#include #include "elm_priv.h" #include "elm_widget_calendar.h" EAPI const char ELM_CALENDAR_SMART_NAME[] = "elm_calendar"; static const char SIG_CHANGED[] = "changed"; static const Evas_Smart_Cb_Description _smart_callbacks[] = { {SIG_CHANGED, ""}, {NULL, NULL} }; /* Should not be translated, it's used if we failed * getting from locale. */ static const char *_days_abbrev[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }; static int _days_in_month[2][12] = { {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}, {31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31} }; EVAS_SMART_SUBCLASS_NEW (ELM_CALENDAR_SMART_NAME, _elm_calendar, Elm_Calendar_Smart_Class, Elm_Layout_Smart_Class, elm_layout_smart_class_get, _smart_callbacks); static Elm_Calendar_Mark * _mark_new(Evas_Object *obj, const char *mark_type, struct tm *mark_time, Elm_Calendar_Mark_Repeat_Type repeat) { Elm_Calendar_Mark *mark; mark = calloc(1, sizeof(Elm_Calendar_Mark)); if (!mark) return NULL; mark->obj = obj; mark->mark_type = eina_stringshare_add(mark_type); mark->mark_time = *mark_time; mark->repeat = repeat; return mark; } static inline void _mark_free(Elm_Calendar_Mark *mark) { eina_stringshare_del(mark->mark_type); free(mark); } static void _elm_calendar_smart_sizing_eval(Evas_Object *obj) { Evas_Coord minw = -1, minh = -1; ELM_CALENDAR_DATA_GET(obj, sd); elm_coords_finger_size_adjust(8, &minw, ELM_DAY_LAST, &minh); edje_object_size_min_restricted_calc (ELM_WIDGET_DATA(sd)->resize_obj, &minw, &minh, minw, minh); evas_object_size_hint_min_set(obj, minw, minh); evas_object_size_hint_max_set(obj, -1, -1); } static inline int _maxdays_get(struct tm *selected_time) { int month, year; month = selected_time->tm_mon; year = selected_time->tm_year + 1900; return _days_in_month [((!(year % 4)) && ((!(year % 400)) || (year % 100)))][month]; } static inline void _unselect(Evas_Object *obj, int selected) { char emission[32]; snprintf(emission, sizeof(emission), "cit_%i,unselected", selected); elm_layout_signal_emit(obj, emission, "elm"); } static inline void _select(Evas_Object *obj, int selected) { char emission[32]; ELM_CALENDAR_DATA_GET(obj, sd); sd->selected_it = selected; snprintf(emission, sizeof(emission), "cit_%i,selected", selected); elm_layout_signal_emit(obj, emission, "elm"); } static inline void _not_today(Elm_Calendar_Smart_Data *sd) { char emission[32]; snprintf(emission, sizeof(emission), "cit_%i,not_today", sd->today_it); elm_layout_signal_emit(ELM_WIDGET_DATA(sd)->obj, emission, "elm"); sd->today_it = -1; } static inline void _today(Elm_Calendar_Smart_Data *sd, int it) { char emission[32]; snprintf(emission, sizeof(emission), "cit_%i,today", it); elm_layout_signal_emit(ELM_WIDGET_DATA(sd)->obj, emission, "elm"); sd->today_it = it; } static char * _format_month_year(struct tm *selected_time) { char buf[32]; if (!strftime(buf, sizeof(buf), E_("%B %Y"), selected_time)) return NULL; return strdup(buf); } static inline void _cit_mark(Evas_Object *cal, int cit, const char *mtype) { char