I have a very large data frame df that looks like:

ID       Value1    Value2
1345      3.2      332
1355      2.2      32
2346      1.0      11
3456      8.9      322

And I have a list that contains a subset of IDs ID_list. I need to have a subset of df for the ID contained in ID_list.

Currently, I am using df_sub=df[df.ID.isin(ID_list)] to do it. But it takes a lot time. IDs contained in ID_list doesn't have any pattern, so it's not within certain range. (And I need to apply the same operation to many similar dataframes. I was wondering if there is any faster way to do this. Will it help a lot if make ID as the index?


  • Consider to use Binary Search. stackoverflow.com/questions/212358/binary-search-in-python
    – hoozecn
    Commented May 30, 2014 at 1:17
  • 2
    isin is implemented in Cython, so it's already pretty fast. You may have luck with df.query(ID in @ID_list) for larger dataframes. Commented May 30, 2014 at 2:17
  • show df.info(), and the len of ID_list. You might be swapping memory if your frame is really large.
    – Jeff
    Commented May 30, 2014 at 2:32
  • 1
    isin uses set, because of this, pandas need to convert every integer in ID column to integer object. What is the value range of ID_list, if it's not very large you can use bincount(ID_list) to create a lookup table.
    – HYRY
    Commented May 30, 2014 at 7:58
  • Confirmed through testing just now: isin gives same performance with Numba, Cython, and on its own with neither. Commented Jan 31, 2016 at 1:26

2 Answers 2


EDIT 2: Here's a link to a more recent look into the performance of various pandas operations, though it doesn't seem to include merge and join to date.


EDIT 1: These benchmarks were for a quite old version of pandas and likely are not still relevant. See Mike's comment below on merge.

It depends on the size of your data but for large datasets DataFrame.join seems to be the way to go. This requires your DataFrame index to be your 'ID' and the Series or DataFrame you're joining against to have an index that is your 'ID_list'. The Series must also have a name to be used with join, which gets pulled in as a new field called name. You also need to specify an inner join to get something like isin because join defaults to a left join. query in syntax seems to have the same speed characteristics as isin for large datasets.

If you're working with small datasets, you get different behaviors and it actually becomes faster to use a list comprehension or apply against a dictionary than using isin.

Otherwise, you can try to get more speed with Cython.

# I'm ignoring that the index is defaulting to a sequential number. You
# would need to explicitly assign your IDs to the index here, e.g.:
# >>> l_series.index = ID_list
mil = range(1000000)
l = mil
l_series = pd.Series(l)

df = pd.DataFrame(l_series, columns=['ID'])

In [247]: %timeit df[df.index.isin(l)]
1 loops, best of 3: 1.12 s per loop

In [248]: %timeit df[df.index.isin(l_series)]
1 loops, best of 3: 549 ms per loop

# index vs column doesn't make a difference here
In [304]: %timeit df[df.ID.isin(l_series)]
1 loops, best of 3: 541 ms per loop

In [305]: %timeit df[df.index.isin(l_series)]
1 loops, best of 3: 529 ms per loop

# query 'in' syntax has the same performance as 'isin'
In [249]: %timeit df.query('index in @l')
1 loops, best of 3: 1.14 s per loop

In [250]: %timeit df.query('index in @l_series')
1 loops, best of 3: 564 ms per loop

# ID must be the index for DataFrame.join and l_series must have a name.
# join defaults to a left join so we need to specify inner for existence.
In [251]: %timeit df.join(l_series, how='inner')
10 loops, best of 3: 93.3 ms per loop

# Smaller datasets.
df = pd.DataFrame([1,2,3,4], columns=['ID'])
l = range(10000)
l_dict = dict(zip(l, l))
l_series = pd.Series(l)
l_series.name = 'ID_list'

In [363]: %timeit df.join(l_series, how='inner')
1000 loops, best of 3: 733 µs per loop

In [291]: %timeit df[df.ID.isin(l_dict)]
1000 loops, best of 3: 742 µs per loop

In [292]: %timeit df[df.ID.isin(l)]
1000 loops, best of 3: 771 µs per loop

In [294]: %timeit df[df.ID.isin(l_series)]
100 loops, best of 3: 2 ms per loop

# It's actually faster to use apply or a list comprehension for these small cases.
In [296]: %timeit df[[x in l_dict for x in df.ID]]
1000 loops, best of 3: 203 µs per loop

In [299]: %timeit df[df.ID.apply(lambda x: x in l_dict)]
1000 loops, best of 3: 297 µs per loop
  • 1
    This is a nice answer! I think this would make a nice new section here: pandas-docs.github.io/pandas-docs-travis/enhancingperf.html on performance of indexing operations (the indexing section is getting a bit long); want to do a pull request for this?
    – Jeff
    Commented May 30, 2014 at 3:38
  • 7
    I just wanted to add that (at leas in 18.1) I found that merge actually beats join, and you don't have to worry about messing with the index. Try something like df.merge(pandas.DataFrame(value, columns=[dimension]), on=[dimension]). At least for me it was able to accomplish the same task in 60% of the time.
    – Mike
    Commented Sep 21, 2016 at 20:32
  • 1
    @Mike What if we want to negate isin? Commented Apr 18, 2018 at 9:47
  • 1
    @Mike, could you develop your comment into a detailed answer? I'd really appreciate! Commented Jul 14, 2019 at 10:26
  • 2
    @phasselmann sure, using the same syntax as the answer, you could convert the series to filter like l_df = l_series.to_frame() then you could filter on the df with filtered_df = df.merge(l_df, left_index=True, right_index=True) Whereas the join solution takes 10.2 ms for me, the merge solution takes 6.7 ms.
    – Mike
    Commented Jul 15, 2019 at 18:45

Yes, isin is quite slow.

Instead it's faster to make ID an index then use use loc, like:

df.set_index('ID', inplace=True)

Actually what brought me to this page was that I needed to create a label in my df based on index in another df: "if df_1's index matches df_2's index, label it a 1, otherwise NaN", which I accomplished like this:

df_2['label'] = 1  # Create a label column

Which is also very fast.

  • 3
    very nice idea; although this assumes that the field for indexing is unique (PK); which may not be true.
    – Neil
    Commented Feb 22, 2022 at 0:36

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