The docs show how to apply multiple functions on a groupby object at a time using a dict with the output column names as the keys:

In [563]: grouped['D'].agg({'result1' : np.sum,
   .....:                   'result2' : np.mean})
      result2   result1
bar -0.579846 -1.739537
foo -0.280588 -1.402938

However, this only works on a Series groupby object. And when a dict is similarly passed to a groupby DataFrame, it expects the keys to be the column names that the function will be applied to.

What I want to do is apply multiple functions to several columns (but certain columns will be operated on multiple times). Also, some functions will depend on other columns in the groupby object (like sumif functions). My current solution is to go column by column, and doing something like the code above, using lambdas for functions that depend on other rows. But this is taking a long time, (I think it takes a long time to iterate through a groupby object). I'll have to change it so that I iterate through the whole groupby object in a single run, but I'm wondering if there's a built in way in pandas to do this somewhat cleanly.

For example, I've tried something like

grouped.agg({'C_sum' : lambda x: x['C'].sum(),
             'C_std': lambda x: x['C'].std(),
             'D_sum' : lambda x: x['D'].sum()},
             'D_sumifC3': lambda x: x['D'][x['C'] == 3].sum(), ...)

but as expected I get a KeyError (since the keys have to be a column if agg is called from a DataFrame).

Is there any built in way to do what I'd like to do, or a possibility that this functionality may be added, or will I just need to iterate through the groupby manually?


  • 1
    If you are coming to this question in 2017+, please see the answer below to see the idiomatic way to aggregate multiple columns together. The currently selected answer has multiple deprecations in it, namely that you cannot use a dictionary of dictionaries anymore to rename columns in the result of a groupby. – Ted Petrou Nov 3 '17 at 19:46

The second half of the currently accepted answer is outdated and has two deprecations. First and most important, you can no longer pass a dictionary of dictionaries to the agg groupby method. Second, never use .ix.

If you desire to work with two separate columns at the same time I would suggest using the apply method which implicitly passes a DataFrame to the applied function. Let's use a similar dataframe as the one from above

df = pd.DataFrame(np.random.rand(4,4), columns=list('abcd'))
df['group'] = [0, 0, 1, 1]

          a         b         c         d  group
0  0.418500  0.030955  0.874869  0.145641      0
1  0.446069  0.901153  0.095052  0.487040      0
2  0.843026  0.936169  0.926090  0.041722      1
3  0.635846  0.439175  0.828787  0.714123      1

A dictionary mapped from column names to aggregation functions is still a perfectly good way to perform an aggregation.

df.groupby('group').agg({'a':['sum', 'max'], 
                         'd': lambda x: x.max() - x.min()})

              a                   b         c         d
            sum       max      mean       sum  <lambda>
0      0.864569  0.446069  0.466054  0.969921  0.341399
1      1.478872  0.843026  0.687672  1.754877  0.672401

If you don't like that ugly lambda column name, you can use a normal function and supply a custom name to the special __name__ attribute like this:

def max_min(x):
    return x.max() - x.min()

max_min.__name__ = 'Max minus Min'

df.groupby('group').agg({'a':['sum', 'max'], 
                         'd': max_min})

              a                   b         c             d
            sum       max      mean       sum Max minus Min
0      0.864569  0.446069  0.466054  0.969921      0.341399
1      1.478872  0.843026  0.687672  1.754877      0.672401

Using apply and returning a Series

Now, if you had multiple columns that needed to interact together then you cannot use agg, which implicitly passes a Series to the aggregating function. When using apply the entire group as a DataFrame gets passed into the function.

I recommend making a single custom function that returns a Series of all the aggregations. Use the Series index as labels for the new columns:

def f(x):
    d = {}
    d['a_sum'] = x['a'].sum()
    d['a_max'] = x['a'].max()
    d['b_mean'] = x['b'].mean()
    d['c_d_prodsum'] = (x['c'] * x['d']).sum()
    return pd.Series(d, index=['a_sum', 'a_max', 'b_mean', 'c_d_prodsum'])


         a_sum     a_max    b_mean  c_d_prodsum
0      0.864569  0.446069  0.466054     0.173711
1      1.478872  0.843026  0.687672     0.630494

If you are in love with MultiIndexes, you can still return a Series with one like this:

    def f_mi(x):
        d = []
        d.append((x['c'] * x['d']).sum())
        return pd.Series(d, index=[['a', 'a', 'b', 'c_d'], 
                                   ['sum', 'max', 'mean', 'prodsum']])


              a                   b       c_d
            sum       max      mean   prodsum
0      0.864569  0.446069  0.466054  0.173711
1      1.478872  0.843026  0.687672  0.630494
  • 2
    I love the pattern of using a function that returns a series. Very neat. – Stephen McAteer Dec 18 '17 at 23:07
  • 2
    this is the only way I've found to aggregate a dataframe via multiple column inputs simulatneosly (the c_d example above) – Blake Jan 23 '18 at 23:11
  • 2
    I'm confused by the results, taking the summation of a within group 0 should this not be 0.418500 + 0.446069 = 0.864569? The same holds true for other cells, the numbers don't appear to add up. Could it be a slightly different underlying dataframe was used in the subsequent examples? – slackline Jun 14 '18 at 13:26
  • I frequently use .size() with a groupby to see the number of records. Is there a way to do this using the agg: dict method? I understand I could count a particular field, but my preference would be for the count to be field-independent. – Chris Decker Feb 7 at 19:28
  • 1
    @slackline yes. i just tested it and it works fine. Ted must have just created the frame a few different times and since it was created via random number generation, the df data to actually generate the data was different than the one ultimately used in the calculations – Lucas H Mar 15 at 2:04

For the first part you can pass a dict of column names for keys and a list of functions for the values:

In [28]: df
          A         B         C         D         E  GRP
0  0.395670  0.219560  0.600644  0.613445  0.242893    0
1  0.323911  0.464584  0.107215  0.204072  0.927325    0
2  0.321358  0.076037  0.166946  0.439661  0.914612    1
3  0.133466  0.447946  0.014815  0.130781  0.268290    1

In [26]: f = {'A':['sum','mean'], 'B':['prod']}

In [27]: df.groupby('GRP').agg(f)
            A                   B
          sum      mean      prod
0    0.719580  0.359790  0.102004
1    0.454824  0.227412  0.034060


Because the aggregate function works on Series, references to the other column names are lost. To get around this, you can reference the full dataframe and index it using the group indices within the lambda function.

