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I'm iterating over a list of tuples in Python, and am attempting to remove them if they meet certain criteria.

for tup in somelist:
    if determine(tup):
         code_to_remove_tup

What should I use in place of code_to_remove_tup? I can't figure out how to remove the item in this fashion.

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14 Answers 14

up vote 336 down vote accepted

You can use a list comprehension to create a new list containing only the elements you don't want to remove:

somelist = [x for x in somelist if not determine(x)]

Or, by assigning to the slice somelist[:], you can mutate the existing list to contain only the items you want:

somelist[:] = [x for x in somelist if not determine(x)]

This approach could be useful if there are other references to somelist that need to reflect the changes.

Instead of a comprehension, you could also use itertools. In Python 2:

from itertools import ifilterfalse
somelist[:] = ifilterfalse(determine, somelist)

Or in Python 3:

from itertools import filterfalse
somelist[:] = filterfalse(determine, somelist)
share|improve this answer
1  
Can you make it faster if you know only a few will be deleted, i.e., only delete those and leave the others in-place rather than re-writing them? – highBandWidth Apr 20 '11 at 19:25
    
What if my list is huge and can't afford making a copy? – jpcgt Nov 15 '14 at 23:43
    
@jpcgt You should use somelist[:] = (x for x in somelist if determine(x)) this will create generator that may not create any unnecessary copies. – Rostislav Kondratenko Apr 29 '15 at 14:54
4  
@RostislavKondratenko: list_ass_slice() function that implements somelist[:]= calls PySequence_Fast() internally. This function always returns a list i.e., @Alex Martelli's solution that already uses a list instead of a generator is most probably more efficient – J.F. Sebastian May 7 '15 at 20:48

The answers suggesting list comprehensions are ALMOST correct -- except that they build a completely new list and then give it the same name the old list as, they do NOT modify the old list in place. That's different from what you'd be doing by selective removal, as in @Lennart's suggestion -- it's faster, but if your list is accessed via multiple references the fact that you're just reseating one of the references and NOT altering the list object itself can lead to subtle, disastrous bugs.

Fortunately, it's extremely easy to get both the speed of list comprehensions AND the required semantics of in-place alteration -- just code:

somelist[:] = [tup for tup in somelist if determine(tup)]

Note the subtle difference with other answers: this one is NOT assigning to a barename - it's assigning to a list slice that just happens to be the entire list, thereby replacing the list contents within the same Python list object, rather than just reseating one reference (from previous list object to new list object) like the other answers.

share|improve this answer
    
How do I do the same sliced assignment with a dict? In Python 2.6? – Paul McGuire Mar 25 '11 at 19:29
6  
@Paul: Since dicts are unordered, slices are meaningless for dicts. If your want to replace the contents of dict a by the contents of dict b, use a.clear(); a.update(b). – Sven Marnach Apr 1 '11 at 23:51
1  
Why can 'reseating' one of the references by replacing what the variable refers to cause bugs? It seems like that would only be a potential problem in multi-threaded applications, not single-threaded. – Derek Dahmer Aug 7 '11 at 22:59
32  
@Derek x = ['foo','bar','baz']; y = x; x = [item for item in x if determine(item)]; This reassigns x to the result of the list comprehension, but y still refers to the original list ['foo','bar','baz']. If you expected x and y to refer to the same list, you may have introduced bugs. You prevent this by assigning to a slice of the entire list, as Alex shows, and I show here: x = ["foo","bar","baz"]; y = x; x[:] = [item for item in x if determine(item)];. The list is modified in place. ensuring that all references to the list (both x and y here) refer to the new list. – Steven T. Snyder Nov 15 '11 at 19:38
    
Again Alex to the rescue. He is a machine indeed. – Jakobovski May 31 at 11:08

You need to take a copy of the list and iterate over it first, or the iteration will fail with what may be unexpected results.

For example (depends on what type of list):

for tup in somelist[:]:
    etc....

An example:

>>> somelist = range(10)
>>> for x in somelist:
...     somelist.remove(x)
>>> somelist
[1, 3, 5, 7, 9]

>>> somelist = range(10)
>>> for x in somelist[:]:
...     somelist.remove(x)
>>> somelist
[]
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7  
Zen #3, Simple is better than complex. Gets my vote! – jdero Aug 9 '13 at 18:55
2  
why the second one works? – Zen Jun 18 '14 at 12:52
3  
@Zen Because the second one iterates over a copy of the list. So when you modify the original list, you do not modify the copy that you iterate over. – Lennart Regebro Jun 18 '14 at 13:47
2  
What's better in doing somelist[:] compared to list(somelist) ? – Mariusz Jamro Feb 4 '15 at 10:01
7  
Note to anyone reading this, this is VERY slow for lists. remove() has to go over the WHOLE list for every iteration, so it will take forever. – cloudformdesign Feb 11 '15 at 23:22
for i in xrange(len(somelist) - 1, -1, -1):
    if some_condition(somelist, i):
        del somelist[i]

