Varia's website https://varia.zone
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1043 lines
32 KiB

# -*- coding: utf-8 -*-
"""This module contains the parser/generators (or coders/encoders if you
prefer) for the classes/datatypes that are used in iCalendar:
###########################################################################
# This module defines these property value data types and property parameters
4.2 Defined property parameters are:
ALTREP, CN, CUTYPE, DELEGATED-FROM, DELEGATED-TO, DIR, ENCODING, FMTTYPE,
FBTYPE, LANGUAGE, MEMBER, PARTSTAT, RANGE, RELATED, RELTYPE, ROLE, RSVP,
SENT-BY, TZID, VALUE
4.3 Defined value data types are:
BINARY, BOOLEAN, CAL-ADDRESS, DATE, DATE-TIME, DURATION, FLOAT, INTEGER,
PERIOD, RECUR, TEXT, TIME, URI, UTC-OFFSET
###########################################################################
iCalendar properties have values. The values are strongly typed. This module
defines these types, calling val.to_ical() on them will render them as defined
in rfc2445.
If you pass any of these classes a Python primitive, you will have an object
that can render itself as iCalendar formatted date.
Property Value Data Types start with a 'v'. they all have an to_ical() and
from_ical() method. The to_ical() method generates a text string in the
iCalendar format. The from_ical() method can parse this format and return a
primitive Python datatype. So it should always be true that:
x == vDataType.from_ical(VDataType(x).to_ical())
These types are mainly used for parsing and file generation. But you can set
them directly.
"""
from datetime import date
from datetime import datetime
from datetime import time
from datetime import timedelta
from datetime import tzinfo
try:
from dateutil.tz import tzutc
except ImportError:
tzutc = None
from icalendar import compat
from icalendar.caselessdict import CaselessDict
from icalendar.parser import Parameters
from icalendar.parser import escape_char
from icalendar.parser import tzid_from_dt
from icalendar.parser import unescape_char
from icalendar.parser_tools import DEFAULT_ENCODING
from icalendar.parser_tools import SEQUENCE_TYPES
from icalendar.parser_tools import to_unicode
from icalendar.timezone_cache import _timezone_cache
from icalendar.windows_to_olson import WINDOWS_TO_OLSON
import base64
import binascii
import pytz
import re
import time as _time
DATE_PART = r'(\d+)D'
TIME_PART = r'T(?:(\d+)H)?(?:(\d+)M)?(?:(\d+)S)?'
DATETIME_PART = '(?:%s)?(?:%s)?' % (DATE_PART, TIME_PART)
WEEKS_PART = r'(\d+)W'
DURATION_REGEX = re.compile(r'([-+]?)P(?:%s|%s)$'
% (WEEKS_PART, DATETIME_PART))
WEEKDAY_RULE = re.compile(r'(?P<signal>[+-]?)(?P<relative>[\d]?)'
r'(?P<weekday>[\w]{2})$')
####################################################
# handy tzinfo classes you can use.
#
ZERO = timedelta(0)
HOUR = timedelta(hours=1)
STDOFFSET = timedelta(seconds=-_time.timezone)
if _time.daylight:
DSTOFFSET = timedelta(seconds=-_time.altzone)
else:
DSTOFFSET = STDOFFSET
DSTDIFF = DSTOFFSET - STDOFFSET
class FixedOffset(tzinfo):
"""Fixed offset in minutes east from UTC.
"""
def __init__(self, offset, name):
self.__offset = timedelta(minutes=offset)
self.__name = name
def utcoffset(self, dt):
return self.__offset
def tzname(self, dt):
return self.__name
def dst(self, dt):
return ZERO
class LocalTimezone(tzinfo):
"""Timezone of the machine where the code is running.
"""
def utcoffset(self, dt):
if self._isdst(dt):
return DSTOFFSET
else:
return STDOFFSET
def dst(self, dt):
if self._isdst(dt):
return DSTDIFF
else:
return ZERO
def tzname(self, dt):
return _time.tzname[self._isdst(dt)]
def _isdst(self, dt):
tt = (dt.year, dt.month, dt.day,
dt.hour, dt.minute, dt.second,
dt.weekday(), 0, -1)
stamp = _time.mktime(tt)
tt = _time.localtime(stamp)
return tt.tm_isdst > 0
class vBinary(object):
"""Binary property values are base 64 encoded.
