368

I have a pandas data frame df like:

a b
A 1
A 2
B 5
B 5
B 4
C 6

I want to group by the first column and get second column as lists in rows:

A [1,2]
B [5,5,4]
C [6]

Is it possible to do something like this using pandas groupby?

0

14 Answers 14

546

You can do this using groupby to group on the column of interest and then apply list to every group:

In [1]: df = pd.DataFrame( {'a':['A','A','B','B','B','C'], 'b':[1,2,5,5,4,6]})
        df

Out[1]: 
   a  b
0  A  1
1  A  2
2  B  5
3  B  5
4  B  4
5  C  6

In [2]: df.groupby('a')['b'].apply(list)
Out[2]: 
a
A       [1, 2]
B    [5, 5, 4]
C          [6]
Name: b, dtype: object

In [3]: df1 = df.groupby('a')['b'].apply(list).reset_index(name='new')
        df1
Out[3]: 
   a        new
0  A     [1, 2]
1  B  [5, 5, 4]
2  C        [6]
15
  • 8
    This takes a lot of time if the dataset is huge, say 10million rows. Is there any faster way to do this? The number of uniques in 'a' is however around 500k – Abhishek Thakur Mar 6 '14 at 11:12
  • 8
    groupby is notoriously slow and memory hungry, what you could do is sort by column A, then find the idxmin and idxmax (probably store this in a dict) and use this to slice your dataframe would be faster I think – EdChum Mar 6 '14 at 11:32
  • 1
    When I tried this solution with my problem (having multiple columns to groupBy and to group), it didn't work - pandas sent 'Function does not reduce'. Then I used tuplefollowing the second answer here: stackoverflow.com/questions/19530568/… . See second answer in stackoverflow.com/questions/27439023/… for explanation. – Andarin Jun 24 '16 at 10:54
  • This solution is good, but is there a way to store set of list, meaning can i remove the duplicates and then store it? – Sriram Arvind Lakshmanakumar Jan 18 '19 at 10:59
  • 1
    @PoeteMaudit Sorry I don't understand what you're asking and asking questions in comments is bad form in SO. Are you asking how to concatenate multiple columns into a single list? – EdChum Jun 7 '19 at 15:31
61

If performance is important go down to numpy level:

import numpy as np

df = pd.DataFrame({'a': np.random.randint(0, 60, 600), 'b': [1, 2, 5, 5, 4, 6]*100})

def f(df):
         keys, values = df.sort_values('a').values.T
         ukeys, index = np.unique(keys, True)
         arrays = np.split(values, index[1:])
         df2 = pd.DataFrame({'a':ukeys, 'b':[list(a) for a in arrays]})
         return df2

Tests:

In [301]: %timeit f(df)
1000 loops, best of 3: 1.64 ms per loop

In [302]: %timeit df.groupby('a')['b'].apply(list)
100 loops, best of 3: 5.26 ms per loop
2
  • 10
    How could we use this if we are grouping by two or more keys e.g. with .groupby([df.index.month, df.index.day]) instead of just .groupby('a')? – ru111 Mar 12 '19 at 17:35
  • @ru111 I have added an answer below which you might want to check out. It does also handle grouping with multiple columns – v.tralala Feb 2 at 22:18
52

A handy way to achieve this would be:

df.groupby('a').agg({'b':lambda x: list(x)})

Look into writing Custom Aggregations: https://www.kaggle.com/akshaysehgal/how-to-group-by-aggregate-using-py

3
  • 9
    lambda args: f(args) is equivalent to f – BallpointBen Oct 11 '18 at 17:43
  • 13
    Actually, just agg(list) is enough. Also see here. – cs95 Jun 7 '19 at 15:31
  • 2
    !! I was just googling for some syntax and realised my own notebook was referenced for the solution lol. Thanks for linking this. Just to add, since 'list' is not a series function, you will have to either use it with apply df.groupby('a').apply(list) or use it with agg as part of a dict df.groupby('a').agg({'b':list}). You could also use it with lambda (which I recommend) since you can do so much more with it. Example: df.groupby('a').agg({'c':'first', 'b': lambda x: x.unique().tolist()}) which lets you apply a series function to the col c and a unique then a list function to col b. – Akshay Sehgal Apr 8 '20 at 1:11
38

To solve this for several columns of a dataframe:

In [5]: df = pd.DataFrame( {'a':['A','A','B','B','B','C'], 'b':[1,2,5,5,4,6],'c'
   ...: :[3,3,3,4,4,4]})

In [6]: df
Out[6]: 
   a  b  c
0  A  1  3
1  A  2  3
2  B  5  3
3  B  5  4
4  B  4  4
5  C  6  4

In [7]: df.groupby('a').agg(lambda x: list(x))
Out[7]: 
           b          c
a                      
A     [1, 2]     [3, 3]
B  [5, 5, 4]  [3, 4, 4]
C        [6]        [4]

This answer was inspired from Anamika Modi's answer. Thank you!

