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# Selective flattening of a Python list

Suppose I have a list containing (among other things) sublists of different types:

[1, 2, [3, 4], {5, 6}]

that I'd like to flatten in a selective way, depending on the type of its elements (i.e. I'd like to only flatten sets, and leave the rest unflattened):

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

My current solution is a function, but just for my intellectual curiosity, I wonder if it's possible to do it with a single list comprehension?

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Flattening out the set seems a little funny for a lot of applications since the ordering will be arbitrary (and lists are ordered). – mgilson Oct 26 '12 at 17:30
I totally agree about that, and I gave the issue some thought, but it turns that in my application, this is not an issue. – cjauvin Oct 26 '12 at 17:34

List comprehensions aren't designed for flattening (since they don't have a way to combine the values corresponding to multiple input items).

While you can get around this with nested list comprehensions, this requires each element in your top level list to be iterable.

Honestly, just use a function for this. It's the cleanest way.

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I don't undersdand what you mean by "LC is not designed for flattening": what about the [item for sublist in l for item in sublist] pattern? – cjauvin Oct 26 '12 at 17:14
@cjauvin: The problem here is that the second for item in sublist part requires that the sublists actually be iterable, which isn't the case for the 1 and 2 elements in your collection. To get around this, you have to create single-element iterables out of your scalar elements—which is doable, as senderie shows, but it's questionable whether it's something you should do. – abarnert Oct 26 '12 at 17:27
@cjauvin It's not designed for general-purpose flattening (e.g. flattening things with arbitrary nesting levels). It can be used to transform a consistently N-dimensional set of nested lists into a flat list, but it can't handle a varying-dimensional set of nested lists. – Amber Oct 26 '12 at 17:31

Amber is probably right that a function is preferable for something like this. On the other hand, there's always room for a little variation. I'm assuming the nesting is never more than one level deep -- if it is ever more than one level deep, then you should definitely prefer a function for this. But if not, this is a potentially viable approach.

>>> from itertools import chain
>>> from collections import Set
>>> list(chain.from_iterable(x if isinstance(x, Set) else (x,) for x in l))
[1, 2, [3, 4], 5, 6]

The non-itertools way to do this would involve nested list comprehensions. Better to break that into two lines:

>>> packaged = (x if isinstance(x, collections.Set) else (x,) for x in l)
>>> [x for y in packaged for x in y]
[1, 2, [3, 4], 5, 6]

I don't have a strong intuition about whether either of these would be faster or slower than a straightforward function. These create lots of singleton tuples -- that's kind of a waste -- but they also happen at LC speed, which is usually pretty good.

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Thanks, that's nice solution. Now I have the troublesome issue of deciding which answer to accept.. Amber's opinion that it should be a function (to which I fully agree), or yours, that demonstrates that it's a least possible, which was my initial question.. – cjauvin Oct 26 '12 at 17:27
Well, this one doesn't actually show how do it in a single comprehension; it shows how to do it in an itertools.chain plus a generator expression or a comprehension plus a generator expression… But I think it does show enough that turning it into a nested comprehension is a pretty easy exercise for the reader, so I gave it a +1. – abarnert Oct 26 '12 at 17:29
Well, I certainly won't be offended if you accept Amber's. It's probably the better answer all things considered. – senderle Oct 26 '12 at 17:30

You can use flatten function from funcy library:

from funcy import flatten, isa

flat_list = flatten(your_list, follow=isa(set))

You can also peek at its implementation.

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+1 for the reference to funcy, which seems quite nice – cjauvin Jun 4 '14 at 15:51