def _generate_calendar(self, checkins, year=None):
"""
Supplied with a list of checkin data from the API, generates an
ics Calendar object and returns it.
"""
user_url = self._get_user_url()
c = Calendar()
#for checkin in list(checkins)["checkins"]["items"]:
for checkin in checkins:
try:
venue_name = checkin["venue"]["name"]
tz_offset = self._get_checkin_timezone(checkin)
e = Event()
e.name = "@ {}".format(venue_name)
e.location = venue_name
e.url = "{}/checkin/{}".format(user_url, checkin["id"])
e.uid = "{}@foursquare.com".format(checkin["id"])
e.begin = checkin["createdAt"]
e.end = e.begin
# Use the 'shout', if any, and the timezone offset in the
# description.
description = []
description.append("{}\n".format(e.url))
if "shout" in checkin and len(checkin["shout"]) > 0:
description = [checkin["shout"]]
description.append("Timezone offset: {}".format(tz_offset))
e.description = "\n".join(description)
# Use the venue_name and the address, if any, for the location.
location = venue_name
if "location" in checkin["venue"]:
loc = checkin["venue"]["location"]
if "formattedAddress" in loc and len(
loc["formattedAddress"]) > 0:
address = ", ".join(loc["formattedAddress"])
location = "{}, {}".format(location, address)
e.location = location
if (year is not None):
if (e.begin.year == year):
c.events.add(e)
else:
c.events.add(e)
except:
print("Error processing {}".format(venue_name))
continue
return c
def create_ics(sender, instance, **kwargs):
c = Calendar()
alarm = [DisplayAlarm(trigger=timedelta(minutes=30))]
e = Event()
e.name = instance.title
e.begin = instance.date
e.end = instance.dateend
e.alarms = alarm
if instance.duration != None:
e.duration = instance.duration
if (instance.cost == 0 or instance.cost == None):
cost = 'Бесплатно'
e.description = str(instance.intro) + ' Стоимость: ' + str(cost)
else:
e.description = str(instance.intro) + ' Стоимость: ' + str(instance.cost)+ 'р.'
e.location = instance.location
if instance.timepad != None:
e.url = instance.timepad
c.events.add(e)
instance.ics.delete(save=False)
instance.ics.save(instance.title +'.ics', ContentFile(str(c)), save=True)
#Формирование глобального файла со всеми мероприятиями
global_ics = EventIndex.objects.all()[0]
events = global_ics.get_children()
c = Calendar()
for event in events:
if (event.specific.date < timezone.now()):
pass
else:
e = Event()
e.name = event.title
e.begin = event.specific.date
e.end = event.specific.dateend
e.alarms = alarm
if event.specific.duration != None:
e.duration = event.specific.duration
if (event.specific.cost == 0 or event.specific.cost == None):
cost = 'Бесплатно'
e.description = str(event.specific.intro.strip("<p>*</p>")) + ' Стоимость: ' + str(cost)
else:
e.description = str(event.specific.intro.strip("<p>*</p>")) + ' Стоимость: ' + str(event.specific.cost)+ 'р.'
e.location = event.specific.location
if event.specific.timepad != None:
e.url = event.specific.timepad
c.events.add(e)
global_ics.calenadar_file.delete(save=False)
global_ics.calenadar_file.save('global.ics', ContentFile(str(c)), save=True)
def _generate_calendar(self, checkins):
"""Supplied with a list of checkin data from the API, generates
an ics Calendar object and returns it.
Keyword arguments:
checkins -- A list of dicts, each one data about a single checkin.
"""
user = self._get_user()
c = Calendar()
for checkin in checkins:
if "venue" not in checkin:
# I had some checkins with no data other than
# id, createdAt and source.
continue
venue_name = checkin["venue"]["name"]
tz_offset = self._get_checkin_timezone(checkin)
e = Event()
e.name = "@ {}".format(venue_name)
e.location = venue_name
e.url = "{}/checkin/{}".format(user["canonicalUrl"], checkin["id"])
e.uid = "{}@foursquare.com".format(checkin["id"])
e.begin = checkin["createdAt"]
# Use the 'shout', if any, and the timezone offset in the
# description.
description = []
if "shout" in checkin and len(checkin["shout"]) > 0:
description = [checkin["shout"]]
description.append("Timezone offset: {}".format(tz_offset))
e.description = "\n".join(description)
