/usr/lib/python2.7/dist-packages/pycalendar/datetime.py is in python-pycalendar 2.0~svn13177-1.
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# Copyright (c) 2007-2012 Cyrus Daboo. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
##
from pycalendar import definitions
from pycalendar import locale
from pycalendar import utils
from pycalendar import xmldefs
from pycalendar.duration import PyCalendarDuration
from pycalendar.parser import ParserContext
from pycalendar.timezone import PyCalendarTimezone
from pycalendar.valueutils import ValueMixin
import cStringIO as StringIO
import time
import xml.etree.cElementTree as XML
class PyCalendarDateTime(ValueMixin):
SUNDAY = 0
MONDAY = 1
TUESDAY = 2
WEDNESDAY = 3
THURSDAY = 4
FRIDAY = 5
SATURDAY = 6
FULLDATE = 0
ABBREVDATE = 1
NUMERICDATE = 2
FULLDATENOYEAR = 3
ABBREVDATENOYEAR = 4
NUMERICDATENOYEAR = 5
@staticmethod
def sort(e1, e2):
return e1.compareDateTime(e2)
def __init__(self, year=None, month=None, day=None, hours=None, minutes=None, seconds=None, tzid=None, utcoffset=None):
self.mYear = 1970
self.mMonth = 1
self.mDay = 1
self.mHours = 0
self.mMinutes = 0
self.mSeconds = 0
self.mDateOnly = False
self.mTZUTC = False
self.mTZID = None
self.mTZOffset = None
self.mPosixTimeCached = False
self.mPosixTime = 0
if (year is not None) and (month is not None) and (day is not None):
self.mYear = year
self.mMonth = month
self.mDay = day
if (hours is not None) and (minutes is not None) and (seconds is not None):
self.mHours = hours
self.mMinutes = minutes
self.mSeconds = seconds
else:
self.mDateOnly = True
if tzid:
self.mTZUTC = tzid.getUTC()
self.mTZID = tzid.getTimezoneID()
def duplicate(self):
other = PyCalendarDateTime(self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds)
other.mDateOnly = self.mDateOnly
other.mTZUTC = self.mTZUTC
other.mTZID = self.mTZID
other.mTZOffset = self.mTZOffset
other.mPosixTimeCached = self.mPosixTimeCached
other.mPosixTime = self.mPosixTime
return other
def duplicateAsUTC(self):
other = self.duplicate()
other.adjustToUTC()
return other
def __repr__(self):
return "PyCalendarDateTime: %s" % (self.getText(),)
def __hash__(self):
return hash(self.getPosixTime())
# Operators
def __add__(self, duration):
# Add duration seconds to temp object and normalise it
result = self.duplicate()
result.mSeconds += duration.getTotalSeconds()
result.normalise()
return result
def __sub__(self, dateorduration):
if isinstance(dateorduration, PyCalendarDateTime):
date = dateorduration
# Look for floating
if self.floating() or date.floating():
# Adjust the floating ones to fixed
copy1 = self.duplicate()
copy2 = date.duplicate()
if copy1.floating() and copy2.floating():
# Set both to UTC and do comparison
copy1.setTimezoneUTC(True)
copy2.setTimezoneUTC(True)
return copy1 - copy2
elif copy1.floating():
# Set to be the same
copy1.setTimezoneID(copy2.getTimezoneID())
copy1.setTimezoneUTC(copy2.getTimezoneUTC())
return copy1 - copy2
else:
# Set to be the same
copy2.setTimezoneID(copy1.getTimezoneID())
copy2.setTimezoneUTC(copy1.getTimezoneUTC())
return copy1 - copy2
else:
# Do diff of date-time in seconds
diff = self.getPosixTime() - date.getPosixTime()
return PyCalendarDuration(duration=diff)
elif isinstance(dateorduration, PyCalendarDuration):
duration = dateorduration
