/* * $Id: calendar.c,v 1.97 2018/06/19 22:57:01 tom Exp $ * * calendar.c -- implements the calendar box * * Copyright 2001-2017,2018 Thomas E. Dickey * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License, version 2.1 * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, write to * Free Software Foundation, Inc. * 51 Franklin St., Fifth Floor * Boston, MA 02110, USA. */ #include #include #include #ifdef HAVE_STDINT_H #include #else #define intptr_t long #endif #define ONE_DAY (60 * 60 * 24) #define MON_WIDE 4 /* width of a month-name */ #define DAY_HIGH 6 /* maximum lines in day-grid */ #define DAY_WIDE (8 * MON_WIDE) /* width of the day-grid */ #define HDR_HIGH 1 /* height of cells with month/year */ #define BTN_HIGH 1 /* height of button-row excluding margin */ /* two more lines: titles for day-of-week and month/year boxes */ #define MIN_HIGH (DAY_HIGH + 2 + HDR_HIGH + BTN_HIGH + (MAX_DAYS * MARGIN)) #define MIN_WIDE (DAY_WIDE + (4 * MARGIN)) typedef enum { sMONTH = -3 ,sYEAR = -2 ,sDAY = -1 } STATES; struct _box; typedef int (*BOX_DRAW) (struct _box *, struct tm *); typedef struct _box { WINDOW *parent; WINDOW *window; int x; int y; int width; int height; BOX_DRAW box_draw; int week_start; } BOX; #define MAX_DAYS 7 #define MAX_MONTHS 12 static char *cached_days[MAX_DAYS]; static char *cached_months[MAX_MONTHS]; static const char * nameOfDayOfWeek(int n) { static bool shown[MAX_DAYS]; static const char *posix_days[MAX_DAYS] = { "Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday" }; while (n < 0) { n += MAX_DAYS; } n %= MAX_DAYS; #ifdef ENABLE_NLS if (cached_days[n] == 0) { const nl_item items[MAX_DAYS] = { ABDAY_1, ABDAY_2, ABDAY_3, ABDAY_4, ABDAY_5, ABDAY_6, ABDAY_7 }; cached_days[n] = dlg_strclone(nl_langinfo(items[n])); memset(shown, 0, sizeof(shown)); } #endif if (cached_days[n] == 0) { size_t len, limit = MON_WIDE - 1; char *value = dlg_strclone(posix_days[n]); /* * POSIX does not actually say what the length of an abbreviated name * is. Typically it is 2, which will fit into our layout. That also * happens to work with CJK entries as seen in glibc, which are a * double-width cell. For now (2016/01/26), handle too-long names only * for POSIX values. */ if ((len = strlen(value)) > limit) value[limit] = '\0'; cached_days[n] = value; } if (!shown[n]) { DLG_TRACE(("# DAY(%d) = '%s'\n", n, cached_days[n])); shown[n] = TRUE; } return cached_days[n]; } static const char * nameOfMonth(int n) { static bool shown[MAX_MONTHS]; static const char *posix_mons[MAX_MONTHS] = { "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" }; while (n < 0) { n += MAX_MONTHS; } n %= MAX_MONTHS; #ifdef ENABLE_NLS if (cached_months[n] == 0) { const nl_item items[MAX_MONTHS] = { MON_1, MON_2, MON_3, MON_4, MON_5, MON_6, MON_7, MON_8, MON_9, MON_10, MON_11, MON_12 }; cached_months[n] = dlg_strclone(nl_langinfo(items[n])); memset(shown, 0, sizeof(shown)); } #endif if (cached_months[n] == 0) { cached_months[n] = dlg_strclone(posix_mons[n]); } if (!shown[n]) { DLG_TRACE(("# MON(%d) = '%s'\n", n, cached_months[n])); shown[n] = TRUE; } return cached_months[n]; } /* * Algorithm for Gregorian calendar. */ static int isleap(int y) { return ((y % 4 == 0) && ((y % 100 != 0) || (y % 400 == 0))) ? 