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List comprehensions are having some unexpected interactions with scoping. Is this the expected behaviour?

I've got a method:

def leave_room(self, uid):
  u = self.user_by_id(uid)
  r = self.rooms[u.rid]

  other_uids = [ouid for ouid in r.users_by_id.keys() if ouid != u.uid]
  other_us = [self.user_by_id(uid) for uid in other_uids]

  r.remove_user(uid) # OOPS! uid has been re-bound by the list comprehension above

  # Interestingly, it's rebound to the last uid in the list, so the error only shows
  # up when len > 1

At the risk of whining, this is a brutal source of errors. As I write new code, I just occasionally find very weird errors due to rebinding -- even now that I know it's a problem. I need to make a rule like "always preface temp vars in list comprehensions with underscore", but even that's not fool-proof.

The fact that there's this random time-bomb waiting kind of negates all the nice "ease of use" of list comprehensions.

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-1: "brutal source of errors"? Hardly. Why choose such an argumentative term? Generally the most expensive errors are requirements misunderstandings and simple logic errors. This kind of error has been a standard problem in a lot of programming languages. Why call it 'brutal'? –  S.Lott Nov 16 '10 at 22:54
It violates the principle of least surprise. It's also not mentioned in the python documentation on list comprehensions which does however mention several times how easy and convenient they are. Essentially it's a land-mine that existed outside my language model, and hence was impossible for me to foresee. –  Jabavu Adams Nov 18 '10 at 5:35
+1 for "brutal source of errors". The word 'brutal' is entirely justified. –  Nathaniel Feb 20 '13 at 9:07
The only "brutal" thing I see here is your naming convention. This isn't the 80s any more you're not limited to 3 character variable names. –  UloPe Jun 2 at 11:46

3 Answers 3

up vote 44 down vote accepted

List comprehensions leak the loop control variable in Python 2 but not in Python 3. Here's Guido van Rossum (creator of Python) explaining the history behind this:

We also made another change in Python 3, to improve equivalence between list comprehensions and generator expressions. In Python 2, the list comprehension "leaks" the loop control variable into the surrounding scope:

x = 'before'
a = [x for x in 1, 2, 3]
print x # this prints '3', not 'before'

This was an artifact of the original implementation of list comprehensions; it was one of Python's "dirty little secrets" for years. It started out as an intentional compromise to make list comprehensions blindingly fast, and while it was not a common pitfall for beginners, it definitely stung people occasionally. For generator expressions we could not do this. Generator expressions are implemented using generators, whose execution requires a separate execution frame. Thus, generator expressions (especially if they iterate over a short sequence) were less efficient than list comprehensions.

However, in Python 3, we decided to fix the "dirty little secret" of list comprehensions by using the same implementation strategy as for generator expressions. Thus, in Python 3, the above example (after modification to use print(x) :-) will print 'before', proving that the 'x' in the list comprehension temporarily shadows but does not override the 'x' in the surrounding scope.

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I'll add that although Guido calls it a "dirty little secret", many considered it a feature, not a bug. –  Steven Rumbalski Nov 10 '11 at 20:32
Also note that now in 2.7, set and dictionary comprehensions (and generators) have private scopes, but list comprehensions still don't. While this makes some sense in that the former were all back-ported from Python 3, it really makes the contrast with list comprehensions jarring. –  Matt B. Nov 27 '11 at 20:47

Yes, list comprehensions "leak" their variable in Python 2.x, just like for loops.

In retrospect, this was recognized to be a mistake, and it was avoided with generator expressions. List comprehensions' behavior had to be left as it is in Python 2, but it's fully fixed in Python 3.

This means that

list(x for x in a if x>32)

in Python 2 is not 100% equivalent to

[x for x in a if x>32]

because the latter leaks its variable.

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+1. I got a lot of credit on my answer because I quoted Guido, but I really like your very clear explanation and example. –  Steven Rumbalski Nov 10 '11 at 20:36

Yes, assignment occurs there, just like it would in a for loop. No new scope is being created.

This is definitely the expected behavior: on each cycle, the value is bound to the name you specify. For instance,

>>> x=0
>>> a=[1,54,4,2,32,234,5234,]
>>> [x for x in a if x>32]
[54, 234, 5234]
>>> x

Once that's recognized, it seems easy enough to avoid: don't use existing names for the variables within comprehensions.

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