0
23

As you were saying the groupby method of a pd.DataFrame object can do the job.

Example

 L = ['A','A','B','B','B','C']
 N = [1,2,5,5,4,6]

 import pandas as pd
 df = pd.DataFrame(zip(L,N),columns = list('LN'))


 groups = df.groupby(df.L)

 groups.groups
      {'A': [0, 1], 'B': [2, 3, 4], 'C': [5]}

which gives and index-wise description of the groups.

To get elements of single groups, you can do, for instance

 groups.get_group('A')

     L  N
  0  A  1
  1  A  2

  groups.get_group('B')

     L  N
  2  B  5
  3  B  5
  4  B  4
0
19

Use any of the following groupby and agg recipes.

# Setup
df = pd.DataFrame({
  'a': ['A', 'A', 'B', 'B', 'B', 'C'],
  'b': [1, 2, 5, 5, 4, 6],
  'c': ['x', 'y', 'z', 'x', 'y', 'z']
})
df

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

To aggregate multiple columns as lists, use any of the following:

df.groupby('a').agg(list)
df.groupby('a').agg(pd.Series.tolist)

           b          c
a                      
A     [1, 2]     [x, y]
B  [5, 5, 4]  [z, x, y]
C        [6]        [z]

To group-listify a single column only, convert the groupby to a SeriesGroupBy object, then call SeriesGroupBy.agg. Use,

df.groupby('a').agg({'b': list})  # 4.42 ms 
df.groupby('a')['b'].agg(list)    # 2.76 ms - faster

a
A       [1, 2]
B    [5, 5, 4]
C          [6]
Name: b, dtype: object
7
  • 1
    are the methods above guaranteed to preserve order? meaning that elements from the same row (but different columns, b and c in your code above) will have the same index in the resulting lists? – Kai May 2 '19 at 15:51
  • 1
    @Kai oh, good question. Yes and no. GroupBy sorts the output by the grouper key values. However the sort is generally stable so the relative ordering per group is preserved. To disable the sorting behavior entirely, use groupby(..., sort=False). Here, it'd make no difference since I'm grouping on column A which is already sorted. – cs95 May 2 '19 at 16:37
  • 1
    This is a very good answer! Is there also a way to make the values of the list unique? something like .agg(pd.Series.tolist.unique) maybe? – Federico Gentile Dec 5 '19 at 12:24
  • 2
    @FedericoGentile you can use a lambda. Here's one way: df.groupby('a')['b'].agg(lambda x: list(set(x))) – cs95 Dec 5 '19 at 14:48
  • 1
    @Moondra Not sure, perhaps you want df.groupby('a').agg(lambda x: x.to_numpy().ravel().tolist()) – cs95 Jun 30 '20 at 23:07
10

It is time to use agg instead of apply .

When

df = pd.DataFrame( {'a':['A','A','B','B','B','C'], 'b':[1,2,5,5,4,6], 'c': [1,2,5,5,4,6]})

If you want multiple columns stack into list , result in pd.DataFrame

df.groupby('a')[['b', 'c']].agg(list)
# or 
df.groupby('a').agg(list)

If you want single column in list, result in ps.Series

df.groupby('a')['b'].agg(list)
#or
df.groupby('a')['b'].apply(list)

Note, result in pd.DataFrame is about 10x slower than result in ps.Series when you only aggregate single column, use it in multicolumns case .

8

If looking for a unique list while grouping multiple columns this could probably help:

df.groupby('a').agg(lambda x: list(set(x))).reset_index()
3

The easiest way I have see no achieve most of the same thing at least for one column which is similar to Anamika's answer just with the tuple syntax for the aggregate function.

df.groupby('a').agg(b=('b','unique'), c=('c','unique'))
2

Let us using df.groupby with list and Series constructor

pd.Series({x : y.b.tolist() for x , y in df.groupby('a')})
Out[664]: 
A       [1, 2]
B    [5, 5, 4]
C          [6]
dtype: object
0
1

Building upon @B.M answer, here is a more general version and updated to work with newer library version: (numpy version 1.19.2, pandas version 1.2.1) And this solution can also deal with multi-indices:

However this is not heavily tested, use with caution.