Here's a hacky workaround:

In [67]: f = {'A':['sum','mean'], 'B':['prod'], 'D': lambda g: df.loc[g.index].E.sum()}

In [69]: df.groupby('GRP').agg(f)
            A                   B         D
          sum      mean      prod  <lambda>
0    0.719580  0.359790  0.102004  1.170219
1    0.454824  0.227412  0.034060  1.182901

Here, the resultant 'D' column is made up of the summed 'E' values.


Here's a method that I think will do everything you ask. First make a custom lambda function. Below, g references the group. When aggregating, g will be a Series. Passing g.index to df.ix[] selects the current group from df. I then test if column C is less than 0.5. The returned boolean series is passed to g[] which selects only those rows meeting the criteria.

In [95]: cust = lambda g: g[df.loc[g.index]['C'] < 0.5].sum()

In [96]: f = {'A':['sum','mean'], 'B':['prod'], 'D': {'my name': cust}}

In [97]: df.groupby('GRP').agg(f)
            A                   B         D
          sum      mean      prod   my name
0    0.719580  0.359790  0.102004  0.204072
1    0.454824  0.227412  0.034060  0.570441
  • Interesting, I can also pass a dict of {funcname: func} as values instead of lists to keep my custom names. But in either case I can't pass a lambda that uses other columns (like lambda x: x['D'][x['C'] < 3].sum() above: "KeyError: 'D'"). Any idea if that's possible? – beardc Jan 25 '13 at 20:56
  • I've been trying to do exactly that, and I get the error KeyError: 'D' – Zelazny7 Jan 25 '13 at 20:57
  • 3
    You can pass a dict for the column value {'D': {'my name':lambda function}} and it will make the inner dict key the column name. – Zelazny7 Jan 25 '13 at 21:27
  • 1
    I believe that pandas now supports multiple functions applied to a grouped-by dataframe: pandas.pydata.org/pandas-docs/stable/… – IanS May 20 '16 at 8:44
  • 1
    This is very helpful! – michel Aug 25 '16 at 15:14

As an alternative (mostly on aesthetics) to Ted Petrou's answer, I found I preferred a slightly more compact listing. Please don't consider accepting it, it's just a much-more-detailed comment on Ted's answer, plus code/data. Python/pandas is not my first/best, but I found this to read well:

df.groupby('group') \
  .apply(lambda x: pd.Series({
      'a_sum'       : x['a'].sum(),
      'a_max'       : x['a'].max(),
      'b_mean'      : x['b'].mean(),
      'c_d_prodsum' : (x['c'] * x['d']).sum()

          a_sum     a_max    b_mean  c_d_prodsum
0      0.530559  0.374540  0.553354     0.488525
1      1.433558  0.832443  0.460206     0.053313

I find it more reminiscent of dplyr pipes and data.table chained commands. Not to say they're better, just more familiar to me. (I certainly recognize the power and, for many, the preference of using more formalized def functions for these types of operations. This is just an alternative, not necessarily better.)

I generated data in the same manner as Ted, I'll add a seed for reproducibility.

import numpy as np
df = pd.DataFrame(np.random.rand(4,4), columns=list('abcd'))
df['group'] = [0, 0, 1, 1]

          a         b         c         d  group
0  0.374540  0.950714  0.731994  0.598658      0
1  0.156019  0.155995  0.058084  0.866176      0
2  0.601115  0.708073  0.020584  0.969910      1
3  0.832443  0.212339  0.181825  0.183405      1
  • I like this answer the most. This is similar to dplyr pipes in R. – Renhuai Apr 5 at 3:45

Ted's answer is amazing. I ended up using a smaller version of that in case anyone is interested. Useful when you are looking for one aggregation that depends on values from multiple columns:

create a dataframe

df=pd.DataFrame({'a': [1,2,3,4,5,6], 'b': [1,1,0,1,1,0], 'c': ['x','x','y','y','z','z']})

   a  b  c
0  1  1  x
1  2  1  x
2  3  0  y
3  4  1  y
4  5  1  z
5  6  0  z

grouping and aggregating with apply (using multiple columns)

df.groupby('c').apply(lambda x: x['a'][(x['a']>1) & (x['b']==1)].mean())

x    2.0
y    4.0
z    5.0

grouping and aggregating with aggregate (using multiple columns)

I like this approach since I can still use aggregate. Perhaps people will let me know why apply is needed for getting at multiple columns when doing aggregations on groups.

It seems obvious now, but as long as you don't select the column of interest directly after the groupby, you will have access to all the columns of the dataframe from within your aggregation function.

only access to the selected column

df.groupby('c')['a'].aggregate(lambda x: x[x>1].mean())

access to all columns since selection is after all the magic

df.groupby('c').aggregate(lambda x: x[(x['a']>1) & (x['b']==1)].mean())['a']

or similarly

df.groupby('c').aggregate(lambda x: x['a'][(x['a']>1) & (x['b']==1)].mean())

I hope this helps.

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