1 : 0; } static void adjust_year_month(int *year, int *month) { while (*month < 0) { *month += MAX_MONTHS; *year -= 1; } while (*month >= MAX_MONTHS) { *month -= MAX_MONTHS; *year += 1; } } static int days_per_month(int year, int month) { static const int nominal[] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; int result; adjust_year_month(&year, &month); result = nominal[month]; if (month == 1) result += isleap(year); return result; } static int days_in_month(struct tm *current, int offset /* -1, 0, 1 */ ) { int year = current->tm_year + 1900; int month = current->tm_mon + offset; adjust_year_month(&year, &month); return days_per_month(year, month); } static int days_per_year(int year) { return (isleap(year) ? 366 : 365); } static int days_in_year(struct tm *current, int offset /* -1, 0, 1 */ ) { return days_per_year(current->tm_year + 1900 + offset); } /* * Adapted from C FAQ * "17.28: How can I find the day of the week given the date?" * implementation by Tomohiko Sakamoto. * * d = day (0 to whatever) * m = month (1 through 12) * y = year (1752 and later, for Gregorian calendar) */ static int day_of_week(int y, int m, int d) { static int t[] = { 0, 3, 2, 5, 0, 3, 5, 1, 4, 6, 2, 4 }; y -= (m < 3); return (6 + (y + (y / 4) - (y / 100) + (y / 400) + t[m - 1] + d)) % MAX_DAYS; } static int day_in_year(int year, int month, int day) { int result = day; while (--month >= 1) result += days_per_month(year, month); return result; } static int iso_week(int year, int month, int day) { int week = 1; int dow; int new_year_dow; int diy; int new_years_eve_dow; static const int thursday = 3; /* add the number weeks *between* date and newyear */ diy = day_in_year(year, month, day); week += (diy - 1) / MAX_DAYS; /* 0 = Monday */ dow = day_of_week(year, month, day); new_year_dow = day_of_week(year, 1, 1); /* * If New Year falls on Friday, Saturday or Sunday, then New Years's week * is the last week of the preceding year. In that case subtract one week. */ if (new_year_dow > thursday) --week; /* Add one week if there is a Sunday to Monday transition. */ if (dow - new_year_dow < 0) ++week; /* Check if we are in the last week of the preceding year. */ if (week < 1) { week = iso_week(--year, 12, 31); } /* * If we are in the same week as New Year's eve, check if New Year's eve is * in the first week of the next year. */ new_years_eve_dow = (new_year_dow + 364 + isleap(year)) % MAX_DAYS; if (365 + isleap(year) - diy < MAX_DAYS && new_years_eve_dow >= dow && new_years_eve_dow < thursday) { ++year; week = 1; } return week; } static int * getisoweeks(int year, int month) { static int result[10]; int windx = 0; int day; int dpm = days_per_month(year, month); for (day = 1; day <= dpm; day += MAX_DAYS) result[windx++] = iso_week(year, month, day); /* * Ensure that there is a week number associated with the last day of the * month, e.g., in case the last day of the month falls before Thursday, * so that we have to