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//usr/lib/python2.4/site-packages/mx/DateTime/Parser.py
#-*- coding: latin-1 -*- """ Date/Time string parsing module. Note about the Y2K problems: The parser can only handle years with at least 2 digits. 2 digit year values get expanded by adding the century using DateTime.add_century(), while 3 digit year get converted literally. To have 2 digit years also be interpreted literally, add leading zeros, e.g. year 99 must be written as 099 or 0099. The literal string encoding used in this file is Latin-1. Copyright (c) 1998-2000, Marc-Andre Lemburg; mailto:mal@lemburg.com Copyright (c) 2000-2001, eGenix.com Software GmbH; mailto:info@egenix.com See the documentation for further information on copyrights, or contact the author. All Rights Reserved. """ import types,re,string import DateTime,ISO,ARPA,Timezone # Enable to produce debugging output _debug = 0 # REs for matching date and time parts in a string; These REs # parse a superset of ARPA, ISO, American and European style dates. # Timezones are supported via the Timezone submodule. _year = '(?P<year>-?\d+\d(?!:))' _fullyear = '(?P<year>-?\d+\d\d(?!:))' _year_epoch = '(?:' + _year + '(?P<epoch> *[ABCDE\.]+)?)' _fullyear_epoch = '(?:' + _fullyear + '(?P<epoch> *[ABCDE\.]+)?)' _relyear = '(?:\((?P<relyear>[-+]?\d+)\))' _month = '(?P<month>\d?\d(?!:))' _fullmonth = '(?P<month>\d\d(?!:))' _litmonth = ('(?P<litmonth>' 'jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec|' 'mär|mae|mrz|mai|okt|dez|' 'fev|avr|juin|juil|aou|aoû|déc|' 'ene|abr|ago|dic|' 'out' ')[a-z,\.;]*') litmonthtable = { # English 'jan':1, 'feb':2, 'mar':3, 'apr':4, 'may':5, 'jun':6, 'jul':7, 'aug':8, 'sep':9, 'oct':10, 'nov':11, 'dec':12, # German 'mär':3, 'mae':3, 'mrz':3, 'mai':5, 'okt':10, 'dez':12, # French 'fev':2, 'avr':4, 'juin':6, 'juil':7, 'aou':8, 'aoû':8, 'déc':12, # Spanish 'ene':1, 'abr':4, 'ago':8, 'dic':12, # Portuguese 'out':10, } _relmonth = '(?:\((?P<relmonth>[-+]?\d+)\))' _day = '(?P<day>\d?\d(?!:))' _usday = '(?P<day>\d?\d(?!:))(?:st|nd|rd|th|[,\.;])?' _fullday = '(?P<day>\d\d(?!:))' _litday = ('(?P<litday>' 'mon|tue|wed|thu|fri|sat|sun|' 'die|mit|don|fre|sam|son|' 'lun|mar|mer|jeu|ven|sam|dim|' 'mie|jue|vie|sab|dom|' 'pri|seg|ter|cua|qui' ')[a-z]*') litdaytable = { # English 'mon':0, 'tue':1, 'wed':2, 'thu':3, 'fri':4, 'sat':5, 'sun':6, # German 'die':1, 'mit':2, 'don':3, 'fre':4, 'sam':5, 'son':6, # French 'lun':0, 'mar':1, 'mer':2, 'jeu':3, 'ven':4, 'sam':5, 'dim':6, # Spanish 'mie':2, 'jue':3, 'vie':4, 'sab':5, 'dom':6, # Portuguese 'pri':0, 'seg':1, 'ter':2, 'cua':3, 'qui':4, } _relday = '(?:\((?P<relday>[-+]?\d+)\))' _hour = '(?P<hour>[012]?\d)' _minute = '(?P<minute>[0-6]\d)' _second = '(?P<second>[0-6]\d(?:\.\d+)?)' _days = '(?P<days>\d*\d(?:\.\d+)?)' _hours = '(?P<hours>\d*\d(?:\.\d+)?)' _minutes = '(?P<minutes>\d*\d(?:\.\d+)?)' _seconds = '(?P<seconds>\d*\d(?:\.\d+)?)' _reldays = '(?:\((?P<reldays>[-+]?\d+(?:\.\d+)?)\))' _relhours = '(?:\((?P<relhours>[-+]?\d+(?:\.\d+)?)\))' _relminutes = '(?:\((?P<relminutes>[-+]?\d+(?:\.\d+)?)\))' _relseconds = '(?:\((?P<relseconds>[-+]?\d+(?:\.\d+)?)\))' _sign = '(?:(?P<sign>[-+]) *)' _week = 'W(?P<week>\d?\d)' _zone = Timezone.zone _ampm = '(?P<ampm>[ap][m.]+)' _time = (_hour + ':' + _minute + '(?::' + _second + ')? *' + _ampm + '? *' + _zone + '?') _isotime = _hour + ':?' + _minute + ':?' + _second + '? *' + _zone + '?' _weekdate = _year + '-?