I’m slightly disappointed that np.inf // 2 evaluates to np.nan and not to np.inf, as is the case for normal division.

Is there a reason I’m missing why nan is a better choice than inf?

  • It could be that floor_divide is more efficient than doing both operations separately. – Mark Ransom Aug 11 at 17:13
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    I'd say inf would be an incorrect result of integer division because inf is not an integer. Now nan isn't an integer either, but at least it somehow expresses the fact that there is no correct answer to the question that was asked, i.e. there is no integer x such that x*2 equals inf. That's my take on it anyway. – sepp2k Aug 11 at 17:17
  • @0x5453 - You are correct. So the question is why, here too, nan was considered a better choice than inf? – Aguy Aug 11 at 19:04
  • @sepp2k - Would you consider then np.floor(np.inf) resulting in np.inf a correct result? You could claim there is no correct integer answer to this question as well. – Aguy Aug 11 at 19:09
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    @phuclv: Pretty sure INF divided by anything except INF or NaN is still +-INF. But that's for regular division, not floor-division; IDK if IEEE-754 defines that operation at all; C doesn't have it and real-world FPUs don't have it. (You can set the rounding mode to truncate or towards -Inf and still get Inf.) – Peter Cordes Aug 12 at 23:40

I'm going to be the person who just points at the C level implementation without any attempt to explain intent or justification:

*mod = fmod(vx, wx);
div = (vx - *mod) / wx;

It looks like in order to calculate divmod for floats (which is called when you just do floor division) it first calculates the modulus and float('inf') %2 only makes sense to be NaN, so when it calculates vx - mod it ends up with NaN so everything propagates nan the rest of the way.

So in short, since the implementation of floor division uses modulus in the calculation and that is NaN, the result for floor division also ends up NaN

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    If this really is the C code that implements floor division for floats, it's probably correct but very unsatisfying. You're really just kicking the can down the road. – Mark Ransom Aug 11 at 20:06
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    yeah I recognize that, I'd very much like to see a better answer. However it is possible the reasoning is "no one has really considered it until now" in which case I'm afraid this may be the only answer. – Tadhg McDonald-Jensen Aug 11 at 20:11
  • Why not just have a single line where *mod in div = (vx - *mod) / wx; is replaced by the part after the equal mark above it ? – rautamiekka Aug 25 at 20:29
  • @rautamiekka that is the source code calculating both the modulus and floor division, it needs to retain the modulus. – Tadhg McDonald-Jensen Aug 26 at 2:14
  • @TadhgMcDonald-Jensen So the value is reused later ? – rautamiekka Aug 26 at 6:02

Floor division is defined in relation to modulo, both forming one part of the divmod operation.

Binary arithmetic operations

The floor division and modulo operators are connected by the following identity: x == (x//y)*y + (x%y). Floor division and modulo are also connected with the built-in function divmod(): divmod(x, y) == (x//y, x%y).

This equivalence cannot hold for x = inf — the remainder inf % y is undefined — making inf // y ambiguous. This means nan is at least as good a result as inf. For simplicity, CPython actually only implements divmod and derives both // and % by dropping a part of the result — this means // inherits nan from divmod.

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Infinity is not a number. For example, you can't even say that infinity - infinity is zero. So you're going to run into limitations like this because NumPy is a numerical math package. I suggest using a symbolic math package like SymPy which can handle many different expressions using infinity:

import sympy as sp

sp.oo - 1
sp.oo + sp.oo
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