Because

```
min 1 2 -5
```

parses as

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

which is

```
1 -5
```

which is the same as

```
1 - 5
```

which is -4.

You can do what you want by chaining multiple `min`

s together:

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

(Note that you need the parentheses around `-5`

so the `-`

is interpreted as prefix negation instead of infix subtraction)

More generally, let Haskell do the chaining for you by applying a fold to a list:

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

`foldl1`

*fun* *list* says "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 them..." 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.

But in this case, Haskell has a predefined function to do that for you:

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

which 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`

.

`-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