Metadata-Version: 2.1 Name: aniso8601 Version: 9.0.1 Summary: A library for parsing ISO 8601 strings. Home-page: https://bitbucket.org/nielsenb/aniso8601 Author: Brandon Nielsen Author-email: nielsenb@jetfuse.net License: UNKNOWN Project-URL: Documentation, https://aniso8601.readthedocs.io/ Project-URL: Source, https://bitbucket.org/nielsenb/aniso8601 Project-URL: Tracker, https://bitbucket.org/nielsenb/aniso8601/issues Keywords: iso8601 parser Platform: UNKNOWN Classifier: Development Status :: 5 - Production/Stable Classifier: Intended Audience :: Developers Classifier: License :: OSI Approved :: BSD License Classifier: Operating System :: OS Independent Classifier: Programming Language :: Python Classifier: Programming Language :: Python :: 2 Classifier: Programming Language :: Python :: 2.7 Classifier: Programming Language :: Python :: 3 Classifier: Programming Language :: Python :: 3.4 Classifier: Programming Language :: Python :: 3.5 Classifier: Programming Language :: Python :: 3.6 Classifier: Programming Language :: Python :: 3.7 Classifier: Programming Language :: Python :: 3.8 Classifier: Programming Language :: Python :: 3.9 Classifier: Topic :: Software Development :: Libraries :: Python Modules Description-Content-Type: text/x-rst Provides-Extra: dev Requires-Dist: black ; extra == 'dev' Requires-Dist: coverage ; extra == 'dev' Requires-Dist: isort ; extra == 'dev' Requires-Dist: pre-commit ; extra == 'dev' Requires-Dist: pyenchant ; extra == 'dev' Requires-Dist: pylint ; extra == 'dev' aniso8601 ========= Another ISO 8601 parser for Python ---------------------------------- Features ======== * Pure Python implementation * Logical behavior - Parse a time, get a `datetime.time `_ - Parse a date, get a `datetime.date `_ - Parse a datetime, get a `datetime.datetime `_ - Parse a duration, get a `datetime.timedelta `_ - Parse an interval, get a tuple of dates or datetimes - Parse a repeating interval, get a date or datetime `generator `_ * UTC offset represented as fixed-offset tzinfo * Parser separate from representation, allowing parsing to different datetime representations (see `Builders`_) * No regular expressions Installation ============ The recommended installation method is to use pip:: $ pip install aniso8601 Alternatively, you can download the source (git repository hosted at `Bitbucket `_) and install directly:: $ python setup.py install Use === Parsing datetimes ----------------- *Consider* `datetime.datetime.fromisoformat `_ *for basic ISO 8601 datetime parsing* To parse a typical ISO 8601 datetime string:: >>> import aniso8601 >>> aniso8601.parse_datetime('1977-06-10T12:00:00Z') datetime.datetime(1977, 6, 10, 12, 0, tzinfo=+0:00:00 UTC) Alternative delimiters can be specified, for example, a space:: >>> aniso8601.parse_datetime('1977-06-10 12:00:00Z', delimiter=' ') datetime.datetime(1977, 6, 10, 12, 0, tzinfo=+0:00:00 UTC) UTC offsets are supported:: >>> aniso8601.parse_datetime('1979-06-05T08:00:00-08:00') datetime.datetime(1979, 6, 5, 8, 0, tzinfo=-8:00:00 UTC) If a UTC offset is not specified, the returned datetime will be naive:: >>> aniso8601.parse_datetime('1983-01-22T08:00:00') datetime.datetime(1983, 1, 22, 8, 0) Leap seconds are currently not supported and attempting to parse one raises a :code:`LeapSecondError`:: >>> aniso8601.parse_datetime('2018-03-06T23:59:60') Traceback (most recent call last): File "", line 1, in File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/time.py", line 196, in parse_datetime return