564

I have a data frame with a hierarchical index in axis 1 (columns) (from a groupby.agg operation):

     USAF   WBAN  year  month  day  s_PC  s_CL  s_CD  s_CNT  tempf       
                                     sum   sum   sum    sum   amax   amin
0  702730  26451  1993      1    1     1     0    12     13  30.92  24.98
1  702730  26451  1993      1    2     0     0    13     13  32.00  24.98
2  702730  26451  1993      1    3     1    10     2     13  23.00   6.98
3  702730  26451  1993      1    4     1     0    12     13  10.04   3.92
4  702730  26451  1993      1    5     3     0    10     13  19.94  10.94

I want to flatten it, so that it looks like this (names aren't critical - I could rename):

     USAF   WBAN  year  month  day  s_PC  s_CL  s_CD  s_CNT  tempf_amax  tmpf_amin   
0  702730  26451  1993      1    1     1     0    12     13  30.92          24.98
1  702730  26451  1993      1    2     0     0    13     13  32.00          24.98
2  702730  26451  1993      1    3     1    10     2     13  23.00          6.98
3  702730  26451  1993      1    4     1     0    12     13  10.04          3.92
4  702730  26451  1993      1    5     3     0    10     13  19.94          10.94

How do I do this? (I've tried a lot, to no avail.)

Per a suggestion, here is the head in dict form

{('USAF', ''): {0: '702730',
  1: '702730',
  2: '702730',
  3: '702730',
  4: '702730'},
 ('WBAN', ''): {0: '26451', 1: '26451', 2: '26451', 3: '26451', 4: '26451'},
 ('day', ''): {0: 1, 1: 2, 2: 3, 3: 4, 4: 5},
 ('month', ''): {0: 1, 1: 1, 2: 1, 3: 1, 4: 1},
 ('s_CD', 'sum'): {0: 12.0, 1: 13.0, 2: 2.0, 3: 12.0, 4: 10.0},
 ('s_CL', 'sum'): {0: 0.0, 1: 0.0, 2: 10.0, 3: 0.0, 4: 0.0},
 ('s_CNT', 'sum'): {0: 13.0, 1: 13.0, 2: 13.0, 3: 13.0, 4: 13.0},
 ('s_PC', 'sum'): {0: 1.0, 1: 0.0, 2: 1.0, 3: 1.0, 4: 3.0},
 ('tempf', 'amax'): {0: 30.920000000000002,
  1: 32.0,
  2: 23.0,
  3: 10.039999999999999,
  4: 19.939999999999998},
 ('tempf', 'amin'): {0: 24.98,
  1: 24.98,
  2: 6.9799999999999969,
  3: 3.9199999999999982,
  4: 10.940000000000001},
 ('year', ''): {0: 1993, 1: 1993, 2: 1993, 3: 1993, 4: 1993}}
3
  • There is a suggestion on the pandas issue tracker to implement a dedicated method for this. Commented Jul 10, 2018 at 1:29
  • 10
    @joelostblom and it has in fact been implemented (pandas 0.24.0 and above). I posted an answer but essentially now you can just do dat.columns = dat.columns.to_flat_index(). Built-in pandas function. Commented Apr 19, 2019 at 5:52
  • The solution that worked for me is df.reset_index(drop=True, inplace=True) The drop=True was the critical part.
    – Shane S
    Commented Dec 8, 2021 at 19:23

20 Answers 20

750

I think the easiest way to do this would be to set the columns to the top level:

df.columns = df.columns.get_level_values(0)

Note: if the to level has a name you can also access it by this, rather than 0.

.

If you want to combine/join your MultiIndex into one Index (assuming you have just string entries in your columns) you could:

df.columns = [' '.join(col).strip() for col in df.columns.values]

Note: we must strip the whitespace for when there is no second index.

