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I am supposed to make a parser for a language with the following grammar:

Program ::= Stmts "return" Expr ";"
Stmts   ::= Stmt Stmts
            |   ε
Stmt    ::= ident "=" Expr ";"
            |   "{" Stmts "}"
            |   "for" ident "=" Expr "to" Expr Stmt
            |   "choice" "{" Choices "}"
Choices  ::=  Choice Choices
         |  Choice
Choice  ::=  integer ":" Stmt
Expr    ::=  Shift
Shift   ::=  Shift "<<" integer
            |   Shift ">>" integer
            |   Term
Term   ::=  Term "+" Prod
       |    Term "-" Prod
       |    Prod
Prod    ::=  Prod "*" Prim
            |   Prim
Prim    ::= ident
            |   integer
            |   "(" Expr ")"

With the following data type for Expr:

data Expr = Var Ident
        | Val Int
        | Lshift Expr Int
        | Rshift Expr Int
        | Plus Expr Expr
        | Minus Expr Expr
        | Mult Expr Expr
        deriving (Eq, Show, Read)

My problem is implementing the Shift operator, because I get the following error when I encounter a left or right shift:

unexpected ">" expecting operator or ";"

Here is the code I have for Expr:

expr = try (exprOp) 
    <|> exprShift           

exprOp = buildExpressionParser arithmeticalOps prim <?> "arithmetical expression"

prim :: Parser Expr
prim = new_ident <|> new_integer <|> pE <?> "primitive expression"
                    new_ident = do {i <- ident; return $ Var i }
                    new_integer = do {i <- first_integer; return $ Val i }
                    pE = parens expr

arithmeticalOps = [ [binary "*" Mult AssocLeft],
                    [binary "+" Plus AssocLeft, binary "-" Minus AssocLeft]

binary  name fun assoc = Infix (do{ reservedOp name; return fun }) assoc 

exprShift = 
                e <- expr
                a <- aShift
                i <- first_integer
                return  $ a e i

aShift = (reservedOp "<<" >> return Lshift) 
            <|> (reservedOp ">>" >> return Rshift)

I suspect the problem is concerning lookahead, but I can't seem to figure it out.

share|improve this question
In a nutshell your grammar has left recursion on the Shift production. For an LL parser (which Parsec is one) you really need to remove left recursion. "try" gives you lookahead but it doesn't really solve left recursion, ideally you want to refactor the grammar. –  stephen tetley Feb 27 '11 at 8:46
For the record, the whole grammar is in LR form - directly suitable for an LR parser like YACC or Haskell's Happy, but not immediately suitable for an LL one like Parsec. –  stephen tetley Feb 27 '11 at 8:50

2 Answers 2

up vote 1 down vote accepted

Here's a grammar with left recursion eliminated (untested). Stmts and Choices can be simplified with Parsec's many and many1. The other recursive productions have to be expanded:

Program ::= Stmts "return" Expr ";"

Stmts   ::= @many@ Stmt

Stmt    ::= ident "=" Expr ";"
            |   "{" Stmts "}"
            |   "for" ident "=" Expr "to" Expr Stmt
            |   "choice" "{" Choices "}"

Choices  ::=  @many1@ Choice

Choice  ::=  integer ":" Stmt

Expr    ::=  Shift

Shift   ::= Term ShiftRest

ShiftRest ::= <empty>
          | "<<" integer
          | ">>" integer

Term ::= Prod TermRest

TermRest ::= <empty> 
         | "+" Term
         | "-" Term

Prod ::= Prim ProdRest

ProdRest ::= <empty> 
         |   "*" Prod

Prim    ::= ident
        |   integer
        |   "(" Expr ")"

Edit - "Part Two"

"empty" (in angles) is the empty production, you were using epsilon in the original post, but I don't know its Unicode code point and didn't think to copy-paste it.

Here's an example of how I would code the grammar. Note - unlike the grammar I posted empty versions must always be the last choice to give the other productions chance to match. Also your datatypes and constructors for the Abstract Syntax Tree probably differ to the the guesses I've made, but it should be fairly clear what's going on. The code is untested - hopefully any errors are obvious:

shift :: Parser Expr
shift = do 
    t <- term
    leftShift t <|> rightShift <|> emptyShift t

-- Note - this gets an Expr passed in - it is the "prefix"
-- of the shift production.
leftShift :: Expr -> Parser Expr
leftShift t = do 
  reservedOp "<<" 
  i <- int
  return (LShift t i)

-- Again this gets an Expr passed in.
rightShift :: Expr -> Parser Expr
rightShift t = do 
  reservedOp ">>" 
  i <- int
  return (RShift t i)

-- The empty version does no parsing.
-- Usually I would change the definition of "shift"
-- and not bother defining "emptyShift", the last 
-- line of "shift" would then be:
-- > leftShift t <|> rightShift t <|> return t
emptyShift :: Expr -> Parser Expr
emptyShift t = return t
share|improve this answer
Thanks, this is very helpful, but what exactly do you mean by <empty> ? –  andreas Feb 27 '11 at 23:51
Hi andreas - I've expanded the answer to explain. –  stephen tetley Feb 28 '11 at 9:15
Thank you for the answer and the explanation. I have finally managed to finish it and it works fine. –  andreas Feb 28 '11 at 11:01
@andreas - Cool! Note - often removing left recursion is a bit trickier, in this case your grammar didn't have "indirect left recursion" so it was quite easy. The Wikipedia page on "Left recursion" has some helpers if you need to remove indirect left recursion from a grammar. –  stephen tetley Feb 28 '11 at 11:33

Parsec is still Greek to me, but my vague guess is that aShift should use try.

The parsec docs on Hackage have an example explaining the use of try with <|> that might help you out.

share|improve this answer
I tried several ways to remove left recursion by using chainl1 and expression parsers, but none of them worked. Do you have any suggestions on what the appropriate way should be? –  andreas Feb 27 '11 at 21:12
@andreas, sorry, no clue. Like I said, I'm still quite a noob at parsec. I just thought I'd take a stab in the dark in case it helped. Write Yourself a Scheme in 48 hours should have some good tips on using Haskell+Parsec as a parser/interpreter. Googling that book and "left recursion" also has some results that might help. –  Dan Burton Feb 27 '11 at 22:34
Thanks for the suggestions. I replied to your answer by mistake. Sorry –  andreas Feb 27 '11 at 22:50

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