#include #include "elm_priv.h" #include "elm_widget_layout.h" #ifdef HAVE_LOCALE_H # include #endif #ifdef HAVE_LANGINFO_H # include #endif static const char DATETIME_SMART_NAME[] = "elm_datetime"; typedef struct _Elm_Datetime_Smart_Data Elm_Datetime_Smart_Data; typedef struct _Datetime_Field Datetime_Field; typedef struct _Datetime_Mod_Api Datetime_Mod_Api; typedef struct _Format_Map Format_Map; #define DATETIME_TYPE_COUNT 6 #define MAX_FORMAT_LEN 64 #define MAX_SEPARATOR_LEN 6 #define MAX_FIELD_FORMAT_LEN 3 #define MIN_DAYS_IN_MONTH 28 #define BUFFER_SIZE 1024 /* interface between EDC & C code (field & signal names). values 0 to * DATETIME_TYPE_COUNT are in the valid range, and must get in the * place of "%d". */ #define EDC_DATETIME_FOCUSIN_SIG_STR "elm,action,focus" #define EDC_DATETIME_FOCUSOUT_SIG_STR "elm,action,unfocus" #define EDC_PART_FIELD_STR "field%d" #define EDC_PART_SEPARATOR_STR "separator%d" #define EDC_PART_FIELD_ENABLE_SIG_STR "field%d,enable" #define EDC_PART_FIELD_DISABLE_SIG_STR "field%d,disable" /* struct tm does not define the fields in the order year, month, * date, hour, minute. values are reassigned to an array for easy * handling. */ #define DATETIME_TM_ARRAY(intptr, tmptr) \ int *intptr[] = { \ &(tmptr)->tm_year, \ &(tmptr)->tm_mon, \ &(tmptr)->tm_mday, \ &(tmptr)->tm_hour, \ &(tmptr)->tm_min} struct _Datetime_Field { Evas_Object *item_obj; char fmt[MAX_FIELD_FORMAT_LEN]; Elm_Datetime_Field_Type type; const char *separator; int location; /* location of the field as per * current format */ int min, max; Eina_Bool fmt_exist : 1; /* whether field format is * present or not */ Eina_Bool visible : 1; /* whether field can be * visible or not */ }; struct _Datetime_Mod_Api { Elm_Datetime_Module_Data *(*obj_hook)(Evas_Object * obj); void (*obj_unhook)(Elm_Datetime_Module_Data *mdata); Evas_Object *(*field_create)(Elm_Datetime_Module_Data * mdata, Elm_Datetime_Field_Type ftype); void (*field_value_display)(Elm_Datetime_Module_Data *mdata, Evas_Object *obj); }; struct _Elm_Datetime_Smart_Data { Elm_Layout_Smart_Data base; /* fixed set of fields. */ Datetime_Field field_list[DATETIME_TYPE_COUNT]; struct tm curr_time, min_limit, max_limit; Elm_Datetime_Module_Data *mod_data; char format[MAX_FORMAT_LEN]; Eina_Bool user_format : 1; /* whether user set * format or default * format. */ }; struct _Format_Map { char *fmt_char; int def_min; int def_max; char *ignore_sep; }; // default limits for individual fields static Format_Map mapping[DATETIME_TYPE_COUNT] = { [ELM_DATETIME_YEAR] = { "Yy", -1, -1, "" }, [ELM_DATETIME_MONTH] = { "mbBh", 0, 11, "" }, [ELM_DATETIME_DATE] = { "de", 1, 31, "" }, [ELM_DATETIME_HOUR] = { "IHkl", 0, 23, "" }, [ELM_DATETIME_MINUTE] = { "M", 0, 59, ":" }, [ELM_DATETIME_AMPM] = { "pP", 0, 1, "" } }; static const char *multifield_formats = "cxXrRTDF"; static const char *ignore_separators = "()"; static Datetime_Mod_Api *dt_mod = NULL; #define ELM_DATETIME_DATA_GET(o, sd) \ Elm_Datetime_Smart_Data * sd = evas_object_smart_data_get(o) #define ELM_DATETIME_DATA_GET_OR_RETURN(o, ptr) \ ELM_DATETIME_DATA_GET(o, ptr); \ if (!ptr) \ { \ CRITICAL("No widget data for object %p (%s)", \ o, evas_object_type_get(o)); \ return; \ } #define ELM_DATETIME_DATA_GET_OR_RETURN_VAL(o, ptr, val) \ ELM_DATETIME_DATA_GET(o, ptr); \ if (!ptr) \ { \ CRITICAL("No widget data for object %p (%s)", \ o, evas_object_type_get(o)); \ return val; \ } #define ELM_DATETIME_CHECK(obj) \ if (!obj || !elm_widget_type_check((obj), DATETIME_SMART_NAME, __func__)) \ return static const char SIG_CHANGED[] = "changed"; static const char SIG_LANGUAGE_CHANGED[] = "language,changed"; static const Evas_Smart_Cb_Description _smart_callbacks[] = { {SIG_CHANGED, ""}, {SIG_LANGUAGE_CHANGED, ""}, {NULL, NULL} }; /* Inheriting from elm_layout. Besides, we need no more than what is * there */ EVAS_SMART_SUBCLASS_NEW (DATETIME_SMART_NAME, _elm_datetime, Elm_Layout_Smart_Class, Elm_Layout_Smart_Class, elm_layout_smart_class_get, _smart_callbacks); static Datetime_Mod_Api * _dt_mod_init() { Elm_Module *mod = NULL; if (!(mod = _elm_module_find_as("datetime/api"))) return NULL; mod->api = malloc(sizeof(Datetime_Mod_Api)); if (!mod->api) return NULL; ((Datetime_Mod_Api *)(mod->api))->obj_hook = _elm_module_symbol_get(mod, "obj_hook"); ((Datetime_Mod_Api *)(mod->api))->obj_unhook = _elm_module_symbol_get(mod, "obj_unhook"); ((Datetime_Mod_Api *)(mod->api))->field_create = _elm_module_symbol_get(mod, "field_create"); ((Datetime_Mod_Api *)(mod->api))->field_value_display = _elm_module_symbol_get(mod, "field_value_display"); return mod->api; } static void _field_list_display(Evas_Object *obj) { Datetime_Field *field; unsigned int idx = 0; ELM_DATETIME_DATA_GET(obj, sd); for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; if (field->fmt_exist && field->visible) { if ((dt_mod) && (dt_mod->field_value_display)) dt_mod->field_value_display(sd->mod_data, field->item_obj); } } } // FIXME: provide nl_langinfo on Windows if possible // returns expanded format string for corresponding multi-field format character static char * _expanded_fmt_str_get(char ch) { char *exp_fmt = ""; switch (ch) { case 'c': #ifdef HAVE_LANGINFO_H exp_fmt = nl_langinfo(D_T_FMT); #else exp_fmt = ""; #endif break; case 'x': #ifdef HAVE_LANGINFO_H exp_fmt = nl_langinfo(D_FMT); #else exp_fmt = ""; #endif break; case 'X': #ifdef HAVE_LANGINFO_H exp_fmt = nl_langinfo(T_FMT); #else exp_fmt = ""; #endif break; case 'r': #ifdef HAVE_LANGINFO_H exp_fmt = nl_langinfo(T_FMT_AMPM); #else exp_fmt = ""; #endif break; case 'R': exp_fmt = "%H:%M"; break; case 'T': exp_fmt = "%H:%M:%S"; break; case 'D': exp_fmt = "%m/%d/%y"; break; case 'F': exp_fmt = "%Y-%m-%d"; break; default: exp_fmt = ""; break; } return exp_fmt; } static void _expand_format(char *dt_fmt) { char *ptr, *expanded_fmt, ch; unsigned int idx = 0, len = 0; char buf[MAX_FORMAT_LEN] = {0, }; Eina_Bool fmt_char = EINA_FALSE; ptr = dt_fmt; while ((ch = *ptr)) { if ((fmt_char) && (strchr(multifield_formats, ch))) { /* replace the multi-field format characters with * corresponding expanded format */ expanded_fmt = _expanded_fmt_str_get(ch); len = strlen(expanded_fmt); buf[--idx] = 0; strncat(buf, expanded_fmt, len); idx += len; } else buf[idx++] = ch; if (ch == '%') fmt_char = EINA_TRUE; else fmt_char = EINA_FALSE; ptr++; } buf[idx] = 0; strncpy(dt_fmt, buf, MAX_FORMAT_LEN); } static void _field_list_arrange(Evas_Object *obj) { Datetime_Field *field; char buf[BUFFER_SIZE]; int idx; ELM_DATETIME_DATA_GET(obj, sd); for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; snprintf(buf, sizeof(buf), EDC_PART_FIELD_STR, field->location); if (field->visible && field->fmt_exist) elm_layout_content_set(obj, buf, field->item_obj); else