**Yes.**

You can do this with the following simple trick:

```
{-# LANGUAGE FlexibleInstances #-}
instance Num (Integer -> Integer) where
fromInteger n = \scale -> n * scale -- return a function that takes
-- a number and returns a number
```

Then you can write:

```
seconds, minutes, hours, days :: Integer
seconds = 1000000 -- base unit, e.g. microseconds
minutes = 60 seconds
hours = 60 minutes
days = 24 hours
soon :: Integer
soon = 2 hours + 4 seconds
```

**How does this work?**

Above we have given a `Num`

instance for `Integer -> Integer`

, that is for a *function that takes an integer and returns an integer*.

Every type that implements `Num`

and has its function `fromInteger`

defined is allowed to be represented by a numeric literal, e.g. `3`

.

This means that we can write `3 :: Integer -> Integer`

- here `3`

is a function that takes an integer and returns an integer!

Therefore, we can apply an integer to it, for example `seconds`

; we can write `3 seconds`

and the expression will be of type `Integer`

.

**A more type-safe version**

In fact, we could even write `3 (3 :: Integer)`

now - this probably doesn't make much sense though. We can restrict this by making it more type-safe:

```
newtype TimeUnit = TimeUnit Integer
deriving (Eq, Show, Num)
instance Num (TimeUnit -> TimeUnit) where
fromInteger n = \(TimeUnit scale) -> TimeUnit (n * scale)
seconds, minutes, hours, days :: TimeUnit
seconds = TimeUnit 1000000
minutes = 60 seconds
hours = 60 minutes
days = 24 hours
```

Now we can only apply things of type `TimeUnit`

to number literals.

You could do that for all kinds of other units, such as weights or distances or people.

`timeout = 3 *~ seconds`

... but you get all other si units and prefixes from that, too.