builder.build_datetime(datepart, timepart) File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/python.py", line 237, in build_datetime cls._build_object(time)) File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/__init__.py", line 336, in _build_object return cls.build_time(hh=parsetuple.hh, mm=parsetuple.mm, File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/python.py", line 191, in build_time hh, mm, ss, tz = cls.range_check_time(hh, mm, ss, tz) File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/__init__.py", line 266, in range_check_time raise LeapSecondError('Leap seconds are not supported.') aniso8601.exceptions.LeapSecondError: Leap seconds are not supported. To get the resolution of an ISO 8601 datetime string:: >>> aniso8601.get_datetime_resolution('1977-06-10T12:00:00Z') == aniso8601.resolution.TimeResolution.Seconds True >>> aniso8601.get_datetime_resolution('1977-06-10T12:00') == aniso8601.resolution.TimeResolution.Minutes True >>> aniso8601.get_datetime_resolution('1977-06-10T12') == aniso8601.resolution.TimeResolution.Hours True Note that datetime resolutions map to :code:`TimeResolution` as a valid datetime must have at least one time member so the resolution mapping is equivalent. Parsing dates ------------- *Consider* `datetime.date.fromisoformat `_ *for basic ISO 8601 date parsing* To parse a date represented in an ISO 8601 string:: >>> import aniso8601 >>> aniso8601.parse_date('1984-04-23') datetime.date(1984, 4, 23) Basic format is supported as well:: >>> aniso8601.parse_date('19840423') datetime.date(1984, 4, 23) To parse a date using the ISO 8601 week date format:: >>> aniso8601.parse_date('1986-W38-1') datetime.date(1986, 9, 15) To parse an ISO 8601 ordinal date:: >>> aniso8601.parse_date('1988-132') datetime.date(1988, 5, 11) To get the resolution of an ISO 8601 date string:: >>> aniso8601.get_date_resolution('1981-04-05') == aniso8601.resolution.DateResolution.Day True >>> aniso8601.get_date_resolution('1981-04') == aniso8601.resolution.DateResolution.Month True >>> aniso8601.get_date_resolution('1981') == aniso8601.resolution.DateResolution.Year True Parsing times ------------- *Consider* `datetime.time.fromisoformat `_ *for basic ISO 8601 time parsing* To parse a time formatted as an ISO 8601 string:: >>> import aniso8601 >>> aniso8601.parse_time('11:31:14') datetime.time(11, 31, 14) As with all of the above, basic format is supported:: >>> aniso8601.parse_time('113114') datetime.time(11, 31, 14) A UTC offset can be specified for times:: >>> aniso8601.parse_time('17:18:19-02:30') datetime.time(17, 18, 19, tzinfo=-2:30:00 UTC) >>> aniso8601.parse_time('171819Z') datetime.time(17, 18, 19, tzinfo=+0:00:00 UTC) Reduced accuracy is supported:: >>> aniso8601.parse_time('21:42') datetime.time(21, 42) >>> aniso8601.parse_time('22') datetime.time(22, 0) A decimal fraction is always allowed on the lowest order element of an ISO 8601 formatted time:: >>> aniso8601.parse_time('22:33.5') datetime.time(22, 33, 30) >>> aniso8601.parse_time('23.75') datetime.time(23, 45) The decimal fraction can be specified with a comma instead of a full-stop:: >>> aniso8601.parse_time('22:33,5') datetime.time(22, 33, 30) >>> aniso8601.parse_time('23,75') datetime.time(23, 45) Leap seconds are currently not supported and attempting to parse one raises a :code:`LeapSecondError`:: >>> aniso8601.parse_time('23:59:60') Traceback (most recent call last): File "", line 1, in File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/time.py", line 174, in parse_time return