"""
def __init__(self, obj):
self.obj = to_unicode(obj)
self.params = Parameters(encoding='BASE64', value="BINARY")
def __repr__(self):
return "vBinary('%s')" % self.to_ical()
def to_ical(self):
return binascii.b2a_base64(self.obj.encode('utf-8'))[:-1]
@staticmethod
def from_ical(ical):
try:
return base64.b64decode(ical)
except UnicodeError:
raise ValueError('Not valid base 64 encoding.')
class vBoolean(int):
"""Returns specific string according to state.
"""
BOOL_MAP = CaselessDict({'true': True, 'false': False})
def __new__(cls, *args, **kwargs):
self = super(vBoolean, cls).__new__(cls, *args, **kwargs)
self.params = Parameters()
return self
def to_ical(self):
if self:
return b'TRUE'
return b'FALSE'
@classmethod
def from_ical(cls, ical):
try:
return cls.BOOL_MAP[ical]
except:
raise ValueError("Expected 'TRUE' or 'FALSE'. Got %s" % ical)
class vCalAddress(compat.unicode_type):
"""This just returns an unquoted string.
"""
def __new__(cls, value, encoding=DEFAULT_ENCODING):
value = to_unicode(value, encoding=encoding)
self = super(vCalAddress, cls).__new__(cls, value)
self.params = Parameters()
return self
def __repr__(self):
return "vCalAddress('%s')" % self.to_ical()
def to_ical(self):
return self.encode(DEFAULT_ENCODING)
@classmethod
def from_ical(cls, ical):
return cls(ical)
class vFloat(float):
"""Just a float.
"""
def __new__(cls, *args, **kwargs):
self = super(vFloat, cls).__new__(cls, *args, **kwargs)
self.params = Parameters()
return self
def to_ical(self):
return compat.unicode_type(self).encode('utf-8')
@classmethod
def from_ical(cls, ical):
try:
return cls(ical)
except:
raise ValueError('Expected float value, got: %s' % ical)
class vInt(int):
"""Just an int.
"""
def __new__(cls, *args, **kwargs):
self = super(vInt, cls).__new__(cls, *args, **kwargs)
self.params = Parameters()
return self
def to_ical(self):
return compat.unicode_type(self).encode('utf-8')
@classmethod
def from_ical(cls, ical):
try:
return cls(ical)
except:
raise ValueError('Expected int, got: %s' % ical)
class vDDDLists(object):
"""A list of vDDDTypes values.
"""
def __init__(self, dt_list):
if not hasattr(dt_list, '__iter__'):
dt_list = [dt_list]
vDDD = []
tzid = None
for dt in dt_list:
dt = vDDDTypes(dt)
vDDD.append(dt)
if 'TZID' in dt.params:
tzid = dt.params['TZID']
if tzid:
# NOTE: no support for multiple timezones here!
self.params = Parameters({'TZID': tzid})
self.dts = vDDD
def to_ical(self):
dts_ical = (dt.to_ical() for dt in self.dts)
return b",".join(dts_ical)
@staticmethod
def from_ical(ical, timezone=None):
out = []
ical_dates = ical.split(",")
for ical_dt in ical_dates:
out.append(vDDDTypes.from_ical(ical_dt, timezone=timezone))
return out
class vCategory(object):
def __init__(self, c_list):
if not hasattr(c_list, '__iter__'):
d_list = [c_list]
self.cats = [vText(c) for c in c_list]
def to_ical(self):
return b",".join([c.to_ical() for c in self.cats])
@staticmethod
def from_ical(ical, timezone=None):
out = unescape_char(ical).split(",")
return out
class vDDDTypes(object):
"""A combined Datetime, Date or Duration parser/generator. Their format
cannot be confused, and often values can be of either types.
So this is practical.