result = self.duplicate()
result.mSeconds -= duration.getTotalSeconds()
result.normalise()
return result
raise ValueError
# Comparators
def __eq__(self, comp):
return self.compareDateTime(comp) == 0
def __ne__(self, comp):
return self.compareDateTime(comp) != 0
def __ge__(self, comp):
return self.compareDateTime(comp) >= 0
def __le__(self, comp):
return self.compareDateTime(comp) <= 0
def __gt__(self, comp):
return self.compareDateTime(comp) > 0
def __lt__(self, comp):
return self.compareDateTime(comp) < 0
def compareDateTime(self, comp):
if comp is None:
return 1
# If either are date only, then just do date compare
if self.mDateOnly or comp.mDateOnly:
if self.mYear == comp.mYear:
if self.mMonth == comp.mMonth:
if self.mDay == comp.mDay:
return 0
else:
if self.mDay < comp.mDay:
return -1
else:
return 1
else:
if self.mMonth < comp.mMonth:
return -1
else:
return 1
else:
if self.mYear < comp.mYear:
return -1
else:
return 1
# If they have the same timezone do simple compare - no posix calc
# needed
elif (PyCalendarTimezone.same(self.mTZUTC, self.mTZID, comp.mTZUTC, comp.mTZID)):
if self.mYear == comp.mYear:
if self.mMonth == comp.mMonth:
if self.mDay == comp.mDay:
if self.mHours == comp.mHours:
if self.mMinutes == comp.mMinutes:
if self.mSeconds == comp.mSeconds:
return 0
else:
if self.mSeconds < comp.mSeconds:
return -1
else:
return 1
else:
if self.mMinutes < comp.mMinutes:
return -1
else:
return 1
else:
if self.mHours < comp.mHours:
return -1
else:
return 1
else:
if self.mDay < comp.mDay:
return -1
else:
return 1
else:
if self.mMonth < comp.mMonth:
return -1
else:
return 1
else:
if self.mYear < comp.mYear:
return -1
else:
return 1
else:
posix1 = self.getPosixTime()
posix2 = comp.getPosixTime()
if posix1 == posix2:
return 0
else:
if posix1 < posix2:
return -1
else:
return 1
def compareDate(self, comp):
return (self.mYear == comp.mYear) and (self.mMonth == comp.mMonth) and (self.mDay == comp.mDay)
def getPosixTime(self):
# Look for cached value (or floating time which has to be calculated
# each time)
if (not self.mPosixTimeCached) or self.floating():
result = 0L
# Add hour/mins/secs
result = (self.mHours * 60L + self.mMinutes) * 60L + self.mSeconds
# Number of days since 1970
result += self.daysSince1970() * 24L * 60L * 60L
# Adjust for timezone offset
result -= self.timeZoneSecondsOffset()
# Now indicate cache state
self.mPosixTimeCached = True
self.mPosixTime = result
return self.mPosixTime
def isDateOnly(self):
return self.mDateOnly
def setDateOnly(self, date_only):
self.mDateOnly = date_only
self.changed()
def getYear(self):
return self.mYear
def setYear(self, year):
if self.mYear != year:
self.mYear = year
self.changed()
def offsetYear(self, diff_year):
self.mYear += diff_year
self.normalise()
def getMonth(self):
return self.mMonth
def setMonth(self, month):
if self.mMonth != month:
self.mMonth = month
self.changed()
def offsetMonth(self, diff_month):
self.mMonth += diff_month
self.normalise()
def getDay(self):
return self.mDay
def setDay(self, day):
if self.mDay != day:
self.mDay = day
self.changed()
def offsetDay(self, diff_day):
self.mDay += diff_day
self.normalise()
def setYearDay(self, day, allow_invalid=False):
# 1 .. 366 offset from start, or
# -1 .. -366 offset from end
if day == 366:
self.mMonth = 12
