Considering first-class-families library, I have a code:

```
import Fcf.Data.Common
import Fcf.Core
type T a b c = '(a, '(b, c))
data D a b t = D
{ a :: a
, b :: b
, c :: Eval (Fst t)
, d :: Eval (Fst (Eval (Snd t)))
, e :: Eval (Snd (Eval (Snd t)))
}
type MyT = T Int Int Bool
data C = C (D Int Int MyT)
```

with nesting only because no `Third`

(similarly to `Fst`

and `Snd`

). Is it possible to avoid this nesting in some more intelligent way? Maybe there is some operator allowing more flat "structure"? If no, what can be used instead of it?

Or from another point of view, maybe this code is not good:

```
Eval (Fst (Eval (Snd t)))
```

and there is a way to avoid the second `Eval`

?

Finally, I want `D`

taking type-level tuple of size > 2 and to pass it in a "flat" form if it's possible.

`[ , , ...]`

which is just sugar for`( : ( : ( : ...)))`

. There are type-level tuples of arbitrary arity. But then you need arity-specific accessors:`FstofThree`

,`SndofThree`

,`ThdofThree`

,`ThdofFour`

, ...; or make`Thd`

a type family with overloading for each possible arity.`deriving`

does not work more, and I need at least standalone deriving (or manually implementing instances).