"""
def __init__(self, dt):
if not isinstance(dt, (datetime, date, timedelta, time, tuple)):
raise ValueError('You must use datetime, date, timedelta, '
'time or tuple (for periods)')
if isinstance(dt, datetime):
self.params = Parameters({'value': 'DATE-TIME'})
elif isinstance(dt, date):
self.params = Parameters({'value': 'DATE'})
elif isinstance(dt, time):
self.params = Parameters({'value': 'TIME'})
elif isinstance(dt, tuple):
self.params = Parameters({'value': 'PERIOD'})
if (isinstance(dt, datetime) or isinstance(dt, time))\
and getattr(dt, 'tzinfo', False):
tzinfo = dt.tzinfo
if tzinfo is not pytz.utc and\
(tzutc is None or not isinstance(tzinfo, tzutc)):
# set the timezone as a parameter to the property
tzid = tzid_from_dt(dt)
if tzid:
self.params.update({'TZID': tzid})
self.dt = dt
def to_ical(self):
dt = self.dt
if isinstance(dt, datetime):
return vDatetime(dt).to_ical()
elif isinstance(dt, date):
return vDate(dt).to_ical()
elif isinstance(dt, timedelta):
return vDuration(dt).to_ical()
elif isinstance(dt, time):
return vTime(dt).to_ical()
elif isinstance(dt, tuple) and len(dt) == 2:
return vPeriod(dt).to_ical()
else:
raise ValueError('Unknown date type: {}'.format(type(dt)))
@classmethod
def from_ical(cls, ical, timezone=None):
if isinstance(ical, cls):
return ical.dt
u = ical.upper()
if u.startswith(('P', '-P', '+P')):
return vDuration.from_ical(ical)
if '/' in u:
return vPeriod.from_ical(ical)
if len(ical) in (15, 16):
return vDatetime.from_ical(ical, timezone=timezone)
elif len(ical) == 8:
return vDate.from_ical(ical)
elif len(ical) in (6, 7):
return vTime.from_ical(ical)
else:
raise ValueError(
"Expected datetime, date, or time, got: '%s'" % ical
)
class vDate(object):
"""Render and generates iCalendar date format.
"""
def __init__(self, dt):
if not isinstance(dt, date):
raise ValueError('Value MUST be a date instance')
self.dt = dt
self.params = Parameters({'value': 'DATE'})
def to_ical(self):
s = "%04d%02d%02d" % (self.dt.year, self.dt.month, self.dt.day)
return s.encode('utf-8')
@staticmethod
def from_ical(ical):
try:
timetuple = (
int(ical[:4]), # year
int(ical[4:6]), # month
int(ical[6:8]), # day
)
return date(*timetuple)
except:
raise ValueError('Wrong date format %s' % ical)
class vDatetime(object):
"""Render and generates icalendar datetime format.
vDatetime is timezone aware and uses the pytz library, an implementation of
the Olson database in Python. When a vDatetime object is created from an
ical string, you can pass a valid pytz timezone identifier. When a
vDatetime object is created from a python datetime object, it uses the
tzinfo component, if present. Otherwise an timezone-naive object is
created. Be aware that there are certain limitations with timezone naive
DATE-TIME components in the icalendar standard.
"""
def __init__(self, dt):
self.dt = dt
self.params = Parameters()
def to_ical(self):
dt = self.dt
tzid = tzid_from_dt(dt)
s = "%04d%02d%02dT%02d%02d%02d" % (
dt.year,
dt.month,
dt.day,
dt.hour,
dt.minute,
dt.second
)
if tzid == 'UTC':
s += "Z"
elif tzid:
self.params.update({'TZID': tzid})
return s.encode('utf-8')
@staticmethod
def from_ical(ical, timezone=None):
tzinfo = None
if timezone:
try:
tzinfo = pytz.timezone(timezone)
except pytz.UnknownTimeZoneError:
if timezone in WINDOWS_TO_OLSON:
tzinfo = pytz.timezone(WINDOWS_TO_OLSON.get(timezone))
else:
tzinfo = _timezone_cache.get(timezone, None)
try:
timetuple = (
int(ical[:4]), # year
int(ical[4:6]), # month
int(ical[6:8]), # day
int(ical[9:11]), # hour
int(ical[11:13]), # minute
int(ical[13:15]), # second
)
if tzinfo:
return tzinfo.localize(datetime(*timetuple))
elif not ical[15:]:
return datetime(*timetuple)
elif ical[15:16] == 'Z':
return pytz.utc.localize(datetime(*timetuple))
else:
raise ValueError(ical)
except:
raise ValueError('Wrong datetime format: %s' % ical)
class vDuration(object):
"""Subclass of timedelta that renders itself in the iCalendar DURATION
format.
