I see at many places the use of slice assignment for lists. I am able to understand its use when used with (non-default) indices, but I am not able to understand its use like:

a_list[:] = ['foo', 'bar']

How is that different from

a_list = ['foo', 'bar']


4 Answers 4

a_list = ['foo', 'bar']

Creates a new list in memory and points the name a_list at it. It is irrelevant what a_list pointed at before.

a_list[:] = ['foo', 'bar']

Calls the __setitem__ method of the a_list object with a slice as the index, and a new list created in memory as the value.

__setitem__ evaluates the slice to figure out what indexes it represents, and calls iter on the value it was passed. It then iterates over the object, setting each index within the range specified by the slice to the next value from the object. For lists, if the range specified by the slice is not the same length as the iterable, the list is resized. This allows you to do a number of interesting things, like delete sections of a list:

a_list[:] = [] # deletes all the items in the list, equivalent to 'del a_list[:]'

or inserting new values in the middle of a list:

a_list[1:1] = [1, 2, 3] # inserts the new values at index 1 in the list

However, with "extended slices", where the step is not one, the iterable must be the correct length:

>>> lst = [1, 2, 3]
>>> lst[::2] = []
Traceback (most recent call last):
  File "<interactive input>", line 1, in <module>
ValueError: attempt to assign sequence of size 0 to extended slice of size 2

The main things that are different about slice assignment to a_list are:

  1. a_list must already point to an object
  2. That object is modified, instead of pointing a_list at a new object
  3. That object must support __setitem__ with a slice index
  4. The object on the right must support iteration
  5. No name is pointed at the object on the right. If there are no other references to it (such as when it is a literal as in your example), it will be reference counted out of existence after the iteration is complete.
  • I read this in the docs(docs.python.org/tutorial/introduction.html#lists). Just the default index was my doubt :)
    – 0xc0de
    Apr 14, 2012 at 19:00
  • 1
    "For lists, if the range specified by the slice is not the same length as the iterable, the list is resized." This is true only if the step value of the range is 1. For step values other than 1, the assigned iterable must yield the correct number of items. Apr 15, 2012 at 16:57
  • @SvenMarnach Thanks. I tacked that on at the end because I forgot to mention it and I knew there was some situation where it had to be the same length.
    – agf
    Apr 15, 2012 at 18:40

The difference is quite huge! In

a_list[:] = ['foo', 'bar']

You modify a existing list that was bound to the name a_list. On the other hand,

a_list = ['foo', 'bar']

assigns a new list to the name a_list.

Maybe this will help:

a = a_list = ['foo', 'bar'] # another name for the same list
a_list = ['x', 'y'] # reassigns the name a_list
print a # still the original list

a = a_list = ['foo', 'bar']
a_list[:] = ['x', 'y'] # changes the existing list bound to a
print a # a changed too since you changed the object

By assigning to a_list[:], a_list still reference to the same list object, with contents modified. By assigning to a_list, a_list now reference to a new list object.

Check out its id:

>>> a_list = []
>>> id(a_list)
>>> a_list[:] = ['foo', 'bar']
>>> id(a_list)
>>> a_list = ['foo', 'bar']
>>> id(a_list)

As you can see, its id doens't change with the slice assignment version.

The different between the two could result quite different result, for instance, when the list is a parameter of function:

def foo(a_list):
    a_list[:] = ['foo', 'bar']

a = ['original']

With this, a is modified as well, but if a_list = ['foo', 'bar'] were used instead, a remains its original value.

a_list = ['foo', 'bar']
a=a_list[:]  # by this you get an exact copy of a_list 
a=[1,2,3] # even if you modify a it will not affect a_list
  • The question was asking about assigning ['foo', 'bar'] to a_list[:]. Jul 22, 2019 at 9:04

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.