So the documentation for pytest states the following:

Changed in version 3.2.

In order to avoid inconsistent behavior, TypeError is raised for >, >=, < and <= comparisons. The example below illustrates the problem:

assert approx(0.1) > 0.1 + 1e-10  # calls approx(0.1).__gt__(0.1 + 1e-10)
assert 0.1 + 1e-10 > approx(0.1)  # calls approx(0.1).__lt__(0.1 + 1e-10)

In the second example one expects approx(0.1).__le__(0.1 + 1e-10) to be called. But instead, approx(0.1).__lt__(0.1 + 1e-10) is used to comparison. This is because the call hierarchy of rich comparisons follows a fixed behavior.

Now I don't know if I'm being stupid, but why would one expect __le__ in the second example? I definitely don't. I expect __lt__.

I don't know what this is trying to state honestly. And I can't see why the functions can't be something like:

def __gt__(self, actual):
    return actual > self.expected and other != self

def __lt__(self, actual):
    return actual < self.expected and other != self

with the __ge__ and __le__ variants using or instead of and.

  • For reference, this is the original issue inflicting the changes: #2003 – hoefling Jan 11 at 14:09
  • Ah. Thank you for this. I still disagree with his premise of expecting le, but that's because he believes approx should always be generous towards true, and I disagree with that. – Pluckerpluck Jan 11 at 16:49

approx is meant to be used when you are comparing float type numbers with == != operators to avoid the confusing examples of 0.1 + 0.2 != 0.3

the provided example should be interpreted like if the user wanted to answer is 0.1000000001 bigger than 0.1 ? the answer you expect is True

now if you use approx it would say False since 0.1000000001 == approx(0.1) (if you used __le__ it would say True - that is why they wrote __le__ is expected)

so using approx - a kind of fuzzy number and greater/less than ranges is not intuitive - questions like is X larger than about 7 are not generally used and if you need a wierd fuzzy ranges you should state it explicitly

  • I disagree with the logic. If you want to see if 0.1000000001 is bigger than 0.1 you ONLY expect True if you do not consider 0.1000000001 and 0.1 to be equal. If you consider them approximately equal, then one can't also be approximately larger than the other! This isn't really an issue for me, as I don't plan to use it, but it was confusing. – Pluckerpluck Jan 11 at 16:48
  • Do make this clearer: 0.1 + 0.2 > 0.3 SHOULD be false. Yet python will return True. My idea is that approx would make these equal and thus correctly provide a False result. It's easy to work around (you just check for equality first) but I think the example makes my point more obvious. – Pluckerpluck Jan 11 at 16:50

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