I want to convert my R code using dplyr package into pandas where I group-by and perform multiple summarizations.

Here is my current code:

import pandas as pd
data = pd.DataFrame(
result = []
for k,v in data.groupby('col1'):
    result.append([k, max(v['col2']), min(v['col3'])])
print pd.DataFrame(result, columns=['col1', 'col2_agg', 'col3_agg'])


  • too verbose
  • probably can be optimized and efficient. (I rewrote a for-loop groupby implementation into groupby.agg and the performance enhancement was huge).

In R the equivalent code would be:

data %>% groupby(col1) %>% summarize(col2_agg=max(col2), col3_agg=min(col3))

Also, what is the equivalent of groupby().summarize(newcolumn=max(col2 * col3)) i.e. an aggregation/summarization where the function is a compound function of 2+ columns?

  • 3
    You can check here
    – akrun
    Commented Aug 13, 2016 at 18:04
  • Doing a manual iteration over a groupby result like for k,v in data.groupby('col1'): is always a code smell that you should be doing aggregate(). pandas can do multiple aggregations too. See the tutorials.
    – smci
    Commented Jul 8, 2019 at 6:17
  • Another possible issue when migrating to pandas is that you didn't like the index pandas returns on a groupby object (and by default, pandas gives you a MultiIndex if it's a groupby multiple columns, unless you specify as_index=False). But in your case you're only grouping by col1
    – smci
    Commented Jul 8, 2019 at 6:18

3 Answers 3


The equivalent of

df %>% groupby(col1) %>% summarize(col2_agg=max(col2), col3_agg=min(col3))


df.groupby('col1').agg({'col2': 'max', 'col3': 'min'})

which returns

      col2  col3
1        5    -5
2        9    -9

The returning object is a pandas.DataFrame with an index called col1 and columns named col2 and col3. By default, when you group your data pandas sets the grouping column(s) as index for efficient access and modification. However, if you don't want that, there are two alternatives to set col1 as a column.

  • Pass as_index=False:

    df.groupby('col1', as_index=False).agg({'col2': 'max', 'col3': 'min'})
  • Call reset_index:

    df.groupby('col1').agg({'col2': 'max', 'col3': 'min'}).reset_index()

both yield

col1  col2  col3           
   1     5    -5
   2     9    -9

You can also pass multiple functions to groupby.agg.

agg_df = df.groupby('col1').agg({'col2': ['max', 'min', 'std'], 
                                 'col3': ['size', 'std', 'mean', 'max']})

This also returns a DataFrame but now it has a MultiIndex for columns.

     col2               col3                   
      max min       std size       std mean max
1       5   1  1.581139    5  1.581139   -3  -1
2       9   0  3.535534    5  3.535534   -6   0

MultiIndex is very handy for selection and grouping. Here are some examples:

agg_df['col2']  # select the second column
      max  min       std
1       5    1  1.581139
2       9    0  3.535534

agg_df[('col2', 'max')]  # select the maximum of the second column
1    5
2    9
Name: (col2, max), dtype: int64

agg_df.xs('max', axis=1, level=1)  # select the maximum of all columns
      col2  col3
1        5    -1
2        9     0

Earlier (before version 0.20.0) it was possible to use dictionaries for renaming the columns in the agg call. For example

df.groupby('col1')['col2'].agg({'max_col2': 'max'})

would return the maximum of the second column as max_col2:

1            5
2            9

However, it was deprecated in favor of the rename method:

df.groupby('col1')['col2'].agg(['max']).rename(columns={'max': 'col2_max'})

1            5
2            9

It can get verbose for a DataFrame like agg_df defined above. You can use a renaming function to flatten those levels in that case:

agg_df.columns = ['_'.join(col) for col in agg_df.columns]

      col2_max  col2_min  col2_std  col3_size  col3_std  col3_mean  col3_max
1            5         1  1.581139          5  1.581139         -3        -1
2            9         0  3.535534          5  3.535534         -6         0

For operations like groupby().summarize(newcolumn=max(col2 * col3)), you can still use agg by first adding a new column with assign.

df.assign(new_col=df.eval('col2 * col3')).groupby('col1').agg('max') 

      col2  col3  new_col
1        5    -1       -1
2        9     0        0

This returns maximum for old and new columns but as always you can slice that.

df.assign(new_col=df.eval('col2 * col3')).groupby('col1')['new_col'].agg('max')

1   -1
2    0
Name: new_col, dtype: int64

With groupby.apply this would be shorter:

df.groupby('col1').apply(lambda x: (x.col2 * x.col3).max())

1   -1
2    0
dtype: int64

However, groupby.apply treats this as a custom function so it is not vectorized. Up to now, the functions we passed to agg ('min', 'max', 'min', 'size' etc.) are vectorized and these are aliases for those optimized functions. You can replace df.groupby('col1').agg('min') with df.groupby('col1').agg(min), df.groupby('col1').agg(np.min) or df.groupby('col1').min() and they will all execute the same function. You will not see the same efficiency when you use custom functions.

Lastly, as of version 0.20, agg can be used on DataFrames directly, without having to group first. See examples here.


It is very easy to transition your R code into python code without learning APIs of pandas using datar:

>>> from datar import f
>>> from datar.tibble import tibble
>>> from datar.dplyr import group_by, summarize
>>> from datar.base import min, max
>>> data = tibble(
...     col1=[1,1,1,1,1,2,2,2,2,2],
...     col2=[1,2,3,4,5,6,7,8,9,0],
...     col3=[-1,-2,-3,-4,-5,-6,-7,-8,-9,0]
... )
>>> data >> group_by(f.col1) >> summarize(col2_agg=max(f.col2), col3_agg=min(f.col3))
   col1  col2_agg  col3_agg
0     1         5        -5
1     2         9        -9

I am the author of the package. Feel free to submit issues if you have any questions.

  • Trying to run that small toy example but getting an error: TypeError: summarise() missing at least one argument. Commented Nov 2, 2022 at 13:16
  • @GabrielMontenegro Mind submitting an issue (github.com/pwwang/datar/issues) to the repo with your code? Commented Nov 2, 2022 at 23:15

Check the side-by-side comparison given by Pandas documentation here: http://pandas.pydata.org/pandas-docs/stable/comparison_with_r.html#grouping-and-summarizing

R's dplyr

gdf <- group_by(df, col1)
summarise(gdf, avg=mean(col1, na.rm=TRUE))  


gdf = df.groupby('col1')
df.groupby('col1').agg({'col1': 'mean'})

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