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If I have two objects o1 and o2, and we know that

id(o1) == id(o2)

returns true.

Then, does it follow that

o1 == o2

Or is this not always the case? The paper I'm working on says this is not the case, but in my opinion it should be true!

share|improve this question
"this is not the case, but in my opinion it should be true!" -- note that "not the case" and "should be true" aren't mutually exclusive ;-) People should implement the == operator as a reflexive relation, but in some cases they choose not to (WeirdEquals below) and in some cases they even find a reason not to, perhaps due to external constraints (IEEE NaN). – Steve Jessop Jan 5 at 0:48
In fact, to expand on the above, people should almost certainly implement __eq__ as an equivalence relation (reflexive assert a == a, symmetric if a == b: assert b == a, transitive if a == b and b == c: assert a == c). – wchargin Jan 5 at 5:38
Other than NaN and concurrency, what are some other common instances where == is not reflexive for a specific purpose? – MartyMacGyver Jan 5 at 22:41
@MartyMacGyver but vanilla Python has neither of those – cat Jan 5 at 22:51
@cat The nan instance works as below (after importing math) and I would expect the threading one does as well so I'm not sure what you mean by "vanilla" - I'm considering the default packages that install with Python as a baseline. I'm asking about those as well as any other common packages that are well-known for this idiosyncrasy. – MartyMacGyver Jan 6 at 0:32
up vote 124 down vote accepted

Not always:

>>> nan = float('nan')
>>> nan is nan

or formulated the same way as in the question:

>>> id(nan) == id(nan)


>>> nan == nan

NaN is a strange thing. Per definition it is not equal nor less or greater than itself. But it is the same object. More details why all comparisons have to return False in this SO question.

share|improve this answer
@AdamSmith, why this is a more real case than the accepted answer? – J. C. Leitão Jan 4 at 21:33
@J.C.Leitão -- this is because the accepted answer simply redefines __eq__ to behave nonsensically for a certain trollish class of objects, but the behavior described here is present in a built-in type. (It's also the same for all systems/languages that claim IEEE754 conformance -- the equivalent C code does the exact same thing ;) – LThode Jan 4 at 21:40
@AdamSmith: I think it's a better answer than mine, wish I'd thought of it! – recursive Jan 4 at 22:06
@J.C.Leitão -- Python must allow it, or else you wouldn't be able to create a BigFloat UDT that implements the IEEE754 NaN semantics. (This would be a real drag for a Python set of bindings to the MPFR library, for instance.) – LThode Jan 5 at 17:22
@J.C.Leitão -- to the spirit of your question, though -- it's a matter of the contract your users expect the type to provide. A user-defined floating point type that didn't have fully unordered NaNs would be extremely surprising for scientific users who rely on the carefully crafted semantics of IEEE754, while irreflexive comparisons in a class that represents a parser token would be equally surprising to a compiler writer. – LThode Jan 5 at 17:33

The paper is right. Consider the following.

class WeirdEquals:
    def __eq__(self, other):
        return False

w = WeirdEquals()
print("id(w) == id(w)", id(w) == id(w))
print("w == w", w == w)

Output is this:

id(w) == id(w) True
w == w False
share|improve this answer

id(o1) == id(o2) does not imply o1 == o2.

Let's have a look at this Troll which overrides __eq__ to always return False.

>>> class Troll(object):
...     def __eq__(self, other):
...         return False
>>> a = Troll()
>>> b = a
>>> id(a) == id(b)
>>> a == b

That being said, there should be very few examples in the standard library where the object-ids match but __eq__ can return False anyway, kudos @MarkMüller for finding a good example.

So either the objects are insane, very special (like nan), or concurrency bites you. Consider this extreme example, where Foo has a more reasonable __eq__ method (which 'forgets' to check the ids) and f is f is always True.

import threading

class Foo(object):
    def __init__(self):
        self.x = 1

    def __eq__(self, other):
        return isinstance(other, Foo) and self.x == other.x

f = Foo()

class MutateThread(threading.Thread):
    def run(self):
        while True:
            f.x = 2
            f.x = 1

class CheckThread(threading.Thread):
    def run(self):
        i = 1
        while True:
            if not (f == f):
                print 'loop {0}: f != f'.format(i) 
            i += 1



$ python
loop 520617: f != f
loop 1556675: f != f
loop 1714709: f != f
loop 2436222: f != f
loop 3210760: f != f
loop 3772996: f != f
loop 5610559: f != f
loop 6065230: f != f
loop 6287500: f != f
share|improve this answer

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