How can I do thing like this in python?

foo = somevalue
previous = next = 0

for (i=1; i<objects.length(); i++) {
    if (objects[i]==foo){
        previous = objects[i-1]
        next = objects[i+1]
  • What should happen if foo is at the start or end of the list? Currently, this will go out of the bounds of your array. – Brian Jun 18 '09 at 10:34
  • 1
    if you need the first occurrence of "foo", then do "break" from the "for" block when matched. – van Jun 18 '09 at 11:11

This should do the trick.

foo = somevalue
previous = next_ = None
l = len(objects)
for index, obj in enumerate(objects):
    if obj == foo:
        if index > 0:
            previous = objects[index - 1]
        if index < (l - 1):
            next_ = objects[index + 1]

Here's the docs on the enumerate function.

  • 12
    But probably best practice not to use 'next' as your variable name, since it's a built-in function. – mkosmala Sep 1 '15 at 18:40
  • 1
    The edited version of this is still not logically sound: At the end of the loop obj and next_ will be the same object for the last iteration, which may have unintended side effects. – TemporalWolf Dec 5 '17 at 22:01

Solutions until now only deal with lists, and most are copying the list. In my experience a lot of times that isn't possible.

Also, they don't deal with the fact that you can have repeated elements in the list.

The title of your question says "Previous and next values inside a loop", but if you run most answers here inside a loop, you'll end up iterating over the entire list again on each element to find it.

So I've just created a function that. using the itertools module, splits and slices the iterable, and generates tuples with the previous and next elements together. Not exactly what your code does, but it is worth taking a look, because it can probably solve your problem.

from itertools import tee, islice, chain, izip

def previous_and_next(some_iterable):
    prevs, items, nexts = tee(some_iterable, 3)
    prevs = chain([None], prevs)
    nexts = chain(islice(nexts, 1, None), [None])
    return izip(prevs, items, nexts)

Then use it in a loop, and you'll have previous and next items in it:

mylist = ['banana', 'orange', 'apple', 'kiwi', 'tomato']

for previous, item, nxt in previous_and_next(mylist):
    print "Item is now", item, "next is", nxt, "previous is", previous

The results:

Item is now banana next is orange previous is None
Item is now orange next is apple previous is banana
Item is now apple next is kiwi previous is orange
Item is now kiwi next is tomato previous is apple
Item is now tomato next is None previous is kiwi

It'll work with any size list (because it doesn't copy the list), and with any iterable (files, sets, etc). This way you can just iterate over the sequence, and have the previous and next items available inside the loop. No need to search again for the item in the sequence.

A short explanation of the code:

  • tee is used to efficiently create 3 independent iterators over the input sequence
  • chain links two sequences into one; it's used here to append a single-element sequence [None] to prevs
  • islice is used to make a sequence of all elements except the first, then chain is used to append a None to its end
  • There are now 3 independent sequences based on some_iterable that look like:
    • prevs: None, A, B, C, D, E
    • items: A, B, C, D, E
    • nexts: B, C, D, E, None
  • finally izip is used to change 3 sequences into one sequence of triplets.

Note that izip stops when any input sequence gets exhausted, so the last element of prevs will be ignored, which is correct - there's no such element that the last element would be its prev. We could try to strip off the last elements from prevs but izip's behaviour makes that redundant

Also note that tee, izip, islice and chain come from the itertools module; they operate on their input sequences on-the-fly (lazily), which makes them efficient and doesn't introduce the need of having the whole sequence in memory at once at any time.

In python 3, it will show an error while importing izip,you can use zip instead of izip. No need to import zip, it is predefined in python 3 - source

  • 3
    Nice solution. Like the unpacking. – Skurmedel Jun 18 '09 at 11:31
  • 2
    The solution calls for an explanation of tee, islice, chain, and izip.. – Lakshman Prasad Jun 18 '09 at 11:37
  • 3
    @becomingGuru: it isn't necessary to turn SO into a mirror of the Python reference docs. All these functions are very nicely explained (with examples) in the official documentation – Eli Bendersky Jun 19 '09 at 4:52
  • 6
    @LakshmanPrasad I'm in a wiki mood so I've added some explanations :-). – Kos Jul 9 '12 at 21:39
  • 5
    It might be worth mentioning that in Python 3 izip can be replaced with the built-in zip function ;-) – Tomasito665 Feb 21 '17 at 7:17

Using a list comprehension, return a 3-tuple with current, previous and next elements:

three_tuple = [(current, 
                my_list[idx - 1] if idx >= 1 else None, 
                my_list[idx + 1] if idx < len(my_list) - 1 else None) for idx, current in enumerate(my_list)]
  • 1
    Awsome! Don't understand why this wasn't upvoted. :) – buhtz Jun 12 '17 at 11:52