(?:' + _week + '-?' + _day + '?)?' _eurodate = _day + '\.' + _month + '\.' + _year_epoch + '?' _usdate = _month + '/' + _day + '(?:/' + _year_epoch + ')?' _altusdate = _month + '-' + _day + '-' + _fullyear_epoch _isodate = _year + '-' + _fullmonth + '-?' + _fullday + '?(?!:)' _altisodate = _year + _fullmonth + _fullday + '(?!:)' _litdate = ('(?:'+ _litday + ',? )? *' + _usday + ' *' + '[- ] *(?:' + _litmonth + '|'+ _month +') *[- ] *' + _year_epoch + '?') _altlitdate = ('(?:'+ _litday + ',? )? *' + _litmonth + '[ ,.a-z]+' + _usday + '(?:[ a-z]+' + _year_epoch + ')?') _eurlitdate = ('(?:'+ _litday + ',?[ a-z]+)? *' + '(?:'+ _usday + '[ a-z]+)? *' + _litmonth + '(?:[ ,.a-z]+' + _year_epoch + ')?') _relany = '[*%?a-zA-Z]+' _relisodate = ('(?:(?:' + _relany + '|' + _year + '|' + _relyear + ')-' + '(?:' + _relany + '|' + _month + '|' + _relmonth + ')-' + '(?:' + _relany + '|' + _day + '|' + _relday + '))') _asctime = ('(?:'+ _litday + ',? )? *' + _usday + ' *' + '[- ] *(?:' + _litmonth + '|'+ _month +') *[- ]' + '(?:[0-9: ]+)' + _year_epoch + '?') _relisotime = ('(?:(?:' + _relany + '|' + _hour + '|' + _relhours + '):' + '(?:' + _relany + '|' + _minute + '|' + _relminutes + ')' + '(?::(?:' + _relany + '|' + _second + '|' + _relseconds + '))?)') _isodelta1 = (_sign + '?' + _days + ':' + _hours + ':' + _minutes + ':' + _seconds) _isodelta2 = (_sign + '?' + _hours + ':' + _minutes + ':' + _seconds) _isodelta3 = (_sign + '?' + _hours + ':' + _minutes) _litdelta = (_sign + '?' + '(?:' + _days + ' *d[a-z]*[,; ]*)?' + '(?:' + _hours + ' *h[a-z]*[,; ]*)?' + '(?:' + _minutes + ' *m[a-z]*[,; ]*)?' + '(?:' + _seconds + ' *s[a-z]*[,; ]*)?') _timeRE = re.compile(_time, re.I) _isotimeRE = re.compile(_isotime, re.I) _isodateRE = re.compile(_isodate, re.I) _altisodateRE = re.compile(_altisodate, re.I) _eurodateRE = re.compile(_eurodate, re.I) _usdateRE = re.compile(_usdate, re.I) _altusdateRE = re.compile(_altusdate, re.I) _litdateRE = re.compile(_litdate, re.I) _altlitdateRE = re.compile(_altlitdate, re.I) _eurlitdateRE = re.compile(_eurlitdate, re.I) _relisodateRE = re.compile(_relisodate, re.I) _asctimeRE = re.compile(_asctime, re.I) _isodelta1RE = re.compile(_isodelta1) _isodelta2RE = re.compile(_isodelta2) _isodelta3RE = re.compile(_isodelta3) _litdeltaRE = re.compile(_litdelta) _relisotimeRE = re.compile(_relisotime, re.I) # Available date parsers _date_formats = ('euro', 'us', 'altus', 'iso', 'altiso', 'lit', 'altlit', 'eurlit', 'unknown') def _parse_date(text, formats=_date_formats, defaultdate=None, atoi=string.atoi,atof=string.atof,lower=string.lower, add_century=DateTime.add_century, now=DateTime.now): """ Parses the date part given in text and returns a tuple (text,day,month,year,style) with the following meanings: * text gives the original text without the date part * day,month,year give the parsed date * style gives information about which parser was successful: 'euro' - the European date parser 'us' - the US date parser 'altus' - the alternative US date parser (with '-' instead of '/') 'iso' - the ISO date parser 'altiso' - the alternative ISO date parser (without '-') 'lit' - the US literal date parser 'altlit' - the alternative US literal date parser 'eurlit' - the Eurpean literal date parser 'unknown' - no date part was found, defaultdate was used formats may be set to a tuple of style strings specifying which of the above parsers to use and in which order to try them. Default