Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a scenario where a user wants to apply several filters to a Pandas DataFrame or Series object. Essentially, I want to efficiently chain a bunch of filtering (comparison operations) together that are specified at run-time by the user.

The filters should be additive (aka each one applied should narrow results).

I'm currently using reindex() but this creates a new object each time and copies the underlying data (if I understand the documentation correctly). So, this could be really inefficient when filtering a big Series or DataFrame.

I'm thinking that using apply(), map(), or something similar might be better. I'm pretty new to Pandas though so still trying to wrap my head around everything.

TL;DR

I want to take a dictionary of the following form and apply each operation to a given Series object and return a 'filtered' Series object.

relops = {'>=': [1], '<=': [1]}

Long Example

I'll start with an example of what I have currently and just filtering a single Series object. Below is the function I'm currently using:

   def apply_relops(series, relops):
        """
        Pass dictionary of relational operators to perform on given series object
        """
        for op, vals in relops.iteritems():
            op_func = ops[op]
            for val in vals:
                filtered = op_func(series, val)
                series = series.reindex(series[filtered])
        return series

The user provides a dictionary with the operations they want to perform:

>>> df = pandas.DataFrame({'col1': [0, 1, 2], 'col2': [10, 11, 12]})
>>> print df
>>> print df
   col1  col2
0     0    10
1     1    11
2     2    12

>>> from operator import le, ge
>>> ops ={'>=': ge, '<=': le}
>>> apply_relops(df['col1'], {'>=': [1]})
col1
1       1
2       2
Name: col1
>>> apply_relops(df['col1'], relops = {'>=': [1], '<=': [1]})
col1
1       1
Name: col1

Again, the 'problem' with my above approach is that I think there is a lot of possibly unnecessary copying of the data for the in-between steps.

Also, I would like to expand this so that the dictionary passed in can include the columns to operator on and filter an entire DataFrame based on the input dictionary. However, I'm assuming whatever works for the Series can be easily expanded to a DataFrame.

share|improve this question
    
Also, I'm fully aware that this approach to the problem might be way off. So maybe rethinking the entire approach would be useful. I just want to allow users to specify a set of filter operations at runtime and execute them. –  durden2.0 Nov 28 '12 at 17:35

1 Answer 1

up vote 16 down vote accepted

Pandas (and numpy) allow for boolean indexing, which will be much more efficient:

In [11]: df.loc[df['col1'] >= 1, 'col1']
Out[11]: 
1    1
2    2
Name: col1

In [12]: df[df['col1'] >= 1]
Out[12]: 
   col1  col2
1     1    11
2     2    12

In [13]: df[(df['col1'] >= 1) & (df['col1'] <=1 )]
Out[13]: 
   col1  col2
1     1    11

If you want to write helper functions for this, consider something along these lines:

In [14]: def b(x, col, op, n): 
             return op(x[col],n)

In [15]: def f(x, *b):
             return x[(np.logical_and(*b))]

In [16]: b1 = b(df, 'col1', ge, 1)

In [17]: b2 = b(df, 'col1', le, 1)

In [18]: f(df, b1, b2)
Out[18]: 
   col1  col2
1     1    11

Update: pandas 0.13 has a query method for these kind of use cases, assuming column names are valid identifiers the following works (and can be more efficient for large frames as it uses numexpr behind the scenes):

In [21]: df.query('col1 <= 1 & 1 <= col1')
Out[21]:
   col1  col2
1     1    11

In [22]: df.query("col1 <= 1 and 1 <= df['col1']")  # use df[] syntax if not a valid identifier
Out[22]:
   col1  col2
1     1    11
share|improve this answer
    
Your right, boolean is more efficient since it doesn't make a copy of the data. However, my scenario is a bit more tricky than your example. The input I receive is a dictionary defining what filters to apply. My example could do something like df[(ge(df['col1'], 1) & le(df['col1'], 1)]. The issue for me really is the dictionary with the filters could contain lots of operators and chaining them together is cumbersome. Maybe I could add each intermediate boolean array to a big array and then just use map to apply the and operator to them? –  durden2.0 Nov 29 '12 at 3:56
    
@durden2.0 I've added an idea for a helper function, which I think is similar to what you are looking for :) –  Andy Hayden Nov 29 '12 at 9:45
    
That looks very close to what I came up with! Thanks for the example. Why does f() need to take *b instead of just b? Is this so user of f() could still use the optional out parameter to logical_and()? This leads to another small side-question. What is the performance benefit/trade off of passing in array via out() vs. using the one returned from logical_and()? Thanks again! –  durden2.0 Nov 29 '12 at 14:30
    
Nevermind, I didn't look close enough. The *b is necessary because you are passing the two arrays b1 and b2 and you need to unpack them when calling logical_and. However, the other question still stands. Is there a performance benefit to passing in an array via out parameter to logical_and() vs just using its' return value? –  durden2.0 Nov 29 '12 at 14:55
1  
@durden2.0 Have you tried testing (e.g. with %timeit)? –  Andy Hayden Nov 29 '12 at 15:57

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.