# Is there a bug in the minimum function?

I have a list `mins` of 415920 numbers, all supposed to be closed to `0.1`:

``````Prelude Lib> take 5 mins
[9.83610706554002e-2,9.847021825032128e-2,9.847021825032128e-2,9.898395035483082e-2,9.898395035483082e-2]
``````

However:

``````Prelude Lib> minimum mins
0.10087849151477328
``````

The `minimum` function is not supposed to return the minimum ?

This result sounds plausible:

``````Prelude Lib> foldr min 100000 mins
1.1763616593045858e-4
``````

Is it a bug, or I misunderstand `minimum` ?

Similar issue with `maximum`:

``````Prelude Lib> maximum mins
3261145.0627630088
Prelude Lib> foldr max 0 mins
0.1207868227600914
``````

Sorting the list yields a third result for the maximum:

``````Prelude Lib> import Data.List as L
Prelude Lib L> mins' = sort mins
1.1763616593045858e-4
Prelude Lib L> last mins'
0.10295664278431726
``````

And applying `minimum` and `maximum` on the sorted list yields a third result for the minimum:

``````Prelude Lib L> minimum mins'
0.10045801977483232
Prelude Lib L> maximum mins'
3261145.0627630088
``````

# Edit

After @max630's comment, I've searched in the list with a text editor. The `3261145.0627630088` is indeed here, and there are some `NaN`:

``````NaN,NaN,3261145.0627630088
``````

Conclusion: it looks like `minimum` gives a wrong result, and `maximum` gives the correct result.

`foldr max` gives a wrong result, `foldl max` gives the good one:

``````> foldl max 0 mins
3261145.0627630088
``````
• Does your list contain NaNs or other special values? – max630 Apr 6 '18 at 5:54
• Can you share your list of numbers? – ZhekaKozlov Apr 6 '18 at 5:55
• @max630 Yes !!!: `> any isNaN mins` `True` – Stéphane Laurent Apr 6 '18 at 5:56
• @ZhekaKozlov It takes 8 MB in a `txt` file. I could share it with a gist. But it seems that max630 has found the reason. – Stéphane Laurent Apr 6 '18 at 5:58
• @max630 If I do `filter (not . isNaN) mins'` then `minimum` gives the good result (the same as `foldr min`), but not `maximum`. – Stéphane Laurent Apr 6 '18 at 6:01

The reason to all issues is that the list contains `NaN`. Apparently it violated the `Ord`'s total ordering requirement[*], so you cannot expect algorithms which use the ordering - either picking minimum or sorting - to produce correct result when it is in the input. Instead they will produce something which depends on their internal implementation, and may be different depending on seemingly unimportant reasons, for example input order. You should filter it out before doing anything else.

[*] `Ord` does not have it laws written out explicitely (neither does `Eq` which NaN also breaks), but here example of breaking totality rule, as it is described in Wikipedia (thanks @sjakobi for correcting):

``````Prelude> let nan = 0 / 0
Prelude> nan
NaN
Prelude> nan <= 1
False
Prelude> 1 <= nan
False
Prelude>
``````
• Yes ok, thanks. I think a sensible `minimum/maximum` function should return `NaN` in such a case (like R does for example). – Stéphane Laurent Apr 6 '18 at 6:22
• The problem that they do not know about NaN, they just use methods provided by Ord. And Ord does not have a way to say "hey this value is special, abort everything and return this as a sign that it is special". – max630 Apr 6 '18 at 6:35
• Something good to know : NaN-aware min and max in Haskell. – Stéphane Laurent Apr 6 '18 at 7:00
• It would be great to have these issues documented on `Float`'s `Eq` and `Ord` instances. They are defined in `GHC.Classes` in `ghc-prim`. – sjakobi Apr 6 '18 at 14:36
• @max630: You describe violated totality, not antisymmetry. (And totality is defined with `<=` and `>=`.) – sjakobi Apr 7 '18 at 0:58