I don't quite know how else to ask. I think I need general guidance here. I've got something like this:
expr = buildExpressionParser table term <?> "expression" term = choice [ (float >>= return . EDouble) , try (natural >>= return . EInteger) , try (stringLiteral >>= return . EString) , try (reserved "true" >> return (EBool True)) , try (reserved "false" >> return (EBool False)) , try assign , try ifelse , try lambda , try array , try eseq , parens expr ] <?> "simple expression"
When I test that parser, though, I mostly get problems... like when I try to parse
(a,b) -> "b"
it is accepted by the
lambda parser, but the
expr parser hates it. And sometimes it even hangs up completely in eternal rules.
I've read through Write Yourself a Scheme, but it only parses the homogeneous source of Scheme.
Maybe I am generally thinking in the wrong direction.
EDIT: Here the internal parsers:
assign = do i <- identifier reservedOp "=" e <- expr return $ EAssign i e ifelse = do reserved "if" e <- expr reserved "then" a <- expr reserved "else" b <- expr return $ EIfElse e a b lambda = do ls <- parens $ commaSep identifier reservedOp "->" e <- expr return $ ELambda ls e array = (squares $ commaSep expr) >>= return . EArray eseq = do a <- expr semi <|> (newline >>= (\x -> return [x])) b <- expr return $ ESequence a b table = [ [binary "*" EMult AssocLeft, binary "/" EDiv AssocLeft, binary "%" EMod AssocLeft ], [binary "+" EPlus AssocLeft, binary "-" EMinus AssocLeft ], [binary "~" EConcat AssocLeft], [prefixF "not" ENot], [binaryF "and" EAnd AssocLeft, binaryF "or" EAnd AssocLeft] ]
And by "hates it" I meant that it tells me it expects an integer or a floating point.