# how to split a list in two at the point where predicate is first False

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):
first.append(item)
else:
true_so_far = False
second.append(item)
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):
it = iter(seq)
for i in it:
if not pred(i):
else:
``````

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)

-

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)
...     for i in it:
...         if pred(i):
...         else:
...             tail = itertools.chain([i], it)
...             break
...
>>> a, b = bisect_iter_to_iter(str.isalpha, iter(l))
>>> list(a)
['a', 'b', 'c']
>>> list(b)
['1', 'a', '2', 'b']
``````
-
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

``````def split_at_first_false(pred, seq):
for i, item in enumerate(seq):
if not pred(item):
return seq[:i], seq[i:]
``````
-
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

``````def split_at_first_false(pred, seq):
pos = 0
for item in seq:
if not pred(item):
return seq[:pos], seq[pos:]
pos += 1
``````
-

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):
second.append(item)
break
first.append(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
second.extend(seq)

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, [])
``````

Prints:

``````([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.

-

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:]
index+=1
``````
-

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, []
``````
-