You need to go backwards otherwise it's a bit like sawing off the tree-branch that you are sitting on :-)

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9  
In recent versions of Python, you can do this even more cleanly by using the reversed() builtin – ncoghlan Mar 23 '11 at 7:08
    
Just a note that in python 2 you can do for i,v in enumerate(reversed(somelist)):, but to get at the indices you need to store the original lenght. The index of element v is originalLength - i - 1. – drevicko Nov 2 '14 at 4:11
    
@ncoghlan don't use reversed, that creates an entirely new list for no reason. If you want to do it that way, use itertools.islice(somelist, None, None, -1) (not tested, but should work) – cloudformdesign Feb 11 '15 at 23:24
7  
reversed() does not create a new list, it creates a reverse iterator over the supplied sequence. Like enumerate(), you have to wrap it in list() to actually get a list out of it. You may be thinking of sorted(), which does create a new list every time (it has to, so it can sort it). – ncoghlan Feb 12 '15 at 6:44
1  
@Mauris because enumerate returns an iterator and reversed expects a sequence. I guess you could do reversed(list(enumerate(somelist))) if you don't mind creating an extra list in memory. – drevicko Aug 2 '15 at 23:27

Your best approach for such an example would be a list comprehension

somelist = [tup for tup in somelist if determine(tup)]

In cases where you're doing something more complex than calling a determine function, I prefer constructing a new list and simply appending to it as I go. For example

newlist = []
for tup in somelist:
    # lots of code here, possibly setting things up for calling determine
    if determine(tup):
        newlist.append(tup)
somelist = newlist

Copying the list using remove might make your code look a little cleaner, as described in one of the answers below. You should definitely not do this for extremely large lists, since this involves first copying the entire list, and also performing an O(n) remove operation for each element being removed, making this an O(n^2) algorithm.

for tup in somelist[:]:
    # lots of code here, possibly setting things up for calling determine
    if determine(tup):
        newlist.append(tup)
share|improve this answer

For those that like functional programming:

somelist[:] = filter(lambda tup: not determine(tup), somelist)

or

from itertools import ifilterfalse
somelist[:] = list(ifilterfalse(determine, somelist))
share|improve this answer

The official Python 2 tutorial 4.2. "for Statements" says:

If you need to modify the sequence you are iterating over while inside the loop (for example to duplicate selected items), it is recommended that you first make a copy. Iterating over a sequence does not implicitly make a copy. The slice notation makes this especially convenient:

>>> for w in words[:]:  # Loop over a slice copy of the entire list.
...     if len(w) > 6:
...         words.insert(0, w)
...
>>> words
['defenestrate', 'cat', 'window', 'defenestrate']

which is what was suggested at: http://stackoverflow.com/a/1207427/895245

The Python 2 documentation 7.3. "The for statement" gives the same advice:

Note: There is a subtlety when the sequence is being modified by the loop (this can only occur for mutable sequences, i.e. lists). An internal counter is used to keep track of which item is used next, and this is incremented on each iteration. When this counter has reached the length of the sequence the loop terminates. This means that if the suite deletes the current (or a previous) item from the sequence, the next item will be skipped (since it gets the index of the current item which has already been treated). Likewise, if the suite inserts an item in the sequence before the current item, the current item will be treated again the next time through the loop. This can lead to nasty bugs that can be avoided by making a temporary copy using a slice of the whole sequence, e.g.,

for x in a[:]:
    if x < 0: a.remove(x)

Java rant

I feel that this particular Python API is significantly inferior to the Java counterpart ListIterator, which makes it crystal clear that you cannot modify a list being iterated except with the iterator itself, and gives you efficient ways to do so without copying the list.

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That's exactly what I was thinking... sadly something Java actually does better than Python. – Ryan May 13 at 12:41

You might want to use filter() available as the built-in.

http://docs.python.org/library/functions.html#filter

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If you want to do anything else during the iteration, it may be nice to get both the index (which guarantees you being able to reference it, for example if you have a list of dicts) and the actual list item contents.

inlist = [{'field1':10, 'field2':20}, {'field1':30, 'field2':15}]    
for idx, i in enumerate(inlist):
    do some stuff with i['field1']
    if somecondition:
        xlist.append(idx)
for i in reversed(xlist): del inlist[i]

enumerate gives you access to the item and the index at once. reversed is so that the indices that you're going to later delete don't change on you.

