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I'm writing a parser in Parsec. Left-recursive productions like E -> E + E cannot be written easily in an LL parser, so Parsec provides buildExpressionParser, which supports infix, postfix and prefix operators. But what about subscript operators?

How would E -> E [E] be implemented? If I could consume the closing bracket without consuming the second expression, then I could emulate it with an Infix table entry for buildExpressionParser. Thoughts?

Edit: I know there is an algorithm for left-recursion elimination that will most likely work for my grammar. I'm looking for something easy, or well-abstracted (such as buildExpressionParser). Otherwise I'll just use Happy.

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I would recommend against using happy for this or basically any reason. Happy sidesteps Haskell's power of abstraction. –  luqui Jun 25 '13 at 3:01
Just do it as a Postfix with buildExpressionParser. –  luqui Jun 25 '13 at 3:08
how does postfix help? with that I can match the closing bracket, but no way of matching the opening one... –  BruceBerry Jun 25 '13 at 4:07
Postfix :: ParsecT s u m (a -> a) -> Operator s u m a, so a postfix operator can be an arbitrary parser, not just a single character. For example, you could use brackets lex parseExpr (where lex is a TokenParser) as an argument to Postfix. –  luqui Jun 25 '13 at 5:49
i just noticed now that Postfix and Prefix are unary. then i guess it could work... –  BruceBerry Jun 25 '13 at 5:50

1 Answer 1

In our project we manually eliminated left recursion from the expressions. This works the following way:

We created a generic form of expressions, that is parameterized by the term parser:

expressionGen :: MParser (Expr LocInfo) -> MParser (Expr LocInfo)
expressionGen term = buildExpressionParser precedenceTable term <?> "expression"
  where precedenceTable = -- unary, binary expressions

We have a normal term parser, and a term parser free of recursive rules. With that, we can parse (multiple) subscript operators:

term :: MParser (Expr LocInfo)
term = do indBase <- termNoArray
          indexes <- many $ (brackets expression >>= return)
          return -- semantics
        <?> "term"

termNoArray :: MParser (Expr LocInfo)
termNoArray = -- normal terms

Finally, we have a topmost parser for expressions: expression = expressionGen term

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