show the week-number for the beginning of the * following month. */ result[windx] = iso_week(year, month, dpm); return result; } static int day_cell_number(struct tm *current) { int cell; cell = current->tm_mday - ((6 + current->tm_mday - current->tm_wday) % MAX_DAYS); if ((current->tm_mday - 1) % MAX_DAYS != current->tm_wday) cell += 6; else cell--; return cell; } static int next_or_previous(int key, int two_d) { int result = 0; switch (key) { case DLGK_GRID_UP: result = two_d ? -MAX_DAYS : -1; break; case DLGK_GRID_LEFT: result = -1; break; case DLGK_GRID_DOWN: result = two_d ? MAX_DAYS : 1; break; case DLGK_GRID_RIGHT: result = 1; break; default: beep(); break; } return result; } /* * Draw the day-of-month selection box */ static int draw_day(BOX * data, struct tm *current) { int cell_wide = MON_WIDE; int y, x, this_x = 0; int save_y = 0, save_x = 0; int day = current->tm_mday; int mday; int week = 0; int windx = 0; int *weeks = 0; int last = days_in_month(current, 0); int prev = days_in_month(current, -1); werase(data->window); dlg_draw_box2(data->parent, data->y - MARGIN, data->x - MARGIN, data->height + (2 * MARGIN), data->width + (2 * MARGIN), menubox_attr, menubox_border_attr, menubox_border2_attr); dlg_attrset(data->window, menubox_attr); /* daynames headline */ for (x = 0; x < MAX_DAYS; x++) { mvwprintw(data->window, 0, (x + 1) * cell_wide, "%*.*s ", cell_wide - 1, cell_wide - 1, nameOfDayOfWeek(x + data->week_start)); } mday = ((6 + current->tm_mday - current->tm_wday + data->week_start) % MAX_DAYS) - MAX_DAYS; if (mday <= -MAX_DAYS) mday += MAX_DAYS; if (dialog_vars.iso_week) { weeks = getisoweeks(current->tm_year + 1900, current->tm_mon + 1); } else { /* mday is now in the range -6 to 0. */ week = (current->tm_yday + 6 + mday - current->tm_mday) / MAX_DAYS; } for (y = 1; mday < last; y++) { dlg_attrset(data->window, menubox_attr); /* weeknumbers headline */ mvwprintw(data->window, y, 0, "%*d ", cell_wide - 1, weeks ? weeks[windx++] : ++week); for (x = 0; x < MAX_DAYS; x++) { this_x = 1 + (x + 1) * cell_wide; ++mday; if (wmove(data->window, y, this_x) == ERR) continue; dlg_attrset(data->window, item_attr); /* not selected days */ if (mday == day) { dlg_attrset(data->window, item_selected_attr); /* selected day */ save_y = y; save_x = this_x; } if (mday > 0) { if (mday <= last) { wprintw(data->window, "%*d", cell_wide - 2, mday); } else if (mday == day) { wprintw(data->window, "%*d", cell_wide - 2, mday - last); } } else if (mday == day) { wprintw(data->window, "%*d", cell_wide - 2, mday + prev); } } wmove(data->window, save_y, save_x); } /* just draw arrows - scrollbar is unsuitable here */ dlg_draw_arrows(data->parent, TRUE, TRUE, data->x + ARROWS_COL, data->y - 1, data->y + data->height); return 0; } /* * Draw the month-of-year selection box */ static int draw_month(BOX * data, struct tm *current) { int month; month = current->tm_mon + 1; dlg_attrset(data->parent, dialog_attr); /* Headline "Month" */ (void) mvwprintw(data->parent, data->y - 2, data->x - 1, _("Month")); dlg_draw_box2(data->parent, data->y - 1, data->x - 