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Why is getting the index any more relevant in the case where you have a list of dicts than in the case of any other kind of list? This doesn't make sense as far as I can tell. – Mark Amery Jun 21 at 22:33

I needed to do something similar and in my case the problem was memory - I needed to merge multiple dataset objects within a list, after doing some stuff with them, as a new object, and needed to get rid of each entry I was merging to avoid duplicating all of them and blowing up memory. In my case having the objects in a dictionary instead of a list worked fine:

```

k = range(5)
v = ['a','b','c','d','e']
d = {key:val for key,val in zip(k, v)}

print d
for i in range(5):
    print d[i]
    d.pop(i)
print d

```

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You can try for-looping in reverse so for some_list you'll do something like:

list_len = len(some_list)
for i in range(list_len):
    reverse_i = list_len - 1 - i
    cur = some_list[reverse_i]

    # some logic with cur element

    if some_condition:
        some_list.pop(reverse_i)

This way the index is aligned and doesn't suffer from the list updates (regardless whether you pop cur element or not).

share|improve this answer
    
Looping over reversed(list(enumerate(some_list))) would be simpler than computing indexes yourself. – Mark Amery Jun 21 at 22:49
    
@MarkAmery don't think you can alter the list this way. – Queequeg Jun 28 at 18:29

It might be smart to also just create a new list if the current list item meets the desired criteria.

so:

for item in originalList:
   if (item != badValue):
        newList.append(item)

and to avoid having to re-code the entire project with the new lists name:

originalList[:] = newList[:]
share|improve this answer
1  
This adds no new information that wasn't in the accepted answer years earlier. – Mark Amery Jun 21 at 22:36
    
It's simple and just another way to look at a problem @MarkAmery. It's less condensed for those people that don't like compressed coding syntax. – ntk4 Jun 23 at 3:08

TLDR:

I wrote a library that allows you to do this:

from fluidIter import FluidIterable
fSomeList = FluidIterable(someList)  
for tup in fSomeList:
    if determine(tup):
        # remove 'tup' without "breaking" the iteration
        fSomeList.remove(tup)
        # tup has also been removed from 'someList'
        # as well as 'fSomeList'

It's best to use another method if possible that doesn't require modifying your iterable while iterating over it, but for some algorithms it might not be that straight forward. And so if you are sure that you really do want the code pattern described in the original question, it is possible.

Should work on all mutable sequences not just lists.


Full answer:

Edit: The last code example in this answer gives a use case for why you might sometimes want to modify a list in place rather than use a list comprehension. The first part of the answers serves as tutorial of how an array can be modified in place.

The solution follows on from this answer (for a related question) from senderle. Which explains how the the array index is updated while iterating through a list that has been modified. The solution below is designed to correctly track the array index even if the list is modified.

Download fluidIter.py from here https://github.com/alanbacon/FluidIterator, it is just a single file so no need to install git. There is no installer so you will need to make sure that the file is in the python path your self. The code has been written for python 3 and is untested on python 2.

from fluidIter import FluidIterable
l = [0,1,2,3,4,5,6,7,8]  
fluidL = FluidIterable(l)                       
for i in fluidL:
    print('initial state of list on this iteration: ' + str(fluidL)) 
    print('current iteration value: ' + str(i))
    print('popped value: ' + str(fluidL.pop(2)))
    print(' ')

print('Final List Value: ' + str(l))

This will produce the following output:

initial state of list on this iteration: [0, 1, 2, 3, 4, 5, 6, 7, 8]
current iteration value: 0
popped value: 2

initial state of list on this iteration: [0, 1, 3, 4, 5, 6, 7, 8]
current iteration value: 1
popped value: 3

initial state of list on this iteration: [0, 1, 4, 5, 6, 7, 8]
current iteration value: 4
popped value: 4

initial state of list on this iteration: [0, 1, 5, 6, 7, 8]
current iteration value: 5
popped value: 5

initial state of list on this iteration: [0, 1, 6, 7, 8]
current iteration value: 6
popped value: 6

initial state of list on this iteration: [0, 1, 7, 8]
current iteration value: 7
popped value: 7

initial state of list on this iteration: [0, 1, 8]
current iteration value: 8
popped value: 8

Final List Value: [0, 1]

Above we have used the pop method on the fluid list object. Other common iterable methods are also implemented such as del fluidL[i], .remove, .insert, .append, .extend. The list can also be modified using slices (sort and reverse methods are not implemented).