is to try all of them in the above order. defaultdate provides the defaults to use in case no date part is found. Most other parsers default to the current year January 1 if some of these date parts are missing. If 'unknown' is not given in formats and the date cannot be parsed, a ValueError is raised. """ match = None style = '' # Apply parsers in the order given in formats for format in formats: if format == 'euro': # European style date match = _eurodateRE.search(text) if match is not None: day,month,year,epoch = match.groups() if year: if len(year) == 2: # Y2K problem: year = add_century(atoi(year)) else: year = atoi(year) else: if defaultdate is None: defaultdate = now() year = defaultdate.year if epoch and 'B' in epoch: year = -year + 1 month = atoi(month) # Could have mistaken euro format for us style date # which uses month, day order if month > 12 or month == 0: continue day = atoi(day) break elif format == 'us' or format == 'altus': # US style date if format == 'us': match = _usdateRE.search(text) else: match = _altusdateRE.search(text) if match is not None: month,day,year,epoch = match.groups() if year: if len(year) == 2: # Y2K problem: year = add_century(atoi(year)) else: year = atoi(year) else: if defaultdate is None: defaultdate = now() year = defaultdate.year if epoch and 'B' in epoch: year = -year + 1 month = atoi(month) # Could have mistaken us format for euro style date # which uses day, month order if month > 12 or month == 0: continue # Default to 1 if no day is given if day: day = atoi(day) else: day = 1 break elif format == 'iso' or format == 'altiso': # ISO style date if format == 'iso': match = _isodateRE.search(text) else: match = _altisodateRE.search(text) # Avoid mistaking ISO time parts ('Thhmmss') for dates if match is not None: left, right = match.span() if left > 0 and \ text[left - 1:left] == 'T': continue if match is not None: year,month,day = match.groups() if len(year) == 2: # Y2K problem: year = add_century(atoi(year)) else: year = atoi(year) # Default to January 1st if not month: month = 1 else: month = atoi(month) if not day: day = 1 else: day = atoi(day) break elif format == 'lit': # US style literal date match = _litdateRE.search(text) if match is not None: litday,day,litmonth,month,year,epoch = match.groups() break elif format == 'altlit': # Alternative US style literal date match = _altlitdateRE.search(text) if match is not None: litday,litmonth,day,year,epoch = match.groups() month = '<missing>' break elif format == 'eurlit': # European style literal date match = _eurlitdateRE.search(text) if match is not None: litday,day,litmonth,year,epoch = match.groups() month = '<missing>' break elif format == 'unknown': # No date part: use defaultdate if defaultdate is None: defaultdate = now() year = defaultdate.year month = defaultdate.month day = defaultdate.day style = format break # Check success if match is not None: # Remove date from text left, right = match.span() if 0 and _debug: print 'parsed date:',repr(text[left:right]),\ 'giving:',year,month,day text = text[:left] + text[right:] style = format elif not style: # Not recognized: raise an error raise ValueError, 'unknown date format: "%s"' % text # Literal date post-processing if style in ('lit', 'altlit', 'eurlit'): if 0 and _debug: print match.groups() # Default to current year, January 1st if not year: if defaultdate is None: defaultdate = now() year = defaultdate.year else: if