sign[64]; snprintf(sign, sizeof(sign), "cit_%i,%s", cit, mtype); elm_layout_signal_emit(cal, sign, "elm"); } static inline int _weekday_get(int first_week_day, int day) { return (day + first_week_day - 1) % ELM_DAY_LAST; } // EINA_DEPRECATED static void _text_day_color_update(Elm_Calendar_Smart_Data *sd, int pos) { char emission[32]; switch (sd->day_color[pos]) { case DAY_WEEKDAY: snprintf(emission, sizeof(emission), "cit_%i,weekday", pos); break; case DAY_SATURDAY: snprintf(emission, sizeof(emission), "cit_%i,saturday", pos); break; case DAY_SUNDAY: snprintf(emission, sizeof(emission), "cit_%i,sunday", pos); break; default: return; } elm_layout_signal_emit(ELM_WIDGET_DATA(sd)->obj, emission, "elm"); } static void _set_month_year(Elm_Calendar_Smart_Data *sd) { char *buf; /* Set selected month */ buf = sd->format_func(&sd->shown_time); if (buf) { elm_layout_text_set(ELM_WIDGET_DATA(sd)->obj, "month_text", buf); free(buf); } else elm_layout_text_set(ELM_WIDGET_DATA(sd)->obj, "month_text", ""); } static void _populate(Evas_Object *obj) { int maxdays, day, mon, yr, i; Elm_Calendar_Mark *mark; char part[12], day_s[3]; struct tm first_day; Eina_List *l; Eina_Bool last_row = EINA_TRUE; ELM_CALENDAR_DATA_GET(obj, sd); elm_layout_freeze(obj); if (sd->today_it > 0) _not_today(sd); maxdays = _maxdays_get(&sd->shown_time); mon = sd->shown_time.tm_mon; yr = sd->shown_time.tm_year; _set_month_year(sd); /* Set days */ day = 0; first_day = sd->shown_time; first_day.tm_mday = 1; mktime(&first_day); // Layout of the calendar is changed for removing the unfilled last row. if (first_day.tm_wday < (int)sd->first_week_day) sd->first_day_it = first_day.tm_wday + ELM_DAY_LAST - sd->first_week_day; else sd->first_day_it = first_day.tm_wday - sd->first_week_day; if ((35 - sd->first_day_it) > (maxdays - 1)) last_row = EINA_FALSE; if (!last_row) { char emission[32]; for (i = 0; i < 5; i++) { snprintf(emission, sizeof(emission), "cseph_%i,row_hide", i); elm_layout_signal_emit(obj, emission, "elm"); } snprintf(emission, sizeof(emission), "cseph_%i,row_invisible", 5); elm_layout_signal_emit(obj, emission, "elm"); for (i = 0; i < 35; i++) { snprintf(emission, sizeof(emission), "cit_%i,cell_expanded", i); elm_layout_signal_emit(obj, emission, "elm"); } for (i = 35; i < 42; i++) { snprintf(emission, sizeof(emission), "cit_%i,cell_invisible", i); elm_layout_signal_emit(obj, emission, "elm"); } } else { char emission[32]; for (i = 0; i < 6; i++) { snprintf(emission, sizeof(emission), "cseph_%i,row_show", i); elm_layout_signal_emit(obj, emission, "elm"); } for (i = 0; i < 42; i++) { snprintf(emission, sizeof(emission), "cit_%i,cell_default", i); elm_layout_signal_emit(obj, emission, "elm"); } } for (i = 0; i < 42; i++) { _text_day_color_update(sd, i); // EINA_DEPRECATED if ((!day) && (i == sd->first_day_it)) day = 1; if ((day == sd->current_time.tm_mday) && (mon == sd->current_time.tm_mon) && (yr == sd->current_time.tm_year)) _today(sd, i); if (day == sd->selected_time.tm_mday) { if ((sd->selected_it > -1) && (sd->selected_it != i)) _unselect(obj, sd->selected_it); if (sd->select_mode == ELM_CALENDAR_SELECT_MODE_ONDEMAND) { if ((mon == sd->selected_time.tm_mon) && (yr == sd->selected_time.tm_year) && (sd->selected)) { _select(obj, i); } } else if (sd->select_mode != ELM_CALENDAR_SELECT_MODE_NONE) { _select(obj, i); } } if ((day) && (day <= maxdays)) snprintf(day_s, sizeof(day_s), "%i", day++); else day_s[0] = 0; snprintf(part, sizeof(part), "cit_%i.text", i); elm_layout_text_set(obj, part, day_s); /* Clear previous marks */ _cit_mark(obj, i, "clear"); } /* Set marks */ EINA_LIST_FOREACH (sd->marks, l, mark) { struct tm *mtime = &mark->mark_time; int month = sd->shown_time.tm_mon; int year = sd->shown_time.tm_year; int mday_it = mtime->tm_mday + sd->first_day_it - 1; switch (mark->repeat) { case ELM_CALENDAR_UNIQUE: if ((mtime->tm_mon == month) && (mtime->tm_year == year)) _cit_mark(obj, mday_it, mark->mark_type); break; case ELM_CALENDAR_DAILY: if (((mtime->tm_year == year) && (mtime->tm_mon < month)) || (mtime->tm_year < year)) day = 1; else if ((mtime->tm_year == year) && (mtime->tm_mon == month)) day = mtime->tm_mday; else break; for (; day <= maxdays; day++) _cit_mark(obj, day + sd->first_day_it - 1, mark->mark_type); break; case ELM_CALENDAR_WEEKLY: if (((mtime->tm_year == year) && (mtime->tm_mon < month)) || (mtime->tm_year < year)) day = 1; else if ((mtime->tm_year == year) && (mtime->tm_mon == month)) day = mtime->tm_mday; else break; for (; day <= maxdays; day++) if (mtime->tm_wday == _weekday_get(sd->first_day_it, day)) _cit_mark(obj, day + sd->first_day_it - 1, mark->mark_type); break; case ELM_CALENDAR_MONTHLY: if (((mtime->tm_year < year) || ((mtime->tm_year == year) && (mtime->tm_mon <= month))) && (mtime->tm_mday <= maxdays)) _cit_mark(obj, mday_it, mark->mark_type); break; case ELM_CALENDAR_ANNUALLY: if ((mtime->tm_year <= year) && (mtime->tm_mon == month) && (mtime->tm_mday <= maxdays)) _cit_mark(obj, mday_it, mark->mark_type); break; case ELM_CALENDAR_LAST_DAY_OF_MONTH: if (((mtime->tm_year < year) || ((mtime->tm_year == year) && (mtime->tm_mon <= month)))) _cit_mark(obj, maxdays + sd->first_day_it - 1, mark->mark_type); break; } } elm_layout_thaw(obj); } static void _set_headers(Evas_Object *obj) { static char part[] = "ch_0.text"; int i; ELM_CALENDAR_DATA_GET(obj, sd); elm_layout_freeze(obj); for (i = 0; i < ELM_DAY_LAST; i++) { part[3] = i + '0'; elm_layout_text_set (obj, part, sd->weekdays[(i + sd->first_week_day) % ELM_DAY_LAST]); } elm_layout_thaw(obj); } static Eina_Bool _elm_calendar_smart_theme(Evas_Object *obj) { if (!ELM_WIDGET_CLASS(_elm_calendar_parent_sc)->theme(obj)) return EINA_FALSE; evas_object_smart_changed(obj); return EINA_TRUE; } /* Set correct tm_wday and tm_yday after other fields changes*/ static inline void _fix_selected_time(Elm_Calendar_Smart_Data *sd) { if (sd->selected_time.tm_mon != sd->shown_time.tm_mon) sd->selected_time.tm_mon = sd->shown_time.tm_mon; if (sd->selected_time.tm_year != sd->shown_time.tm_year) sd->selected_time.tm_year = sd->shown_time.tm_year; mktime(&sd->selected_time); } static Eina_Bool _update_month(Evas_Object *obj, int delta) { struct tm time_check; int maxdays; ELM_CALENDAR_DATA_GET(obj, sd); /* check if it's a valid time. for 32 bits, year greater than 2037 is not */ time_check = sd->shown_time; time_check.tm_mon += delta; if (mktime(&time_check) == -1) return EINA_FALSE; sd->shown_time.tm_mon += delta; if (sd->shown_time.tm_mon < 0) { if (sd->shown_time.tm_year == sd->year_min) { sd->shown_time.tm_mon++; return EINA_FALSE; } sd->shown_time.tm_mon = 11; sd->shown_time.tm_year--; } else if (sd->shown_time.tm_mon > 11) { if (sd->shown_time.tm_year == sd->year_max) { sd->shown_time.tm_mon--; return EINA_FALSE; } sd->shown_time.tm_mon = 0; sd->shown_time.tm_year++; } if ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_ONDEMAND) && (sd->select_mode != ELM_CALENDAR_SELECT_MODE_NONE)) { maxdays = _maxdays_get(&sd->shown_time); if (sd->selected_time.tm_mday > maxdays) sd->selected_time.tm_mday = maxdays; _fix_selected_time(sd); evas_object_smart_callback_call(obj, SIG_CHANGED, NULL); } return EINA_TRUE; } static Eina_Bool _spin_value(void *data) { ELM_CALENDAR_DATA_GET(data, sd); if (_update_month(data, sd->spin_speed)) evas_object_smart_changed(data); sd->interval = sd->interval / 1.05; ecore_timer_interval_set(sd->spin, sd->interval); return ECORE_CALLBACK_RENEW; } static void _button_inc_start(void *data, Evas_Object *obj __UNUSED__, const char *emission __UNUSED__, const char *source __UNUSED__) { ELM_CALENDAR_DATA_GET(data, sd); sd->interval = sd->first_interval; sd->spin_speed = 1; if (sd->spin) ecore_timer_del(sd->spin); sd->spin = ecore_timer_add(sd->interval, _spin_value, data); _spin_value(data); } static void _button_dec_start(void *data, Evas_Object *obj __UNUSED__, const char *emission __UNUSED__, const char *source __UNUSED__) { ELM_CALENDAR_DATA_GET(data, sd); sd->interval = sd->first_interval; sd->spin_speed = -1; if (sd->spin) ecore_timer_del(sd->spin); sd->spin = ecore_timer_add(sd->interval, _spin_value, data); _spin_value(data); } static void _button_stop(void *data, Evas_Object *obj __UNUSED__, const char *emission __UNUSED__, const char *source __UNUSED__) { ELM_CALENDAR_DATA_GET(data, sd); sd->interval = sd->first_interval; if (sd->spin) ecore_timer_del(sd->spin); sd->spin = NULL; } static int _get_item_day(Evas_Object *obj, int selected_it) { int day; ELM_CALENDAR_DATA_GET(obj, sd); day = selected_it - sd->first_day_it + 1; if ((day < 0) || (day > _maxdays_get(&sd->shown_time))) return 0; return day; } static void _update_sel_it(Evas_Object *obj, int sel_it) { int day; ELM_CALENDAR_DATA_GET(obj, sd); if (sd->select_mode == ELM_CALENDAR_SELECT_MODE_NONE) return; day = _get_item_day(obj, sel_it); if (!day) return; _unselect(obj, sd->selected_it); if (!sd->selected) sd->selected = EINA_TRUE; sd->selected_time.tm_mday = day; _fix_selected_time(sd); _select(obj, sel_it); evas_object_smart_callback_call(obj, SIG_CHANGED, NULL); } static void _day_selected(void *data, Evas_Object *obj __UNUSED__, const char *emission __UNUSED__, const char *source) { int