In [11]: [' '.join(col).strip() for col in df.columns.values]
Out[11]: 
['USAF',
 'WBAN',
 'day',
 'month',
 's_CD sum',
 's_CL sum',
 's_CNT sum',
 's_PC sum',
 'tempf amax',
 'tempf amin',
 'year']
10
  • 36
    df.reset_index(inplace=True) could be an alternative solution.
    – Tobias
    Commented Jun 7, 2017 at 6:15
  • 11
    one minor comment... if you want to use _ for the combine column multilevels.. you could use this... df.columns = ['_'.join(col).strip() for col in df.columns.values]
    – ihightower
    Commented Jul 3, 2017 at 16:05
  • 47
    minor modification to maintain underscore for joined cols only: ['_'.join(col).rstrip('_') for col in df.columns.values] Commented Feb 13, 2018 at 19:02
  • 1
    This worked great, if you want just the second column use: df.columns = [col[1] for col in df.columns.values] Commented Jun 25, 2019 at 15:51
  • 2
    If you want to use sum s_CD instead of s_CD sum, one can do df.columns = ['_'.join(col).rstrip('_') for col in [c[::-1] for c in df.columns.values]].
    – irene
    Commented Jul 17, 2019 at 8:32
232

All of the current answers on this thread must have been a bit dated. As of pandas version 0.24.0, the .to_flat_index() does what you need.

From panda's own documentation:

MultiIndex.to_flat_index()

Convert a MultiIndex to an Index of Tuples containing the level values.

A simple example from its documentation:

import pandas as pd
print(pd.__version__) # '0.23.4'
index = pd.MultiIndex.from_product(
        [['foo', 'bar'], ['baz', 'qux']],
        names=['a', 'b'])

print(index)
# MultiIndex(levels=[['bar', 'foo'], ['baz', 'qux']],
#           codes=[[1, 1, 0, 0], [0, 1, 0, 1]],
#           names=['a', 'b'])

Applying to_flat_index():

index.to_flat_index()
# Index([('foo', 'baz'), ('foo', 'qux'), ('bar', 'baz'), ('bar', 'qux')], dtype='object')

Using it to replace existing pandas column

An example of how you'd use it on dat, which is a DataFrame with a MultiIndex column:

dat = df.loc[:,['name','workshop_period','class_size']].groupby(['name','workshop_period']).describe()
print(dat.columns)
# MultiIndex(levels=[['class_size'], ['count', 'mean', 'std', 'min', '25%', '50%', '75%', 'max']],
#            codes=[[0, 0, 0, 0, 0, 0, 0, 0], [0, 1, 2, 3, 4, 5, 6, 7]])

dat.columns = dat.columns.to_flat_index()
print(dat.columns)
# Index([('class_size', 'count'),  ('class_size', 'mean'),
#     ('class_size', 'std'),   ('class_size', 'min'),
#     ('class_size', '25%'),   ('class_size', '50%'),
#     ('class_size', '75%'),   ('class_size', 'max')],
#  dtype='object')

Flattening and Renaming in-place

May be worth noting how you can combine that with a simple list comprehension (thanks @Skippy and @mmann1123) to join the elements so your resulting column names are simple strings separated by, for example, underscores:

dat.columns = ["_".join(a) for a in dat.columns.to_flat_index()]
4
  • 6
    Maybe worth joining the elements of the tuples otherwise you end up with crazy names
    – mmann1123
    Commented Feb 5, 2021 at 15:41
  • 5
    @mmann1123 Indeed. FWIW : dat.columns = ["_".join(a) for a in dat.columns.to_flat_index()]. Commented May 21, 2021 at 15:56
  • 2
    FYI, the reverse is: df.columns = pd.MultiIndex.from_tuples(df.columns). This will convert the flattened tuples back to MultiIndex.
    – wisbucky
    Commented Nov 16, 2021 at 0:08
  • Also, you can remove the extra _ characters with: ['_'.join(x).strip('_') for x in manova_df.columns.to_flat_index()] Commented Feb 8 at 19:53
110
pd.DataFrame(df.to_records()) # multiindex become columns and new index is integers only
4
  • 5
    This works, but leaves behind column names which are difficult to access programmatically and are not queriable
    – dmeu
    Commented Jun 29, 2017 at 8:53
  • 1
    This will not work with the latest version of pandas. It works with 0.18 but not with 0.20 (latest as of now)
    – TH22
    Commented Oct 10, 2017 at 20:59
  • 2
    @dmeu to preserve column names pd.DataFrame(df.to_records(), columns=df.index.names + list(df.columns))
    – Teoretic
    Commented Aug 3, 2018 at 10:13
  • 1
    It is preserving column names as tuples for me, and to keep the index i use: pd.DataFrame(df_volume.to_records(), index=df_volume.index).drop('index', axis=1)
    – Jayen
    Commented Oct 9, 2019 at 2:35
52

