# Python list.remove() skips next element in list

Python, but not programming, newbie here. I'm programming with lists and have run into an interesting problem.

``````width = 2
height = 2

# Traverse the board
def traverse(x, y):
# The four possible directions
squares = [(x - 1, y), (x + 1, y), (x, y - 1), (x, y + 1)]
print squares

# Remove impossible squares
for square in squares:
print "now accessing", square
if (square[0] < 1 or square[0] > width or
square[1] < 1 or square[1] > height or
square == (1, height)):
squares.remove(square)
print "removed", square
print(squares)

# Testing traverse
traverse(1,1)
``````

This results in the following output:

``````[(0, 1), (2, 1), (1, 0), (1, 2)]
now accessing (0, 1)
removed (0, 1)
now accessing (1, 0)
removed (1, 0)
[(2, 1), (1, 2)]
``````

It completely skips the elements (2,1) and (1,2) -- without even checking them! I found answers here saying I shouldn't be modifying a list while traversing it, and yup, that definitely makes sense. Rookie mistake. But can someone tell me WHY it doesn't work? What's behind the veil of Python lists?

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I would assume Python internally keeps track of the ordinal position in the list, and removing an item shifts that position down by one. – Mike Christensen Jan 10 '13 at 21:40
I'm surprised this works at all. I could have sworn that altering an iterable while iterating it raises an exception. – Silas Ray Jan 10 '13 at 21:41
I think you have the same issue as covered in this SO question: Remove items from a list while iterating in Python – fiz Jan 10 '13 at 21:43
@sr2222 For some types, such as `dict`, it does (though I think it's only a heuristic that can fail). Detecting this, without slowing down to a crawl, is pretty hard. – delnan Jan 10 '13 at 21:44
@sr2222: you can occasionally get `Set changed size during iteration` errors; likewise with `dict`s and `deque`s. Maybe that's what you're thinking of. – DSM Jan 10 '13 at 21:45

The statement `for square in squares` just visits each item in the list in order: `squares[0]`, then `squares[1]`, then `squares[2]`, and so on until it runs out of squares.

Removing `squares[0]` shifts all the other items in the list to the left one slot; the original `squares[1]` is now `squares[0]`, so the for loop will skip over it.

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That definitely makes sense. Something I should've forseen. :) Thanks for the quick response! To fix, instead of removing from this list, I just add the ones I want to keep to a new list. Problem solved! – yuechen Jan 10 '13 at 21:43

Others have explained that you should not remove elements from an array you are iterating over; however, if you traverse the array backwards, there is no problem.

The most compact way to solve this problem (assuming you don't need a copy of the original array after you are done) is to use the `reversed()` function, as in

`for square in reversed(squares)`

This will start iterating from the end of the array, and work backwards. Taking out elements in this way will not affect the rest of the code, since you are not changing the order of elements you have not yet visited. I think this is the most elegant way to solve this. I learnt this trick here

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Yup, this one worked perfectly! – Juha Untinen May 25 at 8:20

You are removing from a list while iterating over it. This is not a good idea.
There are other ways to do what you are trying, one of which is to track the list indices of all items that you want to remove from the list and then remove them outside your for-loop

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Don't modify lists that you are iterating over!

``````for square in squares[:]:
``````

so that you're iterating over a copy of the list while still changing the original.

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When you are accessing a list in Python and remove an element, the list becomes shorter. Simple example: take the list 1,2,3,4,5, and remove the prime numbers > 1.
If you look at the second element (2) and decide to remove it, you end up with a list that goes 1,3,4,5 Now you look at the third element (you have already looked at the second one), and you find it's 4. That's not prime, so you go to the fifth element - 5. Remove it.
Result: you have 1,3,4,5. If you had started from the other end of the array, things would work just fine. Make sense?

EDIT: I have created another answer below - other posters gave a better explanation of the problem than I gave here, but I think I have a more elegant solution.

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