33

What explains the following behavior:

class Foo:
    def __getitem__(self, item):
        print("?")
        return 1

f = Foo()

1 in f  # prints one ? and returns True

5 in f  # prints ? forever until you raise a Keyboard Exception

# Edit: eventually this fails with OverflowError: iter index too large
44

If an object doesn't have a __contains__ implementation, in falls back on a default that basically works like this:

def default__contains__(self, element):
    for thing in self:
        if thing == element:
            return True
    return False

And if an object doesn't have an __iter__ implementation, for falls back on a default that basically works like this:

def default__iter__(self):
    i = 0
    try:
        while True:
            yield self[i]
            i += 1
    except IndexError:
        pass

These defaults are used even if the object is not intended to be a sequence.

Your 1 in f and 5 in f tests are using the default fallbacks for in and for, leading to the observed behavior. 1 in f finds 1 immediately, but your __getitem__ never returns 5, so 5 in f runs forever.

(Well, actually, on the reference implementation of Python, the default __iter__ fallback stores the index in a C-level variable of type Py_ssize_t, so if you wait long enough, that variable maxes out and Python raises an OverflowError. If you saw that, you must be on a 32-bit Python build. Computers haven't existed long enough for anyone to hit that on a 64-bit Python.)

  • Regarding the OverflowError, I ran this on both 64 and 32 bit, and you are right I only saw it on 32 bit. – Matthew Moisen Dec 11 '19 at 22:38
  • Do you happen to know of the documentation that explains this? I would like to read up on why this implementation was decided. – Matthew Moisen Dec 11 '19 at 22:39
  • 3
    @Matthew Expressions > Membership test operations, also object.__contains__ and the paragraph right above it – wjandrea Dec 11 '19 at 22:40
  • 4
    @MatthewMoisen: These defaults were the original behavior of for and in, predating the introduction of __iter__ and __contains__. See the Python 1.4 documentation here and here. – user2357112 supports Monica Dec 11 '19 at 22:42

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