self.mDay = 31 if utils.isLeapYear(self.mYear) else 32
elif day == -366:
self.mMonth = 1 if utils.isLeapYear(self.mYear) else 1
self.mDay = 1 if utils.isLeapYear(self.mYear) else 0
elif day > 0:
# Offset current date to 1st January of current year
self.mMonth = 1
self.mDay = 1
# Increment day
self.mDay += day - 1
elif day < 0:
# Offset current date to 1st January of next year
self.mMonth = 12
self.mDay = 31
# Decrement day
self.mDay += day + 1
if not allow_invalid:
# Normalise to get proper year/month/day values
self.normalise()
else:
self.changed()
def getYearDay(self):
return self.mDay + utils.daysUptoMonth(self.mMonth, self.mYear)
def setMonthDay(self, day, allow_invalid=False):
# 1 .. 31 offset from start, or
# -1 .. -31 offset from end
if day > 0:
# Offset current date to 1st of current month
self.mDay = 1
# Increment day
self.mDay += day - 1
elif day < 0:
# Offset current date to last of month
self.mDay = utils.daysInMonth(self.mMonth, self.mYear)
# Decrement day
self.mDay += day + 1
if not allow_invalid:
# Normalise to get proper year/month/day values
self.normalise()
else:
self.changed()
def isMonthDay(self, day):
if day > 0:
return self.mDay == day
elif day < 0:
return self.mDay - 1 - utils.daysInMonth(self.mMonth, self.mYear) == day
else:
return False
def setWeekNo(self, weekno):
"""
Set the current date to one with the same day of the week in the current year with the
specified week number. Note this might cause the year to shift backwards or forwards
if the date is at the boundary between two years.
@param weekno: the week number to set (currently must be positive)
@type weekno: C{int}
"""
# Don't both if already correct
if self.getWeekNo() == weekno:
return
# What day does the current year start on, and diff that with the current day
temp = PyCalendarDateTime(year=self.mYear, month=1, day=1)
first_day = temp.getDayOfWeek()
current_day = self.getDayOfWeek()
# Calculate and set yearday for start of week. The first week is the one that contains at least
# four days (with week start defaulting to MONDAY), so that means the 1st of January would fall
# on MO, TU, WE, TH.
if first_day in (PyCalendarDateTime.MONDAY, PyCalendarDateTime.TUESDAY, PyCalendarDateTime.WEDNESDAY, PyCalendarDateTime.THURSDAY):
year_day = (weekno - 1) * 7 + current_day - first_day
else:
year_day = weekno * 7 + current_day - first_day
# It is possible we have a negative offset which means go back to the prior year as part of
# week #1 exists at the end of that year.
if year_day < 0:
self.offsetYear(-1)
else:
year_day += 1
self.setYearDay(year_day)
def getWeekNo(self):
"""
Return the ISO week number for the current date.
"""
# What day does the current year start on
temp = PyCalendarDateTime(year=self.mYear, month=1, day=1)
first_day = temp.getDayOfWeek()
if first_day == 0:
first_day = 7
current_day = self.getDayOfWeek()
if current_day == 0:
current_day = 7
# This arithmetic uses the ISO day of week (1-7) and the year day to get the week number
week_no = (self.getYearDay() - current_day + 10) / 7
# Might need to adjust forward/backwards based on year boundaries
if week_no == 0:
# Last week of previous year
temp = PyCalendarDateTime(year=self.mYear - 1, month=12, day=31)
week_no = temp.getWeekNo()
elif week_no == 53:
# Might be first week of next year
temp = PyCalendarDateTime(year=self.mYear + 1, month=1, day=1)