evas_object_hide(elm_layout_content_unset(obj, buf)); } elm_layout_sizing_eval(obj); _field_list_display(obj); } static unsigned int _parse_format(Evas_Object *obj, char *fmt_ptr) { Eina_Bool fmt_parsing = EINA_FALSE, sep_parsing = EINA_FALSE, sep_lookup = EINA_FALSE; unsigned int len = 0, idx = 0, location = 0; char separator[MAX_SEPARATOR_LEN]; Datetime_Field *field = NULL; char cur; ELM_DATETIME_DATA_GET(obj, sd); while ((cur = *fmt_ptr)) { if (fmt_parsing) { fmt_parsing = EINA_FALSE; for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { if (strchr(mapping[idx].fmt_char, cur)) { field = sd->field_list + idx; /* ignore the fields already have or disabled * valid formats, means already parsed & * repeated, ignore. */ if (!field->visible || field->location != -1) break; field->fmt[1] = cur; field->fmt_exist = EINA_TRUE; field->location = location++; sep_lookup = EINA_TRUE; len = 0; break; } } } if (cur == '%') { fmt_parsing = EINA_TRUE; sep_parsing = EINA_FALSE; // set the separator to previous field separator[len] = 0; if (field) eina_stringshare_replace(&field->separator, separator); } // ignore the set of chars (global, field specific) as field separators if (sep_parsing && (len < MAX_SEPARATOR_LEN - 1) && (field->type != ELM_DATETIME_AMPM) && (!strchr(ignore_separators, cur)) && (!strchr(mapping[idx].ignore_sep, cur))) separator[len++] = cur; if (sep_lookup) sep_parsing = EINA_TRUE; sep_lookup = EINA_FALSE; fmt_ptr++; } // return the number of valid fields parsed. return location; } static void _reload_format(Evas_Object *obj) { unsigned int idx, field_count; Datetime_Field *field; char buf[BUFFER_SIZE]; char *dt_fmt; ELM_DATETIME_DATA_GET(obj, sd); // FIXME: provide nl_langinfo on Windows if possible // fetch the default format from Libc. if (!sd->user_format) #ifdef HAVE_LANGINFO_H strncpy(sd->format, nl_langinfo(D_T_FMT), MAX_FORMAT_LEN); #else strncpy(sd->format, "", MAX_FORMAT_LEN); #endif dt_fmt = (char *)malloc(MAX_FORMAT_LEN); if (!dt_fmt) return; strncpy(dt_fmt, sd->format, MAX_FORMAT_LEN); _expand_format(dt_fmt); // reset all the fields to disable state for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; field->fmt_exist = EINA_FALSE; field->location = -1; } field_count = _parse_format(obj, dt_fmt); free(dt_fmt); // assign locations to disabled fields for uniform usage for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; if (field->location == -1) field->location = field_count++; if (field->fmt_exist && field->visible) { snprintf(buf, sizeof(buf), EDC_PART_FIELD_ENABLE_SIG_STR, field->location); elm_layout_signal_emit(obj, buf, "elm"); } else { snprintf(buf, sizeof(buf), EDC_PART_FIELD_DISABLE_SIG_STR, field->location); elm_layout_signal_emit(obj, buf, "elm"); } snprintf (buf, sizeof(buf), EDC_PART_SEPARATOR_STR, (field->location + 1)); elm_layout_text_set(obj, buf, field->separator); } edje_object_message_signal_process(ELM_WIDGET_DATA(sd)->resize_obj); _field_list_arrange(obj); } static Eina_Bool _elm_datetime_smart_translate(Evas_Object *obj) { ELM_DATETIME_DATA_GET(obj, sd); if (!sd->user_format) _reload_format(obj); else _field_list_display(obj); evas_object_smart_callback_call(obj, SIG_LANGUAGE_CHANGED, NULL); return EINA_TRUE; } static Eina_List * _datetime_items_get(const Evas_Object *obj) { Eina_List *items = NULL; Datetime_Field *field; int loc, count = 0; unsigned int