#!/usr/bin/env python # -*- coding: utf-8 -*- # # Copyright (C) 2009-2011 UmeƄ University # # 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. """ Implements some usefull functions when dealing with validity of different types of information. """ import calendar import re import time import sys from datetime import timedelta from datetime import datetime TIME_FORMAT = "%Y-%m-%dT%H:%M:%SZ" TIME_FORMAT_WITH_FRAGMENT = re.compile( "^(\d{4,4}-\d{2,2}-\d{2,2}T\d{2,2}:\d{2,2}:\d{2,2})\.\d*Z$") # --------------------------------------------------------------------------- # I'm sure this is implemented somewhere else can't find it now though, so I # made an attempt. #Implemented according to #http://www.w3.org/TR/2001/REC-xmlschema-2-20010502/ #adding-durations-to-dateTimes def f_quotient(arg0, arg1, arg2=0): if arg2: return int((arg0 - arg1) / (arg2 - arg1)) elif not arg0: return 0 else: return int(arg0 / arg1) def modulo(arg0, arg1, arg2=0): if arg2: return ((arg0 - arg1) % (arg2 - arg1)) + arg1 else: return arg0 % arg1 def maximum_day_in_month_for(year, month): return calendar.monthrange(year, month)[1] D_FORMAT = [ ("Y", "tm_year"), ("M", "tm_mon"), ("D", "tm_mday"), ("T", None), ("H", "tm_hour"), ("M", "tm_min"), ("S", "tm_sec") ] def parse_duration(duration): # (-)PnYnMnDTnHnMnS index = 0 if duration[0] == '-': sign = '-' index += 1 else: sign = '+' assert duration[index] == "P" index += 1 dic = dict([(typ, 0) for (code, typ) in D_FORMAT]) for code, typ in D_FORMAT: #print duration[index:], code if duration[index] == '-': raise Exception("Negation not allowed on individual items") if code == "T": if duration[index] == "T": index += 1 if index == len(duration): raise Exception("Not allowed to end with 'T'") else: raise Exception("Missing T") else: try: mod = duration[index:].index(code) try: dic[typ] = int(duration[index:index + mod]) except ValueError: if code == "S": try: dic[typ] = float(duration[index:index + mod]) except ValueError: raise Exception("Not a float") else: raise Exception( "Fractions not allow on anything byt seconds") index = mod + index + 1 except ValueError: dic[typ] = 0 if index == len(duration): break return sign, dic def add_duration(tid, duration): (sign, dur) = parse_duration(duration) if sign == '+': #Months temp = tid.tm_mon + dur["tm_mon"] month = modulo(temp, 1, 13) carry = f_quotient(temp, 1, 13) #Years year = tid.tm_year + dur["tm_year"] + carry # seconds temp = tid.tm_sec + dur["tm_sec"] secs = modulo(temp, 60) carry = f_quotient(temp, 60) # minutes temp = tid.tm_min + dur["tm_min"] + carry minutes = modulo(temp, 60) carry = f_quotient(temp, 60) # hours temp = tid.tm_hour + dur["tm_hour"] + carry hour = modulo(temp, 60) carry = f_quotient(temp, 60) # days if dur["tm_mday"] > maximum_day_in_month_for(year, month): temp_days = maximum_day_in_month_for(year, month) elif dur["tm_mday"] < 1: temp_days = 1 else: temp_days = dur["tm_mday"] days = temp_days + tid.tm_mday + carry while True: if days < 1: pass elif days > maximum_day_in_month_for(year, month): days -= maximum_day_in_month_for(year, month) carry = 1 else: break temp = month + carry month = modulo(temp, 1, 13) year += f_quotient(temp, 1, 13) return time.localtime(time.mktime((year, month, days, hour, minutes, secs, 0, 0, -1))) else: pass # --------------------------------------------------------------------------- def time_in_a_while(days=0, seconds=0, microseconds=0, milliseconds=0, minutes=0, hours=0, weeks=0): """ format of timedelta: timedelta([days[, seconds[, microseconds[, milliseconds[, minutes[, hours[, weeks]]]]]]]) :return: UTC time """ delta = timedelta(days, seconds, microseconds, milliseconds, minutes, hours, weeks) return datetime.utcnow() + delta def time_a_while_ago(days=0, seconds=0, microseconds=0, milliseconds=0, minutes=0, hours=0, weeks=0): """ format of timedelta: timedelta([days[, seconds[, microseconds[, milliseconds[, minutes[, hours[, weeks]]]]]]]) """ delta = timedelta(days, seconds, microseconds, milliseconds, minutes, hours, weeks) return datetime.utcnow() - delta def in_a_while(days=0, seconds=0, microseconds=0, milliseconds=0, minutes=0, hours=0, weeks=0, format=TIME_FORMAT): """ format of timedelta: timedelta([days[, seconds[, microseconds[, milliseconds[, minutes[, hours[, weeks]]]]]]]) """ if format is None: format = TIME_FORMAT return time_in_a_while(days, seconds, microseconds, milliseconds, minutes, hours, weeks).strftime(format) def a_while_ago(days=0, seconds=0, microseconds=0, milliseconds=0, minutes=0, hours=0, weeks=0, format=TIME_FORMAT): return time_a_while_ago(days, seconds, microseconds, milliseconds, minutes, hours, weeks).strftime(format) # --------------------------------------------------------------------------- def shift_time(dtime, shift): """ Adds/deletes an integer amount of seconds from a datetime specification :param dtime: The datatime specification :param shift: The wanted time shift (+/-) :return: A shifted datatime specification """ return dtime + timedelta(seconds=shift) # --------------------------------------------------------------------------- def str_to_time(timestr, format=TIME_FORMAT): """ :param timestr: :param format: :return: UTC time """ if not timestr: return 0 try: then = time.strptime(timestr, format) except ValueError: # assume it's a format problem try: elem = TIME_FORMAT_WITH_FRAGMENT.match(timestr) except Exception, exc: print >> sys.stderr, "Exception: %s on %s" % (exc, timestr) raise then = time.strptime(elem.groups()[0] + "Z", TIME_FORMAT) return time.gmtime(calendar.timegm(then)) def instant(format=TIME_FORMAT, time_stamp=0): if time_stamp: return time.strftime(format, time.gmtime(time_stamp)) else: return time.strftime(format, time.gmtime()) # --------------------------------------------------------------------------- def utc_now(): return calendar.timegm(time.gmtime()) # --------------------------------------------------------------------------- def before(point): """ True if point datetime specification is before now. NOTE: If point is specified it is supposed to be in local time. Not UTC/GMT !! This is because that is what gmtime() expects. """ if not point: return True if isinstance(point, basestring): point = str_to_time(point) elif isinstance(point, int): point = time.gmtime(point) return time.gmtime() < point def after(point): """ True if point datetime specification is equal or after now """ if not point: return True else: return not before(point) not_before = after # 'not_on_or_after' is just an obscure name for 'before' not_on_or_after = before # a point is valid if it is now or sometime in the future, in other words, # if it is not before now valid = before def later_than(after, before): """ True if then is later or equal to that """ if isinstance(after, basestring): after = str_to_time(after) elif isinstance(after, int): after = time.gmtime(after) if isinstance(before, basestring): before = str_to_time(before) elif isinstance(before, int): before = time.gmtime(before) return after >= before