I am getting new_tag from a form text field with self.response.get("new_tag") and selected_tags from checkbox fields with


I combine them like this:

tag_string = new_tag
new_tag_list = f1.striplist(tag_string.split(",") + selected_tags)

(f1.striplist is a function that strips white spaces inside the strings in the list.)

But in the case that tag_list is empty (no new tags are entered) but there are some selected_tags, new_tag_list contains an empty string " ".

For example, from logging.info:

selected_tags[u'Hello', u'Cool', u'Glam']
new_tag_list[u'', u'Hello', u'Cool', u'Glam']

How do I get rid of the empty string?

If there is an empty string in the list:

>>> s = [u'', u'Hello', u'Cool', u'Glam']
>>> i = s.index("")
>>> del s[i]
>>> s
[u'Hello', u'Cool', u'Glam']

But if there is no empty string:

>>> s = [u'Hello', u'Cool', u'Glam']
>>> if s.index(""):
        i = s.index("")
        del s[i]
        print "new_tag_list has no empty string"

But this gives:

Traceback (most recent call last):
  File "<pyshell#30>", line 1, in <module>
    if new_tag_list.index(""):
        ValueError: list.index(x): x not in list

Why does this happen, and how do I work around it?

8 Answers 8


1) Almost-English style:

Test for presence using the in operator, then apply the remove method.

if thing in some_list: some_list.remove(thing)

The removemethod will remove only the first occurrence of thing, in order to remove all occurrences you can use while instead of if.

while thing in some_list: some_list.remove(thing)    
  • Simple enough, probably my choice.for small lists (can't resist one-liners)

2) Duck-typed, EAFP style:

This shoot-first-ask-questions-last attitude is common in Python. Instead of testing in advance if the object is suitable, just carry out the operation and catch relevant Exceptions:

except ValueError:
    pass # or scream: thing not in some_list!
except AttributeError:
    call_security("some_list not quacking like a list!")

Off course the second except clause in the example above is not only of questionable humor but totally unnecessary (the point was to illustrate duck-typing for people not familiar with the concept).

If you expect multiple occurrences of thing:

while True:
    except ValueError:
  • a little verbose for this specific use case, but very idiomatic in Python.
  • this performs better than #1
  • PEP 463 proposed a shorter syntax for try/except simple usage that would be handy here, but it was not approved.

However, with contextlib's suppress() contextmanager (introduced in python 3.4) the above code can be simplified to this:

with suppress(ValueError, AttributeError):

Again, if you expect multiple occurrences of thing:

with suppress(ValueError):
    while True:

3) Functional style:

Around 1993, Python got lambda, reduce(), filter() and map(), courtesy of a Lisp hacker who missed them and submitted working patches*. You can use filter to remove elements from the list:

is_not_thing = lambda x: x is not thing
cleaned_list = filter(is_not_thing, some_list)

There is a shortcut that may be useful for your case: if you want to filter out empty items (in fact items where bool(item) == False, like None, zero, empty strings or other empty collections), you can pass None as the first argument:

cleaned_list = filter(None, some_list)
  • [update]: in Python 2.x, filter(function, iterable) used to be equivalent to [item for item in iterable if function(item)] (or [item for item in iterable if item] if the first argument is None); in Python 3.x, it is now equivalent to (item for item in iterable if function(item)). The subtle difference is that filter used to return a list, now it works like a generator expression - this is OK if you are only iterating over the cleaned list and discarding it, but if you really need a list, you have to enclose the filter() call with the list() constructor.
  • *These Lispy flavored constructs are considered a little alien in Python. Around 2005, Guido was even talking about dropping filter - along with companions map and reduce (they are not gone yet but reduce was moved into the functools module, which is worth a look if you like high order functions).

4) Mathematical style:

List comprehensions became the preferred style for list manipulation in Python since introduced in version 2.0 by PEP 202. The rationale behind it is that List comprehensions provide a more concise way to create lists in situations where map() and filter() and/or nested loops would currently be used.

cleaned_list = [ x for x in some_list if x is not thing ]

Generator expressions were introduced in version 2.4 by PEP 289. A generator expression is better for situations where you don't really need (or want) to have a full list created in memory - like when you just want to iterate over the elements one at a time. If you are only iterating over the list, you can think of a generator expression as a lazy evaluated list comprehension:

for item in (x for x in some_list if x is not thing):


  1. you may want to use the inequality operator != instead of is not (the difference is important)
  2. for critics of methods implying a list copy: contrary to popular belief, generator expressions are not always more efficient than list comprehensions - please profile before complaining
  • 8
    May I suggest omitting the AttributeError handling in (2)? It's distracting and not handled in the other sections (or other parts of the same section). Worse, someone might copy that code not realizing they're overly aggressively suppressing exceptions. The original question assumes a list, the answer should too. Aug 16, 2017 at 15:58
  • 2
    Super comprehensive answer! Great to have it split into different sections by "Style". Thanks!
    – halloleo
    Sep 4, 2019 at 1:11
  • 5
    Which is the fastest though? Jan 12, 2020 at 18:32

As a one liner:

>>> s = [u'', u'Hello', u'Cool', u'Glam']
>>> s.remove('') if '' in s else None # Does nothing if '' not in s
>>> s
['Hello', 'Cool', 'Glam']
except ValueError:
    print "new_tag_list has no empty string"

Note that this will only remove one instance of the empty string from your list (as your code would have, too). Can your list contain more than one?


