def timespan_description(self, html=False): if html: return mark_safe(pprint_datetime_span(self.start, self.end(), infer_all_day=False, space=" ", date_range_str="–", time_range_str="–", separator=":", grand_range_str=" – ", )) return mark_safe(pprint_datetime_span(self.start, self.end(), infer_all_day=False))
def timespan_description(self, html=False): start = localtime(self.start) end = localtime(self.end()) if html: return mark_safe( pprint_datetime_span( start, end, infer_all_day=False, space=" ", date_range_str="–", time_range_str="–", separator=":", grand_range_str=" – ", )) return mark_safe(pprint_datetime_span(start, end, infer_all_day=False))
def robot_description(self): r = "%s, repeating %s" % ( pprint_datetime_span(timezone.localtime(self.start), timezone.localtime(self.end())), unicode(self.rule).lower(), ) if self.repeat_until: r += " until %s" % pprint_date_span(self.repeat_until, self.repeat_until) return r
def robot_description(self): r = "%s, repeating %s" % ( pprint_datetime_span(self.event_start, self.event_end), unicode(self.rule).lower(), ) if self.repeat_until: r += " until %s" % pprint_date_span(self.repeat_until.date(), self.repeat_until.date()) return r
def robot_description(self): r = "%s, repeating %s" % ( pprint_datetime_span(localtime(self.start), localtime(self.end())), unicode(self.rule).lower(), ) if self.repeat_until: r += " until %s" % pprint_date_span(self.repeat_until, self.repeat_until) return r