd, hide); if (sd->frame_obj) { evas_object_hide(sd->frame_obj); } if (sd->img_obj) { evas_object_hide(sd->img_obj); } if (sd->pointer.obj) { evas_object_hide(sd->pointer.obj); #if 0 ecore_evas_hide(sd->pointer.ee); #endif } if (_elm_config->atspi_mode) { Eo *root; root = elm_interface_atspi_accessible_root_get(ELM_INTERFACE_ATSPI_ACCESSIBLE_MIXIN); elm_interface_atspi_window_destroyed_signal_emit(obj); if (root) elm_interface_atspi_accessible_children_changed_del_signal_emit(root, obj); } if (_elm_win_policy_quit_triggered(obj)) _elm_win_flush_cache_and_exit(obj); } static void _elm_win_on_parent_del(void *data, Evas *e EINA_UNUSED, Evas_Object *obj, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); if (obj == sd->parent) sd->parent = NULL; } static void _elm_win_focus_target_move(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); sd->focus_highlight.geometry_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(sd); } static void _elm_win_focus_target_resize(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); sd->focus_highlight.geometry_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(sd); } static void _elm_win_focus_target_del(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); sd->focus_highlight.cur.target = NULL; _elm_win_focus_highlight_reconfigure_job_start(sd); } 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_focus_target_callbacks_add(Elm_Win_Data *sd) { Evas_Object *obj = sd->focus_highlight.cur.target; if (!obj) return; evas_object_event_callback_add (obj, EVAS_CALLBACK_MOVE, _elm_win_focus_target_move, sd->obj); evas_object_event_callback_add (obj, EVAS_CALLBACK_RESIZE, _elm_win_focus_target_resize, sd->obj); } static void _elm_win_focus_target_callbacks_del(Elm_Win_Data *sd) { Evas_Object *obj = sd->focus_highlight.cur.target; evas_object_event_callback_del_full (obj, EVAS_CALLBACK_MOVE, _elm_win_focus_target_move, sd->obj); evas_object_event_callback_del_full (obj, EVAS_CALLBACK_RESIZE, _elm_win_focus_target_resize, sd->obj); } static void _elm_win_object_focus_in(void *data, Evas *e EINA_UNUSED, void *event_info) { Evas_Object *obj = event_info, *target; ELM_WIN_DATA_GET(data, sd); if (sd->focus_highlight.cur.target == obj) return; target = _elm_win_focus_target_get(obj); sd->focus_highlight.cur.target = target; if (target && elm_widget_highlight_in_theme_get(target)) sd->focus_highlight.cur.in_theme = EINA_TRUE; else _elm_win_focus_target_callbacks_add(sd); evas_object_event_callback_add (target, EVAS_CALLBACK_DEL, _elm_win_focus_target_del, sd->obj); _elm_win_focus_highlight_reconfigure_job_start(sd); } static void _elm_win_object_focus_out(void *data, Evas *e EINA_UNUSED, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); if (!sd->focus_highlight.cur.target) return; if (!sd->focus_highlight.cur.in_theme) _elm_win_focus_target_callbacks_del(sd); evas_object_event_callback_del_full (sd->focus_highlight.cur.target, EVAS_CALLBACK_DEL, _elm_win_focus_target_del, sd->obj); sd->focus_highlight.cur.target = NULL; sd->focus_highlight.cur.in_theme = EINA_FALSE; _elm_win_focus_highlight_reconfigure_job_start(sd); } static void _elm_win_focus_highlight_shutdown(Elm_Win_Data *sd) { _elm_win_focus_highlight_reconfigure_job_stop(sd); if (sd->focus_highlight.cur.target) { elm_widget_signal_emit(sd->focus_highlight.cur.target, "elm,action,focus_highlight,hide", "elm"); _elm_win_focus_target_callbacks_del(sd); evas_object_event_callback_del_full (sd->focus_highlight.cur.target, EVAS_CALLBACK_DEL, _elm_win_focus_target_del, sd->obj); sd->focus_highlight.cur.target = NULL; } ELM_SAFE_FREE(sd->focus_highlight.fobj, evas_object_del); evas_event_callback_del_full (sd->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_IN, _elm_win_object_focus_in, sd->obj); evas_event_callback_del_full (sd->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_OUT, _elm_win_object_focus_out, sd->obj); } static void _win_img_hide(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { elm_widget_focus_hide_handle(data); } static void _win_img_mouse_up(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info) { Evas_Event_Mouse_Up *ev = event_info; if (!(ev->event_flags & EVAS_EVENT_FLAG_ON_HOLD)) elm_widget_focus_mouse_up_handle(data); } static void _win_img_focus_in(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { elm_widget_focus_steal(data, NULL); } static void _win_img_focus_out(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { elm_widget_focused_object_clear(data); } static void _elm_win_on_img_obj_del(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); _elm_win_img_callbacks_del(sd->obj, sd->img_obj); sd->img_obj = NULL; } static void _elm_win_img_callbacks_del(Evas_Object *obj, Evas_Object *imgobj) { evas_object_event_callback_del_full (imgobj, EVAS_CALLBACK_DEL, _elm_win_on_img_obj_del, obj); evas_object_event_callback_del_full (imgobj, EVAS_CALLBACK_HIDE, _win_img_hide, obj); evas_object_event_callback_del_full (imgobj, EVAS_CALLBACK_MOUSE_UP, _win_img_mouse_up, obj); evas_object_event_callback_del_full (imgobj, EVAS_CALLBACK_FOCUS_IN, _win_img_focus_in, obj); evas_object_event_callback_del_full (imgobj, EVAS_CALLBACK_FOCUS_OUT, _win_img_focus_out, obj); } EOLIAN static void _elm_win_evas_object_smart_del(Eo *obj, Elm_Win_Data *sd) { const Eina_List *l; Evas_Object *current; if ((sd->modal) && (evas_object_visible_get(obj))) { DECREMENT_MODALITY() } if ((sd->modal) && (sd->modal_count > 0)) ERR("Deleted modal win was blocked by another modal win which was created after creation of that win."); evas_object_event_callback_del_full(sd->edje, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _elm_win_on_resize_obj_changed_size_hints, obj); evas_object_del(sd->box); evas_object_del(sd->edje); /* NB: child deletion handled by parent's smart del */ if ((sd->type != ELM_WIN_FAKE) && (trap) && (trap->del)) trap->del(sd->trap_data, obj); if (sd->parent) { evas_object_event_callback_del_full (sd->parent, EVAS_CALLBACK_DEL, _elm_win_on_parent_del, obj); sd->parent = NULL; } if (sd->autodel_clear) *(sd->autodel_clear) = -1; if (_elm_config->atspi_mode) elm_interface_atspi_window_destroyed_signal_emit(obj); _elm_win_list = eina_list_remove(_elm_win_list, obj); _elm_win_count--; _elm_win_state_eval_queue(); if (sd->ee) { ecore_evas_callback_delete_request_set(sd->ee, NULL); ecore_evas_callback_resize_set(sd->ee, NULL); } ecore_job_del(sd->deferred_child_eval_job); eina_stringshare_del(sd->shot.info); ecore_timer_del(sd->shot.timer); #ifdef HAVE_ELEMENTARY_X ecore_event_handler_del(sd->x.client_message_handler); ecore_event_handler_del(sd->x.property_handler); #endif if (sd->img_obj) { _elm_win_img_callbacks_del(obj, sd->img_obj); sd->img_obj = NULL; } else { if (sd->ee && (sd->type != ELM_WIN_FAKE)) { ecore_job_add(_deferred_ecore_evas_free, sd->ee); _elm_win_deferred_free++; } } _elm_win_focus_highlight_shutdown(sd); eina_stringshare_del(sd->focus_highlight.style); eina_stringshare_del(sd->title); eina_stringshare_del(sd->icon_name); eina_stringshare_del(sd->role); eina_stringshare_del(sd->name); evas_object_del(sd->icon); evas_object_del(sd->main_menu); _elm_win_profile_del(sd); _elm_win_available_profiles_del(sd); free(sd->wm_rot.rots); /* Don't let callback in the air that point to sd */ ecore_evas_callback_delete_request_set(sd->ee, NULL); ecore_evas_callback_resize_set(sd->ee, NULL); ecore_evas_callback_mouse_in_set(sd->ee, NULL); ecore_evas_callback_focus_in_set(sd->ee, NULL); ecore_evas_callback_focus_out_set(sd->ee, NULL); ecore_evas_callback_move_set(sd->ee, NULL); ecore_evas_callback_state_change_set(sd->ee, NULL); ecore_evas_callback_pre_render_set(sd->ee, NULL); evas_obj_smart_del(eo_super(obj, MY_CLASS)); if (_elm_win_policy_quit_triggered(obj)) { _elm_win_flush_cache_and_exit(obj); } } static void _elm_win_obj_intercept_show(void *data, Evas_Object *obj) { ELM_WIN_DATA_GET(data, sd); // 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)); if (sd->frame_obj) { evas_object_show(sd->frame_obj); } if (sd->img_obj) { evas_object_show(sd->img_obj); } if (sd->pointer.obj) { #if 0 ecore_evas_show(sd->pointer.ee); #endif evas_object_show(sd->pointer.obj); } evas_object_show(obj); #ifdef ELEMENTARY_X if (sd->type == ELM_WIN_TOOLTIP) ecore_x_window_shape_input_rectangle_set(sd->x.xwin, 0, 0, 0, 0); #endif } EOLIAN static void _elm_win_evas_object_smart_move(Eo *obj, Elm_Win_Data *sd, Evas_Coord x, Evas_Coord y) { if (sd->img_obj) { if ((x != sd->screen.x) || (y != sd->screen.y)) { sd->screen.x = x; sd->screen.y = y; eo_event_callback_call(obj, ELM_WIN_EVENT_MOVED, NULL); } return; } else { TRAP(sd, move, x, y); if (!ecore_evas_override_get(sd->ee)) return; } evas_obj_smart_move(eo_super(obj, MY_CLASS), x, y); if (ecore_evas_override_get(sd->ee)) { sd->screen.x = x; sd->screen.y = y; eo_event_callback_call(obj, ELM_WIN_EVENT_MOVED, NULL); } if (sd->frame_obj) { #ifdef HAVE_ELEMENTARY_WL2 /* TODO */ /* ecore_wl_window_update_location(sd->wl.win, x, y); */ #endif sd->screen.x = x; sd->screen.y = y; } if (sd->img_obj) { sd->screen.x = x; sd->screen.y = y; } } EOLIAN static void _elm_win_evas_object_smart_resize(Eo *obj, Elm_Win_Data *sd, Evas_Coord w, Evas_Coord h) { if (sd->img_obj) { evas_obj_smart_resize(eo_super(obj, MY_CLASS), w, h); if (sd->constrain) { int sw, sh; ecore_evas_screen_geometry_get(sd->ee, NULL, NULL, &sw, &sh); w = MIN(w, sw); h = MIN(h, sh); } if (w < 1) w = 1; if (h < 1) h = 1; evas_object_image_size_set(sd->img_obj, w, h); } TRAP(sd, resize, w, h); } static void _elm_win_delete_request(Ecore_Evas *ee) { Elm_Win_Data *sd = _elm_win_associate_get(ee); Evas_Object *obj; if (!sd) return; obj = sd->obj; int autodel = sd->autodel; sd->autodel_clear = &autodel; evas_object_ref(obj); eo_event_callback_call(obj, ELM_WIN_EVENT_DELETE_REQUEST, NULL); if (sd->autohide) evas_object_hide(obj); // FIXME: if above callback deletes - then the below will be invalid if (_elm_config->atspi_mode) elm_interface_atspi_window_destroyed_signal_emit(obj); if (autodel) evas_object_del(obj); else sd->autodel_clear = NULL; evas_object_unref(obj); } Ecore_X_Window _elm_ee_xwin_get(const Ecore_Evas *ee) { #ifdef HAVE_ELEMENTARY_X const char *engine_name; if (!ee) return 0; engine_name = ecore_evas_engine_name_get(ee); if (EINA_UNLIKELY(!engine_name)) return 0; if (!strcmp(engine_name, ELM_SOFTWARE_X11)) { return ecore_evas_software_x11_window_get(ee); } else if (!strcmp(engine_name, ELM_OPENGL_X11)) { return ecore_evas_gl_x11_window_get(ee); } #else (void)ee; #endif return 0; } #ifdef HAVE_ELEMENTARY_X static void _internal_elm_win_xwindow_get(Elm_Win_Data *sd) { sd->x.xwin = _elm_ee_xwin_get(sd->ee); } #endif Ecore_Wl2_Window * _elm_ee_wlwin_get(const Ecore_Evas *ee) { #ifdef HAVE_ELEMENTARY_WL2 const char *engine_name; if (!ee) return NULL; engine_name = ecore_evas_engine_name_get(ee); if (EINA_UNLIKELY(!engine_name)) return NULL; if ((!strcmp(engine_name, ELM_WAYLAND_SHM)) || (!strcmp(engine_name, ELM_WAYLAND_EGL))) { return ecore_evas_wayland2_window_get(ee); } #else (void)ee; #endif return NULL; } #ifdef HAVE_ELEMENTARY_WL2 static void _elm_win_wlwindow_get(Elm_Win_Data *sd) { sd->wl.win = _elm_ee_wlwin_get(sd->ee); } #endif Ecore_Cocoa_Window * _elm_ee_cocoa_win_get(const Ecore_Evas *ee) { #ifdef HAVE_ELEMENTARY_COCOA const char *engine_name; if (!ee) return NULL; engine_name = ecore_evas_engine_name_get(ee); if (EINA_UNLIKELY(!engine_name)) return NULL; if (!strcmp(engine_name, "opengl_cocoa") || !strcmp(engine_name, "gl_cocoa")) return ecore_evas_cocoa_window_get(ee); #else (void)ee; #endif return NULL; } Ecore_Win32_Window * _elm_ee_win32win_get(const Ecore_Evas *ee) { #ifdef HAVE_ELEMENTARY_WIN32 const char *engine_name; if (!ee) return NULL; engine_name = ecore_evas_engine_name_get(ee); if (EINA_UNLIKELY(!engine_name)) return NULL; if ((!strcmp(engine_name, ELM_SOFTWARE_WIN32)) || (!strcmp(engine_name, ELM_SOFTWARE_DDRAW))) { return ecore_evas_win32_window_get(ee); } #else (void)ee; #endif return NULL; } #ifdef HAVE_ELEMENTARY_COCOA static void _elm_win_cocoawindow_get(Elm_Win_Data *sd) { sd->cocoa.win = _elm_ee_cocoa_win_get(sd->ee); } #endif #ifdef HAVE_ELEMENTARY_WIN32 static void _internal_elm_win_win32window_get(Elm_Win_Data *sd) { sd->win32.win = _elm_ee_win32win_get(sd->ee); } #endif #ifdef HAVE_ELEMENTARY_X static void _elm_win_xwin_update(Elm_Win_Data *sd) { const char *s; if (sd->type == ELM_WIN_FAKE) return; _internal_elm_win_xwindow_get(sd); if (sd->parent) { ELM_WIN_DATA_GET(sd->parent, sdp); if (sdp) { if (sd->x.xwin) ecore_x_icccm_transient_for_set(sd->x.xwin, sdp->x.xwin); } } if (!sd->x.xwin) return; /* nothing more to do */ s = sd->title; if (!s) s = _elm_appname; if (!s) s = ""; if (sd->icon_name) s = sd->icon_name; ecore_x_icccm_icon_name_set(sd->x.xwin, s); ecore_x_netwm_icon_name_set(sd->x.xwin, s); s = sd->role; if (s) ecore_x_icccm_window_role_set(sd->x.xwin, s); // set window icon if (sd->icon) { void *data; data = evas_object_image_data_get(sd->icon, EINA_FALSE); if (data) { Ecore_X_Icon ic; int w = 0, h = 0, stride, x, y; unsigned char *p; unsigned int *p2; evas_object_image_size_get(sd->icon, &w, &h); stride = evas_object_image_stride_get(sd->icon); if ((w > 0) && (h > 0) && (stride >= (int)(w * sizeof(unsigned int)))) { ic.width = w; ic.height = h; ic.data = malloc(w * h * sizeof(unsigned int)); if (ic.data) { p = (unsigned char *)data; p2 = (unsigned int *)ic.data; for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { *p2 = *((unsigned int *)p); p += sizeof(unsigned int); p2++; } p += (stride - (w * sizeof(unsigned int))); } ecore_x_netwm_icons_set(sd->x.xwin, &ic, 1); free(ic.data); } } evas_object_image_data_set(sd->icon, data); } } switch (sd->type) { case ELM_WIN_BASIC: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_NORMAL); break; case ELM_WIN_DIALOG_BASIC: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_DIALOG); break; case ELM_WIN_DESKTOP: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_DESKTOP); break; case ELM_WIN_DOCK: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_DOCK); break; case ELM_WIN_TOOLBAR: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_TOOLBAR); break; case ELM_WIN_MENU: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_MENU); break; case ELM_WIN_UTILITY: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_UTILITY); break; case ELM_WIN_SPLASH: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_SPLASH); break; case ELM_WIN_DROPDOWN_MENU: ecore_x_netwm_window_type_set (sd->x.xwin, ECORE_X_WINDOW_TYPE_DROPDOWN_MENU); break; case ELM_WIN_POPUP_MENU: ecore_x_netwm_window_type_set (sd->x.xwin, ECORE_X_WINDOW_TYPE_POPUP_MENU); break; case ELM_WIN_TOOLTIP: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_TOOLTIP); ecore_x_window_shape_input_rectangle_set(sd->x.xwin, 0, 0, 0, 0); break; case ELM_WIN_NOTIFICATION: ecore_x_netwm_window_type_set (sd->x.xwin, ECORE_X_WINDOW_TYPE_NOTIFICATION); break; case ELM_WIN_COMBO: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_COMBO); break; case ELM_WIN_DND: ecore_x_netwm_window_type_set(sd->x.xwin, ECORE_X_WINDOW_TYPE_DND); break; default: break; } ecore_x_e_virtual_keyboard_state_set (sd->x.xwin, (Ecore_X_Virtual_Keyboard_State)sd->kbdmode); if (sd->indmode == ELM_WIN_INDICATOR_SHOW) ecore_x_e_illume_indicator_state_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_STATE_ON); else if (sd->indmode == ELM_WIN_INDICATOR_HIDE) ecore_x_e_illume_indicator_state_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_STATE_OFF); if ((sd->wm_rot.count) && (sd->wm_rot.rots)) ecore_evas_wm_rotation_available_rotations_set(sd->ee, sd->wm_rot.rots, sd->wm_rot.count); if (sd->wm_rot.preferred_rot != -1) ecore_evas_wm_rotation_preferred_rotation_set(sd->ee, sd->wm_rot.preferred_rot); } #endif /** * @internal * * Resize the window according to window layout's min and weight. * If the window layout's weight is 0.0, the window max is limited to layout's * min size. * * This is called when the window layout's weight hint is changed or when the * window is rotated. * * @param obj window object */ static void _elm_win_resize_objects_eval(Evas_Object *obj) { ELM_WIN_DATA_GET(obj, sd); Evas_Coord w, h, minw, minh, maxw, maxh; double wx, wy; evas_object_size_hint_min_get(sd->edje, &minw, &minh); if (minw < 1) minw = 1; if (minh < 1) minh = 1; evas_object_size_hint_weight_get(sd->edje, &wx, &wy); if (!wx) maxw = minw; else maxw = 32767; if (!wy) 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 (w > maxw) w = maxw; if (h > maxh) h = maxh; if (sd->img_obj) evas_object_resize(obj, w, h); else TRAP(sd, resize, w, h); } static void _elm_win_on_resize_obj_changed_size_hints(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { _elm_win_resize_objects_eval(data); } void _elm_win_shutdown(void) { while (_elm_win_list) { Eina_List *itr = _elm_win_list; evas_object_del(itr->data); if (_elm_win_list == itr) { _elm_win_list = eina_list_remove_list(_elm_win_list, _elm_win_list); } } ELM_SAFE_FREE(_elm_win_state_eval_timer, ecore_timer_del); } 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); } } void _elm_win_access(Eina_Bool is_access) { Evas *evas; const Eina_List *l; Evas_Object *obj; Evas_Object *fobj; EINA_LIST_FOREACH(_elm_win_list, l, obj) { elm_widget_access(obj, is_access); /* floating orphan object. if there are A, B, C objects and user does as below, then there would be floating orphan objects. 1. elm_object_content_set(layout, A); 2. elm_object_content_set(layout, B); 3. elm_object_content_set(layout, C); now, the object A and B are floating orphan objects */ fobj = obj; for (;;) { fobj = evas_object_below_get(fobj); if (!fobj) break; if (elm_widget_is(fobj) && !elm_widget_parent_get(fobj)) { elm_widget_access(fobj, is_access); } } if (!is_access) { evas = evas_object_evas_get(obj); if (evas) _elm_access_object_highlight_disable(evas); } } } void _elm_win_translate(void) { const Eina_List *l; Evas_Object *obj; EINA_LIST_FOREACH(_elm_win_list, l, obj) elm_widget_translate(obj); } void _elm_win_focus_reconfigure(void) { const Eina_List *l; Evas_Object *obj; EINA_LIST_FOREACH(_elm_win_list, l, obj) elm_widget_focus_reconfigure(obj); } #ifdef HAVE_ELEMENTARY_X static Eina_Bool _elm_win_client_message(void *data, int type EINA_UNUSED, void *event) { ELM_WIN_DATA_GET(data, sd); 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 int)e->data.l[0] == sd->x.xwin) { Evas *evas = evas_object_evas_get(sd->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 int)e->data.l[0] == sd->x.xwin) { Evas *evas = evas_object_evas_get(sd->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); } } } else if (e->message_type == ECORE_X_ATOM_E_ILLUME_ACCESS_CONTROL) { if ((unsigned int)e->data.l[0] == sd->x.xwin) { if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_NEXT) { // XXX: call right access func } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_PREV) { // XXX: call right access func } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_ACTIVATE) { _elm_access_highlight_object_activate (sd->obj, ELM_ACTIVATE_DEFAULT); } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_READ) { /* there would be better way to read highlight object */ Evas *evas; evas = evas_object_evas_get(sd->obj); if (!evas) return ECORE_CALLBACK_PASS_ON; _elm_access_mouse_event_enabled_set(EINA_TRUE); evas_event_feed_mouse_in(evas, 0, NULL); evas_event_feed_mouse_move (evas, e->data.l[2], e->data.l[3], 0, NULL); _elm_access_mouse_event_enabled_set(EINA_FALSE); } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_READ_NEXT) { _elm_access_highlight_cycle(sd->obj, ELM_FOCUS_NEXT); } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_READ_PREV) { _elm_access_highlight_cycle(sd->obj, ELM_FOCUS_PREVIOUS); } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_UP) { _elm_access_highlight_object_activate (sd->obj, ELM_ACTIVATE_UP); } else if ((unsigned int)e->data.l[1] == ECORE_X_ATOM_E_ILLUME_ACCESS_ACTION_DOWN) { _elm_access_highlight_object_activate (sd->obj, ELM_ACTIVATE_DOWN); } } } return ECORE_CALLBACK_PASS_ON; } static Eina_Bool _elm_win_property_change(void *data, int type EINA_UNUSED, void *event) { ELM_WIN_DATA_GET(data, sd); Ecore_X_Event_Window_Property *e = event; if (e->atom == ECORE_X_ATOM_E_ILLUME_INDICATOR_STATE) { if (e->win == sd->x.xwin) { sd->indmode = (Elm_Win_Indicator_Mode)ecore_x_e_illume_indicator_state_get(e->win); eo_event_callback_call (sd->obj, ELM_WIN_EVENT_INDICATOR_PROP_CHANGED, NULL); } } return ECORE_CALLBACK_PASS_ON; } #endif static void _elm_win_focus_highlight_hide(void *data EINA_UNUSED, Evas_Object *obj, const char *emission EINA_UNUSED, const char *source EINA_UNUSED) { evas_object_hide(obj); } static void _elm_win_focus_highlight_anim_end(void *data, Evas_Object *obj, const char *emission EINA_UNUSED, const char *source EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); _elm_win_focus_highlight_simple_setup(sd, obj); } static void _elm_win_focus_highlight_init(Elm_Win_Data *sd) { evas_event_callback_add(sd->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_IN, _elm_win_object_focus_in, sd->obj); evas_event_callback_add(sd->evas, EVAS_CALLBACK_CANVAS_OBJECT_FOCUS_OUT, _elm_win_object_focus_out, sd->obj); sd->focus_highlight.cur.target = _elm_win_focus_target_get(evas_focus_get(sd->evas)); if (sd->focus_highlight.cur.target) { if (elm_widget_highlight_in_theme_get(sd->focus_highlight.cur.target)) sd->focus_highlight.cur.in_theme = EINA_TRUE; else _elm_win_focus_target_callbacks_add(sd); evas_object_event_callback_add (sd->focus_highlight.cur.target, EVAS_CALLBACK_DEL, _elm_win_focus_target_del, sd->obj); } sd->focus_highlight.prev.target = NULL; sd->focus_highlight.theme_changed = EINA_TRUE; if (!sd->focus_highlight.fobj) { sd->focus_highlight.fobj = edje_object_add(sd->evas); edje_object_signal_callback_add(sd->focus_highlight.fobj, "elm,action,focus,hide,end", "*", _elm_win_focus_highlight_hide, NULL); edje_object_signal_callback_add(sd->focus_highlight.fobj, "elm,action,focus,anim,end", "*", _elm_win_focus_highlight_anim_end, sd->obj); } _elm_win_focus_highlight_reconfigure_job_start(sd); } static void _elm_win_frame_cb_move_start(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source) { int ox, oy; ELM_WIN_DATA_GET(data, sd); if (!sd) return; #ifdef HAVE_ELEMENTARY_WL2 if (!strcmp(source, "elm")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, ELM_CURSOR_HAND1); else ecore_wl2_window_cursor_from_name_set(sd->wl.win, NULL); #else (void)source; #endif /* NB: Wayland handles moving surfaces by itself so we cannot * specify a specific x/y we want. Instead, we will pass in the * existing x/y values so they can be recorded as 'previous' * position. The new position will get updated automatically when * the move is finished */ edje_object_part_geometry_get(sd->frame_obj, "elm.spacer.opaque", &ox, &oy, NULL, NULL); ecore_evas_wayland_move(sd->ee, ox, oy); } static void _elm_win_frame_cb_move_stop(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); if (!sd) return; #ifdef HAVE_ELEMENTARY_WL2 ecore_wl2_window_cursor_from_name_set(sd->wl.win, NULL); #endif } #ifdef HAVE_ELEMENTARY_WL2 struct _resize_info { const char *name; int location; }; static struct _resize_info _border_side[4] = { { ELM_CURSOR_TOP_SIDE, 1 }, { ELM_CURSOR_LEFT_SIDE, 4 }, { ELM_CURSOR_BOTTOM_SIDE, 2 }, { ELM_CURSOR_RIGHT_SIDE, 8 }, }; static struct _resize_info _border_corner[4] = { { ELM_CURSOR_TOP_LEFT_CORNER, 5 }, { ELM_CURSOR_BOTTOM_LEFT_CORNER, 6 }, { ELM_CURSOR_BOTTOM_RIGHT_CORNER, 10 }, { ELM_CURSOR_TOP_RIGHT_CORNER, 9 }, }; #endif static void _elm_win_frame_obj_move(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { Elm_Win_Data *sd; if (!