# Use the venue_name and the address, if any, for the location.
location = venue_name
if "location" in checkin["venue"]:
loc = checkin["venue"]["location"]
if "formattedAddress" in loc and len(loc["formattedAddress"]) > 0:
address = ", ".join(loc["formattedAddress"])
location = "{}, {}".format(location, address)
e.location = location
c.events.add(e)
return c
def add_course(self, course_name, start):
local = self.info[start].lstrip(
str(re.search(r'<td>|<td rowspan=\"\d\">',
self.info[start]))).rstrip('</td>')
weekday = re.findall(r"星期.", self.info[start + 1])[0].lstrip('星期')
weekday = self.map.index(weekday)
time = re.findall(r"\d+", self.info[start + 1])
week = self.info[start + 2].lstrip('</td>第').rstrip('周</td>')
remark = self.info[start + 3].lstrip('</td>').rstrip('</td>')
e = Event()
if ('-' in week):
week = week.split('-')
#print(week)
week_cur = int(week[0])
week_end = int(week[1])
while week_cur <= week_end:
e = Event()
e.name = course_name
e.location = local
e.description = remark
offset = datetime.timedelta(days=(week_cur - 1) * 7 + weekday,
hours=self.start_h[int(time[0])],
minutes=self.start_m[int(time[0])])
e.begin = self.term_start_time + offset
offset = datetime.timedelta(days=(week_cur - 1) * 7 + weekday,
hours=self.end_h[int(time[1])],
minutes=self.end_m[int(time[1])])
e.end = self.term_start_time + offset
week_cur += 1
self.c.events.add(e)
else:
week = week.split(',')
#print(week)
for we in week:
e = Event()
e.name = course_name
e.location = local
e.description = remark
offset = datetime.timedelta(days=(int(we) - 1) * 7 + weekday,
hours=self.start_h[int(time[0])],
minutes=self.start_m[int(time[0])])
e.begin = self.term_start_time + offset
offset = datetime.timedelta(days=(int(we) - 1) * 7 + weekday,
hours=self.end_h[int(time[1])],
minutes=self.end_m[int(time[1])])
e.end = self.term_start_time + offset
self.c.events.add(e)
def get_events(item):
time_table = [
[8, 30], #1
[10, 20], #3
[14, 30], #5
[16, 20], #7
[19, 30] #9
]
course_long = [0, 0, 95, 145, 205]
begin_time = time_table[item['begin_time'] // 2]
event_list = []
for i in range(item['begin_week'], item['end_week'] + 1):
b_time = datetime(2019, 9, 2, begin_time[0], begin_time[1],
0) + timedelta(
hours=-8, days=item['week'] - 1, weeks=i - 1)
e_time = b_time + timedelta(minutes=course_long[item['num']])
##print(b_time,'-------',e_time)
e = Event()
e.name = item['name']
e.location = item['location']
e.begin = str(b_time)
e.end = str(e_time)
event_list.append(e)
return event_list
def save_ics_file(self, ics_file: str, n_events: int = 50) -> None:
"""
Saves n_events random events in the ics file with path ics_file
:param ics_file (str): path of the ics file
:param n_events (int): number of events to generate
"""
c = Calendar()
for i in range(0, n_events):
sys.stdout.write("\rCreating event %i of %i" % (i, n_events))
sys.stdout.flush()
e = Event()
e.name = self.get_rnd_title()
(start, end, duration, created) = self.get_rnd_event_time()
e.begin = start
e.end = end
e.duration = duration
e.created = created
e.description = self.get_rnd_description()
e.url = self.get_rnd_url()
e.location = self.get_rnd_address()
c.events.add(e)
with open(ics_file, 'w') as f:
f.writelines(c)
sys.stdout.write("\rDone")
sys.stdout.flush()
def create_ical_event_from_session(session):
e = Event()
e.name = session.title
e.begin = session.start_time
e.end = session.end_time
e.location = session.location
return e
def exportClass(self, day):
e = Event()
e.name = self.name
e.begin = datetime.combine(day, self.begin) + timedelta(hours=4)
e.end = datetime.combine(day, self.end) + timedelta(hours=4)
e.location = self.location
return (e)
def main(args):
res = requests.get('http://www.febclub2017.com/events')
print "Encoding: {}".format(res.encoding)
soup = BeautifulSoup(res.text, 'html.parser')
