**Background**

I'm trying to create a Parsec parser for numeric values. Those values can be either `Integer`

or `Double`

. They can also be signed or unsigned. I created a sign parser that returns polymorphic function `id`

for `+`

and `negate`

for `-`

. I also have a function that constructs proper version of my expression node, when given polymorphic sign function and `Either Integer Double`

. I'm trying to put it all together as shown on simplified version of my code below.

```
{-# LANGUAGE RankNTypes #-}
-- (...)
data Expr = IntExpr Integer | DoubleExpr Double
pSign :: Num a => MyParser (a -> a) -- returns id for + or negate for -
pReal :: (forall a. Num a => a -> a) -> Either Integer Double -> MyParser Expr
pNum :: MyParser Expr
pNum = do
sign <- pSign
numVal <- ParsecToken.naturalOrFloat lexer
pReal sign numVal
```

I get a compilation error "Could not deduce (a ~ Integer) ..." when I use my code like above.

When I change my code by defining sign function inside a `let`

statement in my monad, everything compiles fine:

```
pNum :: MyParser Expr
pNum = do
sign <- pSign
numVal <- ParsecToken.naturalOrFloat lexer
let t = sign 1
sign' :: Num a => a -> a
sign' = if t == 1 then id else negate
pReal sign numVal
```

My guess is that in the first case, polymophic type of `sign`

is somehow lost and converted to `Integer -> Integer`

.

**Question**

- What mechanism makes original
`sign :: Num a => a -> a`

monad variable not work as first argument of`pReal :: (forall a. Num a => a -> a) -> ...`

, while its redefined version of the same type (`sign'`

) works? - How can I achieve passing polymorphic variable
`sign`

created in my monad to`pReal`

function without re-defining (`sign'`

) it inside my monad?

**Notes**

I already tried approaches like explicitly defining type of `sign`

with

```
pNum = pSign >>= \(sign :: Num a => a -> a) -> do ...
```

or the same with normal function definition etc.

Please note that I know that I can make the code easier by simply returning a boolean variable from `sign`

instead of a polymorphic function. The point of this question is to understand how types work here.

`undefined`

or similar is fine, just so long as I can dump it in my text editor and immediately start playing with it. – Daniel Wagner Jan 13 '14 at 3:21`undefined`

, so I included uncompilable version without definitions. – Xilexio Jan 13 '14 at 4:18