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I keep thinking there should be a function for this, but I've searched the likely places (google, itertools docs, list methods, other SO questions), but nowhere found quite what I was looking for.

Naive and working implementation:

def split_at_first_false(pred, seq):
    first = []
    second = []
    true_so_far = True
    for item in seq:
        if true_so_far and pred(item):
            true_so_far = False
    return first, second

print split_at_first_false(str.isalpha, "abc1a2b")
# (['a', 'b', 'c'], ['1', 'a', '2', 'b'])

It works, but it doesn't feel right. There should be a better way to do this!

EDIT: I ended up with using a slightly modified version of senderle's final suggestion after reviewing the answers:

from itertools import chain

def split_at_pred(pred, seq):
    head = []
    it = iter(seq)
    for i in it:
        if not pred(i):
            return iter(head), chain([i], it)
    return iter(head), iter([])

It's short and elegant, output is two iterators no matter the input (strings, lists, iterators), and as a bonus, it even works with the following input:

from itertools import count
split_at_pred(lambda x: x == 5, count())

The other solutions, those that work at all with iterators, will run out of memory with this input. (Note that this is just a bonus. Infinite iterators was something I hadn't even considered when I wrote this question)

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6 Answers 6

up vote 9 down vote accepted

This seems like a job for itertools.

>>> first = list(itertools.takewhile(str.isalpha, l))
>>> second = list(itertools.dropwhile(str.isalpha, l))
>>> first
['a', 'b', 'c']
>>> second
['1', 'a', '2', 'b']

This needs to be altered if l is an iterator rather than a sequence.

>>> def bisect_iter(pred, i):
...     i1, i2 = itertools.tee(i)
...     return itertools.takewhile(pred, i1), itertools.dropwhile(pred, i2)
>>> i1, i2 = bisect_iter(str.isalpha, iter(l))
>>> list(i1)
['a', 'b', 'c']
>>> list(i2)
['1', 'a', '2', 'b']

The downside of tee is that the initial values are cached and tested twice (by both takewhile and dropwhile). That's wasteful. But caching values is unavoidable if you want to both accept and return iterators.

However, if you can return lists from an iterator, I can think of one solution that doesn't make extra copies or tests, and it's very close to yours:

>>> def bisect_iter_to_list(pred, it):
...     l1 = []
...     for i in it:
...         if pred(i):
...             l1.append(i)
...         else:
...             l2 = [i]
...             l2.extend(it)
...     return l1, l2
>>> bisect_iter_to_list(str.isalpha, iter(l))
(['a', 'b', 'c'], ['1', 'a', '2', 'b'])

The only sneaky bit is that where there would normally be a break statement (i.e. after the else clause), I've simply consumed the iterator, causing the for loop to terminate early.

Finally, if you still want to return iterators, but don't want to do extra tests, here's a variation on the above that I believe is optimal.

>>> def bisect_any_to_iter(pred, it):
...     it = iter(it)
...     head = []
...     for i in it:
...         if pred(i):
...             head.append(i)
...         else:
...             tail = itertools.chain([i], it)
...             break
...     return iter(head), tail
>>> a, b = bisect_iter_to_iter(str.isalpha, iter(l))
>>> list(a)
['a', 'b', 'c']
>>> list(b)
['1', 'a', '2', 'b']
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You can avoid that by using itertools.tee. –  Daniel Roseman Jul 13 '11 at 13:37
@Daniel, yep, I was thinking the same thing. But the problem is that itertools.tee caches values, so the values from the first iterator are cached until the second iterator consumes them. That's wasteful. –  senderle Jul 13 '11 at 13:44
Thinking about it more though, you have to use tee if you want to return iterators. If you can return lists from an iterator, then a different solution is in order... –  senderle Jul 13 '11 at 13:48
If you add it = iter(it) to the top of your bisect_iter_to_iter function it will work the same wheter the input is a string, an iterator or a list. :) –  Lauritz V. Thaulow Jul 13 '11 at 14:30
Not necessary to read iterator into a list to pass it to extend, as in listvar.extend(list(iteratorvar)) just pass the iterator: listvar.extend(iteratorvar) –  Paul McGuire Jul 13 '11 at 14:35

How about this?

def split_at_first_false(pred, seq):
    for i, item in enumerate(seq):
        if not pred(item):
            return seq[:i], seq[i:]
share|improve this answer
What if pred(item) never returns False? –  FogleBird Jul 13 '11 at 13:35
I really like this one. Only downside is it doesn't work if seq is an iterator. –  Lauritz V. Thaulow Jul 13 '11 at 13:36
Rename it to split_at_pred, check for pred(item). More natural feeling interface. You can then simply negate the predicate to achieve the same functionality. –  pi. Jul 13 '11 at 13:37
To be honor this code will not produce correct results. Why? Since it will return a tuple of strings! –  Artsiom Rudzenka Jul 13 '11 at 14:09
@Artsiom I did not specify in my question what kind of objects the sequence should be split into. Intuitively, I'd say when a string is used as input, it should output strings as well. Same with lists and iterators -- you get out what you put in. –  Lauritz V. Thaulow Jul 13 '11 at 14:21

What about this?

def split_at_first_false(pred, seq):
    pos = 0
    for item in seq:
        if not pred(item):
            return seq[:pos], seq[pos:]
        pos += 1
share|improve this answer

Don't shy away from iterators, this is a perfect case for using one. Once the first false item is hit, use the same iterator to just fill out the rest of the items into the second list.

def split_at_false(pred, seq):
    # if seq is not already an iterator, make it one
    if not hasattr(seq,'next'):
        seq = iter(seq)

    first, second = [], []
    for item in seq:
        if not pred(item):

    # at this point, seq points to the first item
    # after the false item, just add it and all the 
    # rest to the second list

    return first, second

is_odd = lambda x : x % 2    
print split_at_false(is_odd, [1])    
print split_at_false(is_odd, [1,2,3,4,5])
print split_at_false(is_odd, [2,3,4,5,6])
print split_at_false(is_odd, [])


([1], [])
([1], [2, 3, 4, 5])
([], [2, 3, 4, 5, 6])
([], [])

No tee'ing, no extra list storage, no iterating twice over the list, no slicing, just an iterator.

share|improve this answer

Try that:

 def split_at_first_false(pred, seq):
        index = 0
        while index < len(seq):
            if not pred(seq[index]):
                 return seq[:index], seq[index+1:]
share|improve this answer

Try the following code :

data = "abc1a2b"

def split_at_first_false(pred, seq):
    if not isinstance(seq, list):
       seq = list(seq)
    for i,x in enumerate(seq):
        if not pred(x):
            return seq[:i], seq[i:]
    return seq, []
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