len(year) == 2: # Y2K problem: year = add_century(atoi(year)) else: year = atoi(year) if epoch and 'B' in epoch: year = -year + 1 if litmonth: litmonth = lower(litmonth) try: month = litmonthtable[litmonth] except KeyError: raise ValueError,\ 'wrong month name: "%s"' % litmonth elif month: month = atoi(month) else: month = 1 if day: day = atoi(day) else: day = 1 return text,day,month,year,style def _parse_time(text, formats=('iso','unknown'), atoi=string.atoi,atof=string.atof): """ Parses a time part given in text and returns a tuple (text,hour,minute,second,offset,style) with the following meanings: * text gives the original text without the time part * hour,minute,second give the parsed time * offset gives the time zone UTC offset * style gives information about which parser was successful: 'standard' - the standard parser 'iso' - the ISO time format parser 'unknown' - no time part was found formats may be set to a tuple specifying the parsers to use: 'standard' - standard time format with ':' delimiter 'iso' - ISO time format (superset of 'standard') 'unknown' - default to 0:00:00, 0 zone offset If 'unknown' is not given in formats and the time cannot be parsed, a ValueError is raised. """ match = None style = '' # Apply parsers in the order given in formats for format in formats: # Standard format if format == 'standard': match = _timeRE.search(text) if match is not None: hour,minute,second,ampm,zone = match.groups() style = 'standard' break # ISO format if format == 'iso': match = _isotimeRE.search(text) if match is not None: hour,minute,second,zone = match.groups() ampm = None style = 'iso' break # Default handling elif format == 'unknown': hour,minute,second,offset = 0,0,0.0,0 style = 'unknown' break if not style: # If no default handling should be applied, raise an error raise ValueError, 'unknown time format: "%s"' % text # Post-processing if match is not None: if zone: # Convert to UTC offset offset = Timezone.utc_offset(zone) else: offset = 0 hour = atoi(hour) if ampm: if ampm[0] in ('p', 'P'): hour = hour + 12 if minute: minute = atoi(minute) else: minute = 0 if not second: second = 0.0 else: second = atof(second) # Remove time from text left,right = match.span() if 0 and _debug: print 'parsed time:',repr(text[left:right]),\ 'giving:',hour,minute,second,offset text = text[:left] + text[right:] return text,hour,minute,second,offset,style ### def DateTimeFromString(text, formats=_date_formats, defaultdate=None, DateTime=DateTime): """ DateTimeFromString(text, [formats, defaultdate]) Returns a DateTime instance reflecting the date and time given in text. In case a timezone is given, the returned instance will point to the corresponding UTC time value. Otherwise, the value is set as given in the string. formats may be set to a tuple of strings specifying which of the following parsers to use and in which order to try them. Default is to try all of them in the order given below: 'euro' - the European date parser 'us' - the US date parser 'altus' - the alternative US date parser (with '-' instead of '/') 'iso' - the ISO date parser 'altiso' - the alternative ISO date parser (without '-') 'lit' - the US literal date parser 'altlit' - the alternative US literal date parser 'eurlit' - the Eurpean literal date parser 'unknown' - if no date part is found, use defaultdate defaultdate provides the defaults to use in case no date part is found. Most other parsers default to the current