When implementing call-by-value lambda-calculus in Haskell, should I force the evaluation of the arguments to a function in the object language (i.e., the call-by-value lambda-calculus) to get around the call-by-need evaluation order of the meta-language (i.e., Haskell)?

Concretely, for the following implementation using higher-order abstract syntax:

```
data Exp
= Abs (Exp -> Exp)
| App Exp Exp
eval :: Exp -> Exp
eval exp = case exp of
Abs _ -> exp
App opr opd -> case eval opr of
Abs fun -> eval (fun $ eval opd) -- argument evaluation
```

on the line with comment, should I force the evaluation of `eval opd`

by using `fun $! eval opd`

instead?

I am aware that the evaluation order dependence between the object and meta- level can be avoid by CPS transformation. But I do not wanna bother it for the moment. I just wanna
make sure that call-by-value is implemented faithfully in Haskell. I raised this question because many example implementations I have seen seem not to take this into account. I mean
those implementations do not force `eval opd`

. I wonder whether it is that they neglect it or that I consider too much. Thanks.