sel_it; ELM_CALENDAR_DATA_GET(data, sd); if (sd->select_mode == ELM_CALENDAR_SELECT_MODE_NONE) return; sel_it = atoi(source); _update_sel_it(data, sel_it); } static inline int _time_to_next_day(struct tm *t) { return ((((24 - t->tm_hour) * 60) - t->tm_min) * 60) - t->tm_sec; } static Eina_Bool _update_cur_date(void *data) { time_t current_time; int t, day; ELM_CALENDAR_DATA_GET(data, sd); if (sd->today_it > 0) _not_today(sd); current_time = time(NULL); localtime_r(¤t_time, &sd->current_time); t = _time_to_next_day(&sd->current_time); ecore_timer_interval_set(sd->update_timer, t); if ((sd->current_time.tm_mon != sd->shown_time.tm_mon) || (sd->current_time.tm_year != sd->shown_time.tm_year)) return ECORE_CALLBACK_RENEW; day = sd->current_time.tm_mday + sd->first_day_it - 1; _today(sd, day); return ECORE_CALLBACK_RENEW; } static Eina_Bool _elm_calendar_smart_event(Evas_Object *obj, Evas_Object *src __UNUSED__, Evas_Callback_Type type, void *event_info) { Evas_Event_Key_Down *ev = event_info; ELM_CALENDAR_DATA_GET(obj, sd); if (type != EVAS_CALLBACK_KEY_DOWN) return EINA_FALSE; if (elm_widget_disabled_get(obj)) return EINA_FALSE; if ((!strcmp(ev->keyname, "Prior")) || ((!strcmp(ev->keyname, "KP_Prior")) && (!ev->string))) { if (_update_month(obj, -1)) _populate(obj); } else if ((!strcmp(ev->keyname, "Next")) || ((!strcmp(ev->keyname, "KP_Next")) && (!ev->string))) { if (_update_month(obj, 1)) _populate(obj); } else if ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_NONE) && ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_ONDEMAND) || (sd->selected))) { if ((!strcmp(ev->keyname, "Left")) || ((!strcmp(ev->keyname, "KP_Left")) && (!ev->string))) { if ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_ONDEMAND) || ((sd->shown_time.tm_year == sd->selected_time.tm_year) && (sd->shown_time.tm_mon == sd->selected_time.tm_mon))) _update_sel_it(obj, sd->selected_it - 1); } else if ((!strcmp(ev->keyname, "Right")) || ((!strcmp(ev->keyname, "KP_Right")) && (!ev->string))) { if ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_ONDEMAND) || ((sd->shown_time.tm_year == sd->selected_time.tm_year) && (sd->shown_time.tm_mon == sd->selected_time.tm_mon))) _update_sel_it(obj, sd->selected_it + 1); } else if ((!strcmp(ev->keyname, "Up")) || ((!strcmp(ev->keyname, "KP_Up")) && (!ev->string))) { if ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_ONDEMAND) || ((sd->shown_time.tm_year == sd->selected_time.tm_year) && (sd->shown_time.tm_mon == sd->selected_time.tm_mon))) _update_sel_it(obj, sd->selected_it - ELM_DAY_LAST); } else if ((!strcmp(ev->keyname, "Down")) || ((!strcmp(ev->keyname, "KP_Down")) && (!ev->string))) { if ((sd->select_mode != ELM_CALENDAR_SELECT_MODE_ONDEMAND) || ((sd->shown_time.tm_year == sd->selected_time.tm_year) && (sd->shown_time.tm_mon == sd->selected_time.tm_mon))) _update_sel_it(obj, sd->selected_it + ELM_DAY_LAST); } else return EINA_FALSE; } else return EINA_FALSE; return EINA_TRUE; } static void _elm_calendar_smart_calculate(Evas_Object *obj) { elm_layout_freeze(obj); _set_headers(obj); _populate(obj); elm_layout_thaw(obj); } static void _elm_calendar_smart_add(Evas_Object *obj) { time_t weekday = 259200; /* Just the first sunday since epoch */ time_t current_time; int i, t; EVAS_SMART_DATA_ALLOC(obj, Elm_Calendar_Smart_Data); ELM_WIDGET_CLASS(_elm_calendar_parent_sc)->base.add(obj); priv->first_interval = 0.85; priv->year_min = 2; priv->year_max = -1; priv->today_it = -1; priv->selected_it = -1; priv->first_day_it = -1; priv->format_func = _format_month_year; priv->marks = NULL; edje_object_signal_callback_add (ELM_WIDGET_DATA(priv)->resize_obj, "elm,action,increment,start", "*", _button_inc_start, obj); edje_object_signal_callback_add (ELM_WIDGET_DATA(priv)->resize_obj, "elm,action,decrement,start", "*", _button_dec_start, obj); edje_object_signal_callback_add (ELM_WIDGET_DATA(priv)->resize_obj, "elm,action,stop", "*", _button_stop, obj); edje_object_signal_callback_add (ELM_WIDGET_DATA(priv)->resize_obj, "elm,action,selected", "*", _day_selected, obj); for (i = 0; i < ELM_DAY_LAST; i++) { /* FIXME: I'm not aware of a known max, so if it fails, * just make it larger. :| */ char buf[20]; /* I don't know of a better way of doing it */ if (strftime(buf, sizeof(buf), "%a", gmtime(&weekday))) { priv->weekdays[i] = eina_stringshare_add(buf); } else { /* If we failed getting day, get a default value */ priv->weekdays[i] = _days_abbrev[i]; WRN("Failed getting weekday name for '%s' from locale.", _days_abbrev[i]); } weekday += 86400; /* Advance by a day */ } current_time = time(NULL); localtime_r(¤t_time, &priv->shown_time); priv->current_time = priv->shown_time; priv->selected_time = priv->shown_time; t = _time_to_next_day(&priv->current_time); priv->update_timer = ecore_timer_add(t, _update_cur_date, obj); elm_widget_can_focus_set(obj, EINA_TRUE); elm_layout_theme_set(obj, "calendar", "base", elm_object_style_get(obj)); evas_object_smart_changed(obj); } static void _elm_calendar_smart_del(Evas_Object *obj) { int i; Elm_Calendar_Mark *mark; ELM_CALENDAR_DATA_GET(obj, sd); if (sd->spin) ecore_timer_del(sd->spin); if (sd->update_timer) ecore_timer_del(sd->update_timer); if (sd->marks) { EINA_LIST_FREE (sd->marks, mark) { _mark_free(mark); } } for (i = 0; i < ELM_DAY_LAST; i++) eina_stringshare_del(sd->weekdays[i]); ELM_WIDGET_CLASS(_elm_calendar_parent_sc)->base.del(obj); } static void _elm_calendar_smart_set_user(Elm_Calendar_Smart_Class *sc) { ELM_WIDGET_CLASS(sc)->base.add = _elm_calendar_smart_add; ELM_WIDGET_CLASS(sc)->base.del = _elm_calendar_smart_del; ELM_WIDGET_CLASS(sc)->base.calculate = _elm_calendar_smart_calculate; ELM_WIDGET_CLASS(sc)->theme = _elm_calendar_smart_theme; ELM_WIDGET_CLASS(sc)->event = _elm_calendar_smart_event; /* not a 'focus chain manager' */ ELM_WIDGET_CLASS(sc)->focus_next = NULL; ELM_WIDGET_CLASS(sc)->focus_direction = NULL; ELM_LAYOUT_CLASS(sc)->sizing_eval = _elm_calendar_smart_sizing_eval; } EAPI const Elm_Calendar_Smart_Class * elm_calendar_smart_class_get(void) { static Elm_Calendar_Smart_Class _sc = ELM_CALENDAR_SMART_CLASS_INIT_NAME_VERSION(ELM_CALENDAR_SMART_NAME); static const Elm_Calendar_Smart_Class *class = NULL; Evas_Smart_Class *esc = (Evas_Smart_Class *)&_sc; if (class) return class; _elm_calendar_smart_set(&_sc); esc->callbacks = _smart_callbacks; class = &_sc; return class; } EAPI Evas_Object * elm_calendar_add(Evas_Object *parent) { Evas_Object *obj; EINA_SAFETY_ON_NULL_RETURN_VAL(parent, NULL); obj = elm_widget_add(_elm_calendar_smart_class_new(), parent); if (!obj) return NULL; if (!elm_widget_sub_object_add(parent, obj)) ERR("could not add %p as sub object of %p", obj, parent); return obj; } EAPI void elm_calendar_weekdays_names_set(Evas_Object *obj, const char *weekdays[]) { int i; ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); EINA_SAFETY_ON_NULL_RETURN(weekdays); for (i = 0; i < ELM_DAY_LAST; i++) { eina_stringshare_replace(&sd->weekdays[i], weekdays[i]); } evas_object_smart_changed(obj); } EAPI const char ** elm_calendar_weekdays_names_get(const Evas_Object *obj) { ELM_CALENDAR_CHECK(obj) NULL; ELM_CALENDAR_DATA_GET_OR_RETURN_VAL(obj, sd, NULL); return sd->weekdays; } EAPI void elm_calendar_interval_set(Evas_Object *obj, double interval) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); sd->first_interval = interval; } EAPI double elm_calendar_interval_get(const Evas_Object *obj) { ELM_CALENDAR_CHECK(obj) 0.0; ELM_CALENDAR_DATA_GET_OR_RETURN_VAL(obj, sd, 0.0); return sd->first_interval; } EAPI void elm_calendar_min_max_year_set(Evas_Object *obj, int min, int max) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); min -= 1900; max -= 1900; if ((sd->year_min == min) && (sd->year_max == max)) return; sd->year_min = min > 2 ? min : 2; if (max > sd->year_min) sd->year_max = max; else sd->year_max = sd->year_min; if (sd->shown_time.tm_year > sd->year_max) sd->shown_time.tm_year = sd->year_max; if (sd->shown_time.tm_year < sd->year_min) sd->shown_time.tm_year = sd->year_min; evas_object_smart_changed(obj); } EAPI void elm_calendar_min_max_year_get(const Evas_Object *obj, int *min, int *max) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); if (min) *min = sd->year_min + 1900; if (max) *max = sd->year_max + 1900; } EINA_DEPRECATED EAPI void elm_calendar_day_selection_disabled_set(Evas_Object *obj, Eina_Bool disabled) { ELM_CALENDAR_CHECK(obj); if (disabled) elm_calendar_select_mode_set(obj, ELM_CALENDAR_SELECT_MODE_NONE); else elm_calendar_select_mode_set(obj, ELM_CALENDAR_SELECT_MODE_DEFAULT); } EINA_DEPRECATED EAPI Eina_Bool elm_calendar_day_selection_disabled_get(const Evas_Object *obj) { ELM_CALENDAR_CHECK(obj) EINA_FALSE; ELM_CALENDAR_DATA_GET_OR_RETURN_VAL(obj, sd, EINA_FALSE); return !!