The TimeSeriesMetaData Class

This is an early run-through of the basic functionality of the SunPy TimeSeriesMetaData class. This is intended primarily to demonstrate the current interface for discussion of the final implementation. Much of the code will be changes as the class is developed.

from __future__ import print_function, division

import astropy.units as u

import sunpy.timeseries
from import Fido, attrs as a
from sunpy.time import TimeRange, parse_time

Search for Data

goes_res ="2010-11-02", "2010-11-07"), a.Instrument('XRS'))

norh_res ="2010-11-02", "2010-11-07"), a.Instrument('norh'),
                       a.Wavelength(17 * u.GHz))

Download Data

goes_files = Fido.fetch(goes_res)
norh_files = Fido.fetch(norh_res)

Make Timeseries

goes_ts = sunpy.timeseries.TimeSeries(goes_files, source='XRS', concatenate=True)
norh_ts = sunpy.timeseries.TimeSeries(norh_files, source='NoRH', concatenate=True)

# Combining
large_ts = goes_ts.concatenate(norh_ts)

# ToDo: Fix: plot doesn't work, it's of type goes TS and so it doesn't plot
# non-goes data. Should concanate default to GenericTimeSeries???

The metadata can be easily viewed:


You can reduce the depth of the view:a


The TimeSeriesMetaData class stores all the individual file metadata MetaDict objects as 3-tuple entries in it’s internal list with the TimeRange, list of column names and metadictionary. This list is stores in order of ascending TR.start. Access of the the list is done using the metadata property:


The TimeSeriesMetaData class has a number of other properties, including the timerange property that returns a TimeRange for the entire metadata:

# Further properties can be used to get lists of details, such as:
# lists of the values:
large_ts.meta.timeranges  # List of the time ranges
large_ts.meta.columns  # List of the column names
large_ts.meta.metas  # List of the meta dictionaries

When you truncate the TimeSeries, the metadata is truncated too:

large_trunc_ts = large_ts.truncate(TimeRange('2010-11-03 13:59:57.468999',
                                             '2010-11-05 13:59:56.091999'))

Finding metadata can be achieved using the find method and applying filters for time and/or colname. This returns another TimeSeriesMetaData object:

large_trunc_ts.meta.find(time=parse_time('2010-11-04 09:01:16'))
large_trunc_ts.meta.find(time='2010-11-04 09:01:16', colname='xrsb')

# You can get the time of a row a from the TimeSeries object's index:

# Note: with no filters you get a duplicate of the original TimeSeriesMetaData
# object.

There is also a get method:


# Again, filters can be used:
large_trunc_ts.meta.get('telescop', time='2010-11-04 09:01:16', colname='xrsb')

# And if we just want the values, the values method returns just a list:

You can update values similar to dictionaries, though all of the contained MetaDict objects will be updated that match your filter criteria:

large_trunc_ts.meta.update({'new_key_1': 'added to all.'})
large_trunc_ts.meta.update({'new_key_2': 'added to some.'}, colname='xrsa')

# but you can't overwrite previous entries without setting the overwrite kwarg,
# this is to protect the integrity of the metadata:

large_trunc_ts.meta.update({'new_key_1': 'changed'}, overwrite=True)

Total running time of the script: ( 0 minutes 0.000 seconds)

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