While working on an issue, I stumbled at something I cannot really undestand on my own.

I have a variable: a = pow(2, 1024)

Its type is long int. If I try casting it explicitly to float, like float(a), I receive OverflowError. The number is too big to fit in 64bit float, so it's understandable.

Then I try implicit cast, through mutliplying it by a float number:

b = a * 11.0

Once again, the OverflowError occurs, which is fine, because according to python docs, implicit conversion from long int to float happens. So the result is like before.

Finally, I try comparison:

a > 11.0 returns True. The OverflowError doesn't occur. And that confuses me a lot. How does the Python comparison mechanism work, if it doesn't require numerics to be in the same format? Accordind to this,

Python fully supports mixed arithmetic: when a binary arithmetic operator has operands of different numeric types, the operand with the “narrower” type is widened to that of the other, where plain integer is narrower than long integer is narrower than floating point is narrower than complex. Comparisons between numbers of mixed type use the same rule. The constructors int(), long(), float(), and complex() can be used to produce numbers of a specific type.

My question is, why a is not being cast to float in forementioned comparison?

The version of Python I'm using is 2.7.15. Thanks in an advance


From the source:

/* Comparison is pretty much a nightmare.  When comparing float to float,
 * we do it as straightforwardly (and long-windedly) as conceivable, so
 * that, e.g., Python x == y delivers the same result as the platform
 * C x == y when x and/or y is a NaN.
 * When mixing float with an integer type, there's no good *uniform* approach.
 * Converting the double to an integer obviously doesn't work, since we
 * may lose info from fractional bits.  Converting the integer to a double
 * also has two failure modes:  (1) a long int may trigger overflow (too
 * large to fit in the dynamic range of a C double); (2) even a C long may have
 * more bits than fit in a C double (e.g., on a 64-bit box long may have
 * 63 bits of precision, but a C double probably has only 53), and then
 * we can falsely claim equality when low-order integer bits are lost by
 * coercion to double.  So this part is painful too.

As such, the potential pitfalls of conversion are taken into account.

  • but this does not say how it is actually done.. Only that it is painful.. – Ev. Kounis Jun 5 '18 at 11:59
  • 1
    How it is done is in the source code just below that comment. Particularly around line 484. – Phylogenesis Jun 5 '18 at 12:02
  • Uh, that really is painful. Would the case be the same for PyPy as well? – Michał Górnicki Jun 5 '18 at 12:28
  • Probably, but is it actually an issue? None of these edge cases break the intuitive comparison operators. If you need to check that it fits a float, then do a float(a) and catch the exception. – Phylogenesis Jun 5 '18 at 12:57
  • I needed my code to be as little exception-driven as possible. Anyway, I've changed the way it works so now I don't happen to have a long int that exceeds float. I will mark your post as an answer. – Michał Górnicki Jun 6 '18 at 13:46

The exact error is OverflowError: int too large to convert to float

Which also means that any int that generates that error is by definition bigger then any possible float. So just checking if it's bigger should return True.

I'm not entirely sure, but I wouldn't be surprised if the implementation is just catching this error in the background (when trying to cast to float) and returning True in that case.

That is always true with the exception of float('inf') which is a special case that should return False (and does)

  • this is just a guess – Chris_Rands Jun 5 '18 at 11:54
  • @Chris_Rands I'm not sure if that's the exact implementation but that's the logic of it, because the fact is - it works (as OP mentioned) – Ofer Sadan Jun 5 '18 at 11:55
  • float(-a) also triggers OverflowError. -a > 11.0 return false. I think that's not the case – Michał Górnicki Jun 5 '18 at 12:00
  • But in that case one is clearly positive and one is negative, there's no reason to check anything else besides that (with comparing to 0 of both elements). – Ofer Sadan Jun 5 '18 at 12:02
  • Again, i'm sure by description isn't accurate but it's a logical step to understanding what is actually going on – Ofer Sadan Jun 5 '18 at 12:02

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