In order to save user-account permissions externally (e.g. in DB), I want to represent a list of elements of a enumeration that have a derived `Enum`

instance as an `Int`

.

Every bit of the number is seen as a flag (or Boolean) denoting if the i-th element is present in the list.

Putting it in different words - every power of 2 represents one element and the sum of such powers an *unique* list of elements.

Example:

```
data Permissions = IsAllowedToLogin -- 1
| IsModerator -- 2
| IsAdmin -- 4
deriving (Bounded, Enum, Eq, Show)
enumsToInt [IsAllowedToLogin, IsAdmin] == 1 + 4 == 5
intToEnums 3 == intToEnums (1 + 2) == [IsAllowedToLogin, IsModerator]
```

The function converting such a list into an `Int`

is quite easy to write:

```
enumsToInt :: (Enum a, Eq a) => [a] -> Int
enumsToInt = foldr (\p acc -> acc + 2 ^ fromEnum p) 0 . nub
```

*Note that the accepted answer contains a much more effective implementation.*

What really troubles me is the reversing function. I can imagine it should have this type:

```
intToEnums :: (Bounded a, Enum a) => Int -> [a]
intToEnums = undefined -- What I'm asking about
```

How should I approach this problem?

`Data.Bits`

module? – C. A. McCann Apr 9 '13 at 19:09