"""Calendar printing functions Note when comparing these calendars to the ones printed by cal(1): By default, these calendars have Monday as the first day of the week, and Sunday as the last (the European convention). Use setfirstweekday() to set the first day of the week (0=Monday, 6=Sunday).""" # Revision 2: uses functions from built-in time module # Import functions and variables from time module from time import localtime, mktime, strftime __all__ = ["error","setfirstweekday","firstweekday","isleap", "leapdays","weekday","monthrange","monthcalendar", "prmonth","month","prcal","calendar","timegm"] # Exception raised for bad input (with string parameter for details) error = ValueError # Constants for months referenced later January = 1 February = 2 # Number of days per month (except for February in leap years) mdays = [0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31] class _localized_name: def __init__(self, format, len): self.format = format self.len = len def __getitem__(self, item): if item > self.len-1 or item < -self.len: raise IndexError if item < 0: item += self.len return strftime(self.format, (item,)*9).capitalize() def __len__(self): return self.len # Full and abbreviated names of weekdays day_name = _localized_name('%A', 7) day_abbr = _localized_name('%a', 7) # Full and abbreviated names of months (1-based arrays!!!) month_name = _localized_name('%B', 12) month_abbr = _localized_name('%b', 12) # Constants for weekdays (MONDAY, TUESDAY, WEDNESDAY, THURSDAY, FRIDAY, SATURDAY, SUNDAY) = range(7) _firstweekday = 0 # 0 = Monday, 6 = Sunday def firstweekday(): return _firstweekday def setfirstweekday(weekday): """Set weekday (Monday=0, Sunday=6) to start each week.""" global _firstweekday if not MONDAY <= weekday <= SUNDAY: raise ValueError, \ 'bad weekday number; must be 0 (Monday) to 6 (Sunday)' _firstweekday = weekday def isleap(year): """Return 1 for leap years, 0 for non-leap years.""" return year % 4 == 0 and (year % 100 != 0 or year % 400 == 0) def leapdays(y1, y2): """Return number of leap years in range [y1, y2). Assume y1 <= y2.""" y1 -= 1 y2 -= 1 return (y2/4 - y1/4) - (y2/100 - y1/100) + (y2/400 - y1/400) def weekday(year, month, day): """Return weekday (0-6 ~ Mon-Sun) for year (1970-...), month (1-12), day (1-31).""" secs = mktime((year, month, day, 0, 0, 0, 0, 0, 0)) tuple = localtime(secs) return tuple[6] def monthrange(year, month): """Return weekday (0-6 ~ Mon-Sun) and number of days (28-31) for year, month.""" if not 1 <= month <= 12: raise ValueError, 'bad month number' day1 = weekday(year, month, 1) ndays = mdays[month] + (month == February and isleap(year)) return day1, ndays def monthcalendar(year, month): """Return a matrix representing a month's calendar. Each row represents a week; days outside this month are zero.""" day1, ndays = monthrange(year, month) rows = [] r7 = range(7) day = (_firstweekday - day1 + 6) % 7 - 5 # for leading 0's in first week while day <= ndays: row = [0, 0, 0, 0, 0, 0, 0] for i in r7: if 1 <= day <= ndays: row[i] = day day = day + 1 rows.append(row) return rows def _center(str, width): """Center a string in a field.""" n = width - len(str) if n <= 0: return str return ' '*((n+1)/2) + str + ' '*((n)/2) def prweek(theweek, width): """Print a single week (no newline).""" print week(theweek, width), def week(theweek, width): """Returns a single week in a string (no newline).""" days = [] for day in theweek: if day == 0: s = '' else: s = '%2i' % day # right-align single-digit days days.append(_center(s, width)) return ' '.join(days) def weekheader(width): """Return a header for a week.""" if width >= 9: names = day_name else: names = day_abbr days = [] for i in range(_firstweekday, _firstweekday + 7): days.append(_center(names[i%7][:width], width)) return ' '.join(days) def prmonth(theyear, themonth, w=0, l=0): """Print a month's calendar.""" print month(theyear, themonth, w, l), def month(theyear, themonth, w=0, l=0): """Return a month's calendar string (multi-line).""" w = max(2, w) l = max(1, l) s = (_center(month_name[themonth] + ' ' + `theyear`, 7 * (w + 1) - 1).rstrip() + '\n' * l + weekheader(w).rstrip() + '\n' * l) for aweek in monthcalendar(theyear, themonth): s = s + week(aweek, w).rstrip() + '\n' * l return s[:-l] + '\n' # Spacing of month columns for 3-column year calendar _colwidth = 7*3 - 1 # Amount printed by prweek() _spacing = 6 # Number of spaces between columns def format3c(a, b, c, colwidth=_colwidth, spacing=_spacing): """Prints 3-column formatting for year calendars""" print format3cstring(a, b, c, colwidth, spacing) def format3cstring(a, b, c, colwidth=_colwidth, spacing=_spacing): """Returns a string formatted from 3 strings, centered within 3 columns.""" return (_center(a, colwidth) + ' ' * spacing + _center(b, colwidth) + ' ' * spacing + _center(c, colwidth)) def prcal(year, w=0, l=0, c=_spacing): """Print a year's calendar.""" print calendar(year, w, l, c), def calendar(year, w=0, l=0, c=_spacing): """Returns a year's calendar as a multi-line string.""" w = max(2, w) l = max(1, l) c = max(2, c) colwidth = (w + 1) * 7 - 1 s = _center(`year`, colwidth * 3 + c * 2).rstrip() + '\n' * l header = weekheader(w) header = format3cstring(header, header, header, colwidth, c).rstrip() for q in range(January, January+12, 3): s = (s + '\n' * l + format3cstring(month_name[q], month_name[q+1], month_name[q+2], colwidth, c).rstrip() + '\n' * l + header + '\n' * l) data = [] height = 0 for amonth in range(q, q + 3): cal = monthcalendar(year, amonth) if len(cal) > height: height = len(cal) data.append(cal) for i in range(height): weeks = [] for cal in data: if i >= len(cal): weeks.append('') else: weeks.append(week(cal[i], w)) s = s + format3cstring(weeks[0], weeks[1], weeks[2], colwidth, c).rstrip() + '\n' * l return s[:-l] + '\n' EPOCH = 1970 def timegm(tuple): """Unrelated but handy function to calculate Unix timestamp from GMT.""" year, month, day, hour, minute, second = tuple[:6] assert year >= EPOCH assert 1 <= month <= 12 days = 365*(year-EPOCH) + leapdays(EPOCH, year) for i in range(1, month): days = days + mdays[i] if month > 2 and isleap(year): days = days + 1 days = days + day - 1 hours = days*24 + hour minutes = hours*60 + minute seconds = minutes*60 + second return seconds