1, data->height + 2, data->width + 2, menubox_attr, menubox_border_attr, menubox_border2_attr); dlg_attrset(data->window, item_attr); /* color the month selection */ mvwprintw(data->window, 0, 0, "%s", nameOfMonth(month - 1)); wmove(data->window, 0, 0); return 0; } /* * Draw the year selection box */ static int draw_year(BOX * data, struct tm *current) { int year = current->tm_year + 1900; dlg_attrset(data->parent, dialog_attr); /* Headline "Year" */ (void) mvwprintw(data->parent, data->y - 2, data->x - 1, _("Year")); dlg_draw_box2(data->parent, data->y - 1, data->x - 1, data->height + 2, data->width + 2, menubox_attr, menubox_border_attr, menubox_border2_attr); dlg_attrset(data->window, item_attr); /* color the year selection */ mvwprintw(data->window, 0, 0, "%4d", year); wmove(data->window, 0, 0); return 0; } static int init_object(BOX * data, WINDOW *parent, int x, int y, int width, int height, BOX_DRAW box_draw, int key_offset, int code) { data->parent = parent; data->x = x; data->y = y; data->width = width; data->height = height; data->box_draw = box_draw; data->week_start = key_offset; data->window = derwin(data->parent, data->height, data->width, data->y, data->x); if (data->window == 0) return -1; (void) keypad(data->window, TRUE); dlg_mouse_setbase(getbegx(parent), getbegy(parent)); if (code == 'D') { dlg_mouse_mkbigregion(y + 1, x + MON_WIDE, height - 1, width - MON_WIDE, KEY_MAX + key_offset, 1, MON_WIDE, 3); } else { dlg_mouse_mkregion(y, x, height, width, code); } return 0; } #if defined(ENABLE_NLS) && defined(HAVE_NL_LANGINFO_1STDAY) #elif defined(HAVE_DLG_GAUGE) static int read_locale_setting(const char *name, int which) { FILE *fp; char command[80]; int result = -1; sprintf(command, "locale %s", name); if ((fp = dlg_popen(command, "r")) != 0) { int count = 0; char buf[80]; while (fgets(buf, (int) sizeof(buf) - 1, fp) != 0) { if (++count > which) { char *next = 0; long check = strtol(buf, &next, 0); if (next != 0 && next != buf && *next == '\n') { result = (int) check; } break; } } pclose(fp); } return result; } #endif static int WeekStart(void) { int result = 0; char *option = dialog_vars.week_start; if (option != 0) { if (option[0]) { char *next = 0; long check = strtol(option, &next, 0); if (next == 0 || next == option || *next != '\0') { if (!strcmp(option, "locale")) { #if defined(ENABLE_NLS) && defined(HAVE_NL_LANGINFO_1STDAY) /* * glibc-specific. */ int first_day = nl_langinfo(_NL_TIME_FIRST_WEEKDAY)[0]; char *basis_ptr = nl_langinfo(_NL_TIME_WEEK_1STDAY); int basis_day = (int) (intptr_t) basis_ptr; #elif defined(HAVE_DLG_GAUGE) /* * probably Linux-specific, but harmless otherwise. When * available, the locale program will return a single * integer on one line. */ int first_day = read_locale_setting("first_weekday", 0); int basis_day = read_locale_setting("week-1stday", 0); #endif #if (defined(ENABLE_NLS) && defined(HAVE_NL_LANGINFO_1STDAY)) || defined(HAVE_DLG_GAUGE) int week_1stday = -1; if (basis_day == 19971130) week_1stday = 0; /* Sun */ else if (basis_day == 19971201) week_1stday = 1; /* Mon */ if (week_1stday >= 0) { result = first_day - week_1stday - 1; } #else result = 0; /* Sun */ #endif } else { int day; size_t eql = strlen(option); for (day = 0; day < MAX_DAYS; ++day) { if (!strncmp(nameOfDayOfWeek(day), option, eql)) { result = day; break; } } } } else if (check < 0) { result = -1; } else { result = (int) (check % MAX_DAYS); } } } return result; } static int CleanupResult(int code, WINDOW *dialog, char *prompt, DIALOG_VARS * save_vars) { int n; if (dialog != 0) dlg_del_window(dialog); dlg_mouse_free_regions(); if (prompt != 0) free(prompt); dlg_restore_vars(save_vars); for (n = 0; n < MAX_DAYS; ++n) { free(cached_days[n]); cached_days[n] = 0; } for (n = 0; n < MAX_MONTHS; ++n) { free(cached_months[n]); cached_months[n] = 0; } return code; } static void trace_date(struct tm *current, struct tm *old) { bool changed = (old == 0 || current->tm_mday != old->tm_mday || current->tm_mon != old->tm_mon || current->tm_year != old->tm_year); if (changed) { DLG_TRACE(("# current %04d/%02d/%02d\n", current->tm_year + 1900, current->tm_mon + 1, current->tm_mday)); } else { DLG_TRACE(("# current (unchanged)\n")); } } #define DrawObject(data) (data)->box_draw(data, ¤t) /* * Display a dialog box for entering a date */ int dialog_calendar(const char *title, const char *subtitle, int height, int width, int day, int month, int year) { /* *INDENT-OFF* */ static DLG_KEYS_BINDING binding[] = { HELPKEY_BINDINGS, ENTERKEY_BINDINGS, TOGGLEKEY_BINDINGS, DLG_KEYS_DATA( DLGK_FIELD_NEXT, TAB ), DLG_KEYS_DATA( DLGK_FIELD_PREV, KEY_BTAB ), DLG_KEYS_DATA( DLGK_GRID_DOWN, 'j' ), DLG_KEYS_DATA( DLGK_GRID_DOWN, DLGK_MOUSE(KEY_NPAGE) ), DLG_KEYS_DATA( DLGK_GRID_DOWN, KEY_DOWN ), DLG_KEYS_DATA( DLGK_GRID_DOWN, KEY_NPAGE ), DLG_KEYS_DATA( DLGK_GRID_LEFT, '-' ), DLG_KEYS_DATA( DLGK_GRID_LEFT, 'h' ), DLG_KEYS_DATA( DLGK_GRID_LEFT, CHR_BACKSPACE ), DLG_KEYS_DATA( DLGK_GRID_LEFT, CHR_PREVIOUS ), DLG_KEYS_DATA( DLGK_GRID_LEFT, KEY_LEFT ), DLG_KEYS_DATA( DLGK_GRID_RIGHT, '+' ), DLG_KEYS_DATA( DLGK_GRID_RIGHT, 'l' ), DLG_KEYS_DATA( DLGK_GRID_RIGHT, CHR_NEXT ), DLG_KEYS_DATA( DLGK_GRID_RIGHT, KEY_NEXT ), DLG_KEYS_DATA( DLGK_GRID_RIGHT, KEY_RIGHT ), DLG_KEYS_DATA( DLGK_GRID_UP, 'k' ), DLG_KEYS_DATA( DLGK_GRID_UP, KEY_PPAGE ), DLG_KEYS_DATA( DLGK_GRID_UP, KEY_PREVIOUS ), DLG_KEYS_DATA( DLGK_GRID_UP, KEY_UP ), DLG_KEYS_DATA( DLGK_GRID_UP, DLGK_MOUSE(KEY_PPAGE) ), END_KEYS_BINDING }; /* *INDENT-ON* */ #ifdef KEY_RESIZE int old_height = height; int old_width = width; #endif BOX dy_box, mn_box, yr_box; int fkey; int key = 0; int key2; int step; int button; int result = DLG_EXIT_UNKNOWN; int week_start; WINDOW *dialog; time_t now_time = time((time_t *) 0); struct tm current; int state = dlg_default_button(); const char **buttons = dlg_ok_labels(); char *prompt; int mincols = MIN_WIDE; char buffer[MAX_LEN]; DIALOG_VARS save_vars; DLG_TRACE(("# calendar args:\n")); DLG_TRACE2S("title", title); DLG_TRACE2S("message", subtitle); DLG_TRACE2N("height", height); DLG_TRACE2N("width", width); DLG_TRACE2N("day", day); DLG_TRACE2N("month", month); DLG_TRACE2N("year", year); dlg_save_vars(&save_vars); dialog_vars.separate_output = TRUE; dlg_does_output(); /* * Unless overrridden, the current time/date is our starting point. */ now_time = time((time_t *) 0); current = *localtime(&now_time); #if HAVE_MKTIME current.tm_isdst = -1; if (year >= 1900) { current.tm_year = year - 1900; } if (month >= 1) { current.tm_mon = month - 1; } if (day > 0 && day <= days_per_month(current.tm_year + 1900, current.tm_mon + 1)) { current.tm_mday = day; } now_time = mktime(¤t); #else if (day < 0) day = current.tm_mday; if (month < 0) month = current.tm_mon + 1; if (year < 0) year = current.tm_year + 1900; /* compute a struct tm that matches the day/month/year parameters */ if (((year -= 1900) > 0) && (year < 200)) { /* ugly, but I'd like to run this on older machines w/o mktime -TD */ for (;;) { if (year > current.tm_year) { now_time += ONE_DAY * days_in_year(¤t, 0); } else if (year < current.tm_year) { now_time -= ONE_DAY * days_in_year(¤t, -1); } else if (month > current.tm_mon + 1) { now_time += ONE_DAY * days_in_month(¤t, 0); } else if (month < current.tm_mon + 1) { now_time -= ONE_DAY * days_in_month(¤t, -1); } else if (day > current.tm_mday) { now_time += ONE_DAY; } else if (day < current.tm_mday) { now_time -= ONE_DAY; } else { break; } current = *localtime(&now_time); } } #endif dlg_button_layout(buttons, &mincols); #ifdef KEY_RESIZE retry: #endif prompt = dlg_strclone(subtitle); dlg_auto_size(title, prompt, &height, &width, 0, mincols); height += MIN_HIGH - 1; dlg_print_size(height, width); dlg_ctl_size(height, width); dialog = dlg_new_window(height, width, dlg_box_y_ordinate(height), dlg_box_x_ordinate(width)); dlg_register_window(dialog, "calendar", binding); dlg_register_buttons(dialog, "calendar", buttons); /* mainbox */ dlg_draw_box2(dialog, 0, 0, height, width, dialog_attr, border_attr, border2_attr); dlg_draw_bottom_box2(dialog, border_attr, border2_attr, dialog_attr); dlg_draw_title(dialog, title); dlg_attrset(dialog, dialog_attr); /* text mainbox */ dlg_print_autowrap(dialog, prompt, height, width); /* compute positions of day, month and year boxes */ memset(&dy_box, 0, sizeof(dy_box)); memset(&mn_box, 0, sizeof(mn_box)); memset(&yr_box, 0, sizeof(yr_box)); if ((week_start = WeekStart()) < 0 || init_object(&dy_box, dialog, (width - DAY_WIDE) / 2, 1 + (height - (DAY_HIGH + BTN_HIGH + (5 * MARGIN))), DAY_WIDE, DAY_HIGH + 1, draw_day, week_start, 'D') < 0 || ((dy_box.week_start = WeekStart()) < 0) || DrawObject(&dy_box) < 0) { return CleanupResult(DLG_EXIT_ERROR, dialog, prompt, &save_vars); } if (init_object(&mn_box, dialog, dy_box.x, dy_box.y - (HDR_HIGH + 2 * MARGIN), (DAY_WIDE / 2) - MARGIN, HDR_HIGH, draw_month, 0, 'M') < 0 || DrawObject(&mn_box) < 0) { return CleanupResult(DLG_EXIT_ERROR, dialog, prompt, &save_vars); } if (init_object(&yr_box, dialog, dy_box.x + mn_box.width + 2, mn_box.y, mn_box.width, mn_box.height, draw_year, 0, 'Y') < 0 || DrawObject(&yr_box) < 0) { return CleanupResult(DLG_EXIT_ERROR, dialog, prompt, &save_vars); } dlg_trace_win(dialog); while (result == DLG_EXIT_UNKNOWN) { BOX *obj = (state == sDAY ? &dy_box : (state == sMONTH ? &mn_box : (state == sYEAR ? &yr_box : 0))); button = (state < 0) ? 