cal = Calendar()
for link in soup.find_all("div", { "class" : "detail" }):
# Parse and format data
paragraphs = [p.text for p in link.find_all('p')]
date = paragraphs[2].split('\n')
start_date = dp.parse("{} {}".format(date[0], date[1].split('-')[0].strip()))
end_date = dp.parse("{} {}".format(date[0], date[1].split('-')[1].strip()))
if end_date < start_date:
end_date = end_date + timedelta(days=1)
start_date = pytz.timezone('US/Eastern').localize(start_date)
end_date = pytz.timezone('US/Eastern').localize(end_date)
description = paragraphs[1].encode('ascii', errors='backslashreplace')
event = Event()
event.name = link.h1.text
event.begin = start_date.isoformat()
event.end = end_date.isoformat()
event.description = u"{}\n{}\n\n{}".format(paragraphs[0], paragraphs[4], description)
event.location = paragraphs[3]
cal.events.append(event)
print "Added event {}".format(link.h1.text)
with open('febclub.ics', 'w') as f:
f.writelines(cal)
def loadCal(self):
with open("CAL_REQ.json", "r") as f:
global c
c2 = Calendar()
data = json.load(f)
headers = {"Authorization": "basic T64Mdy7m["}
r = requests.post(
"https://opentimetable.dcu.ie/broker/api/categoryTypes/241e4d36-60e0-49f8-b27e-99416745d98d/categories/events/filter",
json=data,
headers=headers,
)
if r.status_code == 200:
response = json.loads(r.text)
for event in response[0]["CategoryEvents"]:
e = Event()
e.begin = event["StartDateTime"]
e.end = event["EndDateTime"]
e.location = event["Location"]
e.description = ""
for item in event["ExtraProperties"]:
if item["DisplayName"] == "Module Name":
e.name = "{} - {}".format(item["Value"],
event["EventType"])
e.description += "{}: {}\n".format(
item["DisplayName"], item["Value"])
c2.events.add(e)
c = c2
return True
else:
print("Request Failed: %d" % r.status_code)
return False
def make(parsed, monday):
calendar = Calendar()
calendar.creator = "eAUrnik - Fork me on GitHub: https://git.io/JO5Za"
durations = []
for duration in parsed[0]:
start, end = duration.split(" - ")
start_hours, start_minutes = map(int, start.split(":"))
end_hours, end_minutes = map(int, end.split(":"))
durations.append(((start_hours, start_minutes), (end_hours, end_minutes)))
data = parsed[1]
for day_index in range(0, len(data)):
day = monday + timedelta(days = day_index)
lessons = data[day_index]
for lesson_index in range(0, len(lessons)):
for lesson in lessons[lesson_index]:
title = lesson[0]
subtitle = lesson[1]
duration = durations[lesson_index]
timezone = ZoneInfo("Europe/Ljubljana")
start = datetime(day.year, day.month, day.day, duration[0][0], duration[0][1], tzinfo = timezone)
end = datetime(day.year, day.month, day.day, duration[1][0], duration[1][1], tzinfo = timezone)
event = Event()
event.name = title
event.location = subtitle
event.begin = start
event.end = end
calendar.events.add(event)
return string(calendar)
def send_appointment_reminder(signup: AppointmentSignup):
appointment = signup.appointment
user = signup.user
c = Calendar()
e = Event()
e.name = f"{format_coursecode(get_course())} Appointment"
e.begin = pytz.timezone("America/Los_Angeles").localize(appointment.start_time)
e.end = e.begin + appointment.duration
e.location = appointment.location.name
c.events.add(e)
helper_msg = (
f"It will be led by {appointment.helper.name}.\n" if appointment.helper else ""
)
send_email(
sender="OH Queue <*****@*****.**>",
target=user.email,
subject=f"{format_coursecode(get_course())} Appointment Scheduled",
body=(
f"""
Hi {user.short_name},
An appointment has been scheduled for you using the {format_coursecode(get_course())} OH Queue.
It is at {appointment.start_time.strftime('%A %B %-d, %I:%M%p')} Pacific Time, at location {appointment.location.name}.
{helper_msg}
To edit or cancel this appointment, go to https://{get_domain()}.
