# List comprehensions in Python with mutable state between iterations

I have something which is an awful lot like a list comprehension in Python, except that it shares mutable state between iterations. Is there any way to do it with a list comprehension?

``````def f(x):
""" 5-bit LFSR """
return (x >> 1) ^ (0x12*(x&1))

def batch(f, x, n):
result = [x]
for _ in xrange(1,n):
x = f(x)
result.append(x)
return result

batch(f, 1, 5)
``````

which returns `[1, 18, 9, 22, 11]`. Here the important thing is the `batch` function, not `f(x)` which is here just a simple example to illustrate the issue.

Alternatively I could implement using a generator:

``````def batch(f, x, n):
yield x
for _ in xrange(1,n):
x = f(x)
yield x

list(batch(f, 1, 5))
``````

But it smells a little awkward. What I'm looking for is something like this...

``````batch = [??? for _ in xrange(n)]
``````
• this smells suspiciously like one of those pesky Haskell monads would be useful, if I could only understand it. – Jason S Dec 13 '17 at 22:23
• "except that it shares mutable state between iterations. Is there any way to do it with a list comprehension" there might be some hacky way, but if it invovles mutating state, then it probably shouldn't be a list-comprehension – juanpa.arrivillaga Dec 13 '17 at 22:29
• Also, "sharing mutable state between iterations" doesn't sound like anything in Haskell. – juanpa.arrivillaga Dec 13 '17 at 22:32
• no, but stateful monads does – Jason S Dec 13 '17 at 22:39
• You could define a recursive generator using `yield from`. – Mad Physicist Dec 13 '17 at 22:40

No. Deliberately no. Eventually they put in `itertools.accumulate`, which is the closest thing to an Officially Recommended way to implement recurrence relations in a functional manner, but it doesn't exist on 2.7. You could copy the "roughly equivalent to" Python implementation from the docs if you want.

• ...or just use my `batch` function. OK, thanks! – Jason S Dec 13 '17 at 22:40

Is there any way to do it with a list comprehension?

What I'm looking for is something like this...

``````batch = [??? for _ in xrange(n)]
``````

Sure, no problem:

``````>>> x = 1
>>> n = 5
>>> [prev.append(f(prev)) or prev.pop(0) for prev in [[x]] for _ in xrange(n)]
[1, 18, 9, 22, 11]
``````

# Note: This is a bad idea. (I pretty much only did this because user2357112 said there is no way)

• Holy hell that's sneaky. – juanpa.arrivillaga Dec 13 '17 at 22:45
• I am not sure whether I should upvote or downvote this... – tobias_k Dec 13 '17 at 22:48
• @tobias_k So do both. But please down first. – Stefan Pochmann Dec 13 '17 at 22:49
• While this is probably the cleanest, best-encapsulated form of state variables in a list comprehension I've seen (no leakage of the state variable into the surrounding scope, at least on Python 3), there's still a reason I didn't post anything like this: every instance of this kind of code on Stack Overflow, getting upvotes, increases the risk that people will think this kind of thing is a good idea and actually use it in their code. – user2357112 Dec 13 '17 at 23:18
• @juanpa.arrivillaga Just figured out another neat way, it just doesn't have that required format with `xrange` at the end: `[q.append(f(x)) or x for q in [[x]] for x in q if len(q) <= n]`. Which one is sneakier? :-) – Stefan Pochmann Dec 29 '17 at 22:23

You could do this in a single line, using e.g. `reduce` (or `functools.reduce` in Python 3):

``````>>> f = lambda x: (x >> 1) ^ (0x12*(x&1))
>>> x, n = 1, 5
>>> functools.reduce(lambda lst, _: lst + [f(lst[-1])], range(1, n), [x])
[1, 18, 9, 22, 11]
``````

But this is not only ugly, but also inefficient, as it will create a new list in each iteration. Or in a similar fashion to Stefan's approach, without creating intermediate lists:

``````>>> functools.reduce(lambda lst, _: lst.append(f(lst[-1])) or lst, range(1, n), [x])
[1, 18, 9, 22, 11]
``````

Or, as already hinted in the other answer, you could use `itertools.accumulate`, which is a lot better, but still a bit of a mis-use, as it actually expects a binary function, whereas here we use neither the second parameter, nor the actual iterable passed into the function, except for the very first value.

``````>>> list(itertools.accumulate([x] * n, lambda y, _: f(y)))
[1, 18, 9, 22, 11]
``````
• While I consider using `itertools.accumulate` for this to be ugly, recurrence relations are explicitly listed as a use case in the `accumulate` docs, with example code. – user2357112 Dec 13 '17 at 22:51
• @StefanPochmann Good point, fixed, but that makes it even uglier. – tobias_k Dec 14 '17 at 8:43
• @tobias_k Well then make it prettier instead :-). If you followed the documentation, you'd use `repeat(x, n)`. And since you're willing to create a list, you could simply use `[x] * n`. – Stefan Pochmann Dec 14 '17 at 10:01
• For `reduce` you could also use `lst.__iadd__([f(lst[-1])])`, though I prefer the `append`+`or lst` (despite it being three characters longer! :-) – Stefan Pochmann Dec 14 '17 at 22:43
• Ha, how about: `reduce(lambda lst, _: lst.append(f(lst[-1])) or lst, [[x]] * n)`. I actually laughed about this one... using the common `[[x]] * n` 2D-list gotcha... but it's ok here because the repeated references are ignored... I think that's just beautiful. – Stefan Pochmann Dec 14 '17 at 22:58