builder.build_time(hh=hourstr, mm=minutestr, ss=secondstr, tz=tz) File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/python.py", line 191, in build_time hh, mm, ss, tz = cls.range_check_time(hh, mm, ss, tz) File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/__init__.py", line 266, in range_check_time raise LeapSecondError('Leap seconds are not supported.') aniso8601.exceptions.LeapSecondError: Leap seconds are not supported. To get the resolution of an ISO 8601 time string:: >>> aniso8601.get_time_resolution('11:31:14') == aniso8601.resolution.TimeResolution.Seconds True >>> aniso8601.get_time_resolution('11:31') == aniso8601.resolution.TimeResolution.Minutes True >>> aniso8601.get_time_resolution('11') == aniso8601.resolution.TimeResolution.Hours True Parsing durations ----------------- To parse a duration formatted as an ISO 8601 string:: >>> import aniso8601 >>> aniso8601.parse_duration('P1Y2M3DT4H54M6S') datetime.timedelta(428, 17646) Reduced accuracy is supported:: >>> aniso8601.parse_duration('P1Y') datetime.timedelta(365) A decimal fraction is allowed on the lowest order element:: >>> aniso8601.parse_duration('P1YT3.5M') datetime.timedelta(365, 210) The decimal fraction can be specified with a comma instead of a full-stop:: >>> aniso8601.parse_duration('P1YT3,5M') datetime.timedelta(365, 210) Parsing a duration from a combined date and time is supported as well:: >>> aniso8601.parse_duration('P0001-01-02T01:30:05') datetime.timedelta(397, 5405) To get the resolution of an ISO 8601 duration string:: >>> aniso8601.get_duration_resolution('P1Y2M3DT4H54M6S') == aniso8601.resolution.DurationResolution.Seconds True >>> aniso8601.get_duration_resolution('P1Y2M3DT4H54M') == aniso8601.resolution.DurationResolution.Minutes True >>> aniso8601.get_duration_resolution('P1Y2M3DT4H') == aniso8601.resolution.DurationResolution.Hours True >>> aniso8601.get_duration_resolution('P1Y2M3D') == aniso8601.resolution.DurationResolution.Days True >>> aniso8601.get_duration_resolution('P1Y2M') == aniso8601.resolution.DurationResolution.Months True >>> aniso8601.get_duration_resolution('P1Y') == aniso8601.resolution.DurationResolution.Years True The default :code:`PythonTimeBuilder` assumes years are 365 days, and months are 30 days. Where calendar level accuracy is required, a `RelativeTimeBuilder `_ can be used, see also `Builders`_. Parsing intervals ----------------- To parse an interval specified by a start and end:: >>> import aniso8601 >>> aniso8601.parse_interval('2007-03-01T13:00:00/2008-05-11T15:30:00') (datetime.datetime(2007, 3, 1, 13, 0), datetime.datetime(2008, 5, 11, 15, 30)) Intervals specified by a start time and a duration are supported:: >>> aniso8601.parse_interval('2007-03-01T13:00:00Z/P1Y2M10DT2H30M') (datetime.datetime(2007, 3, 1, 13, 0, tzinfo=+0:00:00 UTC), datetime.datetime(2008, 5, 9, 15, 30, tzinfo=+0:00:00 UTC)) A duration can also be specified by a duration and end time:: >>> aniso8601.parse_interval('P1M/1981-04-05') (datetime.date(1981, 4, 5), datetime.date(1981, 3, 6)) Notice that the result of the above parse is not in order from earliest to latest. If sorted intervals are required, simply use the :code:`sorted` keyword as shown below:: >>> sorted(aniso8601.parse_interval('P1M/1981-04-05')) [datetime.date(1981, 3, 6), datetime.date(1981, 4, 5)] The end of an interval is returned as a datetime when required to maintain the resolution specified by a duration, even if the duration start is given as a date:: >>> aniso8601.parse_interval('2014-11-12/PT4H54M6.5S') (datetime.date(2014, 