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Why is it that the max of NaN and a number is NaN, but the min of NaN and a number is the number? This seems to be at odds with a few other languages I have tried:

In Haskell:

max (0/0) 1 -- NaN
min (0/0) 1 -- 1.0

In Python

>>> max(float("nan"),1) #nan
>>> min(float("nan"),1) #nan

In JavaScript

> Math.max(0/0,1) //NaN
> Math.min(0/0,1) //NaN
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I'm not quite sure, but I have a feeling it might have something to do with the fact that / applies to Fractional values rather than Integral. If you were to try dividing using div as 0 div 0, you would get an error. –  shree.pat18 Aug 19 '14 at 3:45
@shree.pat18 Isn't NaN a floating point thing though? I wouldn't think it would apply to integral types in that case. –  David Young Aug 19 '14 at 3:48
@DavidYoung Yes, I agree. Interestingly, 1/0 returns Infinity, so I'm not sure what happens to 0/0 - is it treated as infinity but shown as NaN, or if max/min are defaulted when it is one of the arguments. –  shree.pat18 Aug 19 '14 at 3:52
This thread might give some insights. –  0xdeadbeef Aug 19 '14 at 4:09
From the same thread, see this message and this. –  0xdeadbeef Aug 19 '14 at 4:11

3 Answers 3

up vote 8 down vote accepted

The Haskell report specifies that (min x y, max x y) will return either (x, y) or (y, x). This is a nice property, but hard to reconcile with a symmetric treatment of NaN.

It's also worth mentioning that this is exactly the same asymmetry as the SSE2 instructions MINSD and MAXSD exhibit, i.e., Haskell min (for Double) can be implemented by MINSD and max by MAXSD.

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Not quite, min 1.0 (0/0) will return NaN, for instance.

This is because any comparison with NaN is defined to return false, and by the definiton of min and max below :

max x y 
     | x <= y    =  y
     | otherwise =  x
min x y
     | x <= y    =  x
     | otherwise =  y

min and max with NaN will return second and first argument, respectively.

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So it's a minor bug in the definition of min and max (namely, the assumption that not <= must be >)? –  Mike DeSimone Aug 19 '14 at 4:09
IEEE 754:2008 §5.3.1 specifies that min and max with NaN ignores the NaN and returns the number. If Haskell claims to follow the standard floating-point behavior, this is a bug. –  Potatoswatter Aug 19 '14 at 4:19
does the standard say anything about >,<,== ? Because I think the definition of min/max is quite reasonable for total orders) –  Carsten Aug 19 '14 at 5:13
it was not meant as a answer to the question - I am not familiar with the specs - I'm just saying that from a mathemtical standpoint the definition of min and max is fine. Of course you cannot order NaN (if you include NaN there are many math. properties you throw out) - I just wanted to know if maybe the specs are a bit misleading or even self-contratictory in a sens - so never mind –  Carsten Aug 19 '14 at 6:16
@Potatoswatter Haskell does not claim to conform to IEEE 754. For example, in the Haskell 98 Report it says: "The default floating point operations defined by the Haskell Prelude do not conform to current language independent arithmetic (LIA) standards. These standards require considerably more complexity in the numeric structure and have thus been relegated to a library. Some, but not all, aspects of the IEEE floating point standard have been accounted for in Prelude class RealFloat." –  Bakuriu Aug 19 '14 at 9:08

I'm not a Haskell programmer, but it appears that the floating-point functions are called fmin and fmax. For whatever reason, the generic functions applied to floating-point types do not follow standard numeric behavior.

fmin and fmax comply with IEEE 754:2008 §5.3.1:

minNum(x, y) is the canonicalized number x if x < y, y if y < x, the canonicalized number if one operand is a number and the other a quiet NaN.

Note that this behavior is opposite JavaScript. Do not do as JavaScript does ;v) .

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The Ord class would need to have min and max as methods to conform with IEEE754 here. But since IEEE754 itself sort of violates more general understanding of how comparisons should behave, it's IMO fine that Haskell hasn't done this and only provides fmin and fmax for conformance with that standard. –  leftaroundabout Aug 19 '14 at 8:26
One could argue that "expected" NaN behaviour does not follow standard Ord rules :-) –  Bergi Aug 19 '14 at 12:07

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