I have the following Python list (can also be a tuple):

myList = ['foo', 'bar', 'baz', 'quux']

I can say

>>> myList[0:3]
['foo', 'bar', 'baz']
>>> myList[::2]
['foo', 'baz']
>>> myList[1::2]
['bar', 'quux']

How do I explicitly pick out items whose indices have no specific patterns? For example, I want to select [0,2,3]. Or from a very big list of 1000 items, I want to select [87, 342, 217, 998, 500]. Is there some Python syntax that does that? Something that looks like:

>>> myBigList[87, 342, 217, 998, 500]

9 Answers 9

list( myBigList[i] for i in [87, 342, 217, 998, 500] )

I compared the answers with python 2.5.2:

  • 19.7 usec: [ myBigList[i] for i in [87, 342, 217, 998, 500] ]

  • 20.6 usec: map(myBigList.__getitem__, (87, 342, 217, 998, 500))

  • 22.7 usec: itemgetter(87, 342, 217, 998, 500)(myBigList)

  • 24.6 usec: list( myBigList[i] for i in [87, 342, 217, 998, 500] )

Note that in Python 3, the 1st was changed to be the same as the 4th.

Another option would be to start out with a numpy.array which allows indexing via a list or a numpy.array:

>>> import numpy
>>> myBigList = numpy.array(range(1000))
>>> myBigList[(87, 342, 217, 998, 500)]
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
IndexError: invalid index
>>> myBigList[[87, 342, 217, 998, 500]]
array([ 87, 342, 217, 998, 500])
>>> myBigList[numpy.array([87, 342, 217, 998, 500])]
array([ 87, 342, 217, 998, 500])

The tuple doesn't work the same way as those are slices.

  • 2
    Preferably as a list comp, [myBigList[i] for i in [87, 342, 217, 998, 500]], but I like this approach the best.
    – zeekay
    Jul 9, 2011 at 1:57
  • @MedhatHelmy That's already in the answer. The third option used from operator import itemgetter in the initialization part of python -mtimeit.
    – Dan D.
    Nov 25, 2015 at 14:33
  • I wonder, just from a language design perspective, why myBigList[(87, 342, 217, 998, 500)] doesn't work when myBigList is a regular python list? When I try that I get TypeError: list indices must be integers or slices, not tuple. That would be so much easier than typing out the comprehension - is there a language design/implementation issue involved? Mar 24, 2016 at 10:26
  • @sparc_spread, this is because lists in Python only accept integers or slices. Passing an integer makes sure that only one item is retrieved from an existing list. Passing a slice makes sure a part of it is retrieved, but passing a tuple is like passing a data-type(tuple) as an argument to another data-type(list) which is syntactically incorrect.
    – amanb
    Jun 17, 2018 at 21:30
  • 1
    @Qbik Because in Python 2, it does not leak the loop variable as a new scope is created for the generator expression. One does not need to do it for Python 3 as the list comprehension has been changed to do that. I prefer it though as it makes it easier to swap out list for any other generator consuming function. This is also the reason that I don't care for either dictionary comprehensions nor set comprehensions.
    – Dan D.
    May 10, 2021 at 8:13

What about this:

from operator import itemgetter
('foo', 'baz', 'quux')
  • 2
    This is the sexiest so far. Love that operator module!
    – jathanism
    Jul 9, 2011 at 2:07

Maybe a list comprehension is in order:

L = ['a', 'b', 'c', 'd', 'e', 'f']
print [ L[index] for index in [1,3,5] ]


['b', 'd', 'f']

Is that what you are looking for?


It isn't built-in, but you can make a subclass of list that takes tuples as "indexes" if you'd like:

class MyList(list):

    def __getitem__(self, index):
        if isinstance(index, tuple):
            return [self[i] for i in index]
        return super(MyList, self).__getitem__(index)

seq = MyList("foo bar baaz quux mumble".split())
print seq[0]
print seq[2,4]
print seq[1::2]


['baaz', 'mumble']
['bar', 'quux']
  • 2
    (+1) Neat solution! With this extension, handling arrays in Python starts to look much R or Matlab. Feb 11, 2014 at 18:30
>>> map(myList.__getitem__, (2,2,1,3))
('baz', 'baz', 'bar', 'quux')

You can also create your own List class which supports tuples as arguments to __getitem__ if you want to be able to do myList[(2,2,1,3)].

  • 1
    While this works it's usually not a good idea to directly invoke magic variables. You're better off using a list comprehension or a helper module like operator.
    – jathanism
    Jul 9, 2011 at 2:08
  • @jathanism: I have to respectfully disagree. Though if you are concerned about forward compatibility (as opposed to public/private) I can definitely see where you're coming from.
    – ninjagecko
    Jul 9, 2011 at 2:13
  • 1
    That is where I'm coming from. :) Following that, it's the same reason why it's better to use len(myList) over myList.__len__().
    – jathanism
    Jul 11, 2011 at 16:25
  • a creative solution.I don't think it's a bad idea to invoke magic variable. programmer selects their preferred way based on programming circumstances.
    – Jacob CUI
    Mar 25, 2015 at 22:57
  • Using magic methods is generally bad, so it's better to just avoid it. It's never necessary except maybe for performance reasons. IDK if there's anything specific about __getitem__(), but for other examples, see Why does calling Python's 'magic method' not do type conversion like it would for the corresponding operator? and Is there any case where len(someObj) does not call someObj's __len__ function?.
    – wjandrea
    Mar 4, 2021 at 18:51

I just want to point out, even syntax of itemgetter looks really neat, but it's kinda slow when perform on large list.

import timeit
from operator import itemgetter
for i in range(1000000):
print ("Itemgetter took ", (timeit.default_timer()-start))

Itemgetter took 1.065209062149279

for i in range(1000000):
print ("Multiple slice took ", (timeit.default_timer()-start))

Multiple slice took 0.6225321444745759

  • First snippet, please add myList = np.array(range(1000000)) otherwise you will get error.
    – Cloud Cho
    Jan 23, 2019 at 1:31

Another possible solution:

for i in [2, 4, 7, 0, 3]:
print (sek)

like often when you have a boolean numpy array like mask

[mylist[i] for i in np.arange(len(mask), dtype=int)[mask]]

A lambda that works for any sequence or np.array:

subseq = lambda myseq, mask : [myseq[i] for i in np.arange(len(mask), dtype=int)[mask]]

newseq = subseq(myseq, mask)


Here is a one line lambda:

list(map(lambda x: mylist[x],indices))


indices = [3, 5, 0, 2, 6]


['d', 'f', 'a', 'c', 'g']

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