I need help understanding Haskell expression evaluation. Take for example:

``````group . sort \$ [1,2,3]
``````

This is my idea of how the expression is evaluated, am I totally wrong?
1. . is evaluated first, this creates the function Ord a => [a] -> [[a]]
2. \$ is evaluated, this evaluates the right side of \$
3. The right side of \$ is fed as a parameter to the function on the left side of \$

How do spaces (highest precedence?) tie in all to this?

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There are no spaces here, not ones with precedence, anyway. –  Karolis Juodelė Aug 22 '12 at 19:06
@Karolis, I think the poster means function application. –  Paul Johnson Aug 22 '12 at 19:13
The order of evaluation is exactly the same as in `2 + 3 * 4`. –  sdcvvc Aug 22 '12 at 23:58
@PaulJohnson, I know, as I said, there is no normal application in that line. Just \$ and . –  Karolis Juodelė Aug 23 '12 at 5:37

The expression tree has `(\$)` at the top, with `(group . sort)` and `[1,2,3]` as children. I can see this since `(.)` has a higher priority # of 9 and binds more tightly than `(\$)` with priority 0:

``````Prelude> :i (.)
(.) :: (b -> c) -> (a -> b) -> a -> c   -- Defined in `GHC.Base'
infixr 9 .

Prelude> :i (\$)
(\$) :: (a -> b) -> a -> b   -- Defined in `GHC.Base'
infixr 0 \$
``````

The `(group . sort)` has `(.)` as the top and `group` and `sort` as parameters. The `[1,2,3]` desugars to `(1:(2:(3:([]))))`. This is the parsed expression tree.

It is evaluated by forcing the `(group . sort)`, to get a function, and then passing `[1,2,3]` unevaluated to this function.

`(group . sort)` is `\xs -> group (sort xs)` and so this becomes `group (sort [1,2,3])`. `group` looks at the outmost constructor of `(sort [1,2,3])` which forces `(sort [1,2,3])` to produce `(1 : thunk)` where `thunk` will eventually be evaluated to `[2,3]`.

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