first_day = temp.getDayOfWeek()
if first_day in (PyCalendarDateTime.MONDAY, PyCalendarDateTime.TUESDAY, PyCalendarDateTime.WEDNESDAY, PyCalendarDateTime.THURSDAY):
week_no = 1
return week_no
def isWeekNo(self, weekno):
# This is the iso 8601 week number definition
if weekno > 0:
return self.getWeekNo() == weekno
else:
# This needs to calculate the negative offset from the last week in
# the current year
return False
def setDayOfWeekInYear(self, offset, day):
# Set to first day in year
self.mMonth = 1
self.mDay = 1
# Determine first weekday in year
first_day = self.getDayOfWeek()
if offset > 0:
cycle = (offset - 1) * 7 + day
cycle -= first_day
if first_day > day:
cycle += 7
self.mDay = cycle + 1
elif offset < 0:
first_day += 365 + [1, 0][not utils.isLeapYear(self.mYear)] - 1
first_day %= 7
cycle = (-offset - 1) * 7 - day
cycle += first_day
if day > first_day:
cycle += 7
self.mDay = 365 + [1, 0][not utils.isLeapYear(self.mYear)] - cycle
self.normalise()
def setDayOfWeekInMonth(self, offset, day, allow_invalid=False):
# Set to first day in month
self.mDay = 1
# Determine first weekday in month
first_day = self.getDayOfWeek()
if offset > 0:
cycle = (offset - 1) * 7 + day
cycle -= first_day
if first_day > day:
cycle += 7
self.mDay = cycle + 1
elif offset < 0:
days_in_month = utils.daysInMonth(self.mMonth, self.mYear)
first_day += days_in_month - 1
first_day %= 7
cycle = (-offset - 1) * 7 - day
cycle += first_day
if day > first_day:
cycle += 7
self.mDay = days_in_month - cycle
if not allow_invalid:
self.normalise()
else:
self.changed()
def setNextDayOfWeek(self, start, day):
# Set to first day in month
self.mDay = start
# Determine first weekday in month
first_day = self.getDayOfWeek()
if first_day > day:
self.mDay += 7
self.mDay += day - first_day
self.normalise()
def isDayOfWeekInMonth(self, offset, day):
# First of the actual day must match
if self.getDayOfWeek() != day:
return False
# If there is no count the we match any of this day in the month
if offset == 0:
return True
# Create temp date-time with the appropriate parameters and then
# compare
temp = self.duplicate()
temp.setDayOfWeekInMonth(offset, day)
# Now compare dates
return self.compareDate(temp)
def getDayOfWeek(self):
# Count days since 01-Jan-1970 which was a Thursday
result = PyCalendarDateTime.THURSDAY + self.daysSince1970()
result %= 7
if result < 0:
result += 7
return result
def getMonthText(self, short_txt):
# Make sure range is valid
if (self.mMonth < 1) or (self.mMonth > 12):
return ""
else:
return locale.getMonth(self.mMonth,
[locale.SHORT, locale.LONG][not short_txt])
def getDayOfWeekText(self, day):
return locale.getDay(day, locale.SHORT)
def setHHMMSS(self, hours, minutes, seconds):
if (self.mHours != hours) or (self.mMinutes != minutes) or (self.mSeconds != seconds):
self.mHours = hours
self.mMinutes = minutes
self.mSeconds = seconds
self.changed()
def getHours(self):
return self.mHours
def setHours(self, hours):
if self.mHours != hours:
self.mHours = hours
self.changed()
def offsetHours(self, diff_hour):
self.mHours += diff_hour
self.normalise()
def getMinutes(self):
return self.mMinutes
def setMinutes(self, minutes):
if self.mMinutes != minutes:
self.mMinutes = minutes
self.changed()
def offsetMinutes(self, diff_minutes):