"""
def __init__(self, td):
if not isinstance(td, timedelta):
raise ValueError('Value MUST be a timedelta instance')
self.td = td
self.params = Parameters()
def to_ical(self):
sign = ""
if self.td.days < 0:
sign = "-"
self.td = -self.td
timepart = ""
if self.td.seconds:
timepart = "T"
hours = self.td.seconds // 3600
minutes = self.td.seconds % 3600 // 60
seconds = self.td.seconds % 60
if hours:
timepart += "%dH" % hours
if minutes or (hours and seconds):
timepart += "%dM" % minutes
if seconds:
timepart += "%dS" % seconds
if self.td.days == 0 and timepart:
return (compat.unicode_type(sign).encode('utf-8') + b'P' +
compat.unicode_type(timepart).encode('utf-8'))
else:
return (compat.unicode_type(sign).encode('utf-8') + b'P' +
compat.unicode_type(abs(self.td.days)).encode('utf-8') +
b'D' + compat.unicode_type(timepart).encode('utf-8'))
@staticmethod
def from_ical(ical):
try:
match = DURATION_REGEX.match(ical)
sign, weeks, days, hours, minutes, seconds = match.groups()
if weeks:
value = timedelta(weeks=int(weeks))
else:
value = timedelta(days=int(days or 0),
hours=int(hours or 0),
minutes=int(minutes or 0),
seconds=int(seconds or 0))
if sign == '-':
value = -value
return value
except:
raise ValueError('Invalid iCalendar duration: %s' % ical)
class vPeriod(object):
"""A precise period of time.
"""
def __init__(self, per):
start, end_or_duration = per
if not (isinstance(start, datetime) or isinstance(start, date)):
raise ValueError('Start value MUST be a datetime or date instance')
if not (isinstance(end_or_duration, datetime) or
isinstance(end_or_duration, date) or
isinstance(end_or_duration, timedelta)):
raise ValueError('end_or_duration MUST be a datetime, '
'date or timedelta instance')
by_duration = 0
if isinstance(end_or_duration, timedelta):
by_duration = 1
duration = end_or_duration
end = start + duration
else:
end = end_or_duration
duration = end - start
if start > end:
raise ValueError("Start time is greater than end time")
self.params = Parameters()
# set the timezone identifier
# does not support different timezones for start and end
tzid = tzid_from_dt(start)
if tzid:
self.params['TZID'] = tzid
self.start = start
self.end = end
self.by_duration = by_duration
self.duration = duration
def __cmp__(self, other):
if not isinstance(other, vPeriod):
raise NotImplementedError('Cannot compare vPeriod with %r' % other)
return cmp((self.start, self.end), (other.start, other.end))
def overlaps(self, other):
if self.start > other.start:
return other.overlaps(self)
if self.start <= other.start < self.end:
return True
return False
def to_ical(self):
if self.by_duration:
return (vDatetime(self.start).to_ical() + b'/' +
vDuration(self.duration).to_ical())
return (vDatetime(self.start).to_ical() + b'/' +
vDatetime(self.end).to_ical())
@staticmethod
def from_ical(ical):
try:
start, end_or_duration = ical.split('/')
start = vDDDTypes.from_ical(start)
end_or_duration = vDDDTypes.from_ical(end_or_duration)
return (start, end_or_duration)
except:
raise ValueError('Expected period format, got: %s' % ical)
def __repr__(self):
if self.by_duration:
p = (self.start, self.duration)
else:
p = (self.start, self.end)
return 'vPeriod(%r)' % (p, )
class vWeekday(compat.unicode_type):
"""This returns an unquoted weekday abbrevation.
