Suppose I want to represent the finite models of the first-order language with constant c, unary function symbol f, and predicate P. I can represent the carrier as a list `m`

, the constant as an element of `m`

, the function as a list of ordered pairs of elements of `m`

(which can be applied via a helper function `ap`

), and the predicate as a list of the elements of `m`

that satisfy it:

```
-- Models (m, c, f, p) with element type a
type Model a = ([a], a, [(a,a)], [a])
-- helper function application, assumes function is total
ap :: Eq a => [(a,b)] -> a -> b
ap ((x',y'):ps) x = if x == x' then y' else ap ps x
```

I can then construct particular models and operations on models. The details aren't important for my question, just the types (but I've included the definitions so you can see where the type constraints come from):

```
unitModel :: Model ()
unitModel = ([()], (), [((),())], [])
cyclicModel :: Int -> Model Int
cyclicModel n | n > 0 = ([0..n-1], 0, [(i, (i+1)`mod`n) | i<-[0..n-1]], [0])
-- cartesian product of models
productModel :: (Eq a, Eq b) => Model a -> Model b -> Model (a,b)
productModel (m1, c1, f1, p1) (m2, c2, f2, p2) = (m12, c12, f12, p12) where
m12 = [(x1,x2) | x1 <- m1, x2 <- m2]
c12 = (c1, c2)
f12 = [(x12, (ap f1 (fst x12), ap f2 (snd x12))) | x12 <- m12]
p12 = [x12 | x12 <- m12, elem (fst x12) p1 && elem (snd x12) p2]
-- powerset of model (using operations from Data.List)
powerModel :: (Eq a, Ord a) => Model a -> Model [a]
powerModel (m, c, f, p) = (ms, cs, fs, ps) where
ms = subsequences (sort m) -- all subsets are "normalized"
cs = [c]
fs = [(xs, nub (sort (map (ap f) xs))) | xs <- ms] -- "renormalize" the image of f
ps = [xs | xs <- ms, elem c xs]
```

Now, I want to give names to all of these models:

```
data ModelName = UnitModel
| CyclicModel Int
| Product ModelName ModelName
| Power ModelName
deriving (Show, Eq)
```

Finally, I want to write this code, mapping each name to the model it names:

```
model_of UnitModel = unitModel
model_of (CycleModel n) = cycleModel n
model_of (Product m1 m2) = productModel (model_of m1) (model_of m2)
model_of (Power m1) = powerModel (model_of m1)
```

I've tried a number of approaches to making this to work, in the sense of defining types so that I can use exactly this definition of model_of, including using phantom types, GADTs, and type families -- but haven't found a way to do it. (But then again, I'm a relative newcomer to Haskell.) Can it be done? How should I do it?