# Funny Haskell Behaviour: min function on three numbers, including a negative

I've been playing around with some Haskell functions in GHCi.

I'm getting some really funny behavious and I'm wondering why it's happening.

I realized that the function min is only supposed to be used with two values. However, when I use three values, in my case

``````1 2 -5
``````

I'm getting

``````-4
``````

as my result.

Why is that?

-
Please post the code you are running. – Thomas M. DuBuisson Feb 7 '13 at 0:34
This is due to how Haskell handles negative number literals. `-5` could mean either the number "negative 5" or the function "subtract 5". Which one is right? A choice has to be made, and in your case the choice is "subtract 5". As a rule of thumb, the "negative number" choice is made, when the number is enclosed in parentheses, like `(-5)`, or when it stands by itself, like `f x = -x`. See more here – Boris Feb 7 '13 at 14:34

Because this expression:

``````min 1 2 -5
``````

parses as if it were parenthesized like this:

``````(min 1 2) -5
``````

which is the same as this:

``````1 -5
``````

which is the same as this:

``````1 - 5
``````

which is of course -4.

Haskell function application is the highest precedence operation, but it is not greedy. In fact, even with a seemingly simple expression like `min 1 2`, the function `min` is first called with a single value, 1. The return value of that function is a new, anonymous function, which will return the smaller of 1 and its single argument. That anonymous function is then called with an argument of 2, and of course returns 1.

To find the minimum of three values, you need to chain together two calls to `min` (which actually, per the logic described above, yields four separate function calls):

``````min (min 1 2) (-5)
``````

The parentheses around `-5` ensure that the `-` is interpreted as prefix negation instead of infix subtraction. In general, if you have a literal negative number in Haskell, the parentheses are necessary. In some cases you can leave them off, but even then, using them makes things clearer for the reader of your code.

More generally, you could let Haskell do the chaining for you by applying a fold to a list, which can then contain as many numbers as you like:

``````foldl1 min [1, 2, -5]
``````

The call `foldl1` fun list means "take the first two items of list and call fun on them. Then take the result of that call and the next item of list, and call fun on those two values. Then take the result of that call and the next item of the list..." And so on, continuing until there's no more list, at which point the value of the last call to fun is returned to the original caller.

There are several functions that have predefined pre-folded equivalents, however, and `min` is one of them; the list version is called `minimum`:

``````minimum [1, 2, -5]
``````

That behaves exactly like my `foldl1` solution above; in particular, both will throw an error if handed an empty list.

Thanks to JohnL for reminding me of the existence of `minimum`.

-
there's also the `minimum` function, which works on lists directly. It's a partial function though, so it should only be used when you can guarantee the list has at least one element. – John L Feb 7 '13 at 2:41
@johnL well, since my solution uses `foldl1`, it also requires a non-empty list, so that's a wash... I'll add a mention of `minimum`. Thanks! – Mark Reed Feb 7 '13 at 3:41
When you type `min 1 2 -5`, Haskell doesn't group it as `min 1 2 (-5)`, as you seem to think. It instead interprets it as `(min 1 2) - 5`, that is, it does subtraction rather than negation. The minimum of `1` and `2` is `1`, obviously, and subtracting `5` from that will (perfectly correctly) give you `-4`.