Best,
The 61A Software Team
""".strip()
),
attachments={"invite.ics": b64encode(str(c).encode("utf-8")).decode("ascii")},
)
def run(output_file):
calendar = Calendar()
datenames, missiondatas, descriptions = parse_website()
for datename, data, desc in zip(datenames, missiondatas, descriptions):
mission = get_mission(datename)
location = get_location(data)
begin, is_all_day = get_full_launchtime(datename, data)
if begin:
event = Event()
event.begin = begin
event.description = desc.text
event.name = mission
if is_all_day:
event.make_all_day()
event.location = location
event.uid = mission.replace(" ", "")
calendar.events.add(event)
with open(output_file, "w") as outfile:
outfile.writelines(calendar)
print(calendar.events)
print(len(calendar.events))
def CreateCalendar(groups, Classes, periods):
global NbEventsCreated
cal = Calendar()
dateFormat = "%Y-%m-%d %H:%M:%S"
for period in periods:
FirstWeekDay = period[0].weekday()
LastWeekDay = period[1].weekday()
for i in range(FirstWeekDay, LastWeekDay + 1):
for Class in Classes:
if Class[2] == i:
if Class[5] == 1 or getGroupOfClass(
groups, Classes.index(Class)
) == period[
2]: #if frequency is 1 (class occuring each week) or if group matches period
e = Event()
startDT = period[0] + timedelta(Class[2] -
period[0].weekday())
startDT = startDT.replace(
hour=int(Class[3][:Class[3].index(':')]))
startDT = startDT.replace(
minute=int(Class[3][Class[3].index(':') + 1:]))
endDT = startDT.replace(
hour=int(Class[4][:Class[4].index(':')]))
endDT = endDT.replace(
minute=int(Class[4][Class[4].index(':') + 1:]))
e.begin = startDT.strftime(dateFormat)
e.end = endDT.strftime(dateFormat)
e.location = Class[6]
e.name = Class[0] + " (" + Class[1] + ")"
cal.events.add(e)
NbEventsCreated += 1
return cal
def generate_ical_events(self):
print('Generating iCal calendar events. Please wait...')
# Regex for removing HTML tags from seminar description
pattern = re.compile('<.*?>|&([a-z0-9]+|#[0-9]{1,6}|#x[0-9a-f]{1,6});')
# Loop through all events in database
for seminar in Seminar.objects.all():
calendar = Calendar()
event = Event(name=seminar.title,
begin=seminar.start_time,
end=seminar.end_time,
description=pattern.sub('', seminar.description),
url=seminar.registration_url)
if seminar.location:
event.location = seminar.location.location
calendar.events.add(event)
# Create icalendar instance for that event
seminar.icalendar = str(calendar)
seminar.save()
print('iCal calendar events generated!')
def add_session(self, session):
e = Event()
e.name = session.name
e.begin = session.begin
e.duration = session.duration
e.location = session.location
self.c.events.add(e)
def createICS(typ,deb,fin,matiere,salle,prof):
e = Event()
e.name = "{} - {}".format(salle,matiere)
e.begin = deb
e.end = fin
e.location = salle
e.description = "{}: {} en {} par {}".format(typ,matiere,salle,prof)
self.c.events.add(e)
def AppendEvent():
e = Event()
e.name = kc[0]
e.begin = d1.isoformat() + 'T' + st[int(kc[4]) - 1]
e.end = d1.isoformat() + 'T' + et[int(kc[5]) - 1]
e.location = kc[2]
c.events.append(e)
print('ok')
return
def convert_to_event(self):
for period in self.__class_list:
e = Event()
e.name = period.name
e.begin = period.ics_formatted_plus_eight_start
e.end = period.ics_formatted_plus_eight_end
e.location = period.location
e.description = period.class_type
self.__calendar.events.add(e)
def lesson_week_to_event(week: int):
lesson_day = term_start_date + datetime.timedelta(days=lesson.day + (week - 1) * 7 - 1)
begin_time, end_time = get_lesson_time(list(lesson.time))
e = Event()
e.name = lesson.name
e.begin = arrow.get(datetime.datetime.combine(lesson_day, begin_time, local_tz))
e.end = arrow.get(datetime.datetime.combine(lesson_day, end_time, local_tz))
e.location = lesson.location
e.description = lesson.remark
return e
def add_event(event):
