I know that it is not safe to modify the list during an iterative looping. However, suppose I have a list of strings, and I want to strip the strings themselves. Does replacement of mutable values count as modification?

See Why doesn't modifying the iteration variable affect subsequent iterations? for a related problem: assigning to the iteration variable does not modify the underlying sequence, and also does not impact future iteration.


10 Answers 10


Since the loop below only modifies elements already seen, it would be considered acceptable:

a = ['a',' b', 'c ', ' d ']

for i, s in enumerate(a):
    a[i] = s.strip()

print(a) # -> ['a', 'b', 'c', 'd']

Which is different from:

a[:] = [s.strip() for s in a]

in that it doesn't require the creation of a temporary list and an assignment of it to replace the original, although it does require more indexing operations.

Caution: Although you can modify entries this way, you can't change the number of items in the list without risking the chance of encountering problems.

Here's an example of what I mean—deleting an entry messes-up the indexing from that point on:

b = ['a', ' b', 'c ', ' d ']

for i, s in enumerate(b):
    if s.strip() != b[i]:  # leading or trailing whitespace?
        del b[i]

print(b)  # -> ['a', 'c ']  # WRONG!

(The result is wrong because it didn't delete all the items it should have.)


Since this is a fairly popular answer, here's how to effectively delete entries "in-place" (even though that's not exactly the question):

b = ['a',' b', 'c ', ' d ']

b[:] = [entry for entry in b if entry.strip() == entry]

print(b)  # -> ['a']  # CORRECT

See How to remove items from a list while iterating?.

  • 4
    Why does Python only make a copy of the individual element in the syntax for i in a though? This is very counterintuitive, seemingly different from other languages and has resulted in errors in my code that I had to debug for a long period of time. Python Tutorial doesn't even mention it. Though there must be some reason to it?
    – xji
    Commented Jan 29, 2017 at 17:25
  • 3
    @JIXiang: It doesn't make a copies. It just assigns the loop variable name to successive elements or value of the thing being iterated-upon.
    – martineau
    Commented Jan 29, 2017 at 19:39
  • 6
    @Navin: Because a[i] = s.strip() only does one indexing operation.
    – martineau
    Commented Sep 5, 2017 at 19:03
  • 2
    @Navin: Using enumerate() doesn't add an indexing operation. However, regardless of whether it does or not, the total number of them performed per iteration is obviously less via a[i] = s.strip() than a[i] = a[i].strip().
    – martineau
    Commented Nov 16, 2018 at 11:49
  • 2
    @variable: Don't know of a specific name for the concept. The problem's related to how lists are stored and iterated over internally (which isn't documented and might vary in different versions). It seems very logical to me that the operation could get "messed-up" — i.e. not be done correctly — if the thing that's being iterated is changed while iterating over it. It also depends on what the modification is as well as what type of elements are in the list. See Modify a list while iterating for more information.
    – martineau
    Commented Nov 8, 2019 at 18:36

It's considered poor form. Use a list comprehension instead, with slice assignment if you need to retain existing references to the list.

a = [1, 3, 5]
b = a
a[:] = [x + 2 for x in a]
  • 19
    The slice assignment is clever and avoids modifying the original during the loop, but requires the creation of a temporary list the length of the original.
    – martineau
    Commented Nov 2, 2010 at 22:45
  • 11
    @Vigrond: So when the print b statement is executed, you can tell if a was modified in-place rather than replaced. Another possibility would have been a print b is a to see if they both still refer to the same object.
    – martineau
    Commented Jun 18, 2013 at 21:27
  • 1
    lovely solution and python-like! Commented Apr 5, 2016 at 15:23
  • 18
    why a[:] = and not just a = ?
    – kdubs
    Commented Mar 16, 2017 at 11:40
  • 15
    @kdubs: "...with slice assignment if you need to retain existing references to the list." Commented Mar 16, 2017 at 12:12

One more for loop variant, looks cleaner to me than one with enumerate():

for idx in range(len(list)):
    list[idx]=... # set a new value
    # some other code which doesn't let you use a list comprehension
  • 34
    Many consider using something like range(len(list)) in Python a code smell.
    – martineau
    Commented Aug 3, 2014 at 13:55
  • 3
    @Reishin: Since enumerate is a generator it's not creating a list.of tuples, it creates them one at a time as it iterates through the list. The only way to tell which is slower would be to timeit.
    – martineau
    Commented May 5, 2015 at 6:35
  • 4
    @martineau code could be not well pretty, but according to timeit enumerate is slower
    – Reishin
    Commented May 5, 2015 at 7:01
  • 2
    @Reishin: Your benchmarking code isn't completely valid because it doesn't take into account the need to retrieve the value in the list at the given index - which isn't shown in this answer either.
    – martineau
    Commented Jul 18, 2015 at 20:21
  • 4
    @Reishin: Your comparison is invalid precisely for that reason. It's measuring the looping overhead in isolation. To be conclusive the time it takes the entire loop to execute must be measured because of the possibility that any overhead differences might be mitigated by the benefits provided to the code inside the loop of looping a certain way — otherwise you're not comparing apples to apples.
    – martineau
    Commented Jul 19, 2015 at 16:06

Modifying each element while iterating a list is fine, as long as you do not change add/remove elements to list.

You can use list comprehension:

l = ['a', ' list', 'of ', ' string ']
l = [item.strip() for item in l]

or just do the C-style for loop:

for index, item in enumerate(l):
    l[index] = item.strip()

The answer given by Ignacio Vazquez-Abrams is really good. It can be further illustrated by this example. Imagine that:

  1. A list with two vectors is given to you.
  2. You would like to traverse the list and reverse the order of each one of the arrays.

Let's say you have:

v = np.array([1,2,3,4])
b = np.array([3,4,6])

for i in [v, b]:
    i = i[::-1]   # This command does not reverse the string.


You will get:

[array([1, 2, 3, 4]), array([3, 4, 6])]

On the other hand, if you do:

v = np.array([1,2,3,4])
b = np.array([3,4,6])

for i in [v, b]:
   i[:] = i[::-1]   # This command reverses the string.


The result is:

[array([4, 3, 2, 1]), array([6, 4, 3])]

No you wouldn't alter the "content" of the list, if you could mutate strings that way. But in Python they are not mutable. Any string operation returns a new string.

If you had a list of objects you knew were mutable, you could do this as long as you don't change the actual contents of the list.

Thus you will need to do a map of some sort. If you use a generator expression it [the operation] will be done as you iterate and you will save memory.


You can do something like this:

a = [1,2,3,4,5]
b = [i**2 for i in a]

It's called a list comprehension, to make it easier for you to loop inside a list.


It is not clear from your question what the criteria for deciding what strings to remove is, but if you have or can make a list of the strings that you want to remove , you could do the following:

my_strings = ['a','b','c','d','e']
undesirable_strings = ['b','d']
for undesirable_string in undesirable_strings:
    for i in range(my_strings.count(undesirable_string)):

which changes my_strings to ['a', 'c', 'e']


In short, to do modification on the list while iterating the same list.

list[:] = ["Modify the list" for each_element in list "Condition Check"]


list[:] = [list.remove(each_element) for each_element in list if each_element in ["data1", "data2"]]

Something I just discovered - when looping over a list of mutable types (such as dictionaries) you can just use a normal for loop like this:

l = [{"n": 1}, {"n": 2}]
for d in l:
    d["n"] += 1
# prints [{"n": 2}, {"n": 1}]

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