(sd = data)) return; if (!sd->client_obj) return; _elm_win_frame_obj_update(sd); } static void _elm_win_frame_obj_resize(void *data, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { Elm_Win_Data *sd; if (!(sd = data)) return; if (!sd->client_obj) return; _elm_win_frame_obj_update(sd); } static void _elm_win_frame_cb_resize_show(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source) { ELM_WIN_DATA_GET(data, sd); if (!sd) return; if (sd->resizing) return; #ifdef HAVE_ELEMENTARY_WL2 int i; i = sd->rot / 90; if (!strcmp(source, "elm.event.resize.t")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_side[(0 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.b")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_side[(2 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.l")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_side[(1 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.r")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_side[(3 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.tl")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_corner[(0 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.tr")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_corner[(3 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.bl")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_corner[(1 + i) % 4].name); else if (!strcmp(source, "elm.event.resize.br")) ecore_wl2_window_cursor_from_name_set(sd->wl.win, _border_corner[(2 + i) % 4].name); else ecore_wl2_window_cursor_from_name_set(sd->wl.win, NULL); #else (void)source; #endif } static void _elm_win_frame_cb_resize_hide(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); if (!sd) return; if (sd->resizing) return; #ifdef HAVE_ELEMENTARY_WL2 ecore_wl2_window_cursor_from_name_set(sd->wl.win, NULL); #endif } static void _elm_win_frame_cb_resize_start(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source) { #ifdef HAVE_ELEMENTARY_WL2 ELM_WIN_DATA_GET(data, sd); int i; if (!sd) return; if (sd->resizing) return; sd->resizing = EINA_TRUE; i = sd->rot / 90; if (!strcmp(source, "elm.event.resize.t")) sd->resize_location = _border_side[(0 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.b")) sd->resize_location = _border_side[(2 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.l")) sd->resize_location = _border_side[(1 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.r")) sd->resize_location = _border_side[(3 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.tl")) sd->resize_location = _border_corner[(0 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.tr")) sd->resize_location = _border_corner[(3 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.bl")) sd->resize_location = _border_corner[(1 + i) % 4].location; else if (!strcmp(source, "elm.event.resize.br")) sd->resize_location = _border_corner[(2 + i) % 4].location; else sd->resize_location = 0; if (sd->resize_location > 0) ecore_evas_wayland_resize(sd->ee, sd->resize_location); #else (void)data; (void)source; #endif } static void _elm_win_frame_cb_minimize(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); if (!sd) return; // sd->iconified = EINA_TRUE; TRAP(sd, iconified_set, EINA_TRUE); } static void _elm_win_frame_cb_maximize(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source EINA_UNUSED) { Eina_Bool value; ELM_WIN_DATA_GET(data, sd); if (!sd) return; if (sd->maximized) value = EINA_FALSE; else value = EINA_TRUE; TRAP(sd, maximized_set, value); } static void _elm_win_frame_cb_close(void *data, Evas_Object *obj EINA_UNUSED, const char *sig EINA_UNUSED, const char *source EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); Evas_Object *win; /* FIXME: After the current freeze, this should be handled differently. * * Ideally, we would want to mimic the X11 backend and use something * like ECORE_WL_EVENT_WINDOW_DELETE and handle the delete_request * inside of ecore_evas. That would be the 'proper' way, but since we are * in a freeze right now, I cannot add a new event value, or a new * event structure to ecore_wayland. * * So yes, this is a temporary 'stop-gap' solution which will be fixed * when the freeze is over, but it does fix a trac bug for now, and in a * way which does not break API or the freeze. - dh */ if (!sd) return; win = sd->obj; int autodel = sd->autodel; sd->autodel_clear = &autodel; evas_object_ref(win); eo_event_callback_call(win, ELM_WIN_EVENT_DELETE_REQUEST, NULL); if (sd->autohide) evas_object_hide(win); // FIXME: if above callback deletes - then the below will be invalid if (autodel) evas_object_del(win); else sd->autodel_clear = NULL; evas_object_unref(win); } #ifdef HAVE_ELEMENTARY_WL2 static void _elm_win_frame_pre_render(void *data, Evas *e EINA_UNUSED, void *ev EINA_UNUSED) { Elm_Win_Data *sd = data; if (sd->wl.opaque_dirty) _elm_win_opaque_update(sd); sd->wl.opaque_dirty = 0; } #endif static void _elm_win_frame_add(Elm_Win_Data *sd, const char *style) { Evas_Object *obj = sd->obj; int w, h, mw, mh; short layer; sd->frame_obj = edje_object_add(sd->evas); layer = evas_object_layer_get(obj); evas_object_layer_set(sd->frame_obj, layer + 1); if (!elm_widget_theme_object_set (sd->obj, sd->frame_obj, "border", "base", style)) { ELM_SAFE_FREE(sd->frame_obj, evas_object_del); return; } sd->client_obj = evas_object_rectangle_add(sd->evas); evas_object_color_set(sd->client_obj, 0, 0, 0, 0); /* NB: Tried pass_events here, but that fails to send events */ evas_object_repeat_events_set(sd->client_obj, EINA_TRUE); edje_object_part_swallow(sd->frame_obj, "elm.swallow.client", sd->client_obj); evas_object_is_frame_object_set(sd->frame_obj, EINA_TRUE); if (!sd->icon) { Efreet_Desktop *d; sd->icon = elm_icon_add(sd->obj); d = efreet_util_desktop_exec_find(_elm_appname); if (d) { elm_icon_standard_set(sd->icon, d->icon); efreet_desktop_free(d); } } edje_object_part_swallow(sd->frame_obj, "elm.swallow.icon", sd->icon); evas_object_event_callback_add (sd->frame_obj, EVAS_CALLBACK_MOVE, _elm_win_frame_obj_move, sd); evas_object_event_callback_add (sd->frame_obj, EVAS_CALLBACK_RESIZE, _elm_win_frame_obj_resize, sd); #ifdef HAVE_ELEMENTARY_WL2 evas_event_callback_add(sd->evas, EVAS_CALLBACK_RENDER_FLUSH_PRE, _elm_win_frame_pre_render, sd); #endif /* NB: Do NOT remove these calls !! Needed to calculate proper * framespace on initial show of the window */ edje_object_size_min_calc(sd->frame_obj, &mw, &mh); evas_object_move(sd->frame_obj, 0, 0); evas_object_resize(sd->frame_obj, mw, mh); evas_object_smart_calculate(sd->frame_obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,move,start", "elm", _elm_win_frame_cb_move_start, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,move,stop", "elm", _elm_win_frame_cb_move_stop, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,resize,show", "*", _elm_win_frame_cb_resize_show, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,resize,hide", "*", _elm_win_frame_cb_resize_hide, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,resize,start", "*", _elm_win_frame_cb_resize_start, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,minimize", "elm", _elm_win_frame_cb_minimize, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,maximize", "elm", _elm_win_frame_cb_maximize, obj); edje_object_signal_callback_add (sd->frame_obj, "elm,action,close", "elm", _elm_win_frame_cb_close, obj); if (sd->title) { edje_object_part_text_escaped_set (sd->frame_obj, "elm.text.title", sd->title); } ecore_evas_geometry_get(sd->ee, NULL, NULL, &w, &h); ecore_evas_resize(sd->ee, w, h); } static void _elm_win_frame_del(Elm_Win_Data *sd) { int w, h; ELM_SAFE_FREE(sd->client_obj, evas_object_del); if (sd->frame_obj) { evas_object_event_callback_del_full (sd->frame_obj, EVAS_CALLBACK_MOVE, _elm_win_frame_obj_move, sd); evas_object_event_callback_del_full (sd->frame_obj, EVAS_CALLBACK_RESIZE, _elm_win_frame_obj_resize, sd); #ifdef HAVE_ELEMENTARY_WL2 evas_event_callback_del_full(sd->evas, EVAS_CALLBACK_RENDER_FLUSH_PRE, _elm_win_frame_pre_render, sd); #endif edje_object_signal_callback_del (sd->frame_obj, "elm,action,move,start", "elm", _elm_win_frame_cb_move_start); edje_object_signal_callback_del (sd->frame_obj, "elm,action,move,stop", "elm", _elm_win_frame_cb_move_stop); edje_object_signal_callback_del (sd->frame_obj, "elm,action,resize,show", "*", _elm_win_frame_cb_resize_show); edje_object_signal_callback_del (sd->frame_obj, "elm,action,resize,hide", "*", _elm_win_frame_cb_resize_hide); edje_object_signal_callback_del (sd->frame_obj, "elm,action,resize,start", "*", _elm_win_frame_cb_resize_start); edje_object_signal_callback_del (sd->frame_obj, "elm,action,minimize", "elm", _elm_win_frame_cb_minimize); edje_object_signal_callback_del (sd->frame_obj, "elm,action,maximize", "elm", _elm_win_frame_cb_maximize); edje_object_signal_callback_del (sd->frame_obj, "elm,action,close", "elm", _elm_win_frame_cb_close); ELM_SAFE_FREE(sd->frame_obj, evas_object_del); } evas_output_framespace_set(sd->evas, 0, 0, 0, 0); ecore_evas_geometry_get(sd->ee, NULL, NULL, &w, &h); ecore_evas_resize(sd->ee, w, h); } #ifdef ELM_DEBUG static void _debug_key_down(void *data EINA_UNUSED, Evas *e EINA_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->key, "F12")) || (!evas_key_modifier_is_set(ev->modifiers, "Control"))) return; INF("Tree graph generated."); elm_object_tree_dot_dump(obj, "./dump.dot"); } #endif static void _win_inlined_image_set(Elm_Win_Data *sd) { evas_object_image_alpha_set(sd->img_obj, EINA_FALSE); evas_object_image_filled_set(sd->img_obj, EINA_TRUE); evas_object_event_callback_add (sd->img_obj, EVAS_CALLBACK_DEL, _elm_win_on_img_obj_del, sd->obj); evas_object_event_callback_add (sd->img_obj, EVAS_CALLBACK_HIDE, _win_img_hide, sd->obj); evas_object_event_callback_add (sd->img_obj, EVAS_CALLBACK_MOUSE_UP, _win_img_mouse_up, sd->obj); evas_object_event_callback_add (sd->img_obj, EVAS_CALLBACK_FOCUS_IN, _win_img_focus_in, sd->obj); evas_object_event_callback_add (sd->img_obj, EVAS_CALLBACK_FOCUS_OUT, _win_img_focus_out, sd->obj); } static void _elm_win_on_icon_del(void *data, Evas *e EINA_UNUSED, Evas_Object *obj, void *event_info EINA_UNUSED) { ELM_WIN_DATA_GET(data, sd); if (sd->icon == obj) sd->icon = NULL; } EOLIAN static void _elm_win_evas_object_smart_add(Eo *obj, Elm_Win_Data *_pd EINA_UNUSED) { evas_obj_smart_add(eo_super(obj, MY_CLASS)); elm_widget_can_focus_set(obj, EINA_TRUE); elm_widget_highlight_ignore_set(obj, EINA_TRUE); } #ifdef HAVE_ELEMENTARY_X static void _elm_x_io_err(void *data EINA_UNUSED) { Eina_List *l; Evas_Object *obj; EINA_LIST_FOREACH(_elm_win_list, l, obj) eo_event_callback_call(obj, ELM_WIN_EVENT_IOERR, NULL); elm_exit(); } #endif EAPI Evas_Object * elm_win_add(Evas_Object *parent, const char *name, Elm_Win_Type type) { Evas_Object *obj = eo_add(MY_CLASS, parent, elm_obj_win_name_set(eo_self, name), elm_obj_win_type_set(eo_self, type)); return obj; } EAPI Evas_Object * elm_win_fake_add(Ecore_Evas *ee) { return eo_add(MY_CLASS, NULL, elm_obj_win_fake_canvas_set(eo_self, ee), elm_obj_win_name_set(eo_self, NULL), elm_obj_win_type_set(eo_self, ELM_WIN_FAKE)); } static void _elm_win_cb_hide(void *data EINA_UNUSED, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { _elm_win_state_eval_queue(); } static void _elm_win_cb_show(void *data EINA_UNUSED, Evas *e EINA_UNUSED, Evas_Object *obj EINA_UNUSED, void *event_info EINA_UNUSED) { _elm_win_state_eval_queue(); } /** * @internal * * Recalculate the size of window considering its resize