year January 1 if some of these date parts are missing. If 'unknown' is not given in formats and the date/time cannot be parsed, a ValueError is raised. """ origtext = text formats = tuple(formats) if formats is _date_formats or \ 'iso' in formats or \ 'altiso' in formats: # First try standard order (parse time, then date) if formats[0] not in ('iso', 'altiso'): text,hour,minute,second,offset,timestyle = _parse_time( origtext, ('standard', 'iso', 'unknown')) text,day,month,year,datestyle = _parse_date( text, formats + ('unknown',), defaultdate) if 0 and _debug: print 'tried time/date on %s, date=%s, time=%s' % (origtext, datestyle, timestyle) else: timestyle = 'iso' # If this fails, try the ISO order if timestyle in ('iso', 'unknown'): text,day,month,year,datestyle = _parse_date( origtext, formats, defaultdate) text,hour,minute,second,offset,timestyle = _parse_time( text, ('iso', 'unknown')) if 0 and _debug: print 'tried ISO on %s, date=%s, time=%s' % (origtext, datestyle, timestyle) else: # Standard order: time part, then date part text,hour,minute,second,offset,timestyle = _parse_time( origtext, ('standard', 'unknown')) text,day,month,year,datestyle = _parse_date( text, formats, defaultdate) if (datestyle == 'unknown' or \ timestyle == 'unknown') and \ 'unknown' not in formats: raise ValueError,\ 'Failed to parse "%s": found "%s" date, "%s" time' % \ (origtext, datestyle, timestyle) try: return DateTime.DateTime(year,month,day,hour,minute,second) - offset except DateTime.RangeError, why: raise DateTime.RangeError,\ 'Failed to parse "%s": %s' % (origtext, why) def DateFromString(text, formats=_date_formats, defaultdate=None, DateTime=DateTime): """ DateFromString(text, [formats, defaultdate]) Returns a DateTime instance reflecting the date given in text. A possibly included time part is ignored. formats and defaultdate work just like for DateTimeFromString(). """ _text,day,month,year,datestyle = _parse_date(text, formats, defaultdate) if datestyle == 'unknown' and \ 'unknown' not in formats: raise ValueError,\ 'Failed to parse "%s": found "%s" date' % \ (origtext, datestyle) try: return DateTime.DateTime(year,month,day) except DateTime.RangeError, why: raise DateTime.RangeError,\ 'Failed to parse "%s": %s' % (text, why) def validateDateTimeString(text, formats=_date_formats): """ validateDateTimeString(text, [formats, defaultdate]) Validates the given text and returns 1/0 depending on whether text includes parseable date and time values or not. formats works just like for DateTimeFromString() and defines the order of date/time parsers to apply. It defaults to the same list of parsers as for DateTimeFromString(). XXX Undocumented ! """ formats = list(formats) if 'unknown' in formats: formats.remove('unknown') try: DateTimeFromString(text, formats) except (DateTime.RangeError, ValueError), why: return 0 return 1 def validateDateString(text, formats=_date_formats): """ validateDateString(text, [formats, defaultdate]) Validates the given text and returns 1/0 depending on whether text includes a parseable date value or not. formats works just like for DateTimeFromString() and defines the order of date/time parsers to apply. It defaults to the same list of parsers as for DateTimeFromString(). XXX Undocumented ! """ formats = list(formats) if 'unknown' in formats: formats.remove('unknown') try: DateFromString(text, formats) except (DateTime.RangeError, ValueError), why: return 0 