Now 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?
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
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()
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.
The answer given by Jemshit Iskenderov and Ignacio Vazquez-Abrams is really good. It can be further illustrated with this example: imagine that
a) A list with two vectors is given to you;
b) 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 print([v,b])
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 print([v,b])
The result is
[array([4, 3, 2, 1]), array([6, 4, 3])]
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)): my_strings.remove(undesirable_string)
which changes my_strings to ['a', 'c', 'e']