"""
week_days = CaselessDict({
"SU": 0, "MO": 1, "TU": 2, "WE": 3, "TH": 4, "FR": 5, "SA": 6,
})
def __new__(cls, value, encoding=DEFAULT_ENCODING):
value = to_unicode(value, encoding=encoding)
self = super(vWeekday, cls).__new__(cls, value)
match = WEEKDAY_RULE.match(self)
if match is None:
raise ValueError('Expected weekday abbrevation, got: %s' % self)
match = match.groupdict()
sign = match['signal']
weekday = match['weekday']
relative = match['relative']
if weekday not in vWeekday.week_days or sign not in '+-':
raise ValueError('Expected weekday abbrevation, got: %s' % self)
self.relative = relative and int(relative) or None
self.params = Parameters()
return self
def to_ical(self):
return self.encode(DEFAULT_ENCODING).upper()
@classmethod
def from_ical(cls, ical):
try:
return cls(ical.upper())
except:
raise ValueError('Expected weekday abbrevation, got: %s' % ical)
class vFrequency(compat.unicode_type):
"""A simple class that catches illegal values.
"""
frequencies = CaselessDict({
"SECONDLY": "SECONDLY",
"MINUTELY": "MINUTELY",
"HOURLY": "HOURLY",
"DAILY": "DAILY",
"WEEKLY": "WEEKLY",
"MONTHLY": "MONTHLY",
"YEARLY": "YEARLY",
})
def __new__(cls, value, encoding=DEFAULT_ENCODING):
value = to_unicode(value, encoding=encoding)
self = super(vFrequency, cls).__new__(cls, value)
if self not in vFrequency.frequencies:
raise ValueError('Expected frequency, got: %s' % self)
self.params = Parameters()
return self
def to_ical(self):
return self.encode(DEFAULT_ENCODING).upper()
@classmethod
def from_ical(cls, ical):
try:
return cls(ical.upper())
except:
raise ValueError('Expected frequency, got: %s' % ical)
class vRecur(CaselessDict):
"""Recurrence definition.
"""
frequencies = ["SECONDLY", "MINUTELY", "HOURLY", "DAILY", "WEEKLY",
"MONTHLY", "YEARLY"]
# Mac iCal ignores RRULEs where FREQ is not the first rule part.
# Sorts parts according to the order listed in RFC 5545, section 3.3.10.
canonical_order = ("FREQ", "UNTIL", "COUNT", "INTERVAL",
"BYSECOND", "BYMINUTE", "BYHOUR", "BYDAY",
"BYMONTHDAY", "BYYEARDAY", "BYWEEKNO", "BYMONTH",
"BYSETPOS", "WKST")
types = CaselessDict({
'COUNT': vInt,
'INTERVAL': vInt,
'BYSECOND': vInt,
'BYMINUTE': vInt,
'BYHOUR': vInt,
'BYWEEKNO': vInt,
'BYMONTHDAY': vInt,
'BYYEARDAY': vInt,
'BYMONTH': vInt,
'UNTIL': vDDDTypes,
'BYSETPOS': vInt,
'WKST': vWeekday,
'BYDAY': vWeekday,
'FREQ': vFrequency,
})
def __init__(self, *args, **kwargs):
super(vRecur, self).__init__(*args, **kwargs)
self.params = Parameters()
def to_ical(self):
result = []
for key, vals in self.sorted_items():
typ = self.types.get(key, vText)
if not isinstance(vals, SEQUENCE_TYPES):
vals = [vals]
vals = b','.join(typ(val).to_ical() for val in vals)
# CaselessDict keys are always unicode
key = key.encode(DEFAULT_ENCODING)
result.append(key + b'=' + vals)
return b';'.join(result)
@classmethod
def parse_type(cls, key, values):
# integers
parser = cls.types.get(key, vText)
return [parser.from_ical(v) for v in values.split(',')]
@classmethod
def from_ical(cls, ical):
if isinstance(ical, cls):
return ical
try:
recur = cls()
for pairs in ical.split(';'):
try:
key, vals = pairs.split('=')
except ValueError:
# E.g. incorrect trailing semicolon, like (issue #157):
# FREQ=YEARLY;BYMONTH=11;BYDAY=1SU;
continue
recur[key] = cls.parse_type(key, vals)
return dict(recur)
except:
raise ValueError('Error in recurrence rule: %s' % ical)
class vText(compat.unicode_type):
"""Simple text.