Andy Hayden's answer is certainly the easiest way -- if you want to avoid duplicate column labels you need to tweak a bit

In [34]: df
Out[34]: 
     USAF   WBAN  day  month  s_CD  s_CL  s_CNT  s_PC  tempf         year
                               sum   sum    sum   sum   amax   amin      
0  702730  26451    1      1    12     0     13     1  30.92  24.98  1993
1  702730  26451    2      1    13     0     13     0  32.00  24.98  1993
2  702730  26451    3      1     2    10     13     1  23.00   6.98  1993
3  702730  26451    4      1    12     0     13     1  10.04   3.92  1993
4  702730  26451    5      1    10     0     13     3  19.94  10.94  1993


In [35]: mi = df.columns

In [36]: mi
Out[36]: 
MultiIndex
[(USAF, ), (WBAN, ), (day, ), (month, ), (s_CD, sum), (s_CL, sum), (s_CNT, sum), (s_PC, sum), (tempf, amax), (tempf, amin), (year, )]


In [37]: mi.tolist()
Out[37]: 
[('USAF', ''),
 ('WBAN', ''),
 ('day', ''),
 ('month', ''),
 ('s_CD', 'sum'),
 ('s_CL', 'sum'),
 ('s_CNT', 'sum'),
 ('s_PC', 'sum'),
 ('tempf', 'amax'),
 ('tempf', 'amin'),
 ('year', '')]

In [38]: ind = pd.Index([e[0] + e[1] for e in mi.tolist()])

In [39]: ind
Out[39]: Index([USAF, WBAN, day, month, s_CDsum, s_CLsum, s_CNTsum, s_PCsum, tempfamax, tempfamin, year], dtype=object)

In [40]: df.columns = ind




In [46]: df
Out[46]: 
     USAF   WBAN  day  month  s_CDsum  s_CLsum  s_CNTsum  s_PCsum  tempfamax  tempfamin  \
0  702730  26451    1      1       12        0        13        1      30.92      24.98   
1  702730  26451    2      1       13        0        13        0      32.00      24.98   
2  702730  26451    3      1        2       10        13        1      23.00       6.98   
3  702730  26451    4      1       12        0        13        1      10.04       3.92   
4  702730  26451    5      1       10        0        13        3      19.94      10.94   




   year  
0  1993  
1  1993  
2  1993  
3  1993  
4  1993
0
35
df.columns = ['_'.join(tup).rstrip('_') for tup in df.columns.values]
24

Yet another short one, using only pandas methods:

df.columns = df.columns.to_flat_index().str.join('_')

Yields as output:

    USAF_  WBAN_  day_  month_  ...  s_PC_sum  tempf_amax  tempf_amin  year_
0  702730  26451     1       1  ...       1.0       30.92       24.98   1993
1  702730  26451     2       1  ...       0.0       32.00       24.98   1993
2  702730  26451     3       1  ...       1.0       23.00        6.98   1993
3  702730  26451     4       1  ...       1.0       10.04        3.92   1993
4  702730  26451     5       1  ...       3.0       19.94       10.94   1993

You'll notice the trailing underscore for columns that were not part of a MultiIndex. You mentioned that you do not care about the name, so that might work for you. In my own similar use case all the columns had two levels, so this simple command created nice names.