If performance is important go down to numpy level:

import pandas as pd
import numpy as np

np.random.seed(0)
df = pd.DataFrame({'a': np.random.randint(0, 10, 90), 'b': [1,2,3]*30, 'c':list('abcefghij')*10, 'd': list('hij')*30})


def f_multi(df,col_names):
    if not isinstance(col_names,list):
        col_names = [col_names]
        
    values = df.sort_values(col_names).values.T

    col_idcs = [df.columns.get_loc(cn) for cn in col_names]
    other_col_names = [name for idx, name in enumerate(df.columns) if idx not in col_idcs]
    other_col_idcs = [df.columns.get_loc(cn) for cn in other_col_names]

    # split df into indexing colums(=keys) and data colums(=vals)
    keys = values[col_idcs,:]
    vals = values[other_col_idcs,:]
    
    # list of tuple of key pairs
    multikeys = list(zip(*keys))
    
    # remember unique key pairs and ther indices
    ukeys, index = np.unique(multikeys, return_index=True, axis=0)
    
    # split data columns according to those indices
    arrays = np.split(vals, index[1:], axis=1)

    # resulting list of subarrays has same number of subarrays as unique key pairs
    # each subarray has the following shape:
    #    rows = number of non-grouped data columns
    #    cols = number of data points grouped into that unique key pair
    
    # prepare multi index
    idx = pd.MultiIndex.from_arrays(ukeys.T, names=col_names) 

    list_agg_vals = dict()
    for tup in zip(*arrays, other_col_names):
        col_vals = tup[:-1] # first entries are the subarrays from above 
        col_name = tup[-1]  # last entry is data-column name
        
        list_agg_vals[col_name] = col_vals

    df2 = pd.DataFrame(data=list_agg_vals, index=idx)
    return df2

Tests:

In [227]: %timeit f_multi(df, ['a','d'])

2.54 ms ± 64.7 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

In [228]: %timeit df.groupby(['a','d']).agg(list)

4.56 ms ± 61.5 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)


Results:

for the random seed 0 one would get:

enter image description here

1
  • Great answer. Please share example, if you need only one column, and not multiple – Victor Ermakov May 14 at 14:39
1

Just a suplyment. pandas.pivot_table is much more universal and seems convenient:

"""data"""
df = pd.DataFrame( {'a':['A','A','B','B','B','C'],
                    'b':[1,2,5,5,4,6],
                    'c':[1,2,1,1,1,6]})
print(df)

   a  b  c
0  A  1  1
1  A  2  2
2  B  5  1
3  B  5  1
4  B  4  1
5  C  6  6
"""use pivot_table"""
pt = pd.pivot_table(df,
                    values=['b', 'c'],
                    index='a',
                    aggfunc={'b': list,
                             'c': set})
print(pt)
           b       c
a                   
A     [1, 2]  {1, 2}
B  [5, 5, 4]     {1}
C        [6]     {6}
0

Here I have grouped elements with "|" as a separator

    import pandas as pd

    df = pd.read_csv('input.csv')

    df
    Out[1]:
      Area  Keywords
    0  A  1
    1  A  2
    2  B  5
    3  B  5
    4  B  4
    5  C  6

    df.dropna(inplace =  True)
    df['Area']=df['Area'].apply(lambda x:x.lower().strip())
    print df.columns
    df_op = df.groupby('Area').agg({"Keywords":lambda x : "|".join(x)})

    df_op.to_csv('output.csv')
    Out[2]:
    df_op
    Area  Keywords

    A       [1| 2]
    B    [5| 5| 4]
    C          [6]
0

Answer based on @EdChum's comment on his answer. Comment is this -

groupby is notoriously slow and memory hungry, what you could do is sort by column A, then find the idxmin and idxmax (probably store this in a dict) and use this to slice your dataframe would be faster I think 

Let's first create a dataframe with 500k categories in first column and total df shape 20 million as mentioned in question.

df = pd.DataFrame(columns=['a', 'b'])
df['a'] = (np.random.randint(low=0, high=500000, size=(20000000,))).astype(str)
df['b'] = list(range(20000000))
print(df.shape)
df.head()
# Sort data by first column 
df.sort_values(by=['a'], ascending=True, inplace=True)
df.reset_index(drop=True, inplace=True)

# Create a temp column
df['temp_idx'] = list(range(df.shape[0]))

# Take all values of b in a separate list
all_values_b = list(df.b.values)
print(len(all_values_b))
# For each category in column a, find min and max indexes
gp_df = df.groupby(['a']).agg({'temp_idx': [np.min, np.max]})
gp_df.reset_index(inplace=True)
gp_df.columns = ['a', 'temp_idx_min', 'temp_idx_max']

# Now create final list_b column, using min and max indexes for each category of a and filtering list of b. 
gp_df['list_b'] = gp_df[['temp_idx_min', 'temp_idx_max']].apply(lambda x: all_values_b[x[0]:x[1]+1], axis=1)

print(gp_df.shape)
gp_df.head()

This above code takes 2 minutes for 20 million rows and 500k categories in first column.

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