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Inspired by my own answer, I didn't even understand how it worked myself, consider the following:

def has22(nums):
    it = iter(nums)
    return any(x == 2 == next(it) for x in it)

>>> has22([2, 1, 2])

I expected a StopIteration to be raised, since upon reaching 2, next(it) would be advancing a consumed iterator. However it appears that this behavior has been completely disabled, for generator expressions only! The generator expression seems to immediately break once this happens.

>>> it = iter([2, 1, 2]); any(x == 2 == next(it) for x in it)
>>> it = iter([2, 1, 2]); any([x == 2 == next(it) for x in it])

Traceback (most recent call last):
  File "<pyshell#114>", line 1, in <module>
    it = iter([2, 1, 2]); any([x == 2 == next(it) for x in it])
>>> def F(nums):
        it = iter(nums)
        for x in it:
            if x == 2 == next(it): return True

>>> F([2, 1, 2])

Traceback (most recent call last):
  File "<pyshell#117>", line 1, in <module>
    F([2, 1, 2])
  File "<pyshell#116>", line 4, in F
    if x == 2 == next(it): return True

Even this works!

>>> it=iter([2, 1, 2]); list((next(it), next(it), next(it), next(it))for x in it)

So I guess my question is, why is this behavior enabled for generator expressions?

Note: Same behavior in 3.x

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Inspired by my comments as well. I know, I'm so famous right now. –  TerryA May 29 '13 at 12:40

2 Answers 2

up vote 3 down vote accepted

The devs have decided that allowing this was a mistake because it can mask obscure bugs. Because of that, the acceptance of PEP 479 means this is going away.

In Python 3.5 if you do from __future__ import generator_stop, and in Python 3.7 by default, the example in the question will fail with a RuntimeError. You could still achieve the same effect (allowing nums to not be precomputed) with some itertools magic:

from itertools import tee, islice

def has22(nums):
    its = tee(nums, 2)
    return any(x == y == 2 for x, y in 
               zip(its[0], islice(its[1], 1, None)))

The reason it ever worked in the first place has to do with how generators work. You can think of this for loop:

for a in b:
    # do stuff

As being (roughly) equivalent to this:

b = iter(b) 
while True:
        a = next(b)
    except StopIteration:
        # do stuff

Now, all the examples have two for loops nested together (one in the generator expression, one in the function consuming it), so that the inner loop iterates once when the outer loop performs its next call. What happens when the '# do stuff' in the inner loop is raise StopIteration?

>>> def foo(): raise StopIteration
>>> list(foo() for x in range(10))

The exception propagates out of the inner loop, since it isn't in its guard, and gets caught by the outer loop. Under the new behavior, Python will intercept a StopIteration that is about to propagate out of a generator and replace it with a RuntimeError, which won't be caught by the containing for loop.

This also has the implication that code like this:

def a_generator():
     yield 5
     raise StopIteration

will also fail, and the mailing list thread gives the impression that this was considered bad form anyway. The proper way to do this is:

def a_generator():
    yield 5

As you pointed out, list comprehensions already behave differently:

>>> [foo() for x in range(10)]
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 1, in <listcomp>
  File "<stdin>", line 1, in foo

This is somewhat an implementation detail leaking - list comprehensions don't get transformed into a call to list with an equivalent generator expression, and apparently doing so would cause large performance penalties that the powers that be consider prohibitive.

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Quite intersting - and confusing. Thanks for pointing out the "inconsistency" with Py3 and list comps... –  glglgl May 30 '13 at 6:52
Your last example propagates the exception because it builds up the list before calling any. Nothing inside the [] is evaluated after any is entered. –  immibis Feb 3 at 1:20

Interesting behaviour, but absolutely understandable.

If you transform your generator expression to a generator:

def _has22_iter(it):
    for x in it:
        yield x == 2 and x == next(it)

def has22(nums):
    it = iter(nums)
    return any(_has22_iter(it))

your generator raises StopIteration in the following conditions:

  • the generator function reaches its end
  • there is a return statement somewhere
  • there is a raise StopIteration somewhere

Here, you have the third condition, so the generator is terminated.

Compare with the following:

def testgen(x):
    if x == 0:
        next(iter([])) # implicitly raise
    if x == 1:
        raise StopIteration
    if x == 2:

and do

list(testgen(0)) # --> []
list(testgen(1)) # --> []
list(testgen(2)) # --> []
list(testgen(3)) # --> []

you get the same behaviour in all cases.

share|improve this answer
This isn't quite the same - a StopIteration raised by a generator will always come up in the loop's own call to next, and never in the effective body of the loop. Try instead for _ in range(10): raise StopIteration - you get a traceback. –  lvc May 29 '13 at 12:53
ah this makes complete sense now, I think I thought my function F was a generator for a second –  jamylak May 29 '13 at 13:02
@lvc You get a traceback, yes - but if used inside a generator, it will be caught in this context. –  glglgl May 29 '13 at 14:39
@glglgl it will be caught by whatever is iterating over the generator results, rather than by the generator itself. This would explain why any will appear to swallow it (it will occur in any's call to next and signal 'normal iterator end') - except that list comprehensions don't, despite (especially in Python 3) behaving as syntactic sugar for list(genexp). And, especially, why any propogates the exception from a listcomp, not from a genexp - that implies that it is the generator itself ending early, rather than whatever is consuming it. –  lvc May 30 '13 at 1:12
@glglgl I've edited my own answer to add a less cramped discussion of my point. –  lvc May 30 '13 at 1:35

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