import calendar
import datetime
from .weeks import BreakWeek, IsoWeek, TeachingWeek
class TeachingCalendar():
"""This class generates teaching-related dates for a specific paper
offered in a specific teaching period of a specific year. If you
don't provide teaching period details, it generates dates for the
current ISO-8601 year.
"""
weeks = []
lecture_offsets = []
skipped_lectures = []
mondays = []
period = "iso"
year = datetime.date.today().year
def __init__(self, year, period, paper, period_config=None,
paper_config=None, *args, **kwargs):
super().__init__(*args, **kwargs)
self.year = year
self.period = period
self.paper = paper
# This is likely to end up with one week too many at the end,
# but that doesn't matter as there will never be any teaching
# during the last week of December!
cal = calendar.Calendar().yeardatescalendar(self.year, width=12)
self.mondays = [week[0] for month in cal[0] for week in month]
self.mondays = list(dict.fromkeys(self.mondays))
if period_config:
self.update_weeks(period_config["weeks"])
else:
last_week = datetime.date(self.year, 12, 28).isocalendar()[1]
self.update_weeks([{"iso": [1, last_week]}])
if paper_config:
self.update_lectures(paper_config["lectures"])
def make_week(self, week_type, start, end=None):
end = start if end is None else end
return [
week_type(self.mondays[w].year, self.mondays[w].month,
self.mondays[w].day)
for w in range(start - 1, end)]
def teaching_date(self, period, week, offset=0):
pass
def update_weeks(self, week_list):
for w in week_list:
for t, r in w.items():
if t == "teach":
self.weeks += self.make_week(TeachingWeek, r[0], r[1])
elif t == "break":
self.weeks += self.make_week(BreakWeek, r[0], r[1])
elif t == "iso":
self.weeks += self.make_week(IsoWeek, r[0], r[1])
else:
print("WARNING: ignored unknown week type {t}.".format(t=t))
def update_lectures(self, lecture_list):
for l in lecture_list:
for t, v in l.items():
if t == "offsets":
self.lecture_offsets = v
elif t == "skip":
self.skipped_lectures = v
else:
print("WARNING: ignored unknown lecture key {t}.".format(t=t))
def calendar(self):
period = {}
week_num = break_num = 0
for w in self.weeks:
if isinstance(w, (TeachingWeek, IsoWeek)):
# Increment first so that break weeks have the
# same week number as the preceding teaching week.
# This ensures the keys are always chronologically
# sorted. Reset the break number for each new
# teaching week.
week_num += 1
break_num = 0
period[week_num] = w
elif isinstance(w, BreakWeek):
# Allow for up to 99 consecutive break weeks,
# which should be sufficient :). Should probably
# throw an exception if we exceed that.
break_num += 0.01
period[week_num + break_num] = w
return period
def lecture_dates(self):
dates = {}
lecture_num = 1
teaching_weeks = [t for t in self.weeks if isinstance(t, TeachingWeek)]
for week_index, monday in enumerate(teaching_weeks):
for offset_index, offset in enumerate(self.lecture_offsets):
lec = week_index * 2 + offset_index + 1
if lec in self.skipped_lectures:
continue
dates[lecture_num] = monday + datetime.timedelta(offset)
lecture_num += 1
return dates