11, 12), datetime.datetime(2014, 11, 12, 4, 54, 6, 500000)) >>> aniso8601.parse_interval('2007-03-01/P1.5D') (datetime.date(2007, 3, 1), datetime.datetime(2007, 3, 2, 12, 0)) Concise representations are supported:: >>> aniso8601.parse_interval('2020-01-01/02') (datetime.date(2020, 1, 1), datetime.date(2020, 1, 2)) >>> aniso8601.parse_interval('2007-12-14T13:30/15:30') (datetime.datetime(2007, 12, 14, 13, 30), datetime.datetime(2007, 12, 14, 15, 30)) >>> aniso8601.parse_interval('2008-02-15/03-14') (datetime.date(2008, 2, 15), datetime.date(2008, 3, 14)) >>> aniso8601.parse_interval('2007-11-13T09:00/15T17:00') (datetime.datetime(2007, 11, 13, 9, 0), datetime.datetime(2007, 11, 15, 17, 0)) Repeating intervals are supported as well, and return a `generator `_:: >>> aniso8601.parse_repeating_interval('R3/1981-04-05/P1D') >>> list(aniso8601.parse_repeating_interval('R3/1981-04-05/P1D')) [datetime.date(1981, 4, 5), datetime.date(1981, 4, 6), datetime.date(1981, 4, 7)] Repeating intervals are allowed to go in the reverse direction:: >>> list(aniso8601.parse_repeating_interval('R2/PT1H2M/1980-03-05T01:01:00')) [datetime.datetime(1980, 3, 5, 1, 1), datetime.datetime(1980, 3, 4, 23, 59)] Unbounded intervals are also allowed (Python 2):: >>> result = aniso8601.parse_repeating_interval('R/PT1H2M/1980-03-05T01:01:00') >>> result.next() datetime.datetime(1980, 3, 5, 1, 1) >>> result.next() datetime.datetime(1980, 3, 4, 23, 59) or for Python 3:: >>> result = aniso8601.parse_repeating_interval('R/PT1H2M/1980-03-05T01:01:00') >>> next(result) datetime.datetime(1980, 3, 5, 1, 1) >>> next(result) datetime.datetime(1980, 3, 4, 23, 59) Note that you should never try to convert a generator produced by an unbounded interval to a list:: >>> list(aniso8601.parse_repeating_interval('R/PT1H2M/1980-03-05T01:01:00')) Traceback (most recent call last): File "", line 1, in File "/home/nielsenb/Jetfuse/aniso8601/aniso8601/aniso8601/builders/python.py", line 560, in _date_generator_unbounded currentdate += timedelta OverflowError: date value out of range To get the resolution of an ISO 8601 interval string:: >>> aniso8601.get_interval_resolution('2007-03-01T13:00:00/2008-05-11T15:30:00') == aniso8601.resolution.IntervalResolution.Seconds True >>> aniso8601.get_interval_resolution('2007-03-01T13:00/2008-05-11T15:30') == aniso8601.resolution.IntervalResolution.Minutes True >>> aniso8601.get_interval_resolution('2007-03-01T13/2008-05-11T15') == aniso8601.resolution.IntervalResolution.Hours True >>> aniso8601.get_interval_resolution('2007-03-01/2008-05-11') == aniso8601.resolution.IntervalResolution.Day True >>> aniso8601.get_interval_resolution('2007-03/P1Y') == aniso8601.resolution.IntervalResolution.Month True >>> aniso8601.get_interval_resolution('2007/P1Y') == aniso8601.resolution.IntervalResolution.Year True And for repeating ISO 8601 interval strings:: >>> aniso8601.get_repeating_interval_resolution('R3/1981-04-05/P1D') == aniso8601.resolution.IntervalResolution.Day True >>> aniso8601.get_repeating_interval_resolution('R/PT1H2M/1980-03-05T01:01:00') == aniso8601.resolution.IntervalResolution.Seconds True Builders ======== Builders can be used to change the output format of a parse operation. All parse functions have a :code:`builder` keyword argument which accepts a builder class. Two builders are included. The :code:`PythonTimeBuilder` (the default) in the :code:`aniso8601.builders.python` module, and the :code:`TupleBuilder` which returns the parse result as a