e = Event()
e.uid = str(event.get('calendar_key', event.get('id')))
e.name = format_title(event)
e.begin = event.get('timestamp', time.time())
e.end = event.get('timestamp', time.time())
e.description = format_desc(event)
e.location = event.get('country', '')
c.events.add(e)
def oneLessonToIcsEvent(self):
e = Event()
e.name = "({}){}".format(self.addressOfTheLesson, self.nameOfTheLesson)
e.uid = self.oneLessonID
e.description = "任课老师:{} \n 周数:{}".format(self.teacherNameOfTheLesson,
self.__weeks)
e.location = self.addressOfTheLesson
e.begin = self.startTime
e.end = self.endTime
return e
def ics_event(self):
e = Event()
e.name = '{} {} Exam'.format(self.unit, self.subject)
e.begin = self.start
e.end = self.end
e.location = self.venue
e.url = URL
e.description = 'Seat: {} \r\nConditions: {} \r\nDuration: {} minutes \r\nVenue: {}'.format(
self.seat, self.conditions, self.duration, self.venue)
return e
def create_ICS_event(self):
ICS_event = ICS_Event()
ICS_event.name = self.name
ICS_event.begin = self.begin
ICS_event.end = self.end
ICS_event.location = self.location
ICS_event.description = self.description
ICS_event.categories = self.categories
return ICS_event
def generate_ical_for_job(job):
c = Calendar()
e = Event()
e.name = Config.organisation_name() + ' Einsatz:' + job.type.name
e.location = job.type.location
e.description = job.type.description
e.begin = job.time.strftime('%Y%m%d %H:%M:%S')
e.end = job.time.strftime('%Y%m%d %H:%M:%S')
c.events.append(e)
return str(c).replace('\n', '\r\n') + '\r\n'
def to_ics(self):
lessons = self.get_lessons()
events = []
for lesson in lessons:
e = Event()
e.name = self.course
e.location = self.room
e.begin = arrow.get(lesson[0] - timedelta(hours=7))
e.end = arrow.get(lesson[1] - timedelta(hours=7))
events.append(e)
return events
def build_ics(raceID, date_time, race_name, address):
c = Calendar()
e = Event()
e.name = race_name
e.location = address
e.begin = date_time
e.end = date_time + datetime.timedelta(hours=4)
c.events.append(e)
with open('./ics/{}.ics'.format(raceID), 'w') as my_file:
my_file.writelines(c)
def add_course(time, name, weeks, weekflag, local, remark):
if (len(weeks) != 2):
for week in weeks:
e = Event()
e.name = name
e.location = local
e.description = remark
offset = datetime.timedelta(days=(int(week) - 1) * 7 + weekday,
hours=start_h[int(time[0])],
minutes=start_m[int(time[0])])
e.begin = term_start_time + offset
#print(term_start_time + offset)
offset = datetime.timedelta(days=(int(week) - 1) * 7 + weekday,
hours=end_h[int(time[1])],
minutes=end_m[int(time[1])])
e.end = term_start_time + offset
#print(term_start_time + offset)
c.events.add(e)
print("成功导入:", name, time, weeks, weekflag, local, remark)
else:
week_cur = int(weeks[0])
week_end = int(weeks[1])
while week_cur <= week_end:
e = Event()
e.name = name
e.location = local
e.description = remark
offset = datetime.timedelta(days=(week_cur - 1) * 7 + weekday,
hours=start_h[int(time[0])],
minutes=start_m[int(time[0])])
e.begin = term_start_time + offset
#print(term_start_time + offset)
offset = datetime.timedelta(days=(week_cur - 1) * 7 + weekday,
hours=end_h[int(time[1])],
minutes=end_m[int(time[1])])
e.end = term_start_time + offset
#print(term_start_time + offset)
if (weekflag): week_cur += 2
else: week_cur += 1
c.events.add(e)
print("成功导入:", name, time, weeks, weekflag, local)
def CreateClassEvents(classn, dayn, classStr):
events = []
className = ''
# print(name[0])
if config.CONFIG['regexMode'] == 1:
timeMatches = re.finditer(
r'(?P<teachername>[\u4e00-\u9fa5 \t0-9()()]*?)\[(?P<begindate>\d*)-?(?P<enddate>\d*)\] ?周(</br>)?(?P<location>.*?)(?=$|,|,|</br>|<br/>)',
classStr)
className = re.findall(".*?(?=</br>)", classStr)
elif config.CONFIG['regexMode'] == 2:
timeMatches = re.finditer(