0 : state; dlg_draw_buttons(dialog, height - 2, 0, buttons, button, FALSE, width); if (obj != 0) dlg_set_focus(dialog, obj->window); key = dlg_mouse_wgetch(dialog, &fkey); if (dlg_result_key(key, fkey, &result)) break; #define Mouse2Key(key) (key - M_EVENT) if (fkey && (key >= DLGK_MOUSE(KEY_MIN) && key <= DLGK_MOUSE(KEY_MAX))) { key = dlg_lookup_key(dialog, Mouse2Key(key), &fkey); } if ((key2 = dlg_char_to_button(key, buttons)) >= 0) { result = key2; } else if (fkey) { /* handle function-keys */ switch (key) { case DLGK_MOUSE('D'): state = sDAY; break; case DLGK_MOUSE('M'): state = sMONTH; break; case DLGK_MOUSE('Y'): state = sYEAR; break; case DLGK_TOGGLE: case DLGK_ENTER: result = dlg_enter_buttoncode(button); break; case DLGK_FIELD_PREV: state = dlg_prev_ok_buttonindex(state, sMONTH); break; case DLGK_FIELD_NEXT: state = dlg_next_ok_buttonindex(state, sMONTH); break; #ifdef KEY_RESIZE case KEY_RESIZE: dlg_will_resize(dialog); /* reset data */ height = old_height; width = old_width; free(prompt); dlg_clear(); dlg_del_window(dialog); dlg_mouse_free_regions(); /* repaint */ goto retry; #endif default: step = 0; key2 = -1; if (is_DLGK_MOUSE(key)) { if ((key2 = dlg_ok_buttoncode(Mouse2Key(key))) >= 0) { result = key2; break; } else if (key >= DLGK_MOUSE(KEY_MAX)) { state = sDAY; obj = &dy_box; key2 = 1; step = (key - DLGK_MOUSE(KEY_MAX) - day_cell_number(¤t)); DLG_TRACE(("# mouseclick decoded %d\n", step)); } } if (obj != 0) { if (key2 < 0) { step = next_or_previous(key, (obj == &dy_box)); } if (step != 0) { struct tm old = current; /* see comment regarding mktime -TD */ if (obj == &dy_box) { now_time += ONE_DAY * step; } else if (obj == &mn_box) { if (step > 0) now_time += ONE_DAY * days_in_month(¤t, 0); else now_time -= ONE_DAY * days_in_month(¤t, -1); } else if (obj == &yr_box) { if (step > 0) now_time += (ONE_DAY * days_in_year(¤t, 0)); else now_time -= (ONE_DAY * days_in_year(¤t, -1)); } current = *localtime(&now_time); trace_date(¤t, &old); if (obj != &dy_box && (current.tm_mday != old.tm_mday || current.tm_mon != old.tm_mon || current.tm_year != old.tm_year)) DrawObject(&dy_box); if (obj != &mn_box && current.tm_mon != old.tm_mon) DrawObject(&mn_box); if (obj != &yr_box && current.tm_year != old.tm_year) DrawObject(&yr_box); (void) DrawObject(obj); } } else if (state >= 0) { if (next_or_previous(key, FALSE) < 0) state = dlg_prev_ok_buttonindex(state, sMONTH); else if (next_or_previous(key, FALSE) > 0) state = dlg_next_ok_buttonindex(state, sMONTH); } break; } } } #define DefaultFormat(dst, src) \ sprintf(dst, "%02d/%02d/%0d", \ src.tm_mday, src.tm_mon + 1, src.tm_year + 1900) #ifdef HAVE_STRFTIME if (dialog_vars.date_format != 0) { size_t used = strftime(buffer, sizeof(buffer) - 1, dialog_vars.date_format, ¤t); if (used == 0 || *buffer == '\0') DefaultFormat(buffer, current); } else #endif DefaultFormat(buffer, current); dlg_add_result(buffer); dlg_add_separator(); dlg_add_last_key(-1); return CleanupResult(result, dialog, prompt, &save_vars); }