Suppose I have two DataFrames like so:

left = pd.DataFrame({'key1': ['foo', 'bar'], 'lval': [1, 2]})

right = pd.DataFrame({'key2': ['foo', 'bar'], 'rval': [4, 5]})

I want to merge them, so I try something like this:

pd.merge(left, right, left_on='key1', right_on='key2')

And I'm happy

    key1    lval    key2    rval
0   foo     1       foo     4
1   bar     2       bar     5

But I'm trying to use the join method, which I've been lead to believe is pretty similar.

left.join(right, on=['key1', 'key2'])

And I get this:

//anaconda/lib/python2.7/site-packages/pandas/tools/merge.pyc in _validate_specification(self)
    406             if self.right_index:
    407                 if not ((len(self.left_on) == self.right.index.nlevels)):
--> 408                     raise AssertionError()
    409                 self.right_on = [None] * n
    410         elif self.right_on is not None:


What am I missing?

  • 9
    The specific problem here is that merge joins columns of left to columns of right, which is what you want, but join(... on=[...]) joins columns of left to index keys of right, which is not what you want. See my answer below for more details. Commented Jul 31, 2017 at 21:52
  • 3
    DataFrame.join() always wants to match caller's indexes or keys(specified by on option) against the other's indexes. Remember, indexes for join. While merge() is a more generic method.
    – JP Zhang
    Commented Mar 4, 2019 at 22:30
  • This looks like a great case for dfsql df = dfsql.query('select * from a left join b on a.id = b.id', a=a_df, b=b_df) github.com/mindsdb/dfsql A complete article about it here: medium.com/riselab/… Commented Apr 20, 2021 at 6:43

7 Answers 7


pandas.merge() is the underlying function used for all merge/join behavior.

DataFrames provide the pandas.DataFrame.merge() and pandas.DataFrame.join() methods as a convenient way to access the capabilities of pandas.merge(). For example, df1.merge(right=df2, ...) is equivalent to pandas.merge(left=df1, right=df2, ...).

These are the main differences between df.join() and df.merge():

  1. lookup on right table: df1.join(df2) always joins via the index of df2, but df1.merge(df2) can join to one or more columns of df2 (default) or to the index of df2 (with right_index=True).
  2. lookup on left table: by default, df1.join(df2) uses the index of df1 and df1.merge(df2) uses column(s) of df1. That can be overridden by specifying df1.join(df2, on=key_or_keys) or df1.merge(df2, left_index=True).
  3. left vs inner join: df1.join(df2) does a left join by default (keeps all rows of df1), but df.merge does an inner join by default (returns only matching rows of df1 and df2).

So, the generic approach is to use pandas.merge(df1, df2) or df1.merge(df2). But for a number of common situations (keeping all rows of df1 and joining to an index in df2), you can save some typing by using df1.join(df2) instead.

Some notes on these issues from the documentation at http://pandas.pydata.org/pandas-docs/stable/merging.html#database-style-dataframe-joining-merging:

merge is a function in the pandas namespace, and it is also available as a DataFrame instance method, with the calling DataFrame being implicitly considered the left object in the join.

The related DataFrame.join method, uses merge internally for the index-on-index and index-on-column(s) joins, but joins on indexes by default rather than trying to join on common columns (the default behavior for merge). If you are joining on index, you may wish to use DataFrame.join to save yourself some typing.


These two function calls are completely equivalent:

left.join(right, on=key_or_keys)
pd.merge(left, right, left_on=key_or_keys, right_index=True, how='left', sort=False)
  • @Matthias Fripp, Perhaps for the more experienced it goes without saying, but it could also be said that "lookup on right table: df1.join(df2) can be overridden to df1.join(df2, on=key_or_keys? Commented Feb 19, 2019 at 0:00
  • 1
    @spacedustpi, I think you are saying that you can use on=key_or_keys to change the way rows are found in the right table. However, that is not actually the case. The on argument changes the lookup on the left table (df1) from index to column(s). However, even with this argument, the right table (df2) will be matched via its index. (See the last example above.) Commented Feb 19, 2019 at 5:28
  • 1
    Pandas has several methods to deal with these situations, among them merge, join, append, concat, combine, combine_first. Take a look at each of these to have a glimpse about which one would be the best fit for your situation
    – xiaxio
    Commented Mar 29, 2020 at 19:03
  • 1
    I initially thought a.join(b, on=col) would use col in both a and b, but it always joins vs the index in b. Surprising.
    – creanion
    Commented Jun 15, 2022 at 19:41

