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Maybe I've been drinking too much of the functional programming Kool Aid, but this behavior of list comprehensions seems like a bad design choice:

>>> d = [1, 2, 3, 4, 5]
>>> [d.pop() for _ in range(len(d))]
[5, 4, 3, 2, 1]
>>> d

Why is d not copied, and then the copied lexically-scoped version not mutated (and then lost)? The point of list comprehensions seems like it should be to return the desired list, not return a list and silently mutate some other object behind the scenes. The destruction of d is somewhat implicit, which seems unPythonic. Is there a good use case for this?

Why is it advantageous to have list comps behave exactly like for loops, rather than behave more like functions (from a functional language, with local scope)?

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as a nitpick: for _ in range(len(d)) is really un-pythonic –  msw Aug 21 '10 at 20:32
@msw - I agree. I've never seen that construct before. The use of _ as a variable name for a placeholder is something I've only seen in functional programming. –  Omnifarious Aug 21 '10 at 20:34
@Omnifarious: I think msw was referring to for _ range(len(d)). The more Pythonic approach is for _ in d. _ is a reasonably common convention for unused variables, but doesn't play well at the Python interactive prompt. –  dan04 Aug 21 '10 at 20:36
And what should this do? f = lambda: d.pop() ; [f() for _ in range(len(d))] –  user97370 Aug 21 '10 at 20:50
@dan04 - There is a really good reason it's being done that way here. IMHO, the real issue is the placeholder variable. It screams "This list comprehension isn't what you think it is!" because there is no good reason you would iterate through something and throw the values away ordinarily. –  Omnifarious Aug 21 '10 at 20:54
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13 Answers 13

up vote 19 down vote accepted

Python never does copy unless you specifically ask it to do a copy. This is a perfectly simple, clear, and totally understandable rule. Putting exceptions and distinguos on it, such as "except under the following circumstances within a list comprehension...", would be utter folly: if Python's design had ever been under the management of somebody with such crazy ideas, Python would be a sick, contorted, half-broken language not worth learning. Thanks for making me happy all over again in the realization that is is definitely not the case!

You want a copy? Make a copy! That's always the solution in Python when you prefer a copy's overhead because you need to perform some changes that must not be reflected in the original. That is, in a clean approach, you'd do

dcopy = list(d)
[dcopy.pop() for _ in range(len(d))]

If you're super-keen to have everything within a single expression, you can, though it's possibly not code one would call exactly "clean":

[dcopy.pop() for dcopy in [list(d)] for _ in range(len(d))]

i.e., the usual trick one uses when one would really like to fold an assignment into a list comprehension (add a for clause, with the "control variable" being the name you want to assign to, and the "loop" is over a single-item sequence of the value you want to assign).

Functional languages never mutate data, therefore they don't make copies either (nor do they need to). Python is not a functional language, but of course there's a lot of things you can do in Python "the functional way", and often it's a better way. For example, a much better replacement for your list comprehension (guaranteed to have identical results and not affect d, and vastly faster, more concise, and cleaner):


(AKA "the Martian Smiley", per my wife Anna;-). Slicing (not slice assignment, which is a different operation) always perform a copy in core Python (language and standard library), though of course not necessarily in independently developed third party modules like the popular numpy (which prefers to see a slice as a "view" on the original numpy.array).

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This does not at all answer the OPs question and is only peripherally related. –  Omnifarious Aug 21 '10 at 21:03
Thanks Alex, this makes sense. I see the balance now Python struck (correct me if I'm wrong): mutating objects in list comps could lead to awkward implicit code (as my example attempted to illustrate), but any implicit code dreamt up by a coder can't come close to the damage done by implicitly doing copies in some places, but not others by the core language. –  Vince Aug 21 '10 at 21:06
Why does she call it the "Martian smiley?" –  NullUserException Aug 21 '10 at 21:13
@Omnifarious, peculiar, isn't it, that the OP (who should know better than you whether your assertions are valid) appears to disagree with you (I disagree with you vehemently on both counts, of course), judging from his "this makes sense" and "I see the balance". I guess I don't need to explain why I totally disagree from your assertions (indeed I consider them so utterly wrong and unfounded as to border on "crazy")... –  Alex Martelli Aug 21 '10 at 21:16
@Omnifarious, as you say, you definitely "ought to have read more carefully" before criticizing and down-voting -- but clearly, despite your "can't be bothered to read" behavior, you still believe you're somehow better, smarter, and more perceptive about (and against) me, than "the rest of the population" (and, I assume, the readers that made my books best-sellers, the writers who queue to have me tech-edit their books, the conference organizers who invite me to talk or keynote, etc;-). Now, does this say anything about me, or, rather, does this say it about you?-) –  Alex Martelli Aug 21 '10 at 21:57
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In this expression:

[d.pop() for _ in range(len(d))]

what variable do you want to be implicitly copied or scoped? The only variable here with any kind of special status in the comprehension is _, which isn't the one you want protected.

