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I'm playing around with Haskell and thought I'd try to create a simple programming language with it. Ignoring the concrete syntax for now; I am concentrating on the abstract syntax and the semantics.

The language currently should consist of integers, integer addition, variable names, and variable binding blocks.

If a variable is used that doesn't exist in the scope it is used, an error is raised.

The following is my current progress:

module ProgLang where
import Data.Map as Map

--  Classes
class Runnable d where
  run :: (Runnable a) => d -> Map String a -> Either [String] Integer

--  Data
data Name = Name String
  deriving (Eq, Ord, Show)

data Add a b = Add a b
  deriving (Eq, Ord, Show)

data Block a = Block (Map String a) a
  deriving (Eq, Ord, Show)

--  Instances
--  Integers resolve to Right Integer
instance Runnable Integer where
  run v _ = Right v

--  For Names
--    look up their expression in the scope, then evaluate
--    if name is out of scope, raise an error
instance Runnable Name where
  run (Name n) s = which (Map.lookup n s) where
    which Nothing = Left ["Variable not in scope: " ++ n]
    which (Just v) = run v s

--  For Addition
--    Run a, Run b, Add their results
--    Raise appropriate errors where necessary
instance (Runnable a, Show a, Runnable b, Show b) => Runnable (Add a b) where
  run (Add a b) s = geta (run a s) where
    geta (Left es) = Left (es ++ ["In lhs of expression: " ++ show (Add a b)])
    geta (Right a') = getb a' (run b s)
    getb _ (Left es) = Left (es ++ ["In rhs of expression: " ++ show (Add a b)])
    getb a' (Right b') = Right (a' + b')

--  For Blocks
--    Run the block's expression under a new scope
--      (merging the current with the block's scope definition)
instance Runnable a => Runnable (Block a) where
  run (Block s' e) s = result $ run e (Map.union s' s) where
    result (Left es) = Left (es ++ ["In block: " ++ show (Block s' e)])
    result (Right v) = Right v

I am using (Runnable a) => Either [String] a as the outcome of run. Left for errors and Right for a valid result.

The following are example expressions and their expected outcome:

--  run 5 Map.empty
--  => Right 5

--  run (Name "a") Map.empty
--  => Left ["Variable not in scope: a"]

--  run (Name "a") (fromList [("a", 6)])
--  => Right 6

--  run (Add 6 3) Map.empty
--  => Right 9

--  run (Add (Name "a") 7) (fromList [("a", 10)])
--  => Right 17

--  run (Block (fromList [("a", 10)]) (Name "a")) Map.empty
--  => Right 10

I am getting the following error from GHCI (version 7.4.1):

progLang.hs:45:53:
    Could not deduce (a1 ~ a)
    from the context (Runnable a)
      bound by the instance declaration at progLang.hs:44:10-41
    or from (Runnable a1)
      bound by the type signature for
                 run :: Runnable a1 =>
                        Block a -> Map String a1 -> Either [String] Integer
      at progLang.hs:(45,3)-(47,30)
      `a1' is a rigid type variable bound by
           the type signature for
             run :: Runnable a1 =>
                    Block a -> Map String a1 -> Either [String] Integer
           at progLang.hs:45:3
      `a' is a rigid type variable bound by
          the instance declaration at progLang.hs:44:19
    Expected type: Map String a1
      Actual type: Map String a
    In the second argument of `union', namely `s'
    In the second argument of `run', namely `(union s' s)'
Failed, modules loaded: none.

This error (as far as I can tell) is due to the Block's run function. It doesn't seem to like the call to Map.union.

I'm unsure what I'm doing wrong. Any ideas? Should I be attempting a completely different approach to this project?

Thanks in advance.

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3 Answers 3

up vote 6 down vote accepted

The problem is the way that run is declared.

run :: (Runnable a) => d -> Map String a -> Either [String] Integer

What you probably intended is that the second argument is a Map from String to any runnables, mingled together in the same map. But what this actually means is that the second argument is a Map from String to one particular kind of runnable (it's just not known which it is).

Rather than using a typeclass and disparate types, try using a single type instead.

module ProgLang where
import Data.Map as Map

data Runnable
  = Name String
  | Add Runnable Runnable
  | Block (Map String Runnable) Runnable
  | I Integer
  deriving (Eq, Ord, Show)

run :: Runnable -> Map String Runnable -> Either [String] Integer
--  Instances
--  Integers resolve to Right Integer
run (I v) _ = Right v
--  For Names
--    look up their expression in the scope, then evaluate
--    if name is out of scope, raise an error
run (Name n) s = which (Map.lookup n s) where
  which Nothing = Left ["Variable not in scope: " ++ n]
  which (Just v) = run v s
--  For Addition
--    Run a, Run b, Add their results
--    Raise appropriate errors where necessary
run (Add a b) s = geta (run a s) where
  geta (Left es) = Left (es ++ ["In lhs of expression: " ++ show (Add a b)])
  geta (Right a') = getb a' (run b s)
  getb _ (Left es) = Left (es ++ ["In rhs of expression: " ++ show (Add a b)])
  getb a' (Right b') = Right (a' + b')
--  For Blocks
--    Run the block's expression under a new scope
--      (merging the current with the block's scope definition)
run (Block s' e) s = result $ run e (Map.union s' s) where
  result (Left es) = Left (es ++ ["In block: " ++ show (Block s' e)])
  result (Right v) = Right v

The only change I made to this code was the type declarations and reorganization of the run function.