"""
def __new__(cls, value, encoding=DEFAULT_ENCODING):
value = to_unicode(value, encoding=encoding)
self = super(vText, cls).__new__(cls, value)
self.encoding = encoding
self.params = Parameters()
return self
def __repr__(self):
return "vText('%s')" % self.to_ical()
def to_ical(self):
return escape_char(self).encode(self.encoding)
@classmethod
def from_ical(cls, ical):
ical_unesc = unescape_char(ical)
return cls(ical_unesc)
class vTime(object):
"""Render and generates iCalendar time format.
"""
def __init__(self, *args):
if len(args) == 1:
if not isinstance(args[0], (time, datetime)):
raise ValueError('Expected a datetime.time, got: %s' % args[0])
self.dt = args[0]
else:
self.dt = time(*args)
self.params = Parameters({'value': 'TIME'})
def to_ical(self):
return self.dt.strftime("%H%M%S")
@staticmethod
def from_ical(ical):
# TODO: timezone support
try:
timetuple = (int(ical[:2]), int(ical[2:4]), int(ical[4:6]))
return time(*timetuple)
except:
raise ValueError('Expected time, got: %s' % ical)
class vUri(compat.unicode_type):
"""Uniform resource identifier is basically just an unquoted string.
"""
def __new__(cls, value, encoding=DEFAULT_ENCODING):
value = to_unicode(value, encoding=encoding)
self = super(vUri, cls).__new__(cls, value)
self.params = Parameters()
return self
def to_ical(self):
return self.encode(DEFAULT_ENCODING)
@classmethod
def from_ical(cls, ical):
try:
return cls(ical)
except:
raise ValueError('Expected , got: %s' % ical)
class vGeo(object):
"""A special type that is only indirectly defined in the rfc.
"""
def __init__(self, geo):
try:
latitude, longitude = (geo[0], geo[1])
latitude = float(latitude)
longitude = float(longitude)
except:
raise ValueError('Input must be (float, float) for '
'latitude and longitude')
self.latitude = latitude
self.longitude = longitude
self.params = Parameters()
def to_ical(self):
return '%s;%s' % (self.latitude, self.longitude)
@staticmethod
def from_ical(ical):
try:
latitude, longitude = ical.split(';')
return (float(latitude), float(longitude))
except:
raise ValueError("Expected 'float;float' , got: %s" % ical)
class vUTCOffset(object):
"""Renders itself as a utc offset.
"""
ignore_exceptions = False # if True, and we cannot parse this
# component, we will silently ignore
# it, rather than let the exception
# propagate upwards
def __init__(self, td):
if not isinstance(td, timedelta):
raise ValueError('Offset value MUST be a timedelta instance')
self.td = td
self.params = Parameters()
def to_ical(self):
if self.td < timedelta(0):
sign = '-%s'
td = timedelta(0) - self.td # get timedelta relative to 0
else:
# Google Calendar rejects '0000' but accepts '+0000'
sign = '+%s'
td = self.td
days, seconds = td.days, td.seconds
hours = abs(days * 24 + seconds // 3600)
minutes = abs((seconds % 3600) // 60)
seconds = abs(seconds % 60)
if seconds:
duration = '%02i%02i%02i' % (hours, minutes, seconds)
else:
duration = '%02i%02i' % (hours, minutes)
return sign % duration
@classmethod
def from_ical(cls, ical):
if isinstance(ical, cls):
return ical.td
try:
sign, hours, minutes, seconds = (ical[0:1],
int(ical[1:3]),
int(ical[3:5]),
int(ical[5:7] or 0))
offset = timedelta(hours=hours, minutes=minutes, seconds=seconds)
except:
raise ValueError('Expected utc offset, got: %s' % ical)
if not cls.ignore_exceptions and offset >= timedelta(hours=24):
raise ValueError(
'Offset must be less than 24 hours, was %s' % ical)
if sign == '-':
return -offset
return offset
class vInline(compat.unicode_type):
"""This is an especially dumb class that just holds raw unparsed text and
has parameters. Conversion of inline values are handled by the Component
class, so no further processing is needed.