19

The easiest and most intuitive solution for me was to combine the column names using get_level_values. This prevents duplicate column names when you do more than one aggregation on the same column:

level_one = df.columns.get_level_values(0).astype(str)
level_two = df.columns.get_level_values(1).astype(str)
df.columns = level_one + level_two

If you want a separator between columns, you can do this. This will return the same thing as Seiji Armstrong's comment on the accepted answer that only includes underscores for columns with values in both index levels:

level_one = df.columns.get_level_values(0).astype(str)
level_two = df.columns.get_level_values(1).astype(str)
column_separator = ['_' if x != '' else '' for x in level_two]
df.columns = level_one + column_separator + level_two

I know this does the same thing as Andy Hayden's great answer above, but I think it is a bit more intuitive this way and is easier to remember (so I don't have to keep referring to this thread), especially for novice pandas users.

This method is also more extensible in the case where you may have 3 column levels.

level_one = df.columns.get_level_values(0).astype(str)
level_two = df.columns.get_level_values(1).astype(str)
level_three = df.columns.get_level_values(2).astype(str)
df.columns = level_one + level_two + level_three
0
18

And if you want to retain any of the aggregation info from the second level of the multiindex you can try this:

In [1]: new_cols = [''.join(t) for t in df.columns]
Out[1]:
['USAF',
 'WBAN',
 'day',
 'month',
 's_CDsum',
 's_CLsum',
 's_CNTsum',
 's_PCsum',
 'tempfamax',
 'tempfamin',
 'year']

In [2]: df.columns = new_cols
1
  • new_cols isn't defined. Commented Oct 7, 2015 at 23:36
18

The most pythonic way to do this to use map function.

df.columns = df.columns.map(' '.join).str.strip()

Output print(df.columns):

Index(['USAF', 'WBAN', 'day', 'month', 's_CD sum', 's_CL sum', 's_CNT sum',
       's_PC sum', 'tempf amax', 'tempf amin', 'year'],
      dtype='object')

Update using Python 3.6+ with f string:

df.columns = [f'{f} {s}' if s != '' else f'{f}' 
              for f, s in df.columns]

print(df.columns)

Output:

Index(['USAF', 'WBAN', 'day', 'month', 's_CD sum', 's_CL sum', 's_CNT sum',
       's_PC sum', 'tempf amax', 'tempf amin', 'year'],
      dtype='object')
0
11

After reading through all the answers, I came up with this:

def __my_flatten_cols(self, how="_".join, reset_index=True):
    how = (lambda iter: list(iter)[-1]) if how == "last" else how
    self.columns = [how(filter(None, map(str, levels))) for levels in self.columns.values] \
                    if isinstance(self.columns, pd.MultiIndex) else self.columns
    return self.reset_index() if reset_index else self
pd.DataFrame.my_flatten_cols = __my_flatten_cols

Usage:

Given a data frame:

df = pd.DataFrame({"grouper": ["x","x","y","y"], "val1": [0,2,4,6], 2: [1,3,5,7]}, columns=["grouper", "val1", 2])

  grouper  val1  2
0       x     0  1
1       x     2  3
2       y     4  5
3       y     6  7
  • Single aggregation method: resulting variables named the same as source:

    df.groupby(by="grouper").agg("min").my_flatten_cols()
    
    • Same as df.groupby(by="grouper", as_index=False) or .agg(...).reset_index()
    • ----- before -----
                 val1  2
        grouper         
      
      ------ after -----
        grouper  val1  2
      0       x     0  1
      1       y     4  5
      
  • Single source variable, multiple aggregations: resulting variables named after statistics:

    df.groupby(by="grouper").agg({"val1": [min,max]}).my_flatten_cols("last")
    
    • Same as a = df.groupby(..).agg(..); a.columns = a.columns.droplevel(0); a.reset_index().
    • ----- before -----
                  val1    
                 min max
        grouper         
      