objects' weight and * min size. If any of its resize objects' weight equals to 0.0, window * layout's weight will be set to 0.0. * * @param o box object * @param p box's private data * @param data window object */ static void _window_layout_stack(Evas_Object *o, Evas_Object_Box_Data *p, void *data) { const Eina_List *l; Evas_Object *child; Evas_Object_Box_Option *opt; Evas_Coord x, y, w, h; double wx, wy; Evas_Coord minw = -1, minh = -1; double weight_x = EVAS_HINT_EXPAND; double weight_y = EVAS_HINT_EXPAND; EINA_LIST_FOREACH(p->children, l, opt) { child = opt->obj; evas_object_size_hint_weight_get(child, &wx, &wy); if (wx == 0.0) weight_x = 0; if (wy == 0.0) weight_y = 0; evas_object_size_hint_min_get(child, &w, &h); if (w > minw) minw = w; if (h > minh) minh = h; } evas_object_size_hint_min_set(o, minw, minh); evas_object_geometry_get(o, &x, &y, &w, &h); if (w < minw) w = minw; if (h < minh) h = minh; evas_object_resize(o, w, h); EINA_LIST_FOREACH(p->children, l, opt) { child = opt->obj; evas_object_move(child, x, y); evas_object_resize(child, w, h); } ELM_WIN_DATA_GET(data, sd); evas_object_size_hint_weight_set(sd->edje, weight_x, weight_y); evas_object_smart_changed(sd->edje); } static Eina_Bool _accel_is_gl(void) { const char *env = NULL; const char *str = NULL; if (_elm_config->accel) str = _elm_config->accel; if (_elm_accel_preference) str = _elm_accel_preference; if ((_elm_config->accel_override) && (_elm_config->accel)) str = _elm_config->accel; env = getenv("ELM_ACCEL"); if (env) str = env; if ((str) && ((!strcasecmp(str, "gl")) || (!strcasecmp(str, "opengl")) || (!strcasecmp(str, "3d")) || (!strcasecmp(str, "hw")) || (!strcasecmp(str, "accel")) || (!strcasecmp(str, "hardware")) )) return EINA_TRUE; return EINA_FALSE; } static Eo * _elm_win_finalize_internal(Eo *obj, Elm_Win_Data *sd, const char *name, Elm_Win_Type type) { sd->obj = obj; // in ctor Evas_Object *parent = NULL; Evas *e; const Eina_List *l; const char *fontpath, *engine = NULL, *enginelist[32], *disp; int i, p = 0; Elm_Win_Data tmp_sd; parent = eo_parent_get(obj); /* just to store some data while trying out to create a canvas */ memset(&tmp_sd, 0, sizeof(Elm_Win_Data)); switch (type) { case ELM_WIN_FAKE: tmp_sd.ee = sd->ee; break; case ELM_WIN_INLINED_IMAGE: if (!parent) break; { e = evas_object_evas_get(parent); Ecore_Evas *ee; if (!e) break; ee = ecore_evas_ecore_evas_get(e); if (!ee) break; tmp_sd.img_obj = ecore_evas_object_image_new(ee); if (!tmp_sd.img_obj) break; tmp_sd.ee = ecore_evas_object_ecore_evas_get(tmp_sd.img_obj); if (!tmp_sd.ee) { ELM_SAFE_FREE(tmp_sd.img_obj, evas_object_del); } } break; case ELM_WIN_SOCKET_IMAGE: tmp_sd.ee = ecore_evas_extn_socket_new(1, 1); break; default: disp = getenv("ELM_DISPLAY"); if ((disp) && (!strcmp(disp, "ews"))) { enginelist[p++] = ELM_EWS; } else if ((disp) && (!strcmp(disp, "buffer"))) { enginelist[p++] = ELM_BUFFER; } else if ((disp) && (!strcmp(disp, "shot"))) { enginelist[p++] = ENGINE_GET(); } // welcome to ifdef hell! :) #ifdef HAVE_ELEMENTARY_X else if ((disp) && (!strcmp(disp, "x11"))) { if (_accel_is_gl()) { enginelist[p++] = ELM_OPENGL_X11; enginelist[p++] = ELM_SOFTWARE_X11; } else { enginelist[p++] = ELM_SOFTWARE_X11; enginelist[p++] = ELM_OPENGL_X11; } } #endif #ifdef HAVE_ELEMENTARY_WL2 else if ((disp) && (!strcmp(disp, "wl"))) { if (_accel_is_gl()) { enginelist[p++] = ELM_WAYLAND_EGL; enginelist[p++] = ELM_WAYLAND_SHM; } else { enginelist[p++] = ELM_WAYLAND_SHM; enginelist[p++] = ELM_WAYLAND_EGL; } } #endif #ifdef HAVE_ELEMENTARY_WIN32 else if ((disp) && (!strcmp(disp, "win"))) { enginelist[p++] = ELM_SOFTWARE_WIN32; enginelist[p++] = ELM_SOFTWARE_DDRAW; } #endif #ifdef HAVE_ELEMENTARY_SDL else if ((disp) && (!strcmp(disp, "sdl"))) { if (_accel_is_gl()) { enginelist[p++] = ELM_OPENGL_SDL; enginelist[p++] = ELM_SOFTWARE_SDL; } else { enginelist[p++] = ELM_SOFTWARE_SDL; enginelist[p++] = ELM_OPENGL_SDL; } } #endif #ifdef HAVE_ELEMENTARY_COCOA else if ((disp) && (!strcmp(disp, "mac"))) { enginelist[p++] = ELM_OPENGL_COCOA; } #endif #if defined(HAVE_ELEMENTARY_DRM) || defined(HAVE_ELEMENTARY_FB) else if ((disp) && (!strcmp(disp, "fb"))) { #ifdef HAVE_ELEMENTARY_DRM enginelist[p++] = ELM_DRM; #endif #ifdef HAVE_ELEMENTARY_FB enginelist[p++] = ELM_SOFTWARE_FB; #endif } #endif #ifdef HAVE_ELEMENTARY_PSL1GHT else if ((disp) && (!strcmp(disp, "ps3"))) { enginelist[p++] = ELM_SOFTWARE_PSL1GHT; } #endif #ifdef HAVE_ELEMENTARY_X else if (!_elm_preferred_engine && getenv("DISPLAY") && !getenv("ELM_ENGINE")) { if (_accel_is_gl()) { enginelist[p++] = ELM_OPENGL_X11; enginelist[p++] = ELM_SOFTWARE_X11; } else { enginelist[p++] = ELM_SOFTWARE_X11; enginelist[p++] = ELM_OPENGL_X11; } } #endif #ifdef HAVE_ELEMENTARY_WL2 else if (!_elm_preferred_engine && getenv("WAYLAND_DISPLAY") && !getenv("ELM_ENGINE")) { if (_accel_is_gl()) { enginelist[p++] = ELM_WAYLAND_EGL; enginelist[p++] = ELM_WAYLAND_SHM; } else { enginelist[p++] = ELM_WAYLAND_SHM; enginelist[p++] = ELM_WAYLAND_EGL; } } #endif else { if (_accel_is_gl()) { // add all engines with selected engine first - if any if (ENGINE_GET()) enginelist[p++] = ENGINE_GET(); // add all engines with gl/accelerated ones first - only engines compiled #ifdef HAVE_ELEMENTARY_X enginelist[p++] = ELM_OPENGL_X11; #endif #ifdef HAVE_ELEMENTARY_WL2 enginelist[p++] = ELM_WAYLAND_EGL; #endif #ifdef HAVE_ELEMENTARY_DRM enginelist[p++] = ELM_DRM; #endif #ifdef HAVE_ELEMENTARY_FB enginelist[p++] = ELM_SOFTWARE_FB; #endif #ifdef HAVE_ELEMENTARY_COCOA enginelist[p++] = ELM_OPENGL_COCOA; #endif #ifdef HAVE_ELEMENTARY_SDL enginelist[p++] = ELM_OPENGL_SDL; #endif #ifdef HAVE_ELEMENTARY_X enginelist[p++] = ELM_SOFTWARE_X11; #endif #ifdef HAVE_ELEMENTARY_WL2 enginelist[p++] = ELM_WAYLAND_SHM; #endif #ifdef HAVE_ELEMENTARY_WIN32 enginelist[p++] = ELM_SOFTWARE_WIN32; enginelist[p++] = ELM_SOFTWARE_DDRAW; #endif #ifdef HAVE_ELEMENTARY_SDL enginelist[p++] = ELM_SOFTWARE_SDL; #endif #ifdef HAVE_ELEMENTARY_PSL1GHT enginelist[p++] = ELM_SOFTWARE_PSL1GHT; #endif } else { // add all engines with selected engine first - if any if (elm_config_preferred_engine_get()) enginelist[p++] = elm_config_preferred_engine_get(); // add check _elm_gl_preference whether "none" or not else if (_elm_config->engine && elm_config_accel_preference_get() && !strcmp(elm_config_accel_preference_get(),"none")) enginelist[p++] = _elm_config->engine; // add all engines with gl/accelerated ones first - only engines compiled #ifdef HAVE_ELEMENTARY_X enginelist[p++] = ELM_SOFTWARE_X11; #endif #ifdef HAVE_ELEMENTARY_WL2 enginelist[p++] = ELM_WAYLAND_SHM; #endif #ifdef HAVE_ELEMENTARY_DRM enginelist[p++] = ELM_DRM; #endif #ifdef HAVE_ELEMENTARY_FB enginelist[p++] = ELM_SOFTWARE_FB; #endif #ifdef HAVE_ELEMENTARY_COCOA enginelist[p++] = ELM_OPENGL_COCOA; #endif #ifdef HAVE_ELEMENTARY_WIN32 enginelist[p++] = ELM_SOFTWARE_WIN32; enginelist[p++] = ELM_SOFTWARE_DDRAW; #endif #ifdef HAVE_ELEMENTARY_SDL enginelist[p++] = ELM_SOFTWARE_SDL; #endif #ifdef HAVE_ELEMENTARY_X enginelist[p++] = ELM_OPENGL_X11; #endif #ifdef HAVE_ELEMENTARY_WL2 enginelist[p++] = ELM_WAYLAND_EGL; #endif #ifdef HAVE_ELEMENTARY_DRM enginelist[p++] = ELM_DRM; #endif #ifdef HAVE_ELEMENTARY_SDL enginelist[p++] = ELM_OPENGL_SDL; #endif #ifdef HAVE_ELEMENTARY_PSL1GHT enginelist[p++] = ELM_SOFTWARE_PSL1GHT; #endif } } enginelist[p++] = NULL; for (i = 0; i < 30; i++) { if ((i > 0) && (!enginelist[i])) break; if (!strcmp(enginelist[i], ELM_SOFTWARE_X11)) tmp_sd.ee = ecore_evas_software_x11_new(NULL, 0, 0, 0, 1, 1); else if (!strcmp(enginelist[i], ELM_OPENGL_X11)) { int opt[20], opt_i = 0; if (_elm_config->vsync) { opt[opt_i++] = ECORE_EVAS_GL_X11_OPT_VSYNC; opt[opt_i++] = 1; } if (_elm_config->gl_depth) { opt[opt_i++] = ECORE_EVAS_GL_X11_OPT_GL_DEPTH; opt[opt_i++] = _elm_config->gl_depth; } if (_elm_config->gl_stencil) { opt[opt_i++] = ECORE_EVAS_GL_X11_OPT_GL_STENCIL; opt[opt_i++] = _elm_config->gl_stencil; } if (_elm_config->gl_msaa) { opt[opt_i++] = ECORE_EVAS_GL_X11_OPT_GL_MSAA; opt[opt_i++] = _elm_config->gl_msaa; } opt[opt_i] = 0; if (opt_i > 0) tmp_sd.ee = ecore_evas_gl_x11_options_new(NULL, 0, 0, 0, 1, 1, opt); else tmp_sd.ee = ecore_evas_gl_x11_new(NULL, 0, 0, 0, 1, 1); } else if (!strcmp(enginelist[i], ELM_WAYLAND_SHM)) tmp_sd.ee = ecore_evas_wayland_shm_new(NULL, 0, 0, 0, 1, 1, 0); else if (!strcmp(enginelist[i], ELM_WAYLAND_EGL)) tmp_sd.ee = ecore_evas_wayland_egl_new(NULL, 0, 0, 0, 1, 1, 0); else if (!strcmp(enginelist[i], ELM_SOFTWARE_WIN32)) tmp_sd.ee = ecore_evas_software_gdi_new(NULL, 0, 0, 1, 1); else if (!strcmp(enginelist[i], ELM_SOFTWARE_DDRAW)) tmp_sd.ee = ecore_evas_software_ddraw_new(NULL, 0, 0, 1, 1); else if (!strcmp(enginelist[i], ELM_SOFTWARE_SDL)) tmp_sd.ee = ecore_evas_sdl_new(NULL, 0, 0, 0, 0, 0, 1); else if (!strcmp(enginelist[i], ELM_OPENGL_SDL)) tmp_sd.ee = ecore_evas_gl_sdl_new(NULL, 1, 1, 0, 0); else if (!strcmp(enginelist[i], ELM_OPENGL_COCOA)) tmp_sd.ee = ecore_evas_cocoa_new(NULL, 1, 1, 0, 0); else if (!strcmp(enginelist[i], ELM_EWS)) tmp_sd.ee = ecore_evas_ews_new(0, 0, 1, 1); else if (!strcmp(enginelist[i], ELM_SOFTWARE_FB)) tmp_sd.ee = ecore_evas_fb_new(NULL, 0, 1, 1); else if (!strcmp(enginelist[i], ELM_BUFFER)) tmp_sd.ee = ecore_evas_buffer_new(1, 1); else if (!strcmp(enginelist[i], ELM_SOFTWARE_PSL1GHT)) tmp_sd.ee = ecore_evas_psl1ght_new(NULL, 1, 1); else if (!strcmp(enginelist[i], ELM_DRM)) tmp_sd.ee = ecore_evas_drm_new(NULL, 0, 0, 0, 1, 1); else if (!strncmp(enginelist[i], "shot:", 5)) { tmp_sd.ee = ecore_evas_buffer_new(1, 1); ecore_evas_manual_render_set(tmp_sd.ee, EINA_TRUE); tmp_sd.shot.info = eina_stringshare_add(ENGINE_GET() + 5); } engine = enginelist[i]; if (tmp_sd.ee) break; } break; } if (!tmp_sd.ee) { ERR("Cannot create window."); return NULL; } eo_parent_set(obj, ecore_evas_get(tmp_sd.ee)); eo_constructor(eo_super(obj, MY_CLASS)); evas_obj_type_set(obj, MY_CLASS_NAME_LEGACY); evas_obj_smart_callbacks_descriptions_set(obj, _smart_callbacks); if (getenv("ELM_FIRST_FRAME")) evas_event_callback_add(ecore_evas_get(tmp_sd.ee), EVAS_CALLBACK_RENDER_POST, _elm_win_first_frame_do, getenv("ELM_FIRST_FRAME")); /* copying possibly altered fields back */ #define SD_CPY(_field) \ do \ { \ sd->_field = tmp_sd._field; \ } while (0) SD_CPY(ee); SD_CPY(img_obj); SD_CPY(shot.info); #undef SD_CPY if ((type != ELM_WIN_FAKE) && (trap) && (trap->add)) sd->trap_data = trap->add(obj); /* complementary actions, which depend on final smart data * pointer */ if (type == ELM_WIN_INLINED_IMAGE) _win_inlined_image_set(sd); #ifdef HAVE_ELEMENTARY_X else if ((engine) && ((!strcmp(engine, ELM_SOFTWARE_X11)) || (!strcmp(engine, ELM_OPENGL_X11)))) { sd->x.client_message_handler = ecore_event_handler_add (ECORE_X_EVENT_CLIENT_MESSAGE, _elm_win_client_message, obj); sd->x.property_handler = ecore_event_handler_add (ECORE_X_EVENT_WINDOW_PROPERTY, _elm_win_property_change, obj); } #endif else if ((engine) && (!strncmp(engine, "shot:", 5))) _shot_init(sd); sd->kbdmode = ELM_WIN_KEYBOARD_UNKNOWN; sd->indmode = ELM_WIN_INDICATOR_UNKNOWN; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) { ecore_x_io_error_handler_set(_elm_x_io_err, NULL); } #endif #ifdef HAVE_ELEMENTARY_WL2 _elm_win_wlwindow_get(sd); #endif #ifdef HAVE_ELEMENTARY_COCOA _elm_win_cocoawindow_get(sd); #endif #ifdef HAVE_ELEMENTARY_WIN32 _internal_elm_win_win32window_get(sd); #endif if ((_elm_config->bgpixmap) #ifdef HAVE_ELEMENTARY_X && (((sd->x.xwin) && (!ecore_x_screen_is_composited(0))) || (!sd->x.xwin))) #else ) #endif TRAP(sd, avoid_damage_set, 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 // TRAP(sd, avoid_damage_set, ECORE_EVAS_AVOID_DAMAGE_BUILT_IN); sd->type = type; sd->parent = parent; sd->modal_count = 0; sd->withdrawn = ecore_evas_withdrawn_get(sd->ee); if (sd->parent) evas_object_event_callback_add (sd->parent, EVAS_CALLBACK_DEL, _elm_win_on_parent_del, obj); sd->evas = ecore_evas_get(sd->ee); evas_object_color_set(obj, 0, 0, 0, 0); evas_object_move(obj, 0, 0); evas_object_resize(obj, 1, 1); evas_object_pass_events_set(obj, EINA_TRUE); if (type == ELM_WIN_INLINED_IMAGE) elm_widget_parent2_set(obj, parent); /* use own version of ecore_evas_object_associate() that does TRAP() */ ecore_evas_data_set(sd->ee, "elm_win", obj); if (type != ELM_WIN_FAKE) { evas_object_event_callback_add(obj, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _elm_win_obj_callback_changed_size_hints, obj); evas_object_intercept_raise_callback_add (obj, _elm_win_obj_intercept_raise, obj); evas_object_intercept_lower_callback_add (obj, _elm_win_obj_intercept_lower, obj); evas_object_intercept_stack_above_callback_add (obj, _elm_win_obj_intercept_stack_above, obj); evas_object_intercept_stack_below_callback_add (obj, _elm_win_obj_intercept_stack_below, obj); evas_object_intercept_layer_set_callback_add (obj, _elm_win_obj_intercept_layer_set, obj); evas_object_intercept_show_callback_add (obj, _elm_win_obj_intercept_show, obj); } TRAP(sd, name_class_set, name, _elm_appname); TRAP(sd, title_set, sd->title); ecore_evas_callback_delete_request_set(sd->ee, _elm_win_delete_request); ecore_evas_callback_state_change_set(sd->ee, _elm_win_state_change); ecore_evas_callback_focus_in_set(sd->ee, _elm_win_focus_in); ecore_evas_callback_focus_out_set(sd->ee, _elm_win_focus_out); ecore_evas_callback_resize_set(sd->ee, _elm_win_resize); ecore_evas_callback_move_set(sd->ee, _elm_win_move); ecore_evas_callback_pre_render_set(sd->ee, _elm_win_pre_render); if (type != ELM_WIN_FAKE) ecore_evas_callback_mouse_in_set(sd->ee, _elm_win_mouse_in); evas_object_event_callback_add(obj, EVAS_CALLBACK_HIDE, _elm_win_cb_hide, NULL); evas_object_event_callback_add(obj, EVAS_CALLBACK_SHOW, _elm_win_cb_show, NULL); evas_image_cache_set(sd->evas, (_elm_config->image_cache * 1024)); evas_font_cache_set(sd->evas, (_elm_config->font_cache * 1024)); EINA_LIST_FOREACH(_elm_config->font_dirs, l, fontpath) evas_font_path_append(sd->evas, fontpath); if (!_elm_config->font_hinting) evas_font_hinting_set(sd->evas, EVAS_FONT_HINTING_NONE); else if (_elm_config->font_hinting == 1) evas_font_hinting_set(sd->evas, EVAS_FONT_HINTING_AUTO); else if (_elm_config->font_hinting == 2) evas_font_hinting_set(sd->evas, EVAS_FONT_HINTING_BYTECODE); sd->wm_rot.wm_supported = ecore_evas_wm_rotation_supported_get(sd->ee); sd->wm_rot.preferred_rot = -1; // it means that elm_win doesn't use preferred rotation. #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif /* do not append to list; all windows render as black rects */ if (type != ELM_WIN_FAKE) { _elm_win_list = eina_list_append(_elm_win_list, obj); _elm_win_count++; if ((engine) && ((!strcmp(engine, ELM_SOFTWARE_FB)) || (!strcmp(engine, ELM_DRM)))) { TRAP(sd, fullscreen_set, 1); } else if ((type != ELM_WIN_INLINED_IMAGE) && ((engine) && ((!strcmp(engine, ELM_WAYLAND_SHM) || (!strcmp(engine, ELM_WAYLAND_EGL)))))) _elm_win_frame_add(sd, "default"); if (_elm_config->focus_highlight_enable) elm_win_focus_highlight_enabled_set(obj, EINA_TRUE); if (_elm_config->focus_highlight_animate) elm_win_focus_highlight_animate_set(obj, EINA_TRUE); } //Prohibiting auto-rendering, until elm_win is shown. if (_elm_config->auto_norender_withdrawn) { if (elm_win_withdrawn_get(obj)) { if (!evas_object_data_get(obj, "__win_auto_norender")) { elm_win_norender_push(obj); evas_object_data_set(obj, "__win_auto_norender", obj); } } } #ifdef ELM_DEBUG Evas_Modifier_Mask mask = evas_key_modifier_mask_get(sd->evas, "Control"); evas_object_event_callback_add (obj, EVAS_CALLBACK_KEY_DOWN, _debug_key_down, NULL); if (evas_object_key_grab(obj, "F12", mask, 0, EINA_TRUE)) INF("Ctrl+F12 key combination exclusive for dot tree generation\n"); else ERR("failed to grab F12 key to elm widgets (dot) tree generation"); #endif if (type != ELM_WIN_FAKE) { if ((_elm_config->softcursor_mode == ELM_SOFTCURSOR_MODE_ON) || ((_elm_config->softcursor_mode == ELM_SOFTCURSOR_MODE_AUTO) && ((engine) && ((!strcmp(engine, ELM_SOFTWARE_FB)) || (!strcmp(engine, ELM_DRM)))))) { Evas_Object *o; Evas_Coord mw = 1, mh = 1, hx = 0, hy = 0; sd->pointer.obj = o = edje_object_add(ecore_evas_get(tmp_sd.ee)); _elm_theme_object_set(obj, o, "pointer", "base", "default"); edje_object_size_min_calc(o, &mw, &mh); evas_object_resize(o, mw, mh); edje_object_part_geometry_get(o, "elm.swallow.hotspot", &hx, &hy, NULL, NULL); sd->pointer.hot_x = hx; sd->pointer.hot_y = hy; evas_object_show(o); ecore_evas_object_cursor_set(tmp_sd.ee, o, EVAS_LAYER_MAX, hx, hy); } else if (_elm_config->softcursor_mode == ELM_SOFTCURSOR_MODE_OFF) { // do nothing } } sd->edje = edje_object_add(sd->evas); _elm_win_theme_internal(obj, sd); sd->box = evas_object_box_add(sd->evas); evas_object_box_layout_set(sd->box, _window_layout_stack, obj, NULL); edje_object_part_swallow(sd->edje, "elm.swallow.contents", sd->box); evas_object_move(sd->edje, 0, 0); evas_object_resize(sd->edje, 1, 1); if (type != ELM_WIN_FAKE) { edje_object_update_hints_set(sd->edje, EINA_TRUE); evas_object_event_callback_add(sd->edje, EVAS_CALLBACK_CHANGED_SIZE_HINTS, _elm_win_on_resize_obj_changed_size_hints, obj); } elm_interface_atspi_accessible_role_set(obj, ELM_ATSPI_ROLE_WINDOW); if (_elm_config->atspi_mode) elm_interface_atspi_window_created_signal_emit(obj); evas_object_show(sd->edje); if (type == ELM_WIN_FAKE) { _elm_win_resize_job(obj); _elm_win_move(sd->ee); } return obj; } EOLIAN static Eo * _elm_win_eo_base_finalize(Eo *obj, Elm_Win_Data *_pd) { obj = _elm_win_finalize_internal(obj, _pd, _pd->name, _pd->type); if (obj) { obj = eo_finalize(eo_super(obj, MY_CLASS)); } return obj; } EOLIAN static Eo * _elm_win_eo_base_constructor(Eo *obj, Elm_Win_Data *_pd EINA_UNUSED) { /* Do nothing. */ /* XXX: We are calling the constructor chain from the finalizer. It's * really bad and hacky. Needs fixing. */ return obj; } EOLIAN static void _elm_win_fake_canvas_set(Eo *obj EINA_UNUSED, Elm_Win_Data *pd, Ecore_Evas *oee) { pd->ee = oee; } EOLIAN static void _elm_win_type_set(Eo *obj, Elm_Win_Data *sd, Elm_Win_Type type) { if (eo_finalized_get(obj)) { ERR("This function is only allowed during construction."); return; } sd->type = type; } EOLIAN static Elm_Win_Type _elm_win_type_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->type; } EOLIAN static void _elm_win_name_set(Eo *obj, Elm_Win_Data *sd, const char *name) { if (eo_finalized_get(obj)) { ERR("This function is only allowed during construction."); return; } sd->name = eina_stringshare_add(name); } EOLIAN static void _elm_win_noblank_set(Eo *obj EINA_UNUSED, Elm_Win_Data *pd, Eina_Bool noblank) { noblank = !!noblank; if (pd->noblank == noblank) return; pd->noblank = noblank; _win_noblank_eval(); } EOLIAN static Eina_Bool _elm_win_noblank_get(Eo *obj EINA_UNUSED, Elm_Win_Data *pd) { return pd->noblank; } EOLIAN static void * _elm_win_trap_data_get(Eo *obj EINA_UNUSED, Elm_Win_Data *pd) { return pd->trap_data; } EAPI Evas_Object * elm_win_util_standard_add(const char *name, const char *title) { Evas_Object *win, *bg; win = elm_win_add(NULL, name, ELM_WIN_BASIC); if (!win) return NULL; elm_win_title_set(win, title); bg = elm_bg_add(win); if (!bg) { evas_object_del(win); return NULL; } evas_object_size_hint_weight_set(bg, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); elm_win_resize_object_add(win, bg); evas_object_show(bg); return win; } EAPI Evas_Object * elm_win_util_dialog_add(Evas_Object *parent, const char *name, const char *title) { Evas_Object *win, *bg; win = elm_win_add(parent, name, ELM_WIN_DIALOG_BASIC); if (!win) return NULL; elm_win_title_set(win, title); bg = elm_bg_add(win); if (!bg) { evas_object_del(win); return NULL; } evas_object_size_hint_weight_set(bg, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); elm_win_resize_object_add(win, bg); evas_object_show(bg); return win; } EOLIAN static void _elm_win_resize_object_add(Eo *obj, Elm_Win_Data *sd, Evas_Object *subobj) { elm_widget_sub_object_add(obj, subobj); if (!evas_object_box_append(sd->box, subobj)) ERR("could not append %p to box", subobj); } EOLIAN static void _elm_win_resize_object_del(Eo *obj, Elm_Win_Data *sd, Evas_Object *subobj) { if (!elm_widget_sub_object_del(obj, subobj)) ERR("could not remove sub object %p from %p", subobj, obj); evas_object_box_remove(sd->box, subobj); } EOLIAN static void _elm_win_title_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *title) { if (!title) return; eina_stringshare_replace(&(sd->title), title); if (sd->ee) TRAP(sd, title_set, sd->title); if (sd->frame_obj) edje_object_part_text_escaped_set (sd->frame_obj, "elm.text.title", sd->title); } EOLIAN static const char* _elm_win_title_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->title; } EOLIAN static void _elm_win_icon_name_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *icon_name) { if (!icon_name) return; eina_stringshare_replace(&(sd->icon_name), icon_name); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static const char* _elm_win_icon_name_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->icon_name; } EOLIAN static void _elm_win_role_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *role) { if (!role) return; eina_stringshare_replace(&(sd->role), role); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static const char* _elm_win_role_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->role; } EOLIAN static void _elm_win_icon_object_set(Eo *obj, Elm_Win_Data *sd, Evas_Object *icon) { if (sd->icon) evas_object_event_callback_del_full (sd->icon, EVAS_CALLBACK_DEL, _elm_win_on_icon_del, obj); sd->icon = icon; if (sd->icon) evas_object_event_callback_add (sd->icon, EVAS_CALLBACK_DEL, _elm_win_on_icon_del, obj); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static const Evas_Object* _elm_win_icon_object_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->icon; } EOLIAN static void _elm_win_autodel_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool autodel) { sd->autodel = autodel; } EOLIAN static Eina_Bool _elm_win_autodel_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->autodel; } EOLIAN static void _elm_win_autohide_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool autohide) { sd->autohide = autohide; } EOLIAN static Eina_Bool _elm_win_autohide_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->autohide; } EOLIAN static void _elm_win_activate(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { TRAP(sd, activate); } EOLIAN static void _elm_win_lower(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { TRAP(sd, lower); } EOLIAN static void _elm_win_raise(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { TRAP(sd, raise); } EOLIAN static void _elm_win_center(Eo *obj, Elm_Win_Data *sd, Eina_Bool h, Eina_Bool v) { int win_w, win_h, screen_w, screen_h, nx, ny; if ((trap) && (trap->center) && (!trap->center(sd->trap_data, obj, h, v))) return; ecore_evas_screen_geometry_get(sd->ee, NULL, NULL, &screen_w, &screen_h); if ((!screen_w) || (!screen_h)) return; evas_object_geometry_get(obj, &nx, &ny, &win_w, &win_h); if ((!win_w) || (!win_h)) return; if (h) nx = win_w >= screen_w ? 0 : (screen_w / 2) - (win_w / 2); if (v) ny = win_h >= screen_h ? 