self.mMinutes += diff_minutes
self.normalise()
def getSeconds(self):
return self.mSeconds
def setSeconds(self, seconds):
if self.mSeconds != seconds:
self.mSeconds = seconds
self.changed()
def offsetSeconds(self, diff_seconds):
self.mSeconds += diff_seconds
self.normalise()
def getTimezoneUTC(self):
return self.mTZUTC
def setTimezoneUTC(self, utc):
if self.mTZUTC != utc:
self.mTZUTC = utc
self.changed()
def getTimezoneID(self):
return self.mTZID
def setTimezoneID(self, tzid):
self.mTZUTC = False
self.mTZID = tzid
self.changed()
def utc(self):
return self.mTZUTC
def local(self):
return (not self.mTZUTC) and self.mTZID
def floating(self):
return (not self.mTZUTC) and not self.mTZID
def getTimezone(self):
return PyCalendarTimezone(utc=self.mTZUTC, tzid=self.mTZID)
def setTimezone(self, tzid):
self.mTZUTC = tzid.getUTC()
self.mTZID = tzid.getTimezoneID()
self.changed()
def adjustTimezone(self, tzid):
# Only if different
s1 = tzid.getTimezoneID()
if (tzid.getUTC() != self.mTZUTC) or (s1 != self.mTZID):
if not self.mTZUTC:
self.adjustToUTC()
self.setTimezone(tzid)
offset_to = self.timeZoneSecondsOffset(relative_to_utc=True)
self.offsetSeconds(offset_to)
return self
def adjustToUTC(self):
if self.local() and not self.mDateOnly:
# Cache and restore and adjust the posix value to avoid a recalc since it won't change during this adjust
tempPosix = self.mPosixTime if self.mPosixTimeCached else None
utc = PyCalendarTimezone(utc=True)
offset_from = self.timeZoneSecondsOffset()
self.setTimezone(utc)
self.offsetSeconds(-offset_from)
if tempPosix is not None:
self.mPosixTimeCached = True
self.mPosixTime = tempPosix
self.mTZOffset = 0
return self
def getAdjustedTime(self, tzid=None):
# Copy this and adjust to input timezone
adjusted = self.duplicate()
adjusted.adjustTimezone(tzid)
return adjusted
def setToday(self):
tz = PyCalendarTimezone(utc=self.mTZUTC, tzid=self.mTZID)
self.copy_ICalendarDateTime(self.getToday(tz))
@staticmethod
def getToday(tzid=None):
# Get from posix time
now = time.time()
now_tm = time.localtime(now)
temp = PyCalendarDateTime(year=now_tm.tm_year, month=now_tm.tm_mon, day=now_tm.tm_mday, tzid=tzid)
return temp
def setNow(self):
tz = PyCalendarTimezone(utc=self.mTZUTC, tzid=self.mTZID)
self.copy_ICalendarDateTime(self.getNow(tz))
@staticmethod
def getNow(tzid):
utc = PyCalendarDateTime.getNowUTC()
utc.adjustTimezone(tzid if tzid is not None else PyCalendarTimezone())
return utc
def setNowUTC(self):
self.copy_PyCalendarDateTime(self.getNowUTC())
@staticmethod
def getNowUTC():
# Get from posix time
now = time.time()
now_tm = time.gmtime(now)
tzid = PyCalendarTimezone(utc=True)
return PyCalendarDateTime(year=now_tm.tm_year, month=now_tm.tm_mon, day=now_tm.tm_mday, hours=now_tm.tm_hour, minutes=now_tm.tm_min, seconds=now_tm.tm_sec, tzid=tzid)
def recur(self, freq, interval, allow_invalid=False):
# Add appropriate interval
normalize = True
if freq == definitions.eRecurrence_SECONDLY:
self.mSeconds += interval
elif freq == definitions.eRecurrence_MINUTELY:
self.mMinutes += interval
elif freq == definitions.eRecurrence_HOURLY:
self.mHours += interval
elif freq == definitions.eRecurrence_DAILY:
self.mDay += interval
elif freq == definitions.eRecurrence_WEEKLY:
self.mDay += 7 * interval
elif freq == definitions.eRecurrence_MONTHLY:
# Iterate until a valid day in the next month is found.
# This can happen if adding one month to e.g. 31 January.
# That is an undefined operation - does it mean 28/29 February
# or 1/2 May, or 31 March or what? We choose to find the next month with
# the same day number as the current one.
self.mMonth += interval
# Normalise month
normalised_month = ((self.mMonth - 1) % 12) + 1
adjustment_year = (self.mMonth - 1) / 12
if (normalised_month - 1) < 0:
normalised_month += 12
adjustment_year -= 1
self.mMonth = normalised_month
self.mYear += adjustment_year
if not allow_invalid:
self.normalise()
while self.mDay > utils.daysInMonth(self.mMonth, self.mYear):
self.mMonth += interval
self.normalise()
normalize = False
elif freq == definitions.eRecurrence_YEARLY:
self.mYear += interval
if allow_invalid:
normalize = False
if normalize:
# Normalise to standard date-time ranges
self.normalise()
else:
self.changed()
def getLocaleDate(self, locale):
buf = StringIO.StringIO()
if locale == PyCalendarDateTime.FULLDATE:
buf.write(locale.getDay(self.getDayOfWeek(), locale.LONG))
buf.write(", ")
buf.write(locale.getMonth(self.mMonth, locale.LONG))
buf.write(" ")
buf.write(str(self.mDay))
buf.write(", ")
buf.write(str(self.mYear))
elif locale == PyCalendarDateTime.ABBREVDATE:
buf.write(locale.getDay(self.getDayOfWeek(), locale.SHORT))
buf.write(", ")
buf.write(locale.getMonth(self.mMonth, locale.SHORT))
buf.write(" ")
buf.write(str(self.mDay))
buf.write(", ")
buf.write(str(self.mYear))
elif locale == PyCalendarDateTime.NUMERICDATE:
buf.write(str(self.mMonth))
buf.write("/")
buf.write(str(self.mDay))
buf.write("/")
buf.write(str(self.mYear))
elif locale == PyCalendarDateTime.FULLDATENOYEAR:
buf.write(locale.getDay(self.getDayOfWeek(), locale.LONG))
buf.write(", ")
buf.write(locale.getMonth(self.mMonth, locale.LONG))
buf.write(" ")
buf.write(str(self.mDay))
elif locale == PyCalendarDateTime.ABBREVDATENOYEAR:
buf.write(locale.getDay(self. getDayOfWeek(), locale.SHORT))
buf.write(", ")
buf.write(locale.getMonth(self.mMonth, locale.SHORT))
buf.write(" ")
buf.write(str(self.mDay))
elif locale == PyCalendarDateTime.NUMERICDATENOYEAR:
buf.write(str(self.mMonth))
buf.write("/")
buf.write(str(self.mDay))
return buf.getvalue()
def getTime(self, with_seconds, am_pm, tzid):
buf = StringIO.StringIO()
adjusted_hour = self.mHours
if am_pm:
am = True
if adjusted_hour >= 12:
adjusted_hour -= 12
am = False
if adjusted_hour == 0:
adjusted_hour = 12
buf.write(str(adjusted_hour))
buf.write(":")
if self.mMinutes < 10:
buf.write("0")
buf.write(str(self.mMinutes))
if with_seconds:
buf.write(":")
if self.mSeconds < 10:
buf.write("0")
buf.write(str(self.mSeconds))
buf.write([" AM", " PM"][not am])
else:
if self.mHours < 10:
buf.write("0")
buf.write(str(self.mHours))
buf.write(":")
if self.mMinutes < 10:
buf.write("0")
buf.write(str(self.mMinutes))
if with_seconds:
buf.write(":")
if self.mSeconds < 10:
buf.write("0")
buf.write(str(self.mSeconds))
if tzid:
desc = self.timeZoneDescriptor()
if len(desc) > 0:
buf.write(" ")
buf.write(desc)
return buf.getvalue()
def getLocaleDateTime(self, locale, with_seconds, am_pm, tzid):
return self.getLocaleDate(locale) + " " + self.getTime(with_seconds, am_pm, tzid)
def getText(self):
if self.mDateOnly:
return "%04d%02d%02d" % (self.mYear, self.mMonth, self.mDay)
else:
if self.mTZUTC:
return "%04d%02d%02dT%02d%02d%02dZ" % (self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds)
elif isinstance(self.mTZID, int):
sign = "-" if self.mTZID < 0 else "+"
hours = abs(self.mTZID) / 3600
minutes = divmod(abs(self.mTZID) / 60, 60)[1]
