`()`

is `⊤`

, i.e. the unit type, not the `⊥`

(the bottom type). The big difference is that the unit type is inhabited, so that it has a value (`()`

in Haskell), on the other hand, the bottom type is uninhabited, so that you can't write functions like that:

```
absurd : ⊥
absurd = -- no way
```

Of course you can do this in Haskell since the "bottom type" (there is no such thing, of course) is inhabited here with `undefined`

. This makes Haskell inconsistent.

Functions like this:

```
disprove : a → ⊥
disprove x = -- ...
```

can be written, it is the same as

```
disprove : ¬ a
disprove x = -- ...
```

i.e. it disproving the type `a`

, so that `a`

is an absurd.

In any case, you can see how the unit type is used in different languages, as `() :: ()`

in Haskell, `() : unit`

in ML, `() : Unit`

in Scala and `tt : ⊤`

in Agda. In languages like Haskell and Agda (with the IO monad) functions like `putStrLn`

should have a type `String → IO ⊤`

, not the `String → IO ⊥`

since this is an absurd (logically it states that there is no strings that can be printed, this is just not right).

**DISCLAIMER**: previous text use Agda notation and it is more about Agda than Haskell.

In Haskell if we have

```
data Void
```

It doesn't mean that `Void`

is uninhabited. It is inhabited with `undefined`

, non-terminating programs, errors and exceptions. For example:

```
data Void
instance Show Void where
show _ = "Void"
data Identity a = Identity { runIdentity :: a }
mapM__ :: (a -> Identity b) -> [a] -> Identity Void
mapM__ _ _ = Identity undefined
```

then

```
print $ runIdentity $ mapM__ (const $ Identity 0) [1, 2, 3]
-- ^ will print "Void".
case runIdentity $ mapM__ (const $ Identity 0) [1, 2, 3] of _ -> print "1"
-- ^ will print "1".
let x = runIdentity $ mapM__ (const $ Identity 0) [1, 2, 3]
x `seq` print x
-- ^ will thrown an exception.
```

But it also doesn't mean that `Void`

is ⊥. So

```
mapM_ :: Monad m => (a -> m b) -> [a] -> m Void
```

where `Void`

is decalred as empty data type, is ok. But

```
mapM_ :: Monad m => (a -> m b) -> [a] -> m ⊥
```

is nonsence, but there is no such type as ⊥ in Haskell.

`_|_`

... we only whip that out when in the more formal mode. I.e. we like to pretend that`data Foo = A | B`

only has two possible values instead of three; so there is only one value of type`()`

. You could throw the term "fully defined" in there if you like. – luqui Jun 18 '12 at 4:34`writeFile`

or`mapM_`

? – huon Jun 18 '12 at 4:41`writeFile :: FilePath -> String -> a`

,`mapM_ :: (Monad m) => (a -> m b) -> [a] -> m z`

– L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Jun 18 '12 at 13:46`Monad`

constraint in the first one, otherwise it could be used in pure code. – huon Jun 18 '12 at 14:13