is there a way to say that '13Min' is > '59S' and <'2H' using the frequency notation in pandas?
2 Answers
In [4]: from pandas.tseries.frequencies import to_offset
In [5]: to_offset('59s') < to_offset('1T')
Out[5]: True
In [6]: to_offset('13T') > to_offset('59s')
Out[6]: True
In [7]: to_offset('13T') < to_offset('59s')
Out[7]: False
In [8]: to_offset('13T') > to_offset('2H')
Out[8]: False
In [10]: to_offset('13T') < to_offset('2H')
Out[10]: True
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5This works until you start comparing e.g. month offsets: to_offset('M') > to_offset('W') throws TypeError: unorderable types: MonthEnd() > Week() Is there a way to compare these as well?– rixmitCommented Aug 3, 2017 at 12:49
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Comparing offsets alone can lead to undetermined results: example comparing 2M and 60D depends really on which month you pick. I would say that up to weeks things go pretty smooth, after that you need a start date to compare, relative to your exact case see answer by @igor-pozdeev above– natbusaCommented Nov 23, 2021 at 5:47
Another way is to add both frequencies to one common date and compare the resulting instances of Timestamp
. This also addresses @rixmit's comment.
In [2]: import pandas as pd
In [3]: from pandas.tseries.frequencies import to_offset
In [4]: common_dt = pd.to_datetime("2000-01-01")
In [5]: f_a = common_dt + to_offset('59s')
In [6]: f_b = common_dt + to_offset('1T')
In [7]: f_a > f_b
Out[8]: False
In [9]: f_a = common_dt + to_offset('M')
In [9]: f_b = common_dt + to_offset('W')
In [10]: f_a > f_b
Out[10]: True
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This solution seems not to be working wtih 'W' and 'D'. common_dt = pd.to_datetime("2000-01-01") f_a = common_dt + to_offset('D') f_b = common_dt + to_offset('W') f_a == f_b Commented Jul 31, 2022 at 15:46