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)
    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)]
  • 1
    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
  • 5
    "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
  • 2
    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.


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[0])) 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)

  • 1
    Holy hell that's sneaky. – juanpa.arrivillaga Dec 13 '17 at 22:45
  • 3
    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 supports Monica Dec 13 '17 at 23:18
  • @user2357112 Better now? :-) – Stefan Pochmann Dec 13 '17 at 23:19
  • 1
    @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
  • A little late but could anyone provide some insight as to why using code like this would be bad practice? – MoltenMuffins Apr 17 '19 at 8:26

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 supports Monica 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

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