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At least I think that's what's going on.

Main.hs:

module Main (
    main
) where

import Arithmetic
import Data.Maybe
import Data.Either
import Control.Monad.Error

testExpr :: Expr Float
testExpr = 
        (MultExpr "*"
            (AddExpr "XXX"
                (NumExpr 1) 
                (AddExpr "-"
                    (NumExpr 24)
                    (NumExpr 21)
                )
            ) 
            (NumExpr 5) 
        )

main :: IO ()
main = do 
    putStrLn $ case eval testExpr of
            Left msg -> "Error: " ++ msg
            Right result -> show result

Arithmetic.hs:

{-# LANGUAGE GADTs #-}

module Arithmetic  where

type Op = String

data Expr a where
    NumExpr :: Float -> Expr Float
    AddExpr :: Op -> Expr Float -> Expr Float -> Expr Float
    MultExpr :: Op -> Expr Float -> Expr Float -> Expr Float

eval :: (Monad m) => Expr Float -> m Float
eval (NumExpr n) = return n
eval (AddExpr "+" e1 e2) = evalBin (+) e1 e2
eval (AddExpr "-" e1 e2) = evalBin (-) e1 e2
eval (AddExpr "%" e1 e2) = evalBin (%) e1 e2
eval (AddExpr _ _ _ ) = fail "Invalid operator. Expected +, - or %"
eval (MultExpr "*" e1 e2) = evalBin (*) e1 e2
eval (MultExpr "/" e1 e2) = evalBin (/) e1 e2
eval (MultExpr _ _ _ ) = fail "Invalid operator. Expected * or /"

evalBin :: (Monad m) => (Float -> Float -> Float) -> Expr Float -> Expr Float -> m Float
evalBin op e1 e2 = do 
  v1 <- eval e1
  v2 <- eval e2
  return $ op v1 v2

infixl 6 %
(%) :: Float -> Float -> Float
a % b = a - b * (fromIntegral $ floor (a / b))

But, when eval fails, I get an error in IO, without the "Error: " string appended.

share|improve this question
1  
That isn't possible with the code you've presented here; eval testExpr is evaluated in the Either monad, and never gets near IO. Something must be wrong with the code you've omitted; for instance, another part of your evaluation code may be calling error directly or indirectly, which bubbles up as an IO exception. –  ehird Dec 18 '11 at 18:49
    
Thanks, I've updated the post with full code –  Peter Hall Dec 18 '11 at 19:03
    
Turns out the problem was visible in the original code, too, I just missed it; I've posted a fix :) –  ehird Dec 18 '11 at 19:14
    
...and then fixed my fix :/ I misread some instances in mtl's documentation. It's fine now. –  ehird Dec 18 '11 at 19:27

2 Answers 2

up vote 3 down vote accepted

Which version of base are you using? fail is no longer defined to return a Left in the latest version of the Either e monad, instead it uses the default definition (which calls error, which throws an exception that can only be caught in IO).

I don't know why this changed.

share|improve this answer
    
Base-4.3.1.0. That would definitely explain it, as I just updated to the latest Haskell Platform. If that's the case, what should I use instead of Either? –  Peter Hall Dec 18 '11 at 19:11

Ah, I see the problem now!

You are importing Control.Monad.Error, but using the Either monad, whose fail definition calls error rather than returning Left.

What you need to do is change eval testExpr to runIdentity . runErrorT $ eval testExpr. You'll need to import Data.Functor.Identity.

In an old version of the mtl (monad transformer library), Either's fail method did indeed return Left. However, the problem is that this only allowed Either e to be a monad when e was an instance of the Error class. I believe this was considered especially undesirable because fail is generally thought to be a mistake; many people think that it should be moved out of the Monad typeclass.

You could of course opt for a different method of error handling entirely, but this is the closest analogue to what you already have that works with the newest versions of the libraries.

I would suggest you specialise your code in the Arithmetic module to use ErrorT and throwError directly; as a bonus, this will also let you catch the errors you throw within your interpreter.

You could also define your own error type, and in that case I suggest defining your own monad that uses Either:

newtype Eval a = Eval { runEval :: Either EvalError a }
  deriving (Functor, Applicative, Monad)

evalError :: EvalError -> Eval a
evalError e = Eval (Left e)

Either's monad instance will work just fine here; the only thing that has changed is its definition of fail. Note that you'll need the GeneralizedNewtypeDeriving extension to derive those instances.

You could of course use String instead of EvalError here, but that offers no benefits over a simple ErrorT; the advantage with using your own monad with a custom error type is that you don't have to define an instance of Error, which would require defining a "catch-all" error value for noMsg/strMsg.

share|improve this answer
    
Thanks. This isn't really serious code, but I'm trying to do things "well" as I learn, and there's something that seems good about using the generic fail in a "library" and deciding on the implementation where it's used. Is there any problem with just making my own error monad for the purpose? like this: hpaste.org/55436 . –  Peter Hall Dec 18 '11 at 19:33
1  
Uncertain is just ErrorT Identity String, which is what my answer uses eval with (instead of the Either monad). In general, I wouldn't bother making code like this generic; it can easily be adapted to run in other monads if it needs to be, even with a concrete monad; it's usually clearer to define a single, canonical monadic stack, rather than just layering typeclasses on as you need them. –  ehird Dec 18 '11 at 19:38
    
fail is disliked because it can't be defined sensibly for the majority of monads, and isn't part of the mathematical definition of a monad. It is only in the Monad typeclass so that you can say do { Right x <- m; ... } and get an error message if the pattern-match fails; in an older version of Haskell, this added a MonadZero constraint too, but Haskell 98 baked fail right into Monad, ostensibly to make the language simpler for beginners, who might not understand why such non-total pattern-matching in a do block forced them to add constraints to their type. –  ehird Dec 18 '11 at 19:40
    
I don't think that's a very good argument, but I'm not on the committee. ErrorT definitely sounds like the thing to use here; you might even want to define your own error type, which would allow you to handle errors programmatically without comparing strings; you'd just need to make it an instance of the Error typeclass. –  ehird Dec 18 '11 at 19:41
    
I've expanded my answer along those lines. –  ehird Dec 18 '11 at 19:47

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