(sd->select_mode == ELM_CALENDAR_SELECT_MODE_NONE); } EAPI void elm_calendar_selected_time_set(Evas_Object *obj, struct tm *selected_time) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); EINA_SAFETY_ON_NULL_RETURN(selected_time); sd->selected_time = *selected_time; if (!sd->selected) sd->selected = EINA_TRUE; if (sd->selected_time.tm_year != sd->shown_time.tm_year) sd->shown_time.tm_year = sd->selected_time.tm_year; if (sd->selected_time.tm_mon != sd->shown_time.tm_mon) sd->shown_time.tm_mon = sd->selected_time.tm_mon; _fix_selected_time(sd); evas_object_smart_changed(obj); } EAPI Eina_Bool elm_calendar_selected_time_get(const Evas_Object *obj, struct tm *selected_time) { ELM_CALENDAR_CHECK(obj) EINA_FALSE; ELM_CALENDAR_DATA_GET_OR_RETURN_VAL(obj, sd, EINA_FALSE); EINA_SAFETY_ON_NULL_RETURN_VAL(selected_time, EINA_FALSE); if ((sd->select_mode == ELM_CALENDAR_SELECT_MODE_ONDEMAND) && (!sd->selected)) return EINA_FALSE; *selected_time = sd->selected_time; return EINA_TRUE; } EAPI void elm_calendar_format_function_set(Evas_Object *obj, Elm_Calendar_Format_Cb format_function) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); sd->format_func = format_function; _set_month_year(sd); } EAPI Elm_Calendar_Mark * elm_calendar_mark_add(Evas_Object *obj, const char *mark_type, struct tm *mark_time, Elm_Calendar_Mark_Repeat_Type repeat) { ELM_CALENDAR_CHECK(obj) NULL; ELM_CALENDAR_DATA_GET_OR_RETURN_VAL(obj, sd, NULL); Elm_Calendar_Mark *mark; mark = _mark_new(obj, mark_type, mark_time, repeat); sd->marks = eina_list_append(sd->marks, mark); mark->node = eina_list_last(sd->marks); return mark; } EAPI void elm_calendar_mark_del(Elm_Calendar_Mark *mark) { EINA_SAFETY_ON_NULL_RETURN(mark); ELM_CALENDAR_CHECK(mark->obj); ELM_CALENDAR_DATA_GET(mark->obj, sd); sd->marks = eina_list_remove_list(sd->marks, mark->node); _mark_free(mark); } EAPI void elm_calendar_marks_clear(Evas_Object *obj) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); Elm_Calendar_Mark *mark; EINA_LIST_FREE (sd->marks, mark) _mark_free(mark); } EAPI const Eina_List * elm_calendar_marks_get(const Evas_Object *obj) { ELM_CALENDAR_CHECK(obj) NULL; ELM_CALENDAR_DATA_GET(obj, sd); return sd->marks; } EAPI void elm_calendar_marks_draw(Evas_Object *obj) { ELM_CALENDAR_CHECK(obj); evas_object_smart_changed(obj); } EAPI void elm_calendar_first_day_of_week_set(Evas_Object *obj, Elm_Calendar_Weekday day) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); if (day >= ELM_DAY_LAST) return; if (sd->first_week_day != day) { sd->first_week_day = day; evas_object_smart_changed(obj); } } EAPI Elm_Calendar_Weekday elm_calendar_first_day_of_week_get(const Evas_Object *obj) { ELM_CALENDAR_CHECK(obj) - 1; ELM_CALENDAR_DATA_GET(obj, sd); return sd->first_week_day; } EAPI void elm_calendar_select_mode_set(Evas_Object *obj, Elm_Calendar_Select_Mode mode) { ELM_CALENDAR_CHECK(obj); ELM_CALENDAR_DATA_GET(obj, sd); if ((mode <= ELM_CALENDAR_SELECT_MODE_ONDEMAND) && (sd->select_mode != mode)) { sd->select_mode = mode; if (sd->select_mode == ELM_CALENDAR_SELECT_MODE_ONDEMAND) sd->selected = EINA_FALSE; if ((sd->select_mode == ELM_CALENDAR_SELECT_MODE_ALWAYS) || (sd->select_mode == ELM_CALENDAR_SELECT_MODE_DEFAULT)) _select(obj, sd->selected_it); else _unselect(obj, sd->selected_it); } } EAPI Elm_Calendar_Select_Mode elm_calendar_select_mode_get(const Evas_Object *obj) { ELM_CALENDAR_CHECK(obj) - 1; ELM_CALENDAR_DATA_GET(obj, sd); return sd->select_mode; }