0 : (screen_h / 2) - (win_h / 2); if (nx < sd->screen.x) nx = sd->screen.x; if (ny < sd->screen.y) ny = sd->screen.y; evas_object_move(obj, nx, ny); } EOLIAN static void _elm_win_borderless_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool borderless) { const char *engine_name = ecore_evas_engine_name_get(sd->ee); Eina_Bool need_frame = engine_name && ((!strcmp(engine_name, ELM_WAYLAND_SHM)) || (!strcmp(engine_name, ELM_WAYLAND_EGL))); if (need_frame) need_frame = !sd->fullscreen; if (borderless) { if (need_frame) _elm_win_frame_del(sd); } else { if (need_frame) _elm_win_frame_add(sd, "default"); if (sd->frame_obj) evas_object_show(sd->frame_obj); } TRAP(sd, borderless_set, borderless); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_borderless_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return ecore_evas_borderless_get(sd->ee); } EOLIAN static void _elm_win_shaped_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool shaped) { TRAP(sd, shaped_set, shaped); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_shaped_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return ecore_evas_shaped_get(sd->ee); } EOLIAN static void _elm_win_alpha_set(Eo *obj, Elm_Win_Data *sd, Eina_Bool enabled) { sd->application_alpha = enabled; _elm_win_apply_alpha(obj, sd); } EOLIAN static Eina_Bool _elm_win_alpha_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { if (sd->img_obj) { return evas_object_image_alpha_get(sd->img_obj); } else { return ecore_evas_alpha_get(sd->ee); } return EINA_FALSE; } EOLIAN static void _elm_win_override_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool override) { TRAP(sd, override_set, override); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_override_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return ecore_evas_override_get(sd->ee); } EOLIAN static void _elm_win_fullscreen_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool fullscreen) { const char *engine_name = ecore_evas_engine_name_get(sd->ee); // YYY: handle if sd->img_obj if (engine_name && ((!strcmp(engine_name, ELM_SOFTWARE_FB)) || (!strcmp(engine_name, ELM_DRM)))) { // these engines... can ONLY be fullscreen return; } else if (sd->type == ELM_WIN_FAKE) sd->fullscreen = !!fullscreen; else { // sd->fullscreen = fullscreen; Eina_Bool need_frame = engine_name && ((!strcmp(engine_name, ELM_WAYLAND_SHM)) || (!strcmp(engine_name, ELM_WAYLAND_EGL))); if (need_frame) need_frame = !ecore_evas_borderless_get(sd->ee); TRAP(sd, fullscreen_set, fullscreen); if (fullscreen) { if (need_frame) _elm_win_frame_del(sd); } else { if (need_frame) _elm_win_frame_add(sd, "default"); if (sd->frame_obj) evas_object_show(sd->frame_obj); } #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } } EOLIAN static Eina_Bool _elm_win_fullscreen_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { const char *engine_name = ecore_evas_engine_name_get(sd->ee); if (engine_name && ((!strcmp(engine_name, ELM_SOFTWARE_FB)) || (!strcmp(engine_name, ELM_DRM)))) { // these engines... can ONLY be fullscreen return EINA_TRUE; } return sd->fullscreen; } static void _dbus_menu_set(Eina_Bool dbus_connect, void *data) { ELM_WIN_DATA_GET_OR_RETURN(data, sd); if (dbus_connect) { DBG("Setting menu to D-Bus"); edje_object_part_unswallow(sd->edje, sd->main_menu); edje_object_signal_emit(sd->edje, "elm,action,hide_menu", "elm"); _elm_menu_menu_bar_hide(sd->main_menu); } else { DBG("Setting menu to local mode"); edje_object_part_swallow(sd->edje, "elm.swallow.menu", sd->main_menu); edje_object_signal_emit(sd->edje, "elm,action,show_menu", "elm"); evas_object_show(sd->main_menu); } } EOLIAN static Evas_Object * _elm_win_main_menu_get(Eo *obj, Elm_Win_Data *sd) { Eina_Bool use_dbus = EINA_FALSE; if (sd->main_menu) goto end; sd->main_menu = elm_menu_add(obj); _elm_menu_menu_bar_set(sd->main_menu, EINA_TRUE); #ifdef HAVE_ELEMENTARY_X if (!_elm_config->disable_external_menu && sd->x.xwin) use_dbus = EINA_TRUE; #endif #ifdef HAVE_ELEMENTARY_X if (use_dbus && _elm_dbus_menu_register(sd->main_menu)) { _elm_dbus_menu_app_menu_register(sd->x.xwin, sd->main_menu, _dbus_menu_set, obj); } else #endif _dbus_menu_set(EINA_FALSE, obj); end: return sd->main_menu; } EOLIAN static void _elm_win_maximized_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool maximized) { _elm_win_frame_maximized_state_update(sd, maximized); // YYY: handle if sd->img_obj TRAP(sd, maximized_set, maximized); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_maximized_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->maximized; } EOLIAN static void _elm_win_iconified_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool iconified) { // sd->iconified = iconified; TRAP(sd, iconified_set, iconified); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_iconified_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->iconified; } EOLIAN static void _elm_win_withdrawn_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool withdrawn) { // sd->withdrawn = withdrawn; TRAP(sd, withdrawn_set, withdrawn); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_withdrawn_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->withdrawn; } EOLIAN static void _elm_win_available_profiles_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char **profiles, unsigned int count) { Eina_Bool found = EINA_FALSE; _elm_win_available_profiles_del(sd); if ((profiles) && (count >= 1)) { sd->profile.available_list = calloc(count, sizeof(char *)); if (sd->profile.available_list) { if (!sd->profile.name) found = EINA_TRUE; unsigned int i; for (i = 0; i < count; i++) { sd->profile.available_list[i] = eina_stringshare_add(profiles[i]); /* check to see if a given array has a current profile of elm_win */ if ((sd->profile.name) && (!strcmp(sd->profile.name, profiles[i]))) { found = EINA_TRUE; } } sd->profile.count = count; } } if (ecore_evas_window_profile_supported_get(sd->ee)) { ecore_evas_window_available_profiles_set(sd->ee, sd->profile.available_list, sd->profile.count); /* current profile of elm_win is wrong, change profile */ if ((sd->profile.available_list) && (!found)) { eina_stringshare_replace(&(sd->profile.name), sd->profile.available_list[0]); ecore_evas_window_profile_set(sd->ee, sd->profile.name); } } else { if (sd->profile.available_list) _elm_win_profile_update(sd); } } EOLIAN static Eina_Bool _elm_win_available_profiles_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, char ***profiles, unsigned int *count) { if (ecore_evas_window_profile_supported_get(sd->ee)) { return ecore_evas_window_available_profiles_get(sd->ee, profiles, count); } else { if (profiles) *profiles = (char **)sd->profile.available_list; if (count) *count = sd->profile.count; return EINA_TRUE; } } EOLIAN static void _elm_win_profile_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *profile) { /* check to see if a given profile is present in an available profiles */ if ((profile) && (sd->profile.available_list)) { Eina_Bool found = EINA_FALSE; unsigned int i; for (i = 0; i < sd->profile.count; i++) { if (!strcmp(profile, sd->profile.available_list[i])) { found = EINA_TRUE; break; } } if (!found) return; } if (ecore_evas_window_profile_supported_get(sd->ee)) { if (!profile) _elm_win_profile_del(sd); ecore_evas_window_profile_set(sd->ee, profile); } else { if (_internal_elm_win_profile_set(sd, profile)) _elm_win_profile_update(sd); } } EOLIAN static const char* _elm_win_profile_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->profile.name; } EOLIAN static void _elm_win_urgent_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool urgent) { if (sd->urgent == urgent) return; sd->urgent = urgent; TRAP(sd, urgent_set, urgent); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_urgent_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->urgent; } EOLIAN static void _elm_win_demand_attention_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool demand_attention) { sd->demand_attention = demand_attention; TRAP(sd, demand_attention_set, demand_attention); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_demand_attention_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->demand_attention; } EOLIAN static void _elm_win_modal_set(Eo *obj, Elm_Win_Data *sd, Eina_Bool modal) { if (sd->modal_count) return; const Eina_List *l; Evas_Object *current; if ((modal) && (!sd->modal) && (evas_object_visible_get(obj))) { INCREMENT_MODALITY() } else if ((!modal) && (sd->modal) && (evas_object_visible_get(obj))) { DECREMENT_MODALITY() } sd->modal = modal; TRAP(sd, modal_set, modal); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_modal_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->modal; } EOLIAN static void _elm_win_aspect_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, double aspect) { sd->aspect = aspect; TRAP(sd, aspect_set, aspect); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static double _elm_win_aspect_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->aspect; } EOLIAN static void _elm_win_size_base_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int w, int h) { sd->size_base_w = w; sd->size_base_h = h; TRAP(sd, size_base_set, w, h); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static void _elm_win_size_base_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int *w, int *h) { if (w) *w = sd->size_base_w; if (h) *h = sd->size_base_h; } EOLIAN static void _elm_win_size_step_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int w, int h) { sd->size_step_w = w; sd->size_step_h = h; TRAP(sd, size_step_set, w, h); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static void _elm_win_size_step_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int *w, int *h) { if (w) *w = sd->size_step_w; if (h) *h = sd->size_step_h; } EOLIAN static void _elm_win_layer_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int layer) { TRAP(sd, layer_set, layer); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static int _elm_win_layer_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return ecore_evas_layer_get(sd->ee); } EAPI void elm_win_norender_push(Evas_Object *obj) { ELM_WIN_CHECK(obj); ELM_WIN_DATA_GET_OR_RETURN(obj, sd); sd->norender++; if (sd->norender == 1) ecore_evas_manual_render_set(sd->ee, EINA_TRUE); } EAPI void elm_win_norender_pop(Evas_Object *obj) { ELM_WIN_CHECK(obj); ELM_WIN_DATA_GET_OR_RETURN(obj, sd); if (sd->norender <= 0) return; sd->norender--; if (sd->norender == 0) ecore_evas_manual_render_set(sd->ee, EINA_FALSE); } EAPI int elm_win_norender_get(const Evas_Object *obj) { ELM_WIN_CHECK(obj) - 1; ELM_WIN_DATA_GET_OR_RETURN_VAL(obj, sd, -1); return sd->norender; } EAPI void elm_win_render(Evas_Object *obj) { ELM_WIN_CHECK(obj); ELM_WIN_DATA_GET_OR_RETURN(obj, sd); ecore_evas_manual_render(sd->ee); } static int _win_rotation_degree_check(int rotation) { if ((rotation > 360) || (rotation < 0)) { WRN("Rotation degree should be 0 ~ 360 (passed degree: %d)", rotation); rotation %= 360; if (rotation < 0) rotation += 360; } return rotation; } /* * This API resizes the internal window(ex: X window) and evas_output. * But this does not resize the elm window object and its contents. */ static void _win_rotate(Evas_Object *obj, Elm_Win_Data *sd, int rotation, Eina_Bool resize) { rotation = _win_rotation_degree_check(rotation); if (sd->rot == rotation) return; sd->rot = rotation; if (resize) TRAP(sd, rotation_with_resize_set, rotation); else TRAP(sd, rotation_set, rotation); evas_object_size_hint_min_set(obj, -1, -1); evas_object_size_hint_max_set(obj, -1, -1); _elm_win_resize_objects_eval(obj); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif _elm_win_frame_obj_update(sd); elm_widget_orientation_set(obj, rotation); eo_event_callback_call (obj, ELM_WIN_EVENT_ROTATION_CHANGED, NULL); } EOLIAN static void _elm_win_rotation_set(Eo *obj, Elm_Win_Data *sd, int rotation) { _win_rotate(obj, sd, rotation, EINA_FALSE); } /* * This API does not resize the internal window (ex: X window). * But this resizes evas_output, elm window, and its contents. */ EOLIAN