Why do I need braces in Haskell for 'neg square 4.2'?

I'm currently learning Haskell with 99 questions and I have seen `.` in one solution. It seems to be usual function composition as known in math:

``````f ∘ g
``````

I wanted to make sure that I've understood it correctly and created this example:

``````square x = x*x
neg x = (-1)*x

main = do
-- let result = neg (square 4.1) -- works
-- let result = square (neg 4.2) -- works
-- let result = neg \$ square 4.3 -- works
let result = neg square 4.4 -- doesn't work
-- let result = neg . square 4.5 -- doesn't work
-- let result = neg . square \$ 4.6 -- works
-- let result = neg square \$ 4.7 -- does not work

print result
``````

Sadly, only the first three lines work (at least they work as expected).

Why do I need braces in the lower two cases? I thought that you would not need them, becasue I thought that with the dot, `neg` gets `square` as input. So it is still a function and looks like

``````(-1)*x*(-1)*x
``````

then 4.4 is put in there for `x` which should be fine.

I thought that without the dot, Haskell first applicates `square` to 4.5 and then `neg` is applied to the result.

But apparently there is a problem. What is the problem in the lower two cases?

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Because of precedence specified with `infixr` for `.`, `\$` (and implied for function application), `neg . square 4.5 == (.) (neg) (square 4.5)`, `neg . square \$ 4.6 == (\$) ((.) (neg) (square)) (4.6)`, and `neg square \$ 4.7 == (\$) (neg (square)) (4.7)` –  Sassa NF Feb 24 '14 at 11:01

Function application () has the highest precedence of all the operators in Haskell, so

`neg . square 4.5` means `neg . (square 4.5)`, which doesn't make sense because `(square 4.5)` is a number, not a function, so you can't compose it with `neg`.

and `neg square \$ 4.7` means `(neg square) \$ 4.7`, but `square` is a function not a number, so you can't `neg` it.

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In Haskell, function application is left associative so `a b c d` means `((a b) c) d)`.

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The type of `neg` is

``````neg:: Num a => a -> a
``````

You are attempting to apply two arguments to neg when it only takes one. `(.)` is function composition, not concatenation.

`let result = neg . square 4.5` should be `let result = neg . square \$ 4.5`

In the case of `neg . square` you are composing two functions.

The type of `(.)`is `(b -> c) -> (a -> c) -> a -> c` So when you compose it with `neg` and `square` it becomes `neg . square :: Num c => c -> c` and now takes one argument. If you attempt to apply `42` to `neg . square` immediately, the application of `4.4` applied to `square` will take precedence over the composition of `neg`and `square` applied to `4.4` (since function application is left-associative) and will produce a type error.

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