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On a concrete problem, say I have a DataFrame DF

     word  tag count
0    a     S    30
1    the   S    20
2    a     T    60
3    an    T    5
4    the   T    10 

I want to find, for every "word", the "tag" that has the most "count". So the return would be something like

     word  tag count
1    the   S    20
2    a     T    60
3    an    T    5

I don't care about the count column or if the order/Index is original or messed up. Returning a dictionary {'the' : 'S', ...} is just fine.

I hope I can do

DF.groupby(['word']).agg(lambda x: x['tag'][ x['count'].argmax() ] )

but it doesn't work. I can't access column information.

More abstractly, what does the function in agg(function) see as its argument?

btw, is .agg() the same as .aggregate() ?

Many thanks.

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2 Answers 2

up vote 22 down vote accepted

agg is the same as aggregate. It's callable is passed the columns (Series objects) of the DataFrame, one at a time.

You could use agg to collect the index of the rows with the maximum count:

idx = df.groupby('word')['count'].agg(lambda col: col.idxmax())


a       2
an      3
the     1
Name: count

and then use ix to select those rows in the word and tag columns:

print(df.ix[idx, ['word', 'tag']])


  word tag
2    a   T
3   an   T
1  the   S

Alternative, you could use apply. Unlike agg, apply's callable is passed a sub-DataFrame which gives you access to all the columns:

import pandas as pd
df = pd.DataFrame({'word':'a the a an the'.split(),
                   'tag': list('SSTTT'),
                   'count': [30, 20, 60, 5, 10]})

print(df.groupby('word').apply(lambda subf: subf['tag'][subf['count'].idxmax()]))


a       T
an      T
the     S

At least for this application, using agg and ix is faster than apply for large DataFrames. Using IPython's %timeit:

N = 10000
df = pd.DataFrame({'word':'a the a an the'.split()*N,
                   'tag': list('SSTTT')*N,
                   'count': [30, 20, 60, 5, 10]*N})
def using_apply(df):
    return (df.groupby('word').apply(lambda subf: subf['tag'][subf['count'].idxmax()]))

def using_agg_ix(df):
    idx = df.groupby('word')['count'].agg(lambda col: col.idxmax())
    return df.ix[idx, ['word', 'tag']]

In [22]: %timeit using_apply(df)
100 loops, best of 3: 8.05 ms per loop

In [23]: %timeit using_agg_ix(df)
100 loops, best of 3: 5.58 ms per loop

If you want a dictionary mapping words to tags, then you could use set_index and to_dict like this:

In [36]: df2 = df.ix[idx, ['word', 'tag']].set_index('word')

In [37]: df2
a      T
an     T
the    S

In [38]: df2.to_dict()['tag']
Out[38]: {'a': 'T', 'an': 'T', 'the': 'S'}
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This is great answer. Thank you. –  jf328 Mar 10 '13 at 14:08
This is some dark magic. –  Eric Walker Jan 7 '14 at 23:56

Here's a simple way to figure out what is being passed (the unutbu) solution then 'applies'!

In [33]: def f(x):
....:     print type(x)
....:     print x

In [34]: df.groupby('word').apply(f)
<class 'pandas.core.frame.DataFrame'>
  word tag  count
0    a   S     30
2    a   T     60
<class 'pandas.core.frame.DataFrame'>
  word tag  count
0    a   S     30
2    a   T     60
<class 'pandas.core.frame.DataFrame'>
  word tag  count
3   an   T      5
<class 'pandas.core.frame.DataFrame'>
  word tag  count
1  the   S     20
4  the   T     10

your function just operates (in this case) on a sub-section of the frame with the grouped variable all having the same value (in this cas 'word'), if you are passing a function, then you have to deal with the aggregation of potentially non-string columns; standard functions, like 'sum' do this for you

Automatically does NOT aggregate on the string columns

In [41]: df.groupby('word').sum()
a        90
an        5
the      30

You ARE aggregating on all columns

In [42]: df.groupby('word').apply(lambda x: x.sum())
        word tag count
a         aa  ST    90
an        an   T     5
the   thethe  ST    30

You can do pretty much anything within the function

In [43]: df.groupby('word').apply(lambda x: x['count'].sum())
a       90
an       5
the     30
share|improve this answer
Thanks very much Jeff. This is great. –  jf328 Mar 10 '13 at 14:09

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