I'm currently writing an expression parser. I've done the lexical and syntactic analysis and now I'm checking the types. I have the expression in a data structire like this (simplified version):
data Expr = EBinaryOp String Expr Expr
| EInt Int
| EFloat Float
And now I need a function which would convert this to a new type, say TypedExpr
, which would also contain type information. And now my main problem is, how this type should look like. I have two ideas - with type parameter:
data TypedExpr t = TEBinaryOp (TBinaryOp a b t) (TExpr a) (TExpr b)
| TEConstant t
addTypes :: (ExprType t) => Expr -> TypedExpr t
or without:
data TypedExpr = TEBinaryOp Type BinaryOp TypedExpr TypedExpr
| TEConstant Type Dynamic
addTypes :: Expr -> TypedExpr
I started with the first option, but I ran into problems, because this approach assumes that you know type of the expression before parsing it (for me, it's true in most cases, but not always). However, I like it, because it lets me use Haskell's type system and check for most errors at compile time.
Is it possible to do it with the first option?
Which one would you choose? Why?
What problems should I expect with each option?