I don't see how you could give list comprehensions semantics that could somehow identify all of the mutable variables involved, and somehow implicitly copy them. Or to know that .pop() changes its object?

You mention functional languages, but they accomplish what you want by making all variables immutable. Python simply isn't designed that way.

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Why should it create a (possibly very expensive) copy, when idiomatic code won't have side effects anyway? And why should the (rare, but existing) use cases where side effects are desired (and ok) be prohibited?

Python is first and foremost an imperative language. Mutable state is not only permitted, but essential - yeah, list comprehensions are intended to be pure, but if that was enforced, it would be asynch with the semantics of the rest of the language. So d.pop() mutates d, but only if it's not in a list comprehension and if the stars are right? That would be pointless. You're free (and supposed) not to make use of it, but nobody's going to set more rules in stone and make the feature more complex - idiomatic code (and that's the only code anyone should care about ;) ) doesn't need such a rule. It does so anyway, and does otherwise if needed.

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d isn't copied because you didn't copy it and lists are mutable and pop contractually manipulates the list.

If you'd used a tuple, it would not have mutated:

>>> x = (1, 2, 3, 4)
>>> type(x)
<type 'tuple'>
>>> x.pop()
AttributeError: 'tuple' object has no attribute 'pop'
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I agree that tuples solve the problem... and not copying d was not because I'm unaware on copying objects in Python. I just wonder why it's advantageous to have list comps behave exactly like for loops, rather than behave more like functions (with local scope). –  Vince Aug 21 '10 at 20:32
Even if it was passed to a function, it would be a reference so any methods called on it would still mutate the original object. –  Skilldrick Aug 21 '10 at 20:36
Good question, so I hoisted it into the question body for you. In most other languages I'd be tempted to say "historical accident", but van Rossum and crew are usually more considered than that. –  msw Aug 21 '10 at 20:38
True. And I guess Python really isn't trying to be functional. The issue though is that people constantly talk about list comprehensions as functional tools, but the openness for side-effects is huge. –  Vince Aug 21 '10 at 20:40
@Vince, why are you saying that a function wouldn't modify a list? it happens all the time. see my answer. –  aaronasterling Aug 21 '10 at 20:48
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Why is it advantageous to have list comps behave exactly like for loops,

Because it's least surprising.

rather than behave more like functions (with local scope)?

What are you talking about? Functions can mutate their arguments:

>>> def mutate(d):
...     d.pop()
>>> d = [1, 2, 3, 4, 5]
>>> mutate(d)
>>> d
[1, 2, 3, 4]

I see no inconsistency at all.

What you seem not to recognize is that Python is not a functional language. It's an imperative language that happens to have a few functional-like features. Python allows objects to be mutable. If you don't want them mutated, then just don't call methods like list.pop that are documented to mutate them.

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You seem to be misunderstanding functions:

def fun(lst):
    for _ in range(len(lst)):

will have exactly the same effect as

(lst.pop() for _ in range(len(lst)))

This is because lst is not 'the' list but a reference to it. When you pass that reference around, it stays pointing to the same list. If you want the list copied, simply use lst[:]. If you want to copy its contents as well, use copy.deepcopy from the copy module.

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Functions in a functional programming language. –  Vince Aug 21 '10 at 20:52
My preferred way to copy a list is to do lst[:]. –  Skilldrick Aug 21 '10 at 20:54
@Vince Is lisp considered functional? in Lisp, you have to explicitly rebind a passed in argument using a let form to get the sort of behavior you're talking about. That's why you customarily append ! to the end of function names that don't do this. The ability to write a function that modifies its input is a feature in that it allows you to operate on very large lists that would be expensive to copy. Side effects are not bad as long as they are known and isolated. –  aaronasterling Aug 21 '10 at 22:03
@Skilldrick, right, I always forget about that for some reason. Keep reminding me ;) It will sink in. –  aaronasterling Aug 21 '10 at 22:05
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Of course there is (e.g., queue processing). But clearly what you have shown isn't one.

Python, like any programming language worth using, does exactly what you tell it to, no more and no less. If you want it to do something else, then tell it to do something else.

