I'm trying to "compile" a simple eDSL to the Atom language. A problem that arises here is, that the type class constraints on my types/functions do not match those of the Atom language.

One eDSL which compiles to Atom is copilot, which also has this very same problem an solves it in a rather verbose way. What follows is a simplified version of the involved datatypes:

```
{-# LANGUAGE GADTs #-}
data Type a where
TFloat :: Type Float
data Op1 a b where
Neg :: Type a -> Op1 a a
class NumE a where
instance NumE Float
data Exp e where
ENeg :: NumE a => Exp a -> Exp a
```

`Type`

and `Op1`

are part of the new eDSL, `NumE`

and `Exp`

belong to the compilation target. To convert between the eDSLs at some point I need a function `op2exp`

with the following type:

```
op2exp :: Op1 a b -> Exp a -> Exp b
```

Now the way Atom handles this is rather verbose:

```
data NumEInst e = NumE e => NumEInst
numEInst :: Type a -> NumEInst a
numEInst TFloat = NumEInst
op2exp :: Op1 a b -> Exp a -> Exp b
op2exp op = case op of
Neg t -> case numEInst t of NumEInst -> ENeg
```

This works, but is quite cumbersome and full of repetition.

**Question:**

Is there a way, maybing using new language features, to write the `op2exp`

function in an easier way? Ideally something along the lines of:

```
op2exp (Neg t) = ENeg
```

Ideally, I wouldn't even need the `Type`

data type and have the compiler figure out that all the types match.

`Neg`

should be a variable of course. I changed the question. If you try to compile this, you'll get an error like:`Could not deduce (NumE b) arising from a use of ENeg`

, which is exactly the problem this`NumEInst`

solves. – bzn Jul 18 '13 at 9:52`Type a ->`

with`NumE a =>`

in the`Neg`

constructor? – Sjoerd Visscher Jul 19 '13 at 10:47