I always use join on indices:

import pandas as pd
left = pd.DataFrame({'key': ['foo', 'bar'], 'val': [1, 2]}).set_index('key')
right = pd.DataFrame({'key': ['foo', 'bar'], 'val': [4, 5]}).set_index('key')
left.join(right, lsuffix='_l', rsuffix='_r')

     val_l  val_r
foo      1      4
bar      2      5

The same functionality can be had by using merge on the columns follows:

left = pd.DataFrame({'key': ['foo', 'bar'], 'val': [1, 2]})
right = pd.DataFrame({'key': ['foo', 'bar'], 'val': [4, 5]})
left.merge(right, on=('key'), suffixes=('_l', '_r'))

   key  val_l  val_r
0  foo      1      4
1  bar      2      5
  • The error seems to be saying that it expects the multi index on right that is the same depth as the length on on. That makes sense to me sort of. I can accept that the semantics are different. But I'd like to know if I can get that same behavior with df.join
    – munk
    Commented Mar 27, 2014 at 0:59

One of the difference is that merge is creating a new index, and join is keeping the left side index. It can have a big consequence on your later transformations if you wrongly assume that your index isn't changed with merge.

For example:


import pandas as pd

df1 = pd.DataFrame({'org_index': [101, 102, 103, 104],
                    'date': [201801, 201801, 201802, 201802],
                    'val': [1, 2, 3, 4]}, index=[101, 102, 103, 104])

       date  org_index  val
101  201801        101    1
102  201801        102    2
103  201802        103    3
104  201802        104    4


df2 = pd.DataFrame({'date': [201801, 201802], 'dateval': ['A', 'B']}).set_index('date')

201801       A
201802       B


df1.merge(df2, on='date')

     date  org_index  val dateval
0  201801        101    1       A
1  201801        102    2       A
2  201802        103    3       B
3  201802        104    4       B


df1.join(df2, on='date')
       date  org_index  val dateval
101  201801        101    1       A
102  201801        102    2       A
103  201802        103    3       B
104  201802        104    4       B

Another difference is that join() will necessarily use the index of the right dataframe (df2), you can only control on parameter which is a "left_on". But merge() you can use right_on.

Typically you will use join() like this:

df1.join(df2.set_index('an_index'), on='an_index_in_df1')
  • 2
    That is correct. If we merge the two data frames on columns other than indices we will get a new index but if we merge on the indices of both data frames we will get the a data frame with the same index. So, in order to get the same index after merge we can make the columns our index (on which we want to merge) for both data frames and then merge the data frames on the newly created index. Commented Nov 28, 2019 at 12:17
  • 1
    Very insightful. I've never needed the indexing (I normally just reset the index) but this could make a big difference in some cases.
    – irene
    Commented Jan 30, 2020 at 12:15

From this documentation

pandas provides a single function, merge, as the entry point for all standard database join operations between DataFrame objects:

merge(left, right, how='inner', on=None, left_on=None, right_on=None,
      left_index=False, right_index=False, sort=True,
      suffixes=('_x', '_y'), copy=True, indicator=False)

And :

DataFrame.join is a convenient method for combining the columns of two potentially differently-indexed DataFrames into a single result DataFrame. Here is a very basic example: The data alignment here is on the indexes (row labels). This same behavior can be achieved using merge plus additional arguments instructing it to use the indexes:

result = pd.merge(left, right, left_index=True, right_index=True,

I believe that join() is just a convenience method. Try df1.merge(df2) instead, which allows you to specify left_on and right_on:

In [30]: left.merge(right, left_on="key1", right_on="key2")
  key1  lval key2  rval
0  foo     1  foo     4
1  bar     2  bar     5
  • Join: Default Index (If any same column name then it will throw an error in default mode because u have not defined lsuffix or rsuffix))
  • Merge: Default Same Column Names (If no same column name it will throw an error in default mode)
  • on parameter has different meaning in both cases
df_1.merge(df_2, on='column_1')

df_1.join(df_2, on='column_1') // It will throw error
df_1.join(df_2.set_index('column_1'), on='column_1')

To put it analogously to SQL "Pandas merge is to outer/inner join and Pandas join is to natural join". Hence when you use merge in pandas, you want to specify which kind of sqlish join you want to use whereas when you use pandas join, you really want to have a matching column label to ensure it joins

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