      ------ after -----
        grouper  min  max
      0       x    0    2
      1       y    4    6
      
  • Multiple variables, multiple aggregations: resulting variables named (varname)_(statname):

    df.groupby(by="grouper").agg({"val1": min, 2:[sum, "size"]}).my_flatten_cols()
    # you can combine the names in other ways too, e.g. use a different delimiter:
    #df.groupby(by="grouper").agg({"val1": min, 2:[sum, "size"]}).my_flatten_cols(" ".join)
    
    • Runs a.columns = ["_".join(filter(None, map(str, levels))) for levels in a.columns.values] under the hood (since this form of agg() results in MultiIndex on columns).
    • If you don't have the my_flatten_cols helper, it might be easier to type in the solution suggested by @Seigi: a.columns = ["_".join(t).rstrip("_") for t in a.columns.values], which works similarly in this case (but fails if you have numeric labels on columns)
    • To handle the numeric labels on columns, you could use the solution suggested by @jxstanford and @Nolan Conaway (a.columns = ["_".join(tuple(map(str, t))).rstrip("_") for t in a.columns.values]), but I don't understand why the tuple() call is needed, and I believe rstrip() is only required if some columns have a descriptor like ("colname", "") (which can happen if you reset_index() before trying to fix up .columns)
    • ----- before -----
                 val1           2     
                 min       sum    size
        grouper              
      
      ------ after -----
        grouper  val1_min  2_sum  2_size
      0       x         0      4       2
      1       y         4     12       2
      
  • You want to name the resulting variables manually: (this is deprecated since pandas 0.20.0 with no adequate alternative as of 0.23)

    df.groupby(by="grouper").agg({"val1": {"sum_of_val1": "sum", "count_of_val1": "count"},
                                       2: {"sum_of_2":    "sum", "count_of_2":    "count"}}).my_flatten_cols("last")
    
    • Other suggestions include: setting the columns manually: res.columns = ['A_sum', 'B_sum', 'count'] or .join()ing multiple groupby statements.
    • ----- before -----
                         val1                      2         
                count_of_val1 sum_of_val1 count_of_2 sum_of_2
        grouper                                              
      
      ------ after -----
        grouper  count_of_val1  sum_of_val1  count_of_2  sum_of_2
      0       x              2            2           2         4
      1       y              2           10           2        12
      

Cases handled by the helper function

  • level names can be non-string, e.g. Index pandas DataFrame by column numbers, when column names are integers, so we have to convert with map(str, ..)
  • they can also be empty, so we have to filter(None, ..)
  • for single-level columns (i.e. anything except MultiIndex), columns.values returns the names (str, not tuples)
  • depending on how you used .agg() you may need to keep the bottom-most label for a column or concatenate multiple labels
  • (since I'm new to pandas?) more often than not, I want reset_index() to be able to work with the group-by columns in the regular way, so it does that by default
2
  • really great answer, can you please explain the working on of '["".join(tuple(map(str, t))).rstrip("") for t in a.columns.values]', thanks in advance
    – Vineet
    Commented Jul 26, 2018 at 13:05
  • @Vineet I updated my post to indicate that I mentioned that snippet to suggest it has a similar effect to my solution. If you want details on why tuple() is needed, you might want to comment on jxstanford's post. Otherwise, it might be helpful to inspect the .columns.values in the provided example: [('val1', 'min'), (2, 'sum'), (2, 'size')]. 1) for t in a.columns.values loops over the columns, for the second column t == (2, 'sum'); 2) map(str, t) applies str() to each "level", resulting in ('2', 'sum'); 3) "_".join(('2','sum')) results in "2_sum",
    – Nickolay
    Commented Jul 26, 2018 at 17:07
8

A general solution that handles multiple levels and mixed types:

df.columns = ['_'.join(tuple(map(str, t))) for t in df.columns.values]
2
  • 1
    In case there are non-hierarchical columns as well: df.columns = ['_'.join(tuple(map(str, t))).rstrip('_') for t in df.columns.values] Commented Aug 10, 2017 at 20:30
  • Thanks. Was searching for a long. Since my Multilevel index contained integer values. It resolved my problem :)
    – AnksG
    Commented Dec 6, 2018 at 12:17
5

