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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.

share|improve this question
up vote 5 down vote accepted

Using $! does work here, as long as evaluating eval e to weak head normal form in the meta-language corresponds to evaluating e to a value in the object language.

Let me demonstrate that by adding a new constructor to the Exp data type to represent a diverging computation, and a value that we can actually print:

data Exp
  = Abs (Exp -> Exp)
  | App Exp Exp
  | Bot
  | Value

printExp :: Exp -> String
printExp Bot = "bottom"
printExp Value = "base value"
printExp (Abs _) = "function"
printExp (App _ _) = "thunk"

For simplicity, let’s just transform it to a call to error in the evaluation function.

eval :: Exp -> Exp
eval exp = case exp of
  Bot         -> error "Evaluation would not terminate "
  Value       -> Value
  Abs _       -> exp
  App opr opd -> case eval opr of
    Abs fun -> eval (fun $ eval opd)

Now we can see if this is call-by-value. The following code should diverge, as we are passing bottom to a function. Alas, it does not:

*Main> let e = App (Abs (\_ -> Value)) Bot
*Main> printExp e
*Main> printExp (eval e)
"base value"

Does it help to change $ to $!? Yes, it does:

*Main> let e = App (Abs (const Value)) Bot
*Main> printExp (eval e)
"*** Exception: Evaluation would not terminate 

But how reliable is that? Any change to the Exp datatype has to be carefully checked to see if forcing the outermost constructor is what you want, e.g. introduction of pairs.

It might be a bit more reliable to use deepseq, i.e. $!!. But what I would really suggest is to add a isValue :: Exp -> Bool predicate that explicitly checks if the argument is a base value of your object language, and check isValue (eval opd) in eval before calling fun.

share|improve this answer
Thanks for your answer and suggestion. So the matter I am worried about does exist and most people just neglect it. How unfortunate it is! – day Jan 22 '13 at 13:03
Do you actually have references where people rely on seq in an interpreter to obtain call-by-value semantics? – Joachim Breitner Jan 22 '13 at 13:25
It seems you misunderstood me. I noticed people do not use it when they present example implementations for the (intended) call-by-value lambda calculus. Since they neither use it nor use an isValue predicate as you suggested, I think their implementation is not faithful. – day Jan 22 '13 at 13:37
@plmday - I'm not a theorist, but I believe if you didn't use HOAS you wouldn't need seq to get CBV semantics. It's because you are using HOAS (and so Haskell's semantics for application) that you are forced to deal with "forcing". – stephen tetley Jan 22 '13 at 17:50
@stephentetley: Thanks for the comment. I think even if we do not use HOAS, we still need a force evaluation of the argument. Suppose we use closures, the case for application must be: App opr opd -> case eval opr denv of { Clo var bod senv -> eval bod $ extend var (eval opd denv) senv }, where evaluation has reached the function body before eval opd denv gets evaluated. – day Jan 22 '13 at 18:24

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