return "%04d%02d%02dT%02d%02d%02d%s%02d%02d" % (self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds, sign, hours, minutes)
else:
return "%04d%02d%02dT%02d%02d%02d" % (self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds)
def getXMLText(self):
if self.mDateOnly:
return "%04d-%02d-%02d" % (self.mYear, self.mMonth, self.mDay)
else:
if self.mTZUTC:
return "%04d-%02d-%02dT%02d:%02d:%02dZ" % (self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds)
elif isinstance(self.mTZID, int):
sign = "-" if self.mTZID < 0 else "+"
hours = abs(self.mTZID) / 3600
minutes = divmod(abs(self.mTZID) / 60, 60)[1]
return "%04d-%02d-%02dT%02d:%02d:%02d%s%02d:%02d" % (self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds, sign, hours, minutes)
else:
return "%04d-%02d-%02dT%02d:%02d:%02d" % (self.mYear, self.mMonth, self.mDay, self.mHours, self.mMinutes, self.mSeconds)
@classmethod
def parseText(cls, data, fullISO=False):
dt = cls()
dt.parse(data, fullISO)
return dt
def parseDate(self, data, fullISO):
# Get year
self.mYear = int(data[0:4])
index = 4
if fullISO and data[index] == "-":
index += 1
# Get month
self.mMonth = int(data[index:index + 2])
index += 2
if fullISO and data[index] == "-":
index += 1
# Get day
self.mDay = int(data[index:index + 2])
index += 2
if ' ' in data[:index] and ParserContext.INVALID_DATETIME_LEADINGSPACE == ParserContext.PARSER_RAISE:
raise ValueError
if self.mYear < 0 or self.mMonth < 0 or self.mDay < 0:
raise ValueError
return index
def parseTime(self, data, index, fullISO):
# Get hours
self.mHours = int(data[index:index + 2])
index += 2
if fullISO and data[index] == ":":
index += 1
# Get minutes
self.mMinutes = int(data[index:index + 2])
index += 2
if fullISO and data[index] == ":":
index += 1
# Get seconds
self.mSeconds = int(data[index:index + 2])
index += 2
return index
def parseFractionalAndUTCOffset(self, data, index, dlen):
# Optional fraction
if data[index] == ",":
index += 1
if not data[index].isdigit():
raise ValueError
while index < dlen and data[index].isdigit():
index += 1
# Optional timezone descriptor
if index < dlen:
if data[index] == "Z":
index += 1
self.mTZUTC = True
else:
if data[index] == "+":
sign = 1
elif data[index] == "-":
sign = -1
else:
raise ValueError
index += 1
# Get hours
hours_offset = int(data[index:index + 2])
index += 2
if data[index] == ":":
index += 1
# Get minutes
minutes_offset = int(data[index:index + 2])
index += 2
self.mTZID = sign * (hours_offset * 60 + minutes_offset) * 60
if index < dlen:
raise ValueError
return index
def parse(self, data, fullISO=False):
# iCalendar:
# parse format YYYYMMDD[THHMMSS[Z]]
# vCard (fullISO)
# parse format YYYY[-]MM[-]DD[THH[:]MM[:]SS[(Z/(+/-)HHMM]]
try:
# Parse out the date
index = self.parseDate(data, fullISO)
# Now look for more
dlen = len(data)
if index < dlen:
if data[index] != 'T':
raise ValueError
index += 1
# Parse out the time
index = self.parseTime(data, index, fullISO)
self.mDateOnly = False
if index < dlen:
if fullISO:
index = self.parseFractionalAndUTCOffset(data, index, dlen)
else:
if index < dlen:
if data[index] != 'Z':
raise ValueError
index += 1
self.mTZUTC = True
if index < dlen:
raise ValueError
else:
self.mTZUTC = False
else:
self.mDateOnly = True
except IndexError:
raise ValueError
# Always uncache posix time
self.changed()
def generate(self, os):
try:
os.write(self.getText())
except:
pass
def generateRFC2822(self, os):
pass
def writeXML(self, node, namespace):
value = XML.SubElement(
node,
xmldefs.makeTag(
namespace,
xmldefs.value_date if self.isDateOnly() else xmldefs.value_date_time
))
value.text = self.getXMLText()
def invalid(self):
"""
Are any of the current fields invalid.
