Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm totally new to Haskell and trying to implement a "Lambda calculus" parser, that will be used to read the input to a lambda reducer .. It's required to parse bindings first "identifier = expression;" from a text file, then at the end there's an expression alone .. till now it can parse bindings only, and displays errors when encountering an expression alone .. when I try to use the try or option functions, it gives a type mismatch error:

Couldn't match type `[Expr]'
                  with `Text.Parsec.Prim.ParsecT s0 u0 m0 [[Expr]]'
    Expected type: Text.Parsec.Prim.ParsecT
                     s0 u0 m0 (Text.Parsec.Prim.ParsecT s0 u0 m0 [[Expr]])
      Actual type: Text.Parsec.Prim.ParsecT s0 u0 m0 [Expr]
    In the second argument of `option', namely `bindings'

bindings weren't supposed to return anything, but I tried to add a return statement and it also returned a type mismatch error:

Couldn't match type `[Expr]' with `Expr'
    Expected type: Text.Parsec.Prim.ParsecT
                     [Char] u0 Data.Functor.Identity.Identity [Expr]
      Actual type: Text.Parsec.Prim.ParsecT
                     [Char] u0 Data.Functor.Identity.Identity [[Expr]]
    In the second argument of `(<|>)', namely `expressions'
share|improve this question

1 Answer 1

up vote 2 down vote accepted

Don't use <|> if you want to allow both

Your program parser does its main work with

program = do
      try bindings <|> expressions
      spaces >> eof

This <|> is choice - it does bindings if it can, and if that fails, expressions, which isn't what you want. You want zero or more bindings, followed by expressions, so let's make it do that. Sadly, even when this works, the last line of your parser is eof and

First, let's allow zero bindings, since they're optional, then let's get both the bindings and the expressions:

bindings = many binding

program = do
      bs <- bindings 
      es <- expressions
      spaces >> eof
      return (bs,es)

This error would be easier to find with plenty more <?> "binding" type hints so you can see more clearly what was expected.

endBy doesn't need many

The error message you have stems from the line

expressions = many (endBy expression eol)

which should be

expressions :: Parser [Expr]
expressions = endBy expression eol

endBy works like sepBy - you don't need to use many on it because it already parses many.

This error would have been easier to find with a stronger data type tree, so:

Use try to deal with common prefixes

One of the hard-to-debug problems you've had is when you get the error expecting space or "=" whilst parsing an expression. If we think about that, the only place we expect = is in a binding, so it must be part way through parsing a binding when we've given it an expression. This only happens if our expression starts with an identifier, just like a binding does.

binding sees the first identifier and says "It's OK guys, I've got this" but then finds no = and gives you an error, where we wanted it to backtrack and let expression have a go. The key point is we've already used the identifier input, and we want to unuse it. try is right for that.

Encase your binding parser with try so if it fails, we'll go back to the start of the line and hand over to expression.

binding = try (do
          (Var id) <- identifier
          _ <- char '='
          exp <- expression
          eol <?> "end of line"
          return $ Eq id exp
        <?> "binding")

It's important that as far as possible each parser starts with matching something unique to avoid this problem. (try is backtracking, hence inefficient, so should be avoided if possible.)

In particular, avoid starting parsers with spaces, but instead make sure you finish them all with spaces. Your main program can start with spaces if you like, since it's the only alternative.

Use types for most productions - better structure & readability

My first piece of general advice is that you could do with a more fine-grained data type, and should annotate your parsers with their type. At the moment, everything's wrapped up in Expr, which means you can only get error messages about whether you have an Expr or a [Expr]. The fact that you had to add Eq to Expr is a sign you're pushing the type too far.

Usually it's worth making a data type for quite a lot of the productions, and if you import Control.Applicative hiding ((<|>),(<$>),many) Control.Applicative you can use <$> and <*> so that the production, the datatype and the parser are all the same structure:

--<program> ::= <spaces> [<bindings>] <expressions>
data Program = Prog [Binding] [Expr]
program = spaces >> Prog <$> bindings <*> expressions   

-- <expression> ::=  <abstraction> | factors
data Expression = Ab Abstraction | Fa [Factor] 
expression = Ab <$> abstraction <|> Fa <$> factors   <?> "expression"

Don't do this with letters for example, but for important things. What counts as important things is a matter of judgement, but I'd start with Identifiers. (You can use <* or *> to not include syntax like = in the results.)

Amended code:

Before refactoring types and using Applicative here

And afterwards here

share|improve this answer
Thank you .. I tried to make the modifications you mentioned, but when the parser reaches the line that has an expression only it displays an error & expects a binding: code unexpected "(" expecting space or "=" –  user3305447 Feb 13 '14 at 23:58
I defined Binding as: data Binding = Eq Symbol Expr the type of bindings & binding is: bindings :: Parser [Binding] binding :: Parser Binding Is this correct? –  user3305447 Feb 14 '14 at 0:01
Yes. I'm parsing bracketed expressions OK with a corrected but not improved version like this. If that doesn't work, can you post your "Program.txt"? –  enough rep to comment Feb 14 '14 at 0:29
It still returns the same error when parsing an expression, "Program.txt" contains an expression only after removing all the bindings: eq (div (add 2 7) (sub 5 2)) 3; –  user3305447 Feb 14 '14 at 9:19
@user3305447 Ah yes - expression and binding can both start with an identifier, so binding has a go and fails expecting =. It's the common prefix problem. See new version of answer. –  enough rep to comment Feb 14 '14 at 12:24

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.