r'(?P<teachername>[\u4e00-\u9fa5 \t0-9]*?)\[(?P<begindate>\d*)-?(?P<enddate>\d*)\] ?周(</br>)?(?P<location>.*)\n第(?P<classtime>[1-9,,]*)节',
classStr)
className = list(
re.finditer(
r'(?P<classname>[\u4e00-\u9fa5 \t0-9()()a-zA-Z]*?)</br>(?P<teachername>[\u4e00-\u9fa5 \t0-9]*?)\[(?P<begindate>\d*)-?(?P<enddate>\d*)\] ?周(</br>)?(?P<location>.*)\n',
classStr))[0].groupdict()['classname']
else:
timeMatches = re.finditer(config.CONFIG['customRegex'], classStr)
teacherName = ''
print(className)
for timeMatch in timeMatches:
timeMatch = timeMatch.groupdict()
print(timeMatch)
rg = None
class_begin_time = _CLASSTIME[classn][0]
class_end_time = _CLASSTIME[classn][1]
if 'classtime' in timeMatch.keys():
(earliest,
latest) = (int(timeMatch['classtime'].split(',')[0]) - 1,
int(timeMatch['classtime'].split(',')[-1]) - 1)
class_begin_time = _CLASSTIME_SINGLE[earliest][0]
class_end_time = _CLASSTIME_SINGLE[latest][1]
if (timeMatch['teachername'] != ''):
teacherName = timeMatch['teachername']
if (timeMatch['enddate'] == ''):
rg = range(int(timeMatch['begindate']),
int(timeMatch['begindate']) + 1)
else:
rg = range(int(timeMatch['begindate']),
int(timeMatch['enddate']) + 1)
for i in rg:
event = Event()
event.name = className
event.begin = CombineDateAndTime(GetWeekDate(BEGIN_DATE, i, dayn),
class_begin_time)
event.end = CombineDateAndTime(GetWeekDate(BEGIN_DATE, i, dayn),
class_end_time)
event.location = timeMatch['location']
event.description = "讲师:" + teacherName
events.append(event)
print('--------')
return events
def parse_event(event):
new_event = Event()
new_event.name = event.find('h3', attrs={
'class': 'card__title'
}).getText().strip()
new_event.location = event.findAll('p')[1].getText().strip()
times = event.findAll('time')
new_event.begin = arrow.get(times[1]['datetime'])
new_event.end = arrow.get(times[2]['datetime'])
return new_event
def bis_cal(team):
mt = pytz.timezone('US/Mountain')
utc = pytz.utc
link, team_name, session = getUrl(team)
if link:
with requests.Session() as s:
url_root = 'http://www.boulderindoorsoccer.com/schedules/'
url = url_root + link
soup = BeautifulSoup(s.get(url).text)
table = soup.find("table", attrs={"class":"scheduleTable"})
c = Calendar()
for tr in table.findAll("tr"):
good_line = False
column = 1
for td in tr.findAll("td"):
if good_line == True:
if column == 2:
home_team = td.text.strip()
elif column == 5:
away_team = td.text.strip()
column += 1
for span in td.findAll("span"):
date = span.text[9:-1].strip()
if td.text[0].isdigit() and good_line == False:
time = td.text
good_line = True
column += 1
# Create calendar event
if good_line:
e = Event()
e.name = "Soccer: " + home_team + " v.s. " + away_team
timestamp = parse(date + " " + time)
mt_time = mt.localize(timestamp)
e.begin = mt_time#.astimezone(utc)
e.duration = timedelta(minutes=50)
e.location = "Boulder Indoor Soccer, 3203 Pearl Street, Boulder, CO 80301, United States"
c.events.append(e)
cname = team_name + ' ' + session + '.ics'
with open(cname, 'w') as ics_file:
ics_file.writelines(c)
print "Calendar succesfully written for {team_name}, {session}: \"{cname}\"".format(**locals())
else:
return None
def writeICS():
conn = sqlite3.connect('xueshu.sqlite3', detect_types=sqlite3.PARSE_DECLTYPES)
c = conn.cursor()
now = datetime.now()
future = now + timedelta(days=60)
items = c.execute('select * from xueshu where startdate>=? and startdate<=?', (now.date(), future.date()))
c = Calendar()
c.creator = 'meelo'
for item in items:
e = Event()
e.name = item[1].replace(' ','') + '【{}】'.format(item[10]) + item[9]
# e.begin = arrow.get(item[3], 'YYYY-MM-DD HH:mm:ss').replace(tzinfo=tz.gettz('Asia/Chongqing'))
e.begin = arrow.get(item[3], 'YYYY-MM-DD HH:mm:ss').replace(tzinfo='+08:00')
e.duration = timedelta(hours=2)
e.location = item[4]
e.description = item[12]
c.events.append(e)
# print(c.events)
conn.close()