"""
# Right now we only care about invalid days of the month (e.g. February 30th). In the
# future we may also want to look for invalid times during a DST transition.
if self.mDay <= 0 or self.mDay > utils.daysInMonth(self.mMonth, self.mYear):
return True
return False
def normalise(self):
# Normalise seconds
normalised_secs = self.mSeconds % 60
adjustment_mins = self.mSeconds / 60
if normalised_secs < 0:
normalised_secs += 60
adjustment_mins -= 1
self.mSeconds = normalised_secs
self.mMinutes += adjustment_mins
# Normalise minutes
normalised_mins = self.mMinutes % 60
adjustment_hours = self.mMinutes / 60
if normalised_mins < 0:
normalised_mins += 60
adjustment_hours -= 1
self.mMinutes = normalised_mins
self.mHours += adjustment_hours
# Normalise hours
normalised_hours = self.mHours % 24
adjustment_days = self.mHours / 24
if normalised_hours < 0:
normalised_hours += 24
adjustment_days -= 1
self.mHours = normalised_hours
self.mDay += adjustment_days
# Wipe the time if date only
if self.mDateOnly:
self.mSeconds = self.mMinutes = self.mHours = 0
# Adjust the month first, since the day adjustment is month dependent
# Normalise month
normalised_month = ((self.mMonth - 1) % 12) + 1
adjustment_year = (self.mMonth - 1) / 12
if (normalised_month - 1) < 0:
normalised_month += 12
adjustment_year -= 1
self.mMonth = normalised_month
self.mYear += adjustment_year
# Now do days
if self.mDay > 0:
while self.mDay > utils.daysInMonth(self.mMonth, self.mYear):
self.mDay -= utils.daysInMonth(self.mMonth, self.mYear)
self.mMonth += 1
if self.mMonth > 12:
self.mMonth = 1
self.mYear += 1
else:
while self.mDay <= 0:
self.mMonth -= 1
if self.mMonth < 1:
self.mMonth = 12
self.mYear -= 1
self.mDay += utils.daysInMonth(self.mMonth, self.mYear)
# Always invalidate posix time cache
self.changed()
def timeZoneSecondsOffset(self, relative_to_utc=False):
if self.mTZUTC:
return 0
if self.mTZOffset is None:
tz = PyCalendarTimezone(utc=self.mTZUTC, tzid=self.mTZID)
self.mTZOffset = tz.timeZoneSecondsOffset(self, relative_to_utc)
return self.mTZOffset
def timeZoneDescriptor(self):
tz = PyCalendarTimezone(utc=self.mTZUTC, tzid=self.mTZID)
return tz.timeZoneDescriptor(self)
def changed(self):
self.mPosixTimeCached = False
self.mTZOffset = None
def daysSince1970(self):
# Add days between 1970 and current year (ignoring leap days)
result = (self.mYear - 1970) * 365
# Add leap days between years
result += utils.leapDaysSince1970(self.mYear - 1970)
# Add days in current year up to current month (includes leap day for
# current year as needed)
result += utils.daysUptoMonth(self.mMonth, self.mYear)
# Add days in month
result += self.mDay - 1
return result
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