return 1 # # XXX Missing: validateTimeString(), validateDateTimeDeltaString() # and validateTimeDeltaString() # def DateTimeDeltaFromString(text, float=float,DateTime=DateTime): """ DateTimeDeltaFromString(text) Returns a DateTimeDelta instance reflecting the delta given in text. Defaults to 0:00:00:00.00 for parts that are not included in the textual representation or cannot be parsed. """ match = _isodelta1RE.search(text) if match is not None: sign, days, hours, minutes, seconds = match.groups() else: match = _isodelta2RE.search(text) if match is not None: sign, hours, minutes, seconds = match.groups() days = None else: match = _isodelta3RE.search(text) if match is not None: sign, hours, minutes = match.groups() days = None seconds = None else: match = _litdeltaRE.search(text) if match is not None: sign,days,hours,minutes,seconds = match.groups() else: # Not matched: return DateTime.DateTimeDelta(0.0) # Conversions if days: days = float(days) else: days = 0.0 if hours: hours = float(hours) else: hours = 0.0 if minutes: minutes = float(minutes) else: minutes = 0.0 if seconds: seconds = float(seconds) else: seconds = 0.0 if sign != '-': sign = 1 else: sign = -1 try: dtd = DateTime.DateTimeDelta(days,hours,minutes,seconds) except DateTime.RangeError, why: raise DateTime.RangeError,\ 'Failed to parse "%s": %s' % (text, why) else: if sign < 0: return -dtd else: return dtd # Aliases TimeFromString = DateTimeDeltaFromString TimeDeltaFromString = DateTimeDeltaFromString ### def _parse_reldate(text, atoi=string.atoi,atof=string.atof): match = _relisodateRE.search(text) if match is not None: groups = match.groups() if 0 and _debug: print groups year,years,month,months,day,days = groups if year: year = atoi(year) if years: years = atof(years) else: years = 0 if month: month = atoi(month) if months: months = atof(months) else: months = 0 if day: day = atoi(day) if days: days = atof(days) else: days = 0 return year,years,month,months,day,days else: return None,0,None,0,None,0 def _parse_reltime(text, atoi=string.atoi,atof=string.atof): match = _relisotimeRE.search(text) if match is not None: groups = match.groups() if 0 and _debug: print groups hour,hours,minute,minutes,second,seconds = groups if hour: hour = atoi(hour) if hours: hours = atof(hours) else: hours = 0 if minute: minute = atoi(minute) if minutes: minutes = atof(minutes) else: minutes = 0 if second: second = atoi(second) if seconds: seconds = atof(seconds) else: seconds = 0 return hour,hours,minute,minutes,second,seconds else: return None,0,None,0,None,0 def RelativeDateTimeFromString(text, RelativeDateTime=DateTime.RelativeDateTime): """ RelativeDateTimeFromString(text) Returns a RelativeDateTime instance reflecting the relative date and time given in text. Defaults to wildcards for parts or values which are not included in the textual representation or cannot be parsed. The format used in text must adhere to the following syntax: [YYYY-MM-DD] [HH:MM[:SS]] with the usual meanings. Values which should not be altered may be replaced with '*', '%', '?' or any combination of letters, e.g. 