with open('xueshu.ics', 'w', encoding='utf-8') as f:
f.writelines(c)
# style times in ical format
for i in range(len(stime)):
stime[i] = stime[i].replace(":", "") + "00"
for i in range(len(etime)):
etime[i] = etime[i].replace(":", "") + "00"
"""########################### FILE CREATION ###########################"""
output_file = open(output_path + output_filename, 'w+')
# LOGIC
c = Calendar()
e = Event()
# ics library stuff, generates the ics format
for i in range(len(sesh)):
e = Event()
e.name = str(sesh[i])
e.description = stype[i]
e.begin = date[i] + "T" + stime[i] + "+0100" # "20170906T140000"
e.end = date[i] + "T" + etime[i] + "+0100" # "20170906T15000"
e.location = loc[i]
c.events.append(e)
output_file.writelines(c)
output_file.close()
gspread = gclient.open(agenda_gsheet_name)
gwsheet = gspread.get_worksheet(1)
# generate Calendar
cal = Calendar()
for grow in gwsheet.get_all_records():
if grow["ICSDate"]!="":
try:
# print "%s | %s | %s " % (grow["DESC"], grow["ICSDate"], grow["ICSTime"])
evt = Event()
# evt.name = unicodedata.normalize('NFKD', unicode(grow["DESC"]))
# evt.name = "Nombre evento"
# evt.name = grow["DESC"].encode('ascii', 'replace')
# evt.name = grow["DESC"]
evt.name = unidecode(grow['DESC'])
evt.location = unidecode(grow['SALA'])
(t_begin, t_end) = grow["TIME"].split("-")
d_begin = "%sT%s:00%s" % (grow["ICSDate"], t_begin.strip(), utc_offset)
evt.begin = d_begin.replace(":","").replace(".","")
d_end = "%sT%s:00%s" % (grow["ICSDate"], t_end.strip(), utc_offset)
evt.end = d_end.replace(":","").replace(".","")
cal.events.append(evt)
print "Added %s starting %s ending %s" % (evt.name, d_begin, d_end)
# print "Added %s, event %s" % (grow['DESC'],evt)
except:
print grow
raise
# END for grow
# Write ics file to disk
with codecs.open("lacnic27.ics", "w", encoding="utf-8") as fn:
try:
for each in range(len(subject)):
subject[each] = str(subject[each])[:n.search(str(subject[each])).start()]+"/"+str(subject[each])[n.search(str(subject[each])).end():]
except Exception as e:
break;
for each in subject:
subject[num] = each.split("/")
num = num + 1
d = datetime.datetime.today()
today = datetime.date.today()
begindate = []
c = Calendar()
num = 0
for r in range(10):
num = 0
for i in range(1):
for each in subject:
e = Event()
if(r == 0):
juli = abs(int(changeWeekday(each[2]))-1)
begindate.append(today + datetime.timedelta(days = juli))
e.name = each[1]
e.begin = str(begindate[num]).replace("-","") +" "+changeTimeStart(each[2])
e.end = str(begindate[num]) +changeTimeEnd(each[2])
begindate[num] = begindate[num]+datetime.timedelta(days = 7)
num = num + 1
e.location = each[4]
c.events.append(e)
#I wanted to add the tye of lecture to the start of the title, Again this could probably be improved
if "[" in event['desc2']:
class_name = event['desc2'].split('[')
e.name = '[' + class_name[1] + ' ' \
+ (class_name[0])[:-2] + ' (' + event['desc1'] + ')'
else:
class_name = event['desc2']
e.name = class_name + ' (' + event['desc1'] + ')'
#That mess of a code is over now, lets just add everything to the event now
logging.debug(e.name + ' - ' + locode)
e.begin = event['start']
e.end = event['end']
e.description = event.get('teacherName', '')
e.location = locode
c.events.append(e)
#write it all to file
icalfile = ical_loc + username + '.ics'
open(icalfile, 'w').writelines(c)
with open(icalfile, 'r') as file:
lines = file.readlines()
lines[1] = lines[1] + 'X-WR-CALNAME: ' + student_name \
+ ' Uni Timetable\nX-PUBLISHED-TTL:PT12H'
with open(icalfile, 'w') as file:
for line in lines:
file.write(line)
def add_event(date, location, my_name):
for specific_event in date:
# If there is a specified date
if specific_event["date"]["start_date"]:
if specific_event["date"]["start_date"] != \
specific_event["date"]["end_date"]:
print "Error! Unexpected api return! Start date not same as end date!"
