TimeISO

class astropy.time.TimeISO(val1, val2, scale, precision, in_subfmt, out_subfmt, from_jd=False)[source]

Bases: TimeString

ISO 8601 compliant date-time format “YYYY-MM-DD HH:MM:SS.sss…”. For example, 2000-01-01 00:00:00.000 is midnight on January 1, 2000.

The allowed subformats are:

  • ‘date_hms’: date + hours, mins, secs (and optional fractional secs)

  • ‘date_hm’: date + hours, mins

  • ‘date’: date

Attributes Summary

cache

Return the cache associated with this instance.

fast_parser_pars

in_subfmt

jd1

jd2

jd2_filled

mask

masked

name

out_subfmt

precision

scale

Time scale

subfmts

value

Methods Summary

format_string(str_fmt, **kwargs)

Write time to a string using a given format.

get_jds_fast(val1, val2)

Use fast C parser to parse time strings in val1 and get jd1, jd2

get_jds_python(val1, val2)

Parse the time strings contained in val1 and get jd1, jd2

mask_if_needed(value)

parse_string(timestr, subfmts)

Read time from a single string, using a set of possible formats.

set_jds(val1, val2)

Parse the time strings contained in val1 and set jd1, jd2

str_kwargs()

Generator that yields a dict of values corresponding to the calendar date and time for the internal JD values.

to_value([parent, out_subfmt])

Return time representation from internal jd1 and jd2 in specified out_subfmt.

Attributes Documentation

cache

Return the cache associated with this instance.

fast_parser_pars = {'break_allowed': (0, 0, 0, 1, 0, 1, 1), 'delims': (0, 45, 45, 32, 58, 58, 46), 'has_day_of_year': 0, 'starts': (0, 4, 7, 10, 13, 16, 19), 'stops': (3, 6, 9, 12, 15, 18, -1)}
in_subfmt
jd1
jd2
jd2_filled
mask
masked
name = 'iso'
out_subfmt
precision
scale

Time scale

subfmts = (('date_hms', re.compile('(?P<year>\\d\\d\\d\\d)-(?P<mon>\\d{1,2})-(?P<mday>\\d{1,2}) (?P<hour>\\d{1,2}):(?P<min>\\d{1,2}):(?P<sec>\\d{1,2})$'), '{year:d}-{mon:02d}-{day:02d} {hour:02d}:{min:02d}:{sec:02d}'), ('date_hm', re.compile('(?P<year>\\d\\d\\d\\d)-(?P<mon>\\d{1,2})-(?P<mday>\\d{1,2}) (?P<hour>\\d{1,2}):(?P<min>\\d{1,2})$'), '{year:d}-{mon:02d}-{day:02d} {hour:02d}:{min:02d}'), ('date', re.compile('(?P<year>\\d\\d\\d\\d)-(?P<mon>\\d{1,2})-(?P<mday>\\d{1,2})$'), '{year:d}-{mon:02d}-{day:02d}'))
value

Methods Documentation

format_string(str_fmt, **kwargs)

Write time to a string using a given format.

By default, just interprets str_fmt as a format string, but subclasses can add to this.

get_jds_fast(val1, val2)

Use fast C parser to parse time strings in val1 and get jd1, jd2

get_jds_python(val1, val2)

Parse the time strings contained in val1 and get jd1, jd2

mask_if_needed(value)
parse_string(timestr, subfmts)[source]

Read time from a single string, using a set of possible formats.

set_jds(val1, val2)

Parse the time strings contained in val1 and set jd1, jd2

str_kwargs()

Generator that yields a dict of values corresponding to the calendar date and time for the internal JD values.

to_value(parent=None, out_subfmt=None)

Return time representation from internal jd1 and jd2 in specified out_subfmt.

This is the base method that ignores parent and uses the value property to compute the output. This is done by temporarily setting self.out_subfmt and calling self.value. This is required for legacy Format subclasses prior to astropy 4.0 New code should instead implement the value functionality in to_value() and then make the value property be a simple call to self.to_value().

Parameters:
parentobject

Parent Time object associated with this TimeFormat object

out_subfmtpython:str or python:None

Output subformt (use existing self.out_subfmt if None)

Returns:
valuenumpy.array, numpy.ma.array

Array or masked array of formatted time representation values