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Is there any way to detect whether a generator's __iter__ is called with list()? As I understand it, list(obj) will call __iter__; however, in the case of an infinite generator, I want it to return an error.

For example, I have the following generator:

def gen():
    while 1:
        yield 1

Since calling list(gen) will result in an infinite loop, I want to make it so that it returns an error. Is there a way to do this?

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It is not the responsibility of __iter__ to ensure this, and I don't feel it is the responsibility of list() either. It is the responsibility of you, the programmer! – wim Jan 31 '12 at 0:32
Who are you trying to protect with this? If you name your infinite generators appropriately, it should be clear to whoever writes the call to the generator what's going on; e.g. if you write list( allPrimeNumbers() ) you deserve what you get. – Russell Borogove Jan 31 '12 at 1:27
up vote 4 down vote accepted

There is no sensible way to do this. You might be able to hijack the stacktrace, but it'll be ugly and error-prone.

(Obviously, what you're trying to do is not how an iterable is expected to behave in Python, which is another good reason not to do it.)

Besides, it won't loop forever, but keep trying to allocate memory for the list. As soon as this fails, a MemoryError will be thrown and the interpreter may or may not recover.

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Thanks. I might hack together a custom type with separate next and __iter__ attributes. – Hypercube Jan 31 '12 at 0:43
Okay, it works. See my answer. – Hypercube Jan 31 '12 at 21:09
Did you not basically expand on what I said? – Jakob Bowyer Feb 1 '12 at 20:03

Not without horrible black magic that I will not go into here. Just write in the docstring, "This is non exhaustive." And try to remember not to call list on it.

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While it wasn't what I asked for, here is a solution which does basically the same thing:

class test:
    def __init__(self):
        self.generate = self.gen() =
    def gen(self):
        for a in range(10):
            yield a
    def __iter__(self):
        raise ValueError
>>> a = test()
>>> list(a)
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