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I'm attempting the Write Yourself a Scheme in 48 Hours tutorial and as someone new to haskell it's pretty difficult. I'm currently working on a problem where I'm supposed to add the ability to parse scheme vectors (section 3.4 exercise 2).

I'm using this data type:

data LispVal = Atom String                  
         | List [LispVal]                   
         | Vector (Array Int LispVal)

To parse, I'm looking for '#(' then trying to parse the vector contents, drop them in a list and convert that list to an array.

I'm trying to use a list parsing function that I already have and am using but it parses scheme lists into the LispVal List above and I'm having a hard time getting that back into a regular list. Or at least that's what I think my problem is.

lispValtoList :: LispVal -> [LispVal]
lispValtoList (List [a]) = [a]

parseVector :: Parser LispVal
parseVector = do string "#("
             vecArray <- parseVectorInternals       
             char ')'
             return $ Vector vecArray

parseVectorInternals :: Parser (Array Int LispVal)
parseVectorInternals = listToArray . lispValtoList . parseList  

listToArray :: [a] -> Array Int a
listToArray xs = listArray (0,l-1) xs
    where l = length xs

and here's the list parser:

parseList :: Parser LispVal
parseList = liftM List $ sepBy parseExpr spaces

Any ideas on how to fix this? Thanks, Simon

-edit- Here's the compilation error I get:

Couldn't match expected type a -> LispVal' against inferred typeParser LispVal' In the second argument of (.)' namelyparseList' In the second argument of (.)' namely lispValToList . parseList' In the expression: listToArray . lispValToList . parseList

share|improve this question
Do you get any error message when you compile the code? I think that the definition of parseVectorInternals has a type error, but I am not sure if it is the only error in the code or not. Also, the indentation of the definition of parseVector is weird. –  Tsuyoshi Ito Jun 23 '11 at 18:28
I edited the original question to include the error - the parseVector indenting is a rendering issue, it's fine in the actual code. –  SimonBolivar Jun 23 '11 at 18:55

2 Answers 2

up vote 6 down vote accepted

You do not provide lispValtoList but I suppose that it have the following type

lispValtoList :: LispVal -> [LispVal]

This would suggest the compiler to think that parseList is of type a -> LispVal. But it is not since it is Parser LispVal and so something like P String -> [(LispVal,String)].

You have to extract the LispVal value that was parsed before putting it in a list. So parseVectorInternals must probably look like

parseVectorInternals = do parsedList <- parseList 
                          let listOfLispVal = lispValtoList parsedList
                          return $ listToArray listOfLispVal

You could write something more compact, but this code tries to be self-documented ;)

share|improve this answer
Fraikin - Whoops, it's there now. I guess what I was trying to do is exactly what you're saying I should do. The intent of lispValToList is to get the haskell list out of the LispVal List. Are you saying that I'm using the (.) operator incorrectly? –  SimonBolivar Jun 23 '11 at 19:35
@SimonBolivar In this case, the (.) operator is incorrect because the return value of parseList doesn't match the argument of lispValToList. parseList returns a monad, which is sort of like a box holding a value. The <- inside a do block takes the value out of the box, then you can pass the value to lispValToList. ( has a better explanation of monads) –  Alex Jun 24 '11 at 3:34
@SimonBolivar Exactly... the problem comes from the composition operator. You need to lift lispValtoList to compose him (look at Control.Monad if you don't know what lifting is). It seems that John F. Miller gives possibles corrections. –  Benoît Fraikin Jun 24 '11 at 12:28
@Alex and @Benoit Thanks, I didn't understand that the <- was lifting. That helps clear some things up. I just had a really long comment about how the code still didn't work though until I realized that I need to use return to get the Array back into the Parser monad. It appears to work now. –  SimonBolivar Jun 24 '11 at 22:12

parseList is a Monad of type parser LispVal whereas lispValtoList wants a plain LispVal so:

parseVectorInternals = listToArray . lispValtoList `liftM` parseList

If you are where I was 8 weeks ago reading the same book the following will help you as well:

All these lines are equivalent:

parseVectorInternals = (listToArray . lispValtoList) `liftM` parseList
parseVectorInternals = liftM (listToArray . lispValtoList) parseList
parseVectorInternals = parseList >>= \listLispVal -> return listToArray (lispValtoList listLispVal)
parseVectorInternals = do 
  listLispVal <- parseList 
  return listToArray (lispValtoList listLispVal)
share|improve this answer
Thanks. That helps although I think that there may be a couple of problems with your solution. First, parseVectorInternals is of type Parser (Array Int LispVal) so I need a return or equivalent (another liftM?) to get it back into the correct monad. Second, the first code solution gives the error: Precedence parsing error cannot mix '.' [infixr 9] and 'liftM' [infixl 9] in the same infix expression I'm not sure what to do with that one. But, the version with the do block works if I preface the last line with return $ –  SimonBolivar Jun 24 '11 at 22:22

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