7

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?

3 Answers 3

9

The type of your function

addTypes :: Expr -> TypedExpr t

is wrong, because it would mean that you get a TypedExpr t for any t you like. In contrast, what you actually want is one particular t that is determined by the argument of type Expr.

This reasoning already shows that you are going beyond the capabilities of the Hindley-Milner type system. After all, the return type of addTypes should depend on the value of the argument, but in plain Haskell 2010, types may not depend on values. Hence, you need an extension of the type system that brings you closer to dependent types. In Haskell, generalized algebraic data types (GADTs) can do that.

For a first introduction to GADTs, see also my video on GADTs.

However, after becoming familiar with GADTs, you still have the problem of parsing an untyped expression into a typed one, i.e. to write a function

addTypes :: Expr -> (exists t. TypedExpr t)

Of course, you have to perform some type checking yourself, but even then, it is not easy to convince the Haskell compiler that your type checks (which happen on the value level) can be lifted to the type level. Fortunately, other people have already thought about it, see for example the following message in the haskell-cafe mailing list:

Edward Kmett.
Re: Manual Type-Checking to provide Read instances for GADTs. (was Re: [Haskell-cafe] Read instance for GATD)
http://article.gmane.org/gmane.comp.lang.haskell.cafe/76466

(Does anyone know of a formally published / nicely written up reference?)

4

I have recently started using tagless-final syntax for embedded DSL's, and I've found it to be much nicer than the standard GADT method (which you're heading towards, and Apfelmus describes).

The key to tagless-final syntax is that instead of using an expression data type, you represent operations with a type class. For functions like your eBinaryOp, I've found it best to use two classes:

class Repr repr where
  eInt :: repr Int
  eFloat :: repr Float

class Repr repr => BinaryOp repr a b c where
  eBinaryOp :: String -> repr a -> repr b -> repr c

I would make separate BinaryOp functions rather than use a String though. There's a lot more information on Oleg's web page, including a parser that uses Haskell's type system.

2
  • Wow! interesting idea. Would never think of it :)
    – mik01aj
    Dec 10, 2010 at 17:02
  • I think I don't understand your solution too well - what are eInt, eBinaryOp supposed to do? Where do I put my Expr in this model?
    – mik01aj
    Dec 11, 2010 at 10:42
3

Since you're doing the parsing at runtime, not compile time, you can't piggy back off of Haskell's type system (unless you import the relevant modules and manually call it yourself.)

You may want to turn to TAPL’s ML examples of type checkers for a simple lambda calculus for inspiration. http://www.cis.upenn.edu/~bcpierce/tapl/ (under implementations). They do a bit more than your expression parser, since you don’t support lambdas.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.