If you add a dummy Num instance with fromInteger = I then you can also use integer literals as Runnables. Here's a test run with the test cases you supplied, looks like all the expected outputs match: http://ideone.com/9UbC5.

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I think the problem is with the signature of run.

class Runnable d where
  run :: Runnable a => d -> Map String a -> Either [String] Integer

Particularly, run has two different type variables a and d; the only constraint on them is that they are both in Runnable. This means the function has to work for any pair of runnable types a and d. However, for blocks, this does not make sense--you cannot run a Block a with anything but a Map String a since you do your union operation. Thus your implementation for run is not as general as the type signature wants it to be--your implementation implies that the a in Block a is the same as the different variable a1 in Map String a1, but the type of run leaves you no way to enforce this.

You can actually fix this with multi-parameter typeclasses and make the fact that the a in Block a has to be the same as the type of the Map explicit. In fact, this may be a good learning exercise to understand multi-parameter typeclasses (which are exactly what they sound like but also really cool). However, the best solution would be to rewrite your code not to use typeclasses here at all--use an algebraic dtta type to represent your abstract syntax instead. This is the most common and most convenient way to represent abstract syntaxes in Haskell.

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You miss Show a constraint. If you put your run outside of instance declaration (I renamed it to xrun) like this

xrun (Block s' e) s = result $ run e (Map.union s' s) where
    result (Left es) = Left (es ++ ["In block: " ++ show (Block s' e)])
    result (Right v) = Right v

ghci says that

*ProgLang> :t xrun
xrun
  :: (Show a, Runnable a) =>
     Block a -> Map String a -> Either [[Char]] Integer

But it's not enough to fix the constraint. Put two types side by side (the one in class declaration and actual type of xrun:

 run ::         (Runnable a) => d       -> Map String a -> Either [String] Integer
xrun :: (Show a, Runnable a) => Block a -> Map String a -> Either [String] Integer

The difference is that your class promises that given d your run should work for any runnable a. But xrun doesn't fullfill this requirement: if d is Block Int, it cannot work with arbitrary a, but only with a :: Int.

So as other commenters said you probably need to change your class declaration. One approach could be existential types:

data AnyRunnable = forall a . (Runnable a) => AnyRunnable a 

class Runnable d where
    run :: d -> Map String AnyRunnable -> Either [String] Integer

This is a different contract: now the Map can contain runnables of different types. Here is the full solution:

{-# LANGUAGE ExistentialQuantification #-}
module ProgLang where
import Data.Map as Map

data AnyRunnable = forall a . (Runnable a) => AnyRunnable a 

instance Show AnyRunnable where
    show (AnyRunnable a) = show a

instance Runnable AnyRunnable where
    run (AnyRunnable a) = run a

--  Classes
class Show d => Runnable d where
   run :: d -> Map String AnyRunnable -> Either [String] Integer

--  Data
data Name = Name String
  deriving (Show)

data Add a b = Add a b
  deriving (Show)

data Block a = Block (Map String AnyRunnable) a
  deriving (Show)

--  Instances
--  Integers resolve to Right Integer
instance Runnable Integer where
  run v _ = Right v


--  For Names
--    look up their expression in the scope, then evaluate
--    if name is out of scope, raise an error
instance Runnable Name where
  run (Name n) s = which (Map.lookup n s) where
    which Nothing = Left ["Variable not in scope: " ++ n]
    which (Just v) = run v s

--  For Addition
--    Run a, Run b, Add their results
--    Raise appropriate errors where necessary
instance (Runnable a, Show a, Runnable b, Show b) => Runnable (Add a b) where
  run (Add a b) s = geta (run a s) where
    geta (Left es) = Left (es ++ ["In lhs of expression: " ++ show (Add a b)])
    geta (Right a') = getb a' (run b s)
    getb _ (Left es) = Left (es ++ ["In rhs of expression: " ++ show (Add a b)])
    getb a' (Right b') = Right (a' + b')

--  For Blocks
--    Run the block's expression under a new scope
--      (merging the current with the block's scope definition)
instance Runnable a => Runnable (Block a) where
  run (Block s' e) s = result $ run e (Map.union s' s) where
    result (Left es) = Left (es ++ ["In block: " ++ show (Block s' e)])
    result (Right v) = Right v

Test like this:

run (Block (fromList [("a", AnyRunnable 10)]) (Name "a")) Map.empty
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