idx; ELM_DATETIME_DATA_GET(obj, sd); for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; if (field->fmt_exist && field->visible) count++; } for (loc = 0; loc < count; loc++) { for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; if (field->location == loc) items = eina_list_append(items, field->item_obj); } } return items; } static Eina_Bool _elm_datetime_smart_focus_next(const Evas_Object *obj, Elm_Focus_Direction dir, Evas_Object **next) { Eina_Bool ret; const Eina_List *items; Eina_List *(*list_free)(Eina_List *list); void *(*list_data_get)(const Eina_List *list); if ((items = elm_widget_focus_custom_chain_get(obj))) { list_data_get = eina_list_data_get; list_free = NULL; } else { items = _datetime_items_get(obj); list_data_get = eina_list_data_get; list_free = eina_list_free; if (!items) return EINA_FALSE; } ret = elm_widget_focus_list_next_get(obj, items, list_data_get, dir, next); if (list_free) list_free((Eina_List *)items); return ret; } static void _elm_datetime_smart_sizing_eval(Evas_Object *obj) { Datetime_Field *field; Evas_Coord minw = -1, minh = -1; unsigned int idx, field_count = 0; ELM_DATETIME_DATA_GET(obj, sd); for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; if ((field->visible) && (field->fmt_exist)) field_count++; } if (field_count) elm_coords_finger_size_adjust(field_count, &minw, 1, &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 Eina_Bool _elm_datetime_smart_theme(Evas_Object *obj) { Datetime_Field *field; char buf[BUFFER_SIZE]; unsigned int idx; ELM_DATETIME_DATA_GET(obj, sd); if (!ELM_WIDGET_CLASS(_elm_datetime_parent_sc)->theme(obj)) return EINA_FALSE; if ((!dt_mod) || (!dt_mod->field_value_display)) return EINA_TRUE; for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; if (field->fmt_exist && field->visible) { snprintf(buf, sizeof(buf), EDC_PART_FIELD_ENABLE_SIG_STR, field->location); elm_layout_signal_emit(obj, buf, "elm"); snprintf (buf, sizeof(buf), EDC_PART_SEPARATOR_STR, field->location); elm_layout_text_set(obj, buf, field->separator); dt_mod->field_value_display(sd->mod_data, field->item_obj); } else { snprintf(buf, sizeof(buf), EDC_PART_FIELD_DISABLE_SIG_STR, field->location); elm_layout_signal_emit(obj, buf, "elm"); } } edje_object_message_signal_process(ELM_WIDGET_DATA(sd)->resize_obj); elm_layout_sizing_eval(obj); return EINA_TRUE; } static int _max_days_get(int year, int month) { struct tm time1; time_t t; int day; t = time(NULL); localtime_r(&t, &time1); time1.tm_year = year; time1.tm_mon = month; for (day = MIN_DAYS_IN_MONTH; day <= mapping[ELM_DATETIME_DATE].def_max; day++) { time1.tm_mday = day; mktime(&time1); if (time1.tm_mday == 1) break; } day--; return day; } static Eina_Bool _date_cmp(struct tm *time1, struct tm *time2) { unsigned int idx; DATETIME_TM_ARRAY(timearr1, time1); DATETIME_TM_ARRAY(timearr2, time2); for (idx = 0; idx < DATETIME_TYPE_COUNT - 1; idx++) { if (*timearr1[idx] != *timearr2[idx]) return EINA_FALSE; } return EINA_TRUE; } // validates curr_time/min_limt/max_limit according to the newly set value static void _validate_datetime_limits(struct tm *time1, struct tm *time2, Eina_Bool swap) { struct tm *t1, *t2; unsigned int idx; if (!time1 || !time2) return; t1 = (swap) ? time2 : time1; t2 = (swap) ? time1 : time2; DATETIME_TM_ARRAY(timearr1, time1); DATETIME_TM_ARRAY(timearr2, time2); for (idx = 0; idx < DATETIME_TYPE_COUNT - 1; idx++) { if (*timearr1[idx] < *timearr2[idx]) { memcpy(t1, t2, sizeof(struct tm)); break; } else if (*timearr1[idx] > *timearr2[idx]) break; } } static void _apply_field_limits(Evas_Object *obj) { Datetime_Field *field; unsigned int idx = 0; int val; ELM_DATETIME_DATA_GET(obj, sd); DATETIME_TM_ARRAY(timearr, &sd->curr_time); for (idx = 0; idx < DATETIME_TYPE_COUNT - 1; idx++) { field = sd->field_list + idx; val = *timearr[idx]; if (val < field->min) *timearr[idx] = field->min; else if (val > field->max) *timearr[idx] = field->max; } _field_list_display(obj); } static void _apply_range_restrictions(struct tm *tim) { unsigned int idx; int val, min, max; if (!tim) return; DATETIME_TM_ARRAY(timearr, tim); for (idx = ELM_DATETIME_MONTH; idx < DATETIME_TYPE_COUNT - 1; idx++) { val = *timearr[idx]; min = mapping[idx].def_min; max = mapping[idx].def_max; if (idx == ELM_DATETIME_DATE) max = _max_days_get(tim->tm_year, tim->tm_mon); if (val < min) *timearr[idx] = min; else if (val > max) *timearr[idx] = max; } } static const char * _field_format_get(Evas_Object *obj, Elm_Datetime_Field_Type field_type) { Datetime_Field *field; ELM_DATETIME_DATA_GET(obj, sd); field = sd->field_list + field_type; if (!field) return NULL; return field->fmt; } static void _field_limit_get(Evas_Object *obj, Elm_Datetime_Field_Type field_type, int *range_min, int *range_max) { int min, max, max_days; Datetime_Field *field; unsigned int idx; ELM_DATETIME_DATA_GET(obj, sd); field = sd->field_list + field_type; if (!field) return; min = field->min; max = field->max; DATETIME_TM_ARRAY(curr_timearr, &sd->curr_time); DATETIME_TM_ARRAY(min_timearr, &sd->min_limit); DATETIME_TM_ARRAY(max_timearr, &sd->max_limit); for (idx = 0; idx < field->type; idx++) if (*curr_timearr[idx] > *min_timearr[idx]) break; if ((idx == field_type) && (min < *min_timearr[field_type])) min = *min_timearr[field_type]; if (field_type == ELM_DATETIME_DATE) { max_days = _max_days_get(sd->curr_time.tm_year, sd->curr_time.tm_mon); if (max > max_days) max = max_days; } for (idx = 0; idx < field->type; idx++) if (*curr_timearr[idx] < *max_timearr[idx]) break; if ((idx == field_type) && (max > *max_timearr[field_type])) max = *max_timearr[field_type]; *range_min = min; *range_max = max; } static void _field_list_init(Evas_Object *obj) { Datetime_Field *field; unsigned int idx; time_t t; ELM_DATETIME_DATA_GET(obj, sd); t = time(NULL); localtime_r(&t, &sd->curr_time); mapping[ELM_DATETIME_YEAR].def_min = _elm_config->year_min; mapping[ELM_DATETIME_YEAR].def_max = _elm_config->year_max; for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = sd->field_list + idx; field->type = ELM_DATETIME_YEAR + idx; field->fmt[0] = '%'; field->fmt_exist = EINA_FALSE; field->visible = EINA_TRUE; field->min = mapping[idx].def_min; field->max = mapping[idx].def_max; } DATETIME_TM_ARRAY(min_timearr, &sd->min_limit); DATETIME_TM_ARRAY(max_timearr, &sd->max_limit); for (idx = 0; idx < DATETIME_TYPE_COUNT - 1; idx++) { *min_timearr[idx] = mapping[idx].def_min; *max_timearr[idx] = mapping[idx].def_max; } } static void _elm_datetime_smart_add(Evas_Object *obj) { int idx; Datetime_Field *field; EVAS_SMART_DATA_ALLOC(obj, Elm_Datetime_Smart_Data); ELM_WIDGET_CLASS(_elm_datetime_parent_sc)->base.add(obj); elm_layout_theme_set(obj, "datetime", "base", elm_widget_style_get(obj)); // module - initialise module for datetime if (!dt_mod) dt_mod = _dt_mod_init(); if ((dt_mod) && (dt_mod->obj_hook)) priv->mod_data = dt_mod->obj_hook(obj); // update module data if (priv->mod_data) { priv->mod_data->base = obj; priv->mod_data->field_limit_get = _field_limit_get; priv->mod_data->field_format_get = _field_format_get; } _field_list_init(obj); _reload_format(obj); if ((dt_mod) && (dt_mod->field_create)) { for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { field = priv->field_list + idx; field->item_obj = dt_mod->field_create(priv->mod_data, idx); } } _field_list_arrange(obj); elm_widget_can_focus_set(obj, EINA_TRUE); } static void _elm_datetime_smart_del(Evas_Object *obj) { Datetime_Field *tmp; unsigned int idx; ELM_DATETIME_DATA_GET(obj, sd); for (idx = 0; idx < DATETIME_TYPE_COUNT; idx++) { tmp = sd->field_list + idx; evas_object_del(tmp->item_obj); eina_stringshare_del(tmp->separator); } if ((dt_mod) && (dt_mod->obj_unhook)) dt_mod->obj_unhook(sd->mod_data); // module - unhook ELM_WIDGET_CLASS(_elm_datetime_parent_sc)->base.del(obj); } static void _elm_datetime_smart_set_user(Elm_Layout_Smart_Class *sc) { ELM_WIDGET_CLASS(sc)->base.add = _elm_datetime_smart_add; ELM_WIDGET_CLASS(sc)->base.del = _elm_datetime_smart_del; ELM_WIDGET_CLASS(sc)->translate = _elm_datetime_smart_translate; ELM_WIDGET_CLASS(sc)->focus_next = _elm_datetime_smart_focus_next; ELM_WIDGET_CLASS(sc)->theme = _elm_datetime_smart_theme; sc->sizing_eval = _elm_datetime_smart_sizing_eval; } EAPI Evas_Object * elm_datetime_add(Evas_Object *parent) { Evas *e; Evas_Object *obj; EINA_SAFETY_ON_NULL_RETURN_VAL(parent, NULL); e = evas_object_evas_get(parent); if (!e) return NULL; obj = evas_object_smart_add(e, _elm_datetime_smart_class_new()); if (!elm_widget_sub_object_add(parent, obj)) ERR("could not add %p as sub object of %p", obj, parent); elm_layout_sizing_eval(obj); return obj; } EAPI const char * elm_datetime_format_get(const Evas_Object *obj) { ELM_DATETIME_CHECK(obj) NULL; ELM_DATETIME_DATA_GET(obj, sd); return sd->format; } EAPI void elm_datetime_format_set(Evas_Object *obj, const char *fmt) { ELM_DATETIME_CHECK(obj); ELM_DATETIME_DATA_GET(obj, sd); if (fmt) { strncpy(sd->format, fmt, MAX_FORMAT_LEN); sd->user_format = EINA_TRUE; } else sd->user_format = EINA_FALSE; _reload_format(obj); } EAPI Eina_Bool elm_datetime_field_visible_get(const Evas_Object *obj, Elm_Datetime_Field_Type fieldtype) { Datetime_Field *field; ELM_DATETIME_CHECK(obj) EINA_FALSE; ELM_DATETIME_DATA_GET(obj, sd); if (fieldtype > ELM_DATETIME_AMPM) return EINA_FALSE; field = sd->field_list + fieldtype; return field->visible; } EAPI void elm_datetime_field_visible_set(Evas_Object *obj, Elm_Datetime_Field_Type fieldtype, Eina_Bool visible) { Datetime_Field *field; ELM_DATETIME_CHECK(obj); ELM_DATETIME_DATA_GET(obj, sd); if (fieldtype > ELM_DATETIME_AMPM) return; field = sd->field_list + fieldtype; if (field->visible == visible) return; field->visible = visible; _reload_format(obj); } EAPI void elm_datetime_field_limit_get(const Evas_Object *obj, Elm_Datetime_Field_Type fieldtype, int *min, int *max) { Datetime_Field *field; ELM_DATETIME_CHECK(obj); ELM_DATETIME_DATA_GET(obj, sd); if (fieldtype >= ELM_DATETIME_AMPM) return; field = sd->field_list + fieldtype; if (min) *min = field->min; if (max) *max = field->max; } EAPI void elm_datetime_field_limit_set(Evas_Object *obj, Elm_Datetime_Field_Type fieldtype, int min, int max) { Datetime_Field *field; ELM_DATETIME_CHECK(obj); ELM_DATETIME_DATA_GET(obj, sd); if (fieldtype >= ELM_DATETIME_AMPM) return; if (min > max) return; field = sd->field_list + fieldtype; if ((min > mapping[fieldtype].def_min && min < mapping[fieldtype].def_max) || (field->type == ELM_DATETIME_YEAR)) field->min = min; if ((max > mapping[fieldtype].def_min && max < mapping[fieldtype].def_max) || (field->type == ELM_DATETIME_YEAR)) field->max = max; _apply_field_limits(obj); } EAPI Eina_Bool elm_datetime_value_get(const Evas_Object *obj, struct tm *currtime) { ELM_DATETIME_CHECK(obj) EINA_FALSE; EINA_SAFETY_ON_NULL_RETURN_VAL(currtime, EINA_FALSE); ELM_DATETIME_DATA_GET(obj, sd); *currtime = sd->curr_time; return EINA_TRUE; } EAPI Eina_Bool elm_datetime_value_set(Evas_Object *obj, const struct tm *newtime) { struct tm old_time; ELM_DATETIME_CHECK(obj) EINA_FALSE; EINA_SAFETY_ON_NULL_RETURN_VAL(newtime, EINA_FALSE); ELM_DATETIME_DATA_GET(obj, sd); old_time = sd->curr_time; sd->curr_time = *newtime; // apply default field restrictions for curr_time _apply_range_restrictions(&sd->curr_time); // validate the curr_time according to the min_limt and max_limt _validate_datetime_limits(&sd->curr_time, &sd->min_limit, EINA_FALSE); _validate_datetime_limits(&sd->max_limit, &sd->curr_time, EINA_TRUE); _apply_field_limits(obj); if (!_date_cmp(&old_time, &sd->curr_time)) evas_object_smart_callback_call(obj, SIG_CHANGED, NULL); return EINA_TRUE; } EAPI Eina_Bool elm_datetime_value_min_get(const Evas_Object *obj, struct tm *mintime) { ELM_DATETIME_CHECK(obj) EINA_FALSE; EINA_SAFETY_ON_NULL_RETURN_VAL(mintime, EINA_FALSE); ELM_DATETIME_DATA_GET(obj, sd); *mintime = sd->min_limit; return EINA_TRUE; } EAPI Eina_Bool elm_datetime_value_min_set(Evas_Object *obj, const struct tm *mintime) { struct tm old_time; ELM_DATETIME_CHECK(obj) EINA_FALSE; EINA_SAFETY_ON_NULL_RETURN_VAL(mintime, EINA_FALSE); ELM_DATETIME_DATA_GET(obj, sd); sd->min_limit = *mintime; old_time = sd->curr_time; // apply default field restrictions for min_limit _apply_range_restrictions(&sd->min_limit); // validate curr_time and max_limt according to the min_limit _validate_datetime_limits(&sd->max_limit, &sd->min_limit, EINA_FALSE); _validate_datetime_limits(&sd->curr_time, &sd->min_limit, EINA_FALSE); _apply_field_limits(obj); if (!_date_cmp(&old_time, &sd->curr_time)) evas_object_smart_callback_call(obj, SIG_CHANGED, NULL); return EINA_TRUE; } EAPI Eina_Bool elm_datetime_value_max_get(const Evas_Object *obj, struct tm *maxtime) { ELM_DATETIME_CHECK(obj) EINA_FALSE; EINA_SAFETY_ON_NULL_RETURN_VAL(maxtime, EINA_FALSE); ELM_DATETIME_DATA_GET(obj, sd); *maxtime = sd->max_limit; return EINA_TRUE; } EAPI Eina_Bool elm_datetime_value_max_set(Evas_Object *obj, const struct tm *maxtime) { struct tm old_time; ELM_DATETIME_CHECK(obj) EINA_FALSE; EINA_SAFETY_ON_NULL_RETURN_VAL(maxtime, EINA_FALSE); ELM_DATETIME_DATA_GET(obj, sd); sd->max_limit = *maxtime; old_time = sd->curr_time; // apply default field restrictions for max_limit _apply_range_restrictions(&sd->max_limit); // validate curr_time and min_limt according to the max_limit _validate_datetime_limits(&sd->max_limit, &sd->min_limit, EINA_TRUE); _validate_datetime_limits(&sd->max_limit, &sd->curr_time, EINA_TRUE); _apply_field_limits(obj); if (!_date_cmp(&old_time, &sd->curr_time)) evas_object_smart_callback_call(obj, SIG_CHANGED, NULL); return EINA_TRUE; }