If index doesn't find the searched string, it throws the ValueError you're seeing. Either catch the ValueError:

    i = s.index("")
    del s[i]
except ValueError:
    print "new_tag_list has no empty string"

or use find, which returns -1 in that case.

i = s.find("")
if i >= 0:
    del s[i]
    print "new_tag_list has no empty string"
  • Is find() a list attribute? I am getting: >>> s [u'Hello', u'Cool', u'Glam'] >>> i = s.find("") Traceback (most recent call last): File "<pyshell#42>", line 1, in <module> i = s.find("") AttributeError: 'list' object has no attribute 'find'
    – Zeynel
    Feb 6, 2011 at 20:48
  • 2
    Time Pietscker's remove() approach is much more direct: it directly shows what the code is meant to do (there is indeed no need for an intermediate index i). Feb 6, 2011 at 21:19
  • 1
    @Zeynel no, it should be in every Python, see docs.python.org/library/string.html#string.find . But as EOL pointed out, simply using remove is waaay better.
    – phihag
    Feb 6, 2011 at 21:53

Adding this answer for completeness, though it's only usable under certain conditions.

If you have very large lists, removing from the end of the list avoids CPython internals having to memmove, for situations where you can re-order the list. It gives a performance gain to remove from the end of the list, since it won't need to memmove every item after the one your removing - back one step (1).
For one-off removals the performance difference may be acceptable, but if you have a large list and need to remove many items - you will likely notice a performance hit.

Although admittedly, in these cases, doing a full list search is likely to be a performance bottleneck too, unless items are mostly at the front of the list.

This method can be used for more efficient removal,
as long as re-ordering the list is acceptable. (2)

def remove_unordered(ls, item):
    i = ls.index(item)
    ls[-1], ls[i] = ls[i], ls[-1]

You may want to avoid raising an error when the item isn't in the list.

def remove_unordered_test(ls, item):
        i = ls.index(item)
    except ValueError:
        return False
    ls[-1], ls[i] = ls[i], ls[-1]
    return True

  1. While I tested this with CPython, its quite likely most/all other Python implementations use an array to store lists internally. So unless they use a sophisticated data structure designed for efficient list re-sizing, they likely have the same performance characteristic.

A simple way to test this, compare the speed difference from removing from the front of the list with removing the last element:

python -m timeit 'a = [0] * 100000' 'while a: a.remove(0)'


python -m timeit 'a = [0] * 100000' 'while a: a.pop()'

(gives an order of magnitude speed difference where the second example is faster with CPython and PyPy).

  1. In this case you might consider using a set, especially if the list isn't meant to store duplicates.
    In practice though you may need to store mutable data which can't be added to a set. Also check on btree's if the data can be ordered.

Here's another one-liner approach to throw out there:

next((some_list.pop(i) for i, l in enumerate(some_list) if l == thing), None)

It doesn't create a list copy, doesn't make multiple passes through the list, doesn't require additional exception handling, and returns the matched object or None if there isn't a match. Only issue is that it makes for a long statement.

In general, when looking for a one-liner solution that doesn't throw exceptions, next() is the way to go, since it's one of the few Python functions that supports a default argument.


Eek, don't do anything that complicated : )

Just filter() your tags. bool() returns False for empty strings, so instead of

new_tag_list = f1.striplist(tag_string.split(",") + selected_tags)

you should write

new_tag_list = filter(bool, f1.striplist(tag_string.split(",") + selected_tags))

or better yet, put this logic inside striplist() so that it doesn't return empty strings in the first place.

  • Thanks! All good answers but I think I will be using this. This is my striplist function, how do I incorporate your solution: def striplist(l): """strips whitespaces from strings in a list l""" return([x.strip() for x in l])
    – Zeynel
    Feb 6, 2011 at 21:10
  • 1
    @Zeynel: sure. You could either put a test inside your list comprehension like this: [x.strip() for x in l if x.strip()] or use Python's built-in map and filter functions like this: filter(bool, map(str.strip, l)). If you want to test it out, evaluate this in the interactive interpreter: filter(bool, map(str.strip, [' a', 'b ', ' c ', '', ' '])).
    – dfichter
    Feb 6, 2011 at 21:43
  • Filter has a shortcut for this case (evaluating the element in Boolean context): using None instead of bool for the first argument is enough. Jun 28, 2013 at 19:54

1-use the filter option

new_tag_list = [u'', u'Hello', u'Cool', u'Glam']

new_tag_list= list(filter(None, new_tag_list))

2-list comprehension works as well for elements other than None

new_tag_list = [u'', u'Hello', u'Cool', u'Glam']

[element for element in new_tag_list if element not in['']]

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