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It's really poor form to go around down-modding without saying why. At time of writing this, three answers have been down modded (including this answer) and there have been no explanations. –  MattH Aug 21 '10 at 21:35
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Python is not a functional language and never will be. Therefore, when you use a list comprehension, you can alter the state of unrelated data structures. This cannot be reasonably prevented, and measures such as the one you describe would only help the particular case you highlighted.

In general, it's up to the person using a list comprehension to write code that is fairly easy to understand and as free of side-effects as possible. I consider the code you posted to be bad programming style and a dumb way to create a reversed list when list.reverse exists.

Though, I suppose if the list you're popping from in that example is a queue that can be added to by the queue processing code (i.e. something much more complicated than d.pop()) or by another thread, then the code is sort of a reasonable way to do things. Though I really think it ought to be a loop and not a list comprehension.

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A down-mod with no comment. Woohoo! –  Omnifarious Aug 21 '10 at 21:14
Sorry, the down-mod was me. The code was intentionally trivial and bad, yet you suggest list.reverse. It gave me the sense you didn't read my question - as I stated many times, I was not trying to build a list reverser, but in fact asking about Python design choices. –  Vince Aug 21 '10 at 23:24
@Vince - I knew you weren't trying to build a list reverser, and you were asking a more general question. Really, only the first paragraph directly addressed your question. The middle paragraph was basically "Don't do that!". And the last paragraph tried to come up with a use case for why you might even want to write code that looked like that. :-) –  Omnifarious Aug 22 '10 at 0:38
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Are you saying that you want methods to behave differently depending on the execution context? Sounds really dangerous to me.

It's a good thing that a method called on a Python object will always do the same thing - I'd be worried about using a language where calling a method inside some kind of syntactic construction caused it to behave differently.

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Not the methods... the object it's acting on, hence the phrase lexically-scoped. –  Vince Aug 21 '10 at 20:37
Amen! I hate languages like MATLAB where the behavior of f in x, y = f(z) can depend on x and y. –  dan04 Aug 21 '10 at 20:40
I'd be interested to know what's incorrect about this answer... –  Skilldrick Aug 21 '10 at 21:09
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There's always a way to not mutate the list when using list comprehensions. But you can mutate the list too, if that's what you want. In your case, for example:

c = [a for a in reversed(d)]
c = d[::-1]
c = [d[a] for a in xrange(len(d)-1, -1, -1)]

will all give you a reversed copy of the list. While


will reverse the list in place.

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Why is d not copied, and then the copied lexically-scoped version not mutated (and then lost)?

Because python is an object oriented programming language and doing so would be an incredibly bad idea. Everything is an object.

What makes you think it's possible to create "lexically scoped copies" of arbitrary objects?

Being able to call pop on an object doesn't mean it's possible to copy it. It might access a file handle, a network socket or an instruction queue for a space probe orbiting Saturn.

Why is it advantageous to have list comps behave exactly like for loops, rather than behave more like functions (with local scope)?

  1. Because it creates concise, readable code.
  2. As everyone else has pointed out, functions don't work in the way you appear to think they do. They don't do this "lexically scoped copies" thing either. I think you're getting confused with local assignment.

I recommend having a read of the articles here: http://www.cafepy.com/article/python_types_and_objects/python_types_and_objects.html

They are very informative about how python works.

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Would the down-modder have the good grace to explain what is wrong with this answer? –  MattH Aug 21 '10 at 21:54
There's a lot of that going on here :P –  Skilldrick Aug 21 '10 at 22:48
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I'm not sure what you're asking. Maybe you're asking if d.pop() should return a copy instead of mutating itself. (That has nothing at all to do with list comprehensions.) The answer to that is no, of course not: that would turn it from an O(1) operation to O(n), which would be a catastrophic design flaw.

As for list comprehensions, nothing stops expressions within them from calling functions with side-effects. It's not the fault of list comprehensions if you misuse them. It's not the job of language design to forcefully prevent programmers from doing confusing things.

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dan04 has the right answer, and for comparison, here's a little Haskell...

[print s | s <- ["foo", "bar", "baz"]]

Here you have a side effect (printing) right in the middle of a list comprehension in Haskell. Haskell is lazy, so you have to explicitly run it with sequence_:

main = sequence_ [print s | s <- ["foo", "bar", "baz"]]

But that's practically the same as Python's

_ = list(print(s) for s in ["foo", "baz", "baz"])

Except that Haskell wraps the _ = list... idiom in function named sequence_.

List comprehensions don't have anything to do with preventing side effects. It's just unexpected to see them there. And you can hardly get more 'functional' than Haskell, so the answer "Python is an imperative language" isn't quite right in this context.

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