static void _elm_win_rotation_with_resize_set(Eo *obj, Elm_Win_Data *sd, int rotation) { _win_rotate(obj, sd, rotation, EINA_TRUE); } EOLIAN static int _elm_win_rotation_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->rot; } EOLIAN static Eina_Bool _elm_win_wm_rotation_supported_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->wm_rot.wm_supported; } /* This will unset a preferred rotation, if given preferred rotation is '-1'. */ EAPI void elm_win_wm_rotation_preferred_rotation_set(const Evas_Object *obj, int rotation) { ELM_WIN_CHECK(obj); elm_obj_win_wm_preferred_rotation_set((Eo *) obj, rotation); } EOLIAN static void _elm_win_wm_preferred_rotation_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int rotation) { int rot; if (!sd->wm_rot.use) sd->wm_rot.use = EINA_TRUE; // '-1' means that elm_win doesn't use preferred rotation. if (rotation == -1) rot = -1; else rot = _win_rotation_degree_check(rotation); if (sd->wm_rot.preferred_rot == rot) return; sd->wm_rot.preferred_rot = rot; ecore_evas_wm_rotation_preferred_rotation_set(sd->ee, rot); } EOLIAN static int _elm_win_wm_preferred_rotation_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->wm_rot.preferred_rot; } EOLIAN static void _elm_win_wm_available_rotations_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const int *rotations, unsigned int count) { unsigned int i; int r; if (!sd->wm_rot.use) sd->wm_rot.use = EINA_TRUE; ELM_SAFE_FREE(sd->wm_rot.rots, free); sd->wm_rot.count = 0; if (count > 0) { sd->wm_rot.rots = calloc(count, sizeof(int)); if (!sd->wm_rot.rots) return; for (i = 0; i < count; i++) { r = _win_rotation_degree_check(rotations[i]); sd->wm_rot.rots[i] = r; } } sd->wm_rot.count = count; ecore_evas_wm_rotation_available_rotations_set(sd->ee, sd->wm_rot.rots, sd->wm_rot.count); } EOLIAN static Eina_Bool _elm_win_wm_available_rotations_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int **rotations, unsigned int *count) { if (!sd->wm_rot.use) return EINA_FALSE; if (sd->wm_rot.count > 0) { if (rotations) { *rotations = calloc(sd->wm_rot.count, sizeof(int)); if (*rotations) { memcpy(*rotations, sd->wm_rot.rots, sizeof(int) * sd->wm_rot.count); } } } if (count) *count = sd->wm_rot.count; return EINA_TRUE; } EOLIAN static void _elm_win_wm_manual_rotation_done_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool set) { if (!sd->wm_rot.use) return; ecore_evas_wm_rotation_manual_rotation_done_set(sd->ee, set); } EOLIAN static Eina_Bool _elm_win_wm_manual_rotation_done_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { if (!sd->wm_rot.use) return EINA_FALSE; return ecore_evas_wm_rotation_manual_rotation_done_get(sd->ee); } EOLIAN static void _elm_win_wm_manual_rotation_done_manual(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { if (!sd->wm_rot.use) return; ecore_evas_wm_rotation_manual_rotation_done(sd->ee); } EOLIAN static void _elm_win_sticky_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool sticky) { // sd->sticky = sticky; TRAP(sd, sticky_set, sticky); #ifdef HAVE_ELEMENTARY_X _elm_win_xwin_update(sd); #endif } EOLIAN static Eina_Bool _elm_win_sticky_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->sticky; } EOLIAN static void _elm_win_keyboard_mode_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Elm_Win_Keyboard_Mode mode) { if (mode == sd->kbdmode) return; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); #endif sd->kbdmode = mode; #ifdef HAVE_ELEMENTARY_X if (sd->x.xwin) ecore_x_e_virtual_keyboard_state_set (sd->x.xwin, (Ecore_X_Virtual_Keyboard_State)sd->kbdmode); #endif } EOLIAN static Elm_Win_Keyboard_Mode _elm_win_keyboard_mode_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->kbdmode; } EOLIAN static void _elm_win_keyboard_win_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool is_keyboard) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) ecore_x_e_virtual_keyboard_set(sd->x.xwin, is_keyboard); #else (void)is_keyboard; #endif } EOLIAN static Eina_Bool _elm_win_keyboard_win_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return ecore_x_e_virtual_keyboard_get(sd->x.xwin); #endif return EINA_FALSE; } EOLIAN static void _elm_win_indicator_mode_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Elm_Win_Indicator_Mode mode) { if (mode == sd->indmode) return; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); #endif sd->indmode = mode; #ifdef HAVE_ELEMENTARY_X if (sd->x.xwin) { if (sd->indmode == ELM_WIN_INDICATOR_SHOW) ecore_x_e_illume_indicator_state_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_STATE_ON); else if (sd->indmode == ELM_WIN_INDICATOR_HIDE) ecore_x_e_illume_indicator_state_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_STATE_OFF); } #endif eo_event_callback_call (obj, ELM_WIN_EVENT_INDICATOR_PROP_CHANGED, NULL); } EOLIAN static Elm_Win_Indicator_Mode _elm_win_indicator_mode_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->indmode; } EOLIAN static void _elm_win_indicator_opacity_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Elm_Win_Indicator_Opacity_Mode mode) { if (mode == sd->ind_o_mode) return; sd->ind_o_mode = mode; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) { if (sd->ind_o_mode == ELM_WIN_INDICATOR_OPAQUE) ecore_x_e_illume_indicator_opacity_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_OPAQUE); else if (sd->ind_o_mode == ELM_WIN_INDICATOR_TRANSLUCENT) ecore_x_e_illume_indicator_opacity_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_TRANSLUCENT); else if (sd->ind_o_mode == ELM_WIN_INDICATOR_TRANSPARENT) ecore_x_e_illume_indicator_opacity_set (sd->x.xwin, ECORE_X_ILLUME_INDICATOR_TRANSPARENT); } #endif eo_event_callback_call (obj, ELM_WIN_EVENT_INDICATOR_PROP_CHANGED, NULL); } EOLIAN static Elm_Win_Indicator_Opacity_Mode _elm_win_indicator_opacity_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->ind_o_mode; } EOLIAN static void _elm_win_screen_position_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int *x, int *y) { if (x) *x = sd->screen.x; if (y) *y = sd->screen.y; } EOLIAN static Eina_Bool _elm_win_focus_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return ecore_evas_focus_get(sd->ee); } EOLIAN static void _elm_win_screen_constrain_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool constrain) { sd->constrain = !!constrain; } EOLIAN static Eina_Bool _elm_win_screen_constrain_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->constrain; } EOLIAN static void _elm_win_screen_size_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int *x, int *y, int *w, int *h) { ecore_evas_screen_geometry_get(sd->ee, x, y, w, h); } EOLIAN static void _elm_win_screen_dpi_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int *xdpi, int *ydpi) { ecore_evas_screen_dpi_get(sd->ee, xdpi, ydpi); } EOLIAN static void _elm_win_conformant_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool conformant) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) ecore_x_e_illume_conformant_set(sd->x.xwin, conformant); #else (void)conformant; #endif } EOLIAN static Eina_Bool _elm_win_conformant_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return ecore_x_e_illume_conformant_get(sd->x.xwin); #endif return EINA_FALSE; } EOLIAN static void _elm_win_quickpanel_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool quickpanel) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) { ecore_x_e_illume_quickpanel_set(sd->x.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(sd->x.xwin, states, 2); ecore_x_icccm_hints_set(sd->x.xwin, 0, 0, 0, 0, 0, 0, 0); } } #else (void)quickpanel; #endif } EOLIAN static Eina_Bool _elm_win_quickpanel_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return ecore_x_e_illume_quickpanel_get(sd->x.xwin); #endif return EINA_FALSE; } EOLIAN static void _elm_win_quickpanel_priority_major_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int priority) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) ecore_x_e_illume_quickpanel_priority_major_set(sd->x.xwin, priority); #else (void)priority; #endif } EOLIAN static int _elm_win_quickpanel_priority_major_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return ecore_x_e_illume_quickpanel_priority_major_get(sd->x.xwin); #endif return -1; } EOLIAN static void _elm_win_quickpanel_priority_minor_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int priority) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) ecore_x_e_illume_quickpanel_priority_minor_set(sd->x.xwin, priority); #else (void)priority; #endif } EOLIAN static int _elm_win_quickpanel_priority_minor_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return ecore_x_e_illume_quickpanel_priority_minor_get(sd->x.xwin); #endif return -1; } EOLIAN static void _elm_win_quickpanel_zone_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, int zone) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) ecore_x_e_illume_quickpanel_zone_set(sd->x.xwin, zone); #else (void)zone; #endif } EOLIAN static int _elm_win_quickpanel_zone_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return ecore_x_e_illume_quickpanel_zone_get(sd->x.xwin); #endif return 0; } EOLIAN static void _elm_win_prop_focus_skip_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool skip) { sd->skip_focus = skip; TRAP(sd, focus_skip_set, skip); } EOLIAN static void _elm_win_illume_command_send(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Elm_Illume_Command command, void *params) { (void) params; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) { switch (command) { case ELM_ILLUME_COMMAND_FOCUS_BACK: ecore_x_e_illume_focus_back_send(sd->x.xwin); break; case ELM_ILLUME_COMMAND_FOCUS_FORWARD: ecore_x_e_illume_focus_forward_send(sd->x.xwin); break; case ELM_ILLUME_COMMAND_FOCUS_HOME: ecore_x_e_illume_focus_home_send(sd->x.xwin); break; case ELM_ILLUME_COMMAND_CLOSE: ecore_x_e_illume_close_send(sd->x.xwin); break; default: break; } } #else (void)command; #endif } EOLIAN static Eina_Bool _elm_win_keygrab_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *key, Evas_Modifier_Mask modifiers EINA_UNUSED, Evas_Modifier_Mask not_modifiers EINA_UNUSED, int priority EINA_UNUSED, Elm_Win_Keygrab_Mode grab_mode) { Eina_Bool ret = EINA_FALSE; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) { Ecore_X_Win_Keygrab_Mode x_grab_mode; switch (grab_mode) { case ELM_WIN_KEYGRAB_SHARED: x_grab_mode = ECORE_X_WIN_KEYGRAB_SHARED; break; case ELM_WIN_KEYGRAB_TOPMOST: x_grab_mode = ECORE_X_WIN_KEYGRAB_TOPMOST; break; case ELM_WIN_KEYGRAB_EXCLUSIVE: x_grab_mode = ECORE_X_WIN_KEYGRAB_EXCLUSIVE; break; case ELM_WIN_KEYGRAB_OVERRIDE_EXCLUSIVE: x_grab_mode = ECORE_X_WIN_KEYGRAB_OVERRIDE_EXCLUSIVE; break; default: return ret; } ret = ecore_x_window_keygrab_set(sd->x.xwin, key, 0, 0, 0, x_grab_mode); } #endif return ret; } EOLIAN static Eina_Bool _elm_win_keygrab_unset(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *key, Evas_Modifier_Mask modifiers EINA_UNUSED, Evas_Modifier_Mask not_modifiers EINA_UNUSED) { Eina_Bool ret = EINA_FALSE; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) ret = ecore_x_window_keygrab_unset(sd->x.xwin, key, 0, 0); #endif return ret; } EOLIAN static Evas_Object* _elm_win_inlined_image_object_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->img_obj; } EOLIAN static void _elm_win_focus_highlight_enabled_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool enabled) { enabled = !!enabled; if (sd->focus_highlight.enabled == enabled) return; sd->focus_highlight.enabled = enabled; if ((sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled)) _elm_win_focus_highlight_init(sd); else _elm_win_focus_highlight_shutdown(sd); } EOLIAN static Eina_Bool _elm_win_focus_highlight_enabled_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->focus_highlight.enabled; } static Eina_Bool _elm_win_theme_internal(Eo *obj, Elm_Win_Data *sd) { Eina_Bool ret = EINA_FALSE; const char *s; if (!