# Python list comprehension with complex data structures

I'm trying to flatten some mixed arrays in Python using LC. I'm having some trouble figuring out how to structure it.

Here's the array's i'm trying to flatten

``````arr_1 = [1, [2, 3], 4, 5]
arr_2 = [1,[2,3],[[4,5]]]
``````

I tried this methods for arr_1 but get "TypeError: 'int' object is not iterable"

``````print([item if type(items) is list else items for items in arr_1 for item in items])
``````

So I decided to break it into parts to see where it's failing by using this

``````def check(item):
return item;

print([check(item) if type(items) is list else check(items) for items in [1, [2, 3], 4, 5] for items in arr_2])
``````

Through the debugger I found that it's failing at the 2d array in

``````for items in [1, [2, 3], 4, 5]
``````

I don't need the LC to be in one line but I just wanted to know how to do it in a single nested LC if its even possible.

• So, just to be sure: this is purely for academic purposes and not for real work, right? :D Apr 5, 2022 at 20:55
• There probably isn't a clean way to do this. Apr 5, 2022 at 20:57
• This simply can't be done in nested list comprehensions without some recursion variant. That's clean. You may be able to do it in one list comprehension via bytecode manipulation, but that's about as unclean as it gets. Proof of the first statement: For any finite-depth nested list comprehension, it's possible to produce a more deeply nested sequence.
– Mous
Apr 5, 2022 at 21:06
• @Mous Did I disprove your statement? Or would you consider that "some recursion variant"? Apr 5, 2022 at 21:21
• I think you did, yes. That's impressive. Please don't use this in production.
– Mous
Apr 5, 2022 at 21:24

Using an internal stack and `iter`'s second form to simulate a `while` loop:

``````def flatten(obj):
return [x
for stack in [[obj]]
for x, in iter(lambda: stack and [stack.pop()], [])
if isinstance(x, int)
or stack.extend(reversed(x))]

print(flatten([1, [2, 3], 4, 5]))
print(flatten([1, [2, 3], [[4, 5]]]))
print(flatten([1, [2, [], 3], [[4, 5]]]))
``````

Output (Try it online!):

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

Slight variation, splitting the "long" line into two (Try it online!):

``````def flatten(obj):
return [x
for stack in [[obj]]
for _ in iter(lambda: stack, [])
for x in [stack.pop()]
if isinstance(x, int)
or stack.extend(reversed(x))]
``````

To explain it a bit, here's roughly the same with ordinary code:

``````def flatten(obj):
result = []
stack = [obj]
while stack:
x = stack.pop()
if isinstance(x, int):
result.append(x)
else:
stack.extend(reversed(x))
return result
``````

If the order doesn't matter, we can use a queue instead (inspired by 0x263A's comment), although it's less memory-efficient (Try it online!):

``````def flatten(obj):
return [x
for queue in [[obj]]
for x in queue
if isinstance(x, int) or queue.extend(x)]
``````

We can fix the order if instead of putting each list's contents at the end of the queue, we insert them right after the list (which is less time-efficient) in the "priority" queue (Try it online!):

``````def flatten(obj):
return [x
for pqueue in [[obj]]
for i, x in enumerate(pqueue, 1)
if isinstance(x, int) or pqueue.__setitem__(slice(i, i), x)]
``````
• I'm curious how this works, could you add an explanation?
– Mous
Apr 5, 2022 at 21:25
• @Mous Added an ordinary code version of it, does it suffice? Apr 5, 2022 at 21:31
• Not going to post this as an answer since it wont always maintain the order of the original list, but if you don't care about order this will flatten any list of lists/ints. `def flatten(arr): return [num for lst in [[obj] if isinstance(obj, int) else [obj.extend(el) if isinstance(el, list) else el for el in obj] for obj in arr[::]] for num in lst if num != None]`. Similar approach to the above answer, but uses list objects in arr as queues. Still a fun exercise! May 12, 2022 at 12:41
• @0x263A Yeah, for example for input list `[[, 2]]`, it returns the wrong order `[2, 1]` and it has the side effect of modifying the input list to `[[, 2, 1]]`. That's not good. May 12, 2022 at 13:37
• @0x263A But you inspired me to write another queue solution which ended up inspiring the second solution that I just added to the answer :-) May 12, 2022 at 13:52