The only condition is that you must only modify the list in place, if at any point fluidL or l were reassigned to a different list object the code would not work. The original fluidL object would still be used by the for loop but would become out of scope for us to modify.

i.e.

fluidL[2] = 'a'   # is OK
fluidL = [0, 1, 'a', 3, 4, 5, 6, 7, 8]  # is not OK

If we want to access the current index value of the list we cannot use enumerate, as this only counts how many times the for loop has run. Instead we will use the iterator object directly.

fluidArr = FluidIterable([0,1,2,3])
# get iterator first so can query the current index
fluidArrIter = fluidArr.__iter__()
for i, v in enumerate(fluidArrIter):
    print('enum: ', i)
    print('current val: ', v)
    print('current ind: ', fluidArrIter.currentIndex)
    print(fluidArr)
    fluidArr.insert(0,'a')
    print(' ')

print('Final List Value: ' + str(fluidArr))

This will output the following:

enum:  0
current val:  0
current ind:  0
[0, 1, 2, 3]

enum:  1
current val:  1
current ind:  2
['a', 0, 1, 2, 3]

enum:  2
current val:  2
current ind:  4
['a', 'a', 0, 1, 2, 3]

enum:  3
current val:  3
current ind:  6
['a', 'a', 'a', 0, 1, 2, 3]

Final List Value: ['a', 'a', 'a', 'a', 0, 1, 2, 3]

The FluidIterable class just provides a wrapper for the original list object. The original object can be accessed as a property of the fluid object like so:

originalList = fluidArr.fixedIterable

More examples / tests can be found in the if __name__ is "__main__": section at the bottom of fluidIter.py. These are worth looking at because they explain what happens in various situations. Such as: Replacing a large sections of the list using a slice. Or using (and modifying) the same iterable in nested for loops.

As I stated to start with: this is a complicated solution that will hurt the readability of your code and make it more difficult to debug. Therefore other solutions such as the list comprehensions mentioned in David Raznick's answer should be considered first. That being said, I have found times where this class has been useful to me and has been easier to use than keeping track of the indices of elements that need deleting.


Edit: As mentioned in the comments, this answer does not really present a problem for which this approach provides a solution. I will try to address that here:

List comprehensions provide a way to generate a new list but these approaches tend to look at each element in isolation rather than the current state of the list as a whole.

i.e.

newList = [i for i in oldList if testFunc(i)]

But what if the result of the testFunc depends on the elements that have been added to newList already? Or the elements still in oldList that might be added next? There might still be a way to use a list comprehension but it will begin to lose it's elegance, and for me it feels easier to modify a list in place.

The code below is one example of an algorithm that suffers from the above problem. The algorithm will reduce a list so that no element is a multiple of any other element.

randInts = [70, 20, 61, 80, 54, 18, 7, 18, 55, 9]
fRandInts = FluidIterable(randInts)
fRandIntsIter = fRandInts.__iter__()
# for each value in the list (outer loop)
# test against every other value in the list (inner loop)
for i in fRandIntsIter:
    print(' ')
    print('outer val: ', i)
    innerIntsIter = fRandInts.__iter__()
    for j in innerIntsIter:
        innerIndex = innerIntsIter.currentIndex
        # skip the element that the outloop is currently on
        # because we don't want to test a value against itself
        if not innerIndex == fRandIntsIter.currentIndex:
            # if the test element, j, is a multiple 
            # of the reference element, i, then remove 'j'
            if j%i == 0:
                print('remove val: ', j)
                # remove element in place, without breaking the
                # iteration of either loop
                del fRandInts[innerIndex]
            # end if multiple, then remove
        # end if not the same value as outer loop
    # end inner loop
# end outerloop

print('')
print('final list: ', randInts)

The output and the final reduced list are shown below

outer val:  70

outer val:  20
remove val:  80

outer val:  61

outer val:  54

outer val:  18
remove val:  54
remove val:  18

outer val:  7
remove val:  70

outer val:  55

outer val:  9
remove val:  18

final list:  [20, 61, 7, 55, 9]
share|improve this answer
    
It's hard to tell whether this is over-engineered because it's unclear what problem it's trying to solve; what does removing elements using this approach achieve that some_list[:] = [x for x in some_list if not some_condition(x)] doesn't achieve? Without an answer to that, why should anyone believe that downloading and using your 600-line library complete with typos and commented-out code is a better solution to their problem than the one-liner? -1. – Mark Amery Jun 21 at 22:47
    
@MarkAmery. The main use case for when this is when trying to determine if an item should be removed (or added or moved) based not on just the item itself, but on the state of another item in the list or the state of the list as a whole. For example, it is not possible with list comprehensions to write something like some_list[:] = [x for x in some_list if not some_condition(y)] where y is a different list element from x. Nor would it be possible to write some_list[:] = [x for x in some_list if not some_condition(intermediateStateOf_some_list)]. – Resonance Jun 28 at 13:27

It's better to iterate through copy of the original list.To avoid unnecessary iterations and errors

bullets=[1,2,3,4,5] #list
for bullet in bullets.copy():
    if bullet<4:             #could be any statement 
        bullets.remove(bullet)

print(bullets)  #>>[5]
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