"""
def __new__(cls, value, encoding=DEFAULT_ENCODING):
value = to_unicode(value, encoding=encoding)
self = super(vInline, cls).__new__(cls, value)
self.params = Parameters()
return self
def to_ical(self):
return self.encode(DEFAULT_ENCODING)
@classmethod
def from_ical(cls, ical):
return cls(ical)
class TypesFactory(CaselessDict):
"""All Value types defined in rfc 2445 are registered in this factory
class.
The value and parameter names don't overlap. So one factory is enough for
both kinds.
"""
def __init__(self, *args, **kwargs):
"Set keys to upper for initial dict"
super(TypesFactory, self).__init__(*args, **kwargs)
self.all_types = (
vBinary,
vBoolean,
vCalAddress,
vDDDLists,
vDDDTypes,
vDate,
vDatetime,
vDuration,
vFloat,
vFrequency,
vGeo,
vInline,
vInt,
vPeriod,
vRecur,
vText,
vTime,
vUTCOffset,
vUri,
vWeekday,
vCategory,
)
self['binary'] = vBinary
self['boolean'] = vBoolean
self['cal-address'] = vCalAddress
self['date'] = vDDDTypes
self['date-time'] = vDDDTypes
self['duration'] = vDDDTypes
self['float'] = vFloat
self['integer'] = vInt
self['period'] = vPeriod
self['recur'] = vRecur
self['text'] = vText
self['time'] = vTime
self['uri'] = vUri
self['utc-offset'] = vUTCOffset
self['geo'] = vGeo
self['inline'] = vInline
self['date-time-list'] = vDDDLists
self['categories'] = vCategory
#################################################
# Property types
# These are the default types
types_map = CaselessDict({
####################################
# Property value types
# Calendar Properties
'calscale': 'text',
'method': 'text',
'prodid': 'text',
'version': 'text',
# Descriptive Component Properties
'attach': 'uri',
'categories': 'categories',
'class': 'text',
'comment': 'text',
'description': 'text',
'geo': 'geo',
'location': 'text',
'percent-complete': 'integer',
'priority': 'integer',
'resources': 'text',
'status': 'text',
'summary': 'text',
# Date and Time Component Properties
'completed': 'date-time',
'dtend': 'date-time',
'due': 'date-time',
'dtstart': 'date-time',
'duration': 'duration',
'freebusy': 'period',
'transp': 'text',
# Time Zone Component Properties
'tzid': 'text',
'tzname': 'text',
'tzoffsetfrom': 'utc-offset',
'tzoffsetto': 'utc-offset',
'tzurl': 'uri',
# Relationship Component Properties
'attendee': 'cal-address',
'contact': 'text',
'organizer': 'cal-address',
'recurrence-id': 'date-time',
'related-to': 'text',
'url': 'uri',
'uid': 'text',
# Recurrence Component Properties
'exdate': 'date-time-list',
'exrule': 'recur',
'rdate': 'date-time-list',
'rrule': 'recur',
# Alarm Component Properties
'action': 'text',
'repeat': 'integer',
'trigger': 'duration',
# Change Management Component Properties
'created': 'date-time',
'dtstamp': 'date-time',
'last-modified': 'date-time',
'sequence': 'integer',
# Miscellaneous Component Properties
'request-status': 'text',
####################################
# parameter types (luckily there is no name overlap)
'altrep': 'uri',
'cn': 'text',
'cutype': 'text',
'delegated-from': 'cal-address',
'delegated-to': 'cal-address',
'dir': 'uri',
'encoding': 'text',
'fmttype': 'text',
'fbtype': 'text',
'language': 'text',
'member': 'cal-address',
'partstat': 'text',
'range': 'text',
'related': 'text',
'reltype': 'text',
'role': 'text',
'rsvp': 'boolean',
'sent-by': 'cal-address',
'tzid': 'text',
'value': 'text',
})
def for_property(self, name):
"""Returns a the default type for a property or parameter
"""
return self[self.types_map.get(name, 'text')]
def to_ical(self, name, value):
"""Encodes a named value from a primitive python type to an icalendar
encoded string.
"""
type_class = self.for_property(name)
return type_class(value).to_ical()
def from_ical(self, name, value):
"""Decodes a named property or parameter value from an icalendar
encoded string to a primitive python type.
"""
type_class = self.for_property(name)
decoded = type_class.from_ical(value)
return decoded