'YYYY'. Relative settings must be enclosed in parenthesis if given and should include a sign, e.g. '(+0001)' for the year part. All other settings are interpreted as absolute values. Date and time parts are both optional as a whole. Seconds in the time part are optional too. Everything else (including the hyphens and colons) is mandatory. """ year,years,month,months,day,days = _parse_reldate(text) hour,hours,minute,minutes,second,seconds = _parse_reltime(text) return RelativeDateTime(year=year,years=years, month=month,months=months, day=day,days=days, hour=hour,hours=hours, minute=minute,minutes=minutes, second=second,seconds=seconds) def RelativeDateFromString(text, RelativeDateTime=DateTime.RelativeDateTime): """ RelativeDateFromString(text) Same as RelativeDateTimeFromString(text) except that only the date part of text is taken into account. """ year,years,month,months,day,days = _parse_reldate(text) return RelativeDateTime(year=year,years=years, month=month,months=months, day=day,days=days) def RelativeTimeFromString(text, RelativeDateTime=DateTime.RelativeDateTime): """ RelativeTimeFromString(text) Same as RelativeDateTimeFromString(text) except that only the time part of text is taken into account. """ hour,hours,minute,minutes,second,seconds = _parse_reltime(text) return RelativeDateTime(hour=hour,hours=hours, minute=minute,minutes=minutes, second=second,seconds=seconds) ### Tests def _test(): import sys t = DateTime.now() print 'Testing DateTime Parser...' l = [ # Literal formats ('Sun Nov 6 08:49:37 1994', '1994-11-06 08:49:37.00'), ('sun nov 6 08:49:37 1994', '1994-11-06 08:49:37.00'), ('sUN NOV 6 08:49:37 1994', '1994-11-06 08:49:37.00'), ('Sunday, 06-Nov-94 08:49:37 GMT', '1994-11-06 08:49:37.00'), ('Sun, 06 Nov 1994 08:49:37 GMT', '1994-11-06 08:49:37.00'), ('06-Nov-94 08:49:37', '1994-11-06 08:49:37.00'), ('06-Nov-94', '1994-11-06 00:00:00.00'), ('06-NOV-94', '1994-11-06 00:00:00.00'), ('November 19 08:49:37', '%s-11-19 08:49:37.00' % t.year), ('Nov. 9', '%s-11-09 00:00:00.00' % t.year), ('Sonntag, der 6. November 1994, 08:49:37 GMT', '1994-11-06 08:49:37.00'), ('6. November 2001, 08:49:37', '2001-11-06 08:49:37.00'), ('sep 6', '%s-09-06 00:00:00.00' % t.year), ('September 29', '%s-09-29 00:00:00.00' % t.year), ('Sep. 29', '%s-09-29 00:00:00.00' % t.year), ('6 sep', '%s-09-06 00:00:00.00' % t.year), ('29 September', '%s-09-29 00:00:00.00' % t.year), ('29 Sep.', '%s-09-29 00:00:00.00' % t.year), ('sep 6 2001', '2001-09-06 00:00:00.00'), ('Sep 6, 2001', '2001-09-06 00:00:00.00'), ('September 6, 2001', '2001-09-06 00:00:00.00'), ('sep 6 01', '2001-09-06 00:00:00.00'), ('Sep 6, 01', '2001-09-06 00:00:00.00'), ('September 6, 01', '2001-09-06 00:00:00.00'), # ISO formats ('1994-11-06 08:49:37', '1994-11-06 08:49:37.00'), ('010203', '2001-02-03 00:00:00.00'), ('2001-02-03 00:00:00.00', '2001-02-03 00:00:00.00'), ('2001-02 00:00:00.00', '2001-02-01 00:00:00.00'), ('2001-02-03', '2001-02-03 00:00:00.00'), ('2001-02', '2001-02-01 00:00:00.00'), ('20000824/2300', '2000-08-24 23:00:00.00'), ('20000824/0102', '2000-08-24 01:02:00.00'), ('20000824', '2000-08-24 00:00:00.00'), ('20000824/020301', '2000-08-24 02:03:01.00'), ('20000824 020301', '2000-08-24 02:03:01.00'), ('-20000824 020301', '-2000-08-24 02:03:01.00'), ('20000824T020301', '2000-08-24 02:03:01.00'), ('20000824 020301', '2000-08-24 02:03:01.00'), ('2000-08-24 02:03:01.00', '2000-08-24 02:03:01.00'), ('T020311', '%s 02:03:11.00' % t.date), # US formats ('06/11/94 08:49:37', '1994-06-11 08:49:37.00'), ('11/06/94 08:49:37', '1994-11-06 08:49:37.00'), ('9/23/2001', '2001-09-23 00:00:00.00'), ('9-23-2001', '2001-09-23 00:00:00.00'), ('9/6', '%s-09-06 00:00:00.00' % t.year), ('09/6', '%s-09-06 00:00:00.00' % t.year), ('9/06', '%s-09-06 00:00:00.00' % t.year), ('09/06', '%s-09-06 00:00:00.00' % t.year), ('9/6/2001', '2001-09-06 00:00:00.00'), ('09/6/2001', '2001-09-06 00:00:00.00'), ('9/06/2001', '2001-09-06 00:00:00.00'), ('09/06/2001', '2001-09-06 00:00:00.00'), ('9-6-2001', '2001-09-06 00:00:00.00'), ('09-6-2001', '2001-09-06 00:00:00.00'), ('9-06-2001', '2001-09-06 00:00:00.00'), ('09-06-2001', '2001-09-06 00:00:00.00'), # European formats ('6.11.2001, 08:49:37', '2001-11-06 08:49:37.00'), ('06.11.2001, 08:49:37', '2001-11-06 08:49:37.00'), ('06.11. 