_elm_theme_object_set(obj, sd->edje, "win", "base", elm_widget_style_get(obj))) return EINA_FALSE; edje_object_mirrored_set(sd->edje, elm_widget_mirrored_get(obj)); edje_object_scale_set(sd->edje, elm_widget_scale_get(obj) * elm_config_scale_get()); eo_event_callback_call(obj, ELM_WIN_EVENT_THEME_CHANGED, NULL); ret = elm_obj_widget_disable(obj); if (!sd->theme_alpha && !sd->application_alpha) { s = edje_object_data_get(sd->edje, "alpha"); if (s) { if (!strcmp(s, "1") || !strcmp(s, "true")) { sd->application_alpha = 1; _elm_win_apply_alpha(obj, sd); } } } return ret; } EOLIAN static Eina_Bool _elm_win_elm_widget_theme_apply(Eo *obj, Elm_Win_Data *sd) { Eina_Bool int_ret = EINA_FALSE; int_ret = elm_obj_widget_theme_apply(eo_super(obj, MY_CLASS)); if (!int_ret) return EINA_FALSE; sd->focus_highlight.theme_changed = EINA_TRUE; if (!_elm_win_theme_internal(obj, sd)) return EINA_FALSE; _elm_win_focus_highlight_reconfigure_job_start(sd); return EINA_TRUE; } EOLIAN static void _elm_win_focus_highlight_style_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *style) { eina_stringshare_replace(&sd->focus_highlight.style, style); sd->focus_highlight.theme_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(sd); } EOLIAN static const char* _elm_win_focus_highlight_style_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->focus_highlight.style; } EOLIAN static void _elm_win_focus_highlight_animate_set(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, Eina_Bool animate) { animate = !!animate; if (sd->focus_highlight.animate == animate) return; sd->focus_highlight.animate = animate; sd->focus_highlight.theme_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job_start(sd); } EOLIAN static Eina_Bool _elm_win_focus_highlight_animate_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { return sd->focus_highlight.animate; } EOLIAN static Eina_Bool _elm_win_socket_listen(Eo *obj EINA_UNUSED, Elm_Win_Data *sd, const char *svcname, int svcnum, Eina_Bool svcsys) { if (!sd->ee) return EINA_FALSE; if (!ecore_evas_extn_socket_listen(sd->ee, svcname, svcnum, svcsys)) return EINA_FALSE; return EINA_TRUE; } /* windowing specific calls - shall we do this differently? */ EOLIAN static Ecore_X_Window _elm_win_xwindow_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #ifdef HAVE_ELEMENTARY_X if (sd->x.xwin) return sd->x.xwin; if (sd->parent) return elm_win_xwindow_get(sd->parent); #endif return 0; } EAPI Ecore_Wl2_Window * elm_win_wl_window_get(const Evas_Object *obj) { ELM_WIN_CHECK(obj) NULL; ELM_WIN_DATA_GET_OR_RETURN_VAL(obj, sd, NULL); const char *engine_name = ecore_evas_engine_name_get(sd->ee); if (!(engine_name && ((!strcmp(engine_name, ELM_WAYLAND_SHM)) || (!strcmp(engine_name, ELM_WAYLAND_EGL))))) return NULL; if (!evas_object_smart_type_check_ptr(obj, MY_CLASS_NAME_LEGACY)) { Ecore_Evas *ee = ecore_evas_ecore_evas_get(evas_object_evas_get(obj)); return _elm_ee_wlwin_get(ee); } Ecore_Wl2_Window *ret = NULL; ret = elm_obj_win_wl_window_get((Eo *) obj); return ret; } EOLIAN static Ecore_Cocoa_Window * _elm_win_cocoa_window_get(Eo *obj, Elm_Win_Data *sd) { const char *engine_name = ecore_evas_engine_name_get(sd->ee); if (!engine_name) return NULL; if (strcmp(engine_name, "gl_cocoa") != 0 && strcmp(engine_name, "opengl_cocoa") != 0) return NULL; Ecore_Evas *ee = ecore_evas_ecore_evas_get(evas_object_evas_get(obj)); return _elm_ee_cocoa_win_get(ee); } EOLIAN static Ecore_Wl2_Window* _elm_win_wl_window_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #if HAVE_ELEMENTARY_WL2 if (sd->wl.win) return sd->wl.win; if (sd->parent) return elm_win_wl_window_get(sd->parent); #else (void)sd; #endif return NULL; } EAPI Ecore_Win32_Window * elm_win_win32_window_get(const Evas_Object *obj) { ELM_WIN_CHECK(obj) NULL; ELM_WIN_DATA_GET_OR_RETURN_VAL(obj, sd, NULL); const char *engine_name = ecore_evas_engine_name_get(sd->ee); if (!(engine_name && ((!strcmp(engine_name, ELM_SOFTWARE_WIN32)) || (!strcmp(engine_name, ELM_SOFTWARE_DDRAW))))) return NULL; if (!evas_object_smart_type_check_ptr(obj, MY_CLASS_NAME_LEGACY)) { Ecore_Evas *ee = ecore_evas_ecore_evas_get(evas_object_evas_get(obj)); return _elm_ee_win32win_get(ee); } Ecore_Win32_Window *ret = NULL; ret = elm_obj_win_win32_window_get((Eo *) obj); return ret; } EOLIAN static Ecore_Win32_Window * _elm_win_win32_window_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { #if HAVE_ELEMENTARY_WIN32 if (sd->win32.win) return sd->win32.win; if (sd->parent) return elm_win_win32_window_get(sd->parent); #else (void)sd; #endif return NULL; } EAPI Eina_Bool elm_win_trap_set(const Elm_Win_Trap *t) { DBG("old %p, new %p", trap, t); if ((t) && (t->version != ELM_WIN_TRAP_VERSION)) { CRI("trying to set a trap version %lu while %lu was expected!", t->version, ELM_WIN_TRAP_VERSION); return EINA_FALSE; } trap = t; return EINA_TRUE; } EAPI void elm_win_floating_mode_set(Evas_Object *obj, Eina_Bool floating) { ELM_WIN_CHECK(obj); ELM_WIN_DATA_GET_OR_RETURN(obj, sd); floating = !!floating; if (floating == sd->floating) return; sd->floating = floating; #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) { if (sd->floating) ecore_x_e_illume_window_state_set (sd->x.xwin, ECORE_X_ILLUME_WINDOW_STATE_FLOATING); else ecore_x_e_illume_window_state_set (sd->x.xwin, ECORE_X_ILLUME_WINDOW_STATE_NORMAL); } #endif } EAPI Eina_Bool elm_win_floating_mode_get(const Evas_Object *obj) { ELM_WIN_CHECK(obj) EINA_FALSE; ELM_WIN_DATA_GET_OR_RETURN_VAL(obj, sd, EINA_FALSE); return sd->floating; } EOLIAN static Ecore_Window _elm_win_window_id_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd) { const char *engine_name = ecore_evas_engine_name_get(sd->ee); if ((engine_name && ((!strcmp(engine_name, ELM_WAYLAND_SHM)) || (!strcmp(engine_name, ELM_WAYLAND_EGL))))) { #if HAVE_ELEMENTARY_WL2 if (sd->wl.win) return (Ecore_Window)ecore_wl2_window_id_get(sd->wl.win); if (sd->parent) { Ecore_Wl2_Window *parent; parent = elm_win_wl_window_get(sd->parent); if (parent) return (Ecore_Window)ecore_wl2_window_id_get(parent); return 0; } #endif } else if ((engine_name && ((!strcmp(engine_name, ELM_SOFTWARE_X11)) || (!strcmp(engine_name, ELM_OPENGL_X11))))) { #ifdef HAVE_ELEMENTARY_X _internal_elm_win_xwindow_get(sd); if (sd->x.xwin) return (Ecore_Window)sd->x.xwin; if (sd->parent) return (Ecore_Window)elm_win_xwindow_get(sd->parent); #endif } else if (engine_name && ((!strcmp(engine_name, ELM_OPENGL_COCOA)) || (!strcmp(engine_name, "gl_cocoa")))) { #ifdef HAVE_ELEMENTARY_COCOA if (sd->cocoa.win) return (Ecore_Window)(sd->cocoa.win); if (sd->parent) { Ecore_Cocoa_Window *pwin; pwin = elm_obj_win_cocoa_window_get(sd->parent); return (Ecore_Window)pwin; } #endif } else if ((engine_name && ((!strcmp(engine_name, ELM_SOFTWARE_WIN32)) || (!strcmp(engine_name, ELM_SOFTWARE_DDRAW))))) { #ifdef HAVE_ELEMENTARY_WIN32 _internal_elm_win_win32window_get(sd); if (sd->win32.win) return (Ecore_Window)sd->win32.win; if (sd->parent) return (Ecore_Window)elm_win_win32_window_get(sd->parent); #endif } return 0; } void _elm_win_focus_highlight_in_theme_update(Evas_Object *obj, Eina_Bool in_theme) { ELM_WIN_DATA_GET(obj, sd); sd->focus_highlight.cur.in_theme = !!in_theme; } void _elm_win_focus_highlight_start(Evas_Object *obj) { ELM_WIN_DATA_GET(obj, sd); if (!(sd->focus_highlight.enabled) && !(sd->focus_highlight.auto_enabled)) return; sd->focus_highlight.cur.visible = EINA_TRUE; sd->focus_highlight.geometry_changed = EINA_TRUE; _elm_win_focus_highlight_reconfigure_job(obj); } void _elm_win_focus_auto_show(Evas_Object *obj) { ELM_WIN_DATA_GET(obj, sd); Eina_Bool pfocus = (sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled); sd->focus_highlight.auto_enabled = _elm_config->win_auto_focus_enable; sd->focus_highlight.auto_animate = _elm_config->win_auto_focus_animate; if (pfocus != ((sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled))) { if ((sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled)) _elm_win_focus_highlight_init(sd); } } void _elm_win_focus_auto_hide(Evas_Object *obj) { ELM_WIN_DATA_GET(obj, sd); Eina_Bool pfocus = (sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled); sd->focus_highlight.auto_enabled = EINA_FALSE; sd->focus_highlight.auto_animate = EINA_FALSE; if (pfocus != ((sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled))) { if (!((sd->focus_highlight.enabled) || (sd->focus_highlight.auto_enabled))) _elm_win_focus_highlight_shutdown(sd); } } EAPI Ecore_Window elm_win_window_id_get(const Evas_Object *obj) { if (!obj) return 0; if (!evas_object_smart_type_check_ptr(obj, MY_CLASS_NAME_LEGACY)) { Ecore_Evas *ee = ecore_evas_ecore_evas_get(evas_object_evas_get(obj)); return ecore_evas_window_get(ee); } ELM_WIN_CHECK(obj) 0; Ecore_Window ret = 0; ret = elm_obj_win_window_id_get((Eo *) obj); return ret; } static Eina_Bool _on_atspi_bus_connected(void *data EINA_UNUSED, const Eo_Event *event EINA_UNUSED) { Evas_Object *win; Eina_List *l; EINA_LIST_FOREACH(_elm_win_list, l, win) { /** * Reemit accessibility events when AT-SPI2 connection is begin * established. This assures that Assistive Technology clients will * receive all org.a11y.window events and could keep track of active * windows whithin system. */ elm_interface_atspi_window_created_signal_emit(win); if (elm_win_focus_get(win)) { elm_interface_atspi_window_activated_signal_emit(win); /** Reemit focused event to inform atspi clients about currently * focused object **/ unsigned int order = 0; Evas_Object *target; target = elm_obj_widget_newest_focus_order_get(win, &order, EINA_TRUE); if (target) elm_interface_atspi_accessible_state_changed_signal_emit(target, ELM_ATSPI_STATE_FOCUSED, EINA_TRUE); } else elm_interface_atspi_window_deactivated_signal_emit(win); } return EINA_TRUE; } EOLIAN static void _elm_win_class_constructor(Eo_Class *klass) { evas_smart_legacy_type_register(MY_CLASS_NAME_LEGACY, klass); if (_elm_config->atspi_mode) { Eo *bridge = _elm_atspi_bridge_get(); if (bridge) eo_event_callback_add(bridge, ELM_ATSPI_BRIDGE_EVENT_CONNECTED, _on_atspi_bus_connected, NULL); } } EOLIAN static Eo* _elm_win_elm_interface_atspi_accessible_parent_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd EINA_UNUSED) { // attach all kinds of windows directly to ATSPI application root object Eo *root; root = elm_interface_atspi_accessible_root_get(ELM_INTERFACE_ATSPI_ACCESSIBLE_MIXIN); return root; } EOLIAN static const Elm_Atspi_Action* _elm_win_elm_interface_atspi_widget_action_elm_actions_get(Eo *obj EINA_UNUSED, Elm_Win_Data *sd EINA_UNUSED) { static Elm_Atspi_Action atspi_actions[] = { { "move,previous", "move", "previous", _key_action_move}, { "move,next", "move", "next", _key_action_move}, { "move,left", "move", "left", _key_action_move}, { "move,right", "move", "right", _key_action_move}, { "move,up", "move", "up", _key_action_move}, { "move,down", "move", "down", _key_action_move}, { NULL, NULL, NULL, NULL } }; return &atspi_actions[0]; } EOLIAN static Elm_Atspi_State_Set _elm_win_elm_interface_atspi_accessible_state_set_get(Eo *obj, Elm_Win_Data *sd EINA_UNUSED) { Elm_Atspi_State_Set ret; ret = elm_interface_atspi_accessible_state_set_get(eo_super(obj, MY_CLASS)); if (elm_win_focus_get(obj)) STATE_TYPE_SET(ret, ELM_ATSPI_STATE_ACTIVE); return ret; } EOLIAN static char* _elm_win_elm_interface_atspi_accessible_name_get(Eo *obj, Elm_Win_Data *sd EINA_UNUSED) { char *ret; ret = elm_interface_atspi_accessible_name_get(eo_super(obj, ELM_WIN_CLASS)); if (ret) return ret; const char *name = elm_win_title_get(obj); return name ? strdup(name) : NULL; } #include "elm_win.eo.c"