Here's a version using generators with no boundary errors:

def trios(input):
    input = iter(input) # make sure input is an iterator
        prev, current = input.next(), input.next()
    except StopIteration:
    for next in input:
        yield prev, current, next
        prev, current = current, next

def find_prev_next(objects, foo):
    prev, next = 0, 0
    for temp_prev, current, temp_next in trios(objects):
        if current == foo:
            prev, next = temp_prev, temp_next
    return prev, next

print find_prev_next(range(10), 1)
print find_prev_next(range(10), 0)
print find_prev_next(range(10), 10)
print find_prev_next(range(0), 10)
print find_prev_next(range(1), 10)
print find_prev_next(range(2), 10)

Please notice that the boundary behavior is that we never look for "foo" in the first or last element, unlike your code. Again, the boundary semantics are strange...and are hard to fathom from your code :)


using conditional expressions for conciseness for python >= 2.5

def prenext(l,v) : 
   return l[i-1] if i>0 else None,l[i+1] if i<len(l)-1 else None

# example
>>> (2,4)
>>> (None,2)
>>> (8,None)

You could just use index on the list to find where somevalue is and then get the previous and next as needed:

def find_prev_next(elem, elements):
    previous, next = None, None
    index = elements.index(elem)
    if index > 0:
        previous = elements[index -1]
    if index < (len(elements)-1):
        next = elements[index +1]
    return previous, next

foo = 'three'
list = ['one','two','three', 'four', 'five']

previous, next = find_prev_next(foo, list)

print previous # should print 'two'
print next # should print 'four'


AFAIK this should be pretty fast, but I didn't test it:

def iterate_prv_nxt(my_list):
    prv, cur, nxt = None, iter(my_list), iter(my_list)
    next(nxt, None)

    while True:
            if prv:
                yield next(prv), next(cur), next(nxt, None)
                yield None, next(cur), next(nxt, None)
                prv = iter(my_list)
        except StopIteration:

Example usage:

>>> my_list = ['a', 'b', 'c']
>>> for prv, cur, nxt in iterate_prv_nxt(my_list):
...    print prv, cur, nxt
None a b
a b c
b c None

Using generators, it is quite simple:

signal = ['→Signal value←']
def pniter( iter, signal=signal ):
    iA = iB = signal
    for iC in iter:
        if iB is signal:
            iB = iC
            yield iA, iB, iC
        iA = iB
        iB = iC
    iC = signal
    yield iA, iB, iC

if __name__ == '__main__':
    print('test 1:')
    for a, b, c in pniter( range( 10 )):
        print( a, b, c )
    print('\ntest 2:')
    for a, b, c in pniter([ 20, 30, 40, 50, 60, 70, 80 ]):
        print( a, b, c )
    print('\ntest 3:')
    cam = { 1: 30, 2: 40, 10: 9, -5: 36 }
    for a, b, c in pniter( cam ):
        print( a, b, c )
    for a, b, c in pniter( cam ):
        print( a, a if a is signal else cam[ a ], b, b if b is signal else cam[ b ], c, c if c is signal else cam[ c ])
    print('\ntest 4:')
    for a, b, c in pniter([ 20, 30, None, 50, 60, 70, 80 ]):
        print( a, b, c )
    print('\ntest 5:')
    for a, b, c in pniter([ 20, 30, None, 50, 60, 70, 80 ], ['sig']):
        print( a, b, c )
    print('\ntest 6:')
    for a, b, c in pniter([ 20, ['→Signal value←'], None, '→Signal value←', 60, 70, 80 ], signal ):
        print( a, b, c )

Note that tests that include None and the same value as the signal value still work, because the check for the signal value uses "is" and the signal is a value that Python doesn't intern. Any singleton marker value can be used as a signal, though, which might simplify user code in some circumstances.


Pythonic and elegant way:

objects = [1, 2, 3, 4, 5]
value = 3
if value in objects:
   index = objects.index(value)
   previous_value = objects[index-1]
   next_value = objects[index+1] if index + 1 < len(objects) else None
  • 4
    next is a built-in function in Python and you override it. – Psytho Oct 15 '15 at 14:52
  • Nice point. Edited. Thanks! – ImportError Oct 16 '15 at 8:35
  • 1
    It will fail if value is at the end. Also, returns last element as previous_value if value is the first one. – Trang Oul Apr 27 '16 at 13:24
  • Its depends on your requirements. Negative index from previous_value will return last element from list and next_value will raise IndexError and thats error – ImportError Apr 27 '16 at 14:18
  • I have been looking this method for quite sometimes..now I get it..thanks @ImportError. Now I can expand my script nicely.. – Azam May 17 '18 at 14:12

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