08:49:37', '%s-11-06 08:49:37.00' % t.year), # Time only formats ('01:03', '%s 01:03:00.00' % t.date), ('01:03:11', '%s 01:03:11.00' % t.date), ('01:03:11.50', '%s 01:03:11.50' % t.date), ('01:03:11.50 AM', '%s 01:03:11.50' % t.date), ('01:03:11.50 PM', '%s 13:03:11.50' % t.date), ('01:03:11.50 a.m.', '%s 01:03:11.50' % t.date), ('01:03:11.50 p.m.', '%s 13:03:11.50' % t.date), # Invalid formats ('6..2001, 08:49:37', '%s 08:49:37.00' % t.date), ('9//2001', 'ignore'), ('06--94 08:49:37', 'ignore'), ('20000824020301', 'ignore'), ('20-03 00:00:00.00', 'ignore'), ('9/2001', 'ignore'), ('9-6', 'ignore' ), ('09-6', 'ignore'), ('9-06', 'ignore'), ('09-06', 'ignore'), ('20000824/23', 'ignore'), ('November 1994 08:49:37', 'ignore'), ('Nov. 94', 'ignore'), ] for text, reference in l: try: value = DateTimeFromString(text) except: if reference is None: continue else: value = str(sys.exc_info()[1]) valid_datetime = validateDateTimeString(text) valid_date = validateDateString(text) if str(value) != reference and \ not reference == 'ignore': print 'Failed to parse "%s"' % text print ' expected: %s' % (reference or '<exception>') print ' parsed: %s' % value elif _debug: print 'Parsed "%s" successfully' % text if _debug: if not valid_datetime: print ' "%s" failed date/time validation' % text if not valid_date: print ' "%s" failed date validation' % text et = DateTime.now() print 'done. (after %f seconds)' % ((et-t).seconds) print 'Testing DateTimeDelta Parser...' t = DateTime.now() l = [ # Literal formats ('Sun Nov 6 08:49:37 1994', '08:49:37.00'), ('1 day, 8 hours, 49 minutes, 37 seconds', '1:08:49:37.00'), ('10 days, 8 hours, 49 minutes, 37 seconds', '10:08:49:37.00'), ('8 hours, 49 minutes, 37 seconds', '08:49:37.00'), ('49 minutes, 37 seconds', '00:49:37.00'), ('37 seconds', '00:00:37.00'), ('37.5 seconds', '00:00:37.50'), ('8 hours later', '08:00:00.00'), ('', '00:00:00.00'), # ISO formats ('1994-11-06 08:49:37', '08:49:37.00'), ('10:08:49:37', '10:08:49:37.00'), ('08:49:37', '08:49:37.00'), ('08:49', '08:49:00.00'), ('-10:08:49:37', '-10:08:49:37.00'), ('-08:49:37', '-08:49:37.00'), ('-08:49', '-08:49:00.00'), ('- 10:08:49:37', '-10:08:49:37.00'), ('- 08:49:37', '-08:49:37.00'), ('- 08:49', '-08:49:00.00'), ('10:08:49:37.5', '10:08:49:37.50'), ('08:49:37.5', '08:49:37.50'), ('10:8:49:37', '10:08:49:37.00'), ('8:9:37', '08:09:37.00'), ('8:9', '08:09:00.00'), ('8', '00:00:00.00'), # Invalid formats #('', None), #('8', None), ] for text, reference in l: try: value = DateTimeDeltaFromString(text) except: if reference is None: continue else: value = str(sys.exc_info()[1]) if str(value) != reference and \ not reference == 'ignore': print 'Failed to parse "%s"' % text print ' expected: %s' % (reference or '<exception>') print ' parsed: %s' % value elif _debug: print 'Parsed "%s" successfully' % text et = DateTime.now() print 'done. (after %f seconds)' % ((et-t).seconds) if __name__ == '__main__': _test()