break
start_time = specific_event["date"]["start_time"]
end_time = specific_event["date"]["end_time"]
format_time = '%H:%M'
time_dur = datetime.strptime(end_time, format_time) - \
datetime.strptime(start_time, format_time)
if specific_event["location"]["building"] and \
specific_event["location"]["room"]:
location_str = str(specific_event["location"]["building"]) \
+ " " + str(specific_event["location"]["room"])
else:
location_str = " "
start_date = specific_event["date"]["start_date"]
date_year = term_dates[str(term_num)]["start"].year
my_time_zone = timezone('US/Eastern')
dt = my_time_zone.localize(datetime(date_year, int(start_date[:2]),
int(start_date[-2:]), int(start_time[:2]),
int(start_time[-2:]),0,0))
datetime_str_start = arrow.get(dt)
new_event = Event()
new_event.name = my_name
new_event.location = location_str
new_event.begin = datetime_str_start
new_event.duration = {"hours":time_dur.seconds//3600,
"minutes":(time_dur.seconds//60)%60}
if datetime_str_start in events_stack:
print "Warning! Duplicate event detected! Event: " \
+ my_name + " discarded!"
else:
events_stack.append(datetime_str_start)
cal.events.append(new_event)
# If there is no specified date (interates through every day in term)
else:
start_time = specific_event["date"]["start_time"]
end_time = specific_event["date"]["end_time"]
format_time = '%H:%M'
time_dur = datetime.strptime(end_time, format_time) - \
datetime.strptime(start_time, format_time)
location_str = str(specific_event["location"]["building"]) \
+ " " + str(specific_event["location"]["room"])
start_date = term_dates[str(term_num)]["start"]
end_date = term_dates[str(term_num)]["end"]
weekdays = specific_event["date"]["weekdays"]
counter = 0;
date_days = [0,0,0,0,0,0,0]
while counter < len(weekdays):
if weekdays[counter] == "T":
if (counter + 1) != len(weekdays):
if weekdays[counter + 1] == "h":
date_days[3] = 1
counter += 1
else:
date_days[1] = 1
else:
date_days[3] = 1
elif weekdays[counter] == "S":
date_days[5] = 1
elif weekdays[counter] == "M":
date_days[0] = 1
elif weekdays[counter] == "W":
date_days[2] = 1
elif weekdays[counter] == "F":
date_days[4] = 1
elif weekdays[counter] == "U":
date_days[6] = 1
counter += 1
days_in_term = (end_date - start_date).days + 1
for index in range(days_in_term):
one_day = timedelta(days = 1)
current_date = start_date + one_day * index
if date_days[current_date.weekday()] == 1:
my_time_zone = timezone('US/Eastern')
dt = my_time_zone.localize\
(datetime(current_date.year, current_date.month,
current_date.day, int(start_time[:2]),
int(start_time[-2:]), 0, 0))
datetime_str_start = arrow.get(dt)
new_event = Event()
new_event.name = my_name
new_event.location = location_str
new_event.begin = datetime_str_start
new_event.duration = {"hours":time_dur.seconds//3600,
"minutes":(time_dur.seconds//60)%60}
if datetime_str_start in events_stack:
print "Warning! Duplicate event detected! Event: " \
+ my_name + " discarded!"
else:
events_stack.append(datetime_str_start)
cal.events.append(new_event)
return