corresponding named tuple and is located in the :code:`aniso8601.builders` module. Information on writing a builder can be found in `BUILDERS `_. The following builders are available as separate projects: * `RelativeTimeBuilder `_ supports parsing to `datetutil relativedelta types `_ for calendar level accuracy * `AttoTimeBuilder `_ supports parsing directly to `attotime attodatetime and attotimedelta types `_ which support sub-nanosecond precision * `NumPyTimeBuilder `_ supports parsing directly to `NumPy datetime64 and timedelta64 types `_ TupleBuilder ------------ The :code:`TupleBuilder` returns parse results as `named tuples `_. It is located in the :code:`aniso8601.builders` module. Datetimes ^^^^^^^^^ Parsing a datetime returns a :code:`DatetimeTuple` containing :code:`Date` and :code:`Time` tuples . The date tuple contains the following parse components: :code:`YYYY`, :code:`MM`, :code:`DD`, :code:`Www`, :code:`D`, :code:`DDD`. The time tuple contains the following parse components :code:`hh`, :code:`mm`, :code:`ss`, :code:`tz`, where :code:`tz` itself is a tuple with the following components :code:`negative`, :code:`Z`, :code:`hh`, :code:`mm`, :code:`name` with :code:`negative` and :code:`Z` being booleans:: >>> import aniso8601 >>> from aniso8601.builders import TupleBuilder >>> aniso8601.parse_datetime('1977-06-10T12:00:00', builder=TupleBuilder) Datetime(date=Date(YYYY='1977', MM='06', DD='10', Www=None, D=None, DDD=None), time=Time(hh='12', mm='00', ss='00', tz=None)) >>> aniso8601.parse_datetime('1979-06-05T08:00:00-08:00', builder=TupleBuilder) Datetime(date=Date(YYYY='1979', MM='06', DD='05', Www=None, D=None, DDD=None), time=Time(hh='08', mm='00', ss='00', tz=Timezone(negative=True, Z=None, hh='08', mm='00', name='-08:00'))) Dates ^^^^^ Parsing a date returns a :code:`DateTuple` containing the following parse components: :code:`YYYY`, :code:`MM`, :code:`DD`, :code:`Www`, :code:`D`, :code:`DDD`:: >>> import aniso8601 >>> from aniso8601.builders import TupleBuilder >>> aniso8601.parse_date('1984-04-23', builder=TupleBuilder) Date(YYYY='1984', MM='04', DD='23', Www=None, D=None, DDD=None) >>> aniso8601.parse_date('1986-W38-1', builder=TupleBuilder) Date(YYYY='1986', MM=None, DD=None, Www='38', D='1', DDD=None) >>> aniso8601.parse_date('1988-132', builder=TupleBuilder) Date(YYYY='1988', MM=None, DD=None, Www=None, D=None, DDD='132') Times ^^^^^ Parsing a time returns a :code:`TimeTuple` containing following parse components: :code:`hh`, :code:`mm`, :code:`ss`, :code:`tz`, where :code:`tz` is a :code:`TimezoneTuple` with the following components :code:`negative`, :code:`Z`, :code:`hh`, :code:`mm`, :code:`name`, with :code:`negative` and :code:`Z` being booleans:: >>> import aniso8601 >>> from aniso8601.builders import TupleBuilder >>> aniso8601.parse_time('11:31:14', builder=TupleBuilder) Time(hh='11', mm='31', ss='14', tz=None) >>> aniso8601.parse_time('171819Z', builder=TupleBuilder) Time(hh='17', mm='18', ss='19', tz=Timezone(negative=False, Z=True, hh=None, mm=None, name='Z')) >>> aniso8601.parse_time('17:18:19-02:30', builder=TupleBuilder) Time(hh='17', mm='18', ss='19', tz=Timezone(negative=True, Z=None, hh='02', mm='30', name='-02:30')) Durations ^^^^^^^^^ Parsing a duration returns a :code:`DurationTuple` containing the following parse components: :code:`PnY`, :code:`PnM`, :code:`PnW`, :code:`PnD`, :code:`TnH`, :code:`TnM`, :code:`TnS`:: >>> import aniso8601 >>> from aniso8601.builders import TupleBuilder >>> aniso8601.parse_duration('P1Y2M3DT4H54M6S', builder=TupleBuilder) Duration(PnY='1', PnM='2', PnW=None, PnD='3', TnH='4', TnM='54', TnS='6') >>> aniso8601.parse_duration('P7W', builder=TupleBuilder) Duration(PnY=None, PnM=None, PnW='7', PnD=None, TnH=None, TnM=None, TnS=None) Intervals ^^^^^^^^^ Parsing an interval returns an :code:`IntervalTuple` containing the following parse components: :code:`start`, :code:`end`, :code:`duration`, :code:`start` and :code:`end` may both be datetime or date tuples, :code:`duration` is a duration tuple:: >>> import aniso8601 >>> from aniso8601.builders import TupleBuilder >>> aniso8601.parse_interval('2007-03-01T13:00:00/2008-05-11T15:30:00', builder=TupleBuilder) Interval(start=Datetime(date=Date(YYYY='2007', MM='03', DD='01', Www=None, D=None, DDD=None), time=Time(hh='13', mm='00', ss='00', tz=None)), end=Datetime(date=Date(YYYY='2008', MM='05', DD='11', Www=None, D=None, DDD=None), time=Time(hh='15', mm='30', ss='00', tz=None)), duration=None) >>> aniso8601.parse_interval('2007-03-01T13:00:00Z/P1Y2M10DT2H30M', builder=TupleBuilder) Interval(start=Datetime(date=Date(YYYY='2007', MM='03', DD='01', Www=None, D=None, DDD=None), time=Time(hh='13', mm='00', ss='00', tz=Timezone(negative=False, Z=True, hh=None, mm=None, name='Z'))), end=None, duration=Duration(PnY='1', PnM='2', PnW=None, PnD='10', TnH='2', TnM='30', TnS=None)) >>> aniso8601.parse_interval('P1M/1981-04-05', builder=TupleBuilder) Interval(start=None, end=Date(YYYY='1981', MM='04', DD='05', Www=None, D=None, DDD=None), duration=Duration(PnY=None, PnM='1', PnW=None, PnD=None, TnH=None, TnM=None, TnS=None)) A repeating interval returns a :code:`RepeatingIntervalTuple` containing the following parse components: :code:`R`, :code:`Rnn`, :code:`interval`, where :code:`R` is a boolean, :code:`True` for an unbounded interval, :code:`False` otherwise.:: >>> aniso8601.parse_repeating_interval('R3/1981-04-05/P1D', builder=TupleBuilder) RepeatingInterval(R=False, Rnn='3', interval=Interval(start=Date(YYYY='1981', MM='04', DD='05', Www=None, D=None, DDD=None), end=None, duration=Duration(PnY=None, PnM=None, PnW=None, PnD='1', TnH=None, TnM=None, TnS=None))) >>> aniso8601.parse_repeating_interval('R/PT1H2M/1980-03-05T01:01:00', builder=TupleBuilder) RepeatingInterval(R=True, Rnn=None, interval=Interval(start=None, end=Datetime(date=Date(YYYY='1980', MM='03', DD='05', Www=None, D=None, DDD=None), time=Time(hh='01', mm='01', ss='00', tz=None)), duration=Duration(PnY=None, PnM=None, PnW=None, PnD=None, TnH='1', TnM='2', TnS=None))) Development =========== Setup ----- It is recommended to develop using a `virtualenv `_. Inside a virtualenv, development dependencies can be installed automatically:: $ pip install -e .[dev] `pre-commit `_ is used for managing pre-commit hooks:: $ pre-commit install To run the pre-commit hooks manually:: $ pre-commit run --all-files Tests ----- Tests can be run using the `unittest testing framework `_:: $ python -m unittest discover aniso8601 Contributing ============ aniso8601 is an open source project hosted on `Bitbucket `_. Any and all bugs are welcome on our `issue tracker `_. Of particular interest are valid ISO 8601 strings that don't parse, or invalid ones that do. At a minimum, bug reports should include an example of the misbehaving string, as well as the expected result. Of course patches containing unit tests (or fixed bugs) are welcome! References ========== * `ISO 8601:2004(E) `_ (Caution, PDF link) * `Wikipedia article on ISO 8601 `_ * `Discussion on alternative ISO 8601 parsers for Python `_