A bit late maybe, but if you are not worried about duplicate column names:

df.columns = df.columns.tolist()
1
  • For me, this changes the columns' names to be tuple-like: (year, ) and (tempf, amax)
    – Nickolay
    Commented May 28, 2018 at 7:44
4

In case you want to have a separator in the name between levels, this function works well.

def flattenHierarchicalCol(col,sep = '_'):
    if not type(col) is tuple:
        return col
    else:
        new_col = ''
        for leveli,level in enumerate(col):
            if not level == '':
                if not leveli == 0:
                    new_col += sep
                new_col += level
        return new_col

df.columns = df.columns.map(flattenHierarchicalCol)
1
  • 1
    I like it. Leaving out the case where the columns are not hierarchical this can be simplified a lot: df.columns = ["_".join(filter(None, c)) for c in df.columns]
    – Gigo
    Commented Oct 19, 2016 at 22:41
3

Following @jxstanford and @tvt173, I wrote a quick function which should do the trick, regardless of string/int column names:

def flatten_cols(df):
    df.columns = [
        '_'.join(tuple(map(str, t))).rstrip('_') 
        for t in df.columns.values
        ]
    return df
3

I'll share a straight-forward way that worked for me.

[" ".join([str(elem) for elem in tup]) for tup in df.columns.tolist()]
#df = df.reset_index() if needed
3

To flatten a MultiIndex inside a chain of other DataFrame methods, define a function like this:

def flatten_index(df):
  df_copy = df.copy()
  df_copy.columns = ['_'.join(col).rstrip('_') for col in df_copy.columns.values]
  return df_copy.reset_index()

Then use the pipe method to apply this function in the chain of DataFrame methods, after groupby and agg but before any other methods in the chain:

my_df \
  .groupby('group') \
  .agg({'value': ['count']}) \
  .pipe(flatten_index) \
  .sort_values('value_count')
1

You could also do as below. Consider df to be your dataframe and assume a two level index (as is the case in your example)

df.columns = [(df.columns[i][0])+'_'+(datadf_pos4.columns[i][1]) for i in range(len(df.columns))]
0
1

Another simple routine.

def flatten_columns(df, sep='.'):
    def _remove_empty(column_name):
        return tuple(element for element in column_name if element)
    def _join(column_name):
        return sep.join(column_name)

    new_columns = [_join(_remove_empty(column)) for column in df.columns.values]
    df.columns = new_columns
2
  • good alternative, works with return df at the end of the code.
    – Marukox
    Commented Nov 6, 2020 at 18:39
  • @Marukox, note that pandas dataframes in python are mutable. You can operate on them without copying/returning. Which is also why this function has no return statement.
    – Ufos
    Commented Nov 14, 2020 at 14:26
0

I have taken the monkey patch approach, otherwise similar to other answers for making a function but I want an inline method.

def flatten_columns(self):
    """Monkey patchable function onto pandas dataframes to flatten multiindex column names from tuples. Especially useful
    with plotly.

    pd.DataFrame.flatten_columns = flatten_columns

    """
    df = self.copy()
    df.columns = [
        '_'.join([str(x)
                  for x in [y for y in item
                            if y]]) if not isinstance(item, str) else item
        for item in df.columns
    ]
    return df

Then I just pd.Dataframe.flatten_columns = flatten_columns

and now I can do:


df.groupby('C')[['A',B']].agg(['mean','count']).flatten_columns()

which honestly would be nice as a built-in method in pandas.

-1

I found myself with the same question of how to flatten the column names after agg, but I also wanted to preserve the aggregation type as a row name.

To do that, you can use stack(). The result is column names that are flat but also the preservation of the aggregation type. Now you can safely export to a csv, for example.

enter image description here

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