# Argument against

I found a proposal from 2008 in haskell-prime to make the `$`

and `$!`

operators left-associative:

https://ghc.haskell.org/trac/haskell-prime/wiki/ChangeDollarAssociativity

There is only one argument against the proposal: "This would break a *lot* of code".

# Arguments in favour

Instead, there are given **four arguments in favour of left-associative **`($)`

, the last one being the same as yours, and considered the most important. They are, in short:

0) given the expression `f x y`

, with two applications, we would be able to write `f $ x $ y`

1) now, with right associative `($)`

, we can write `f . g . h $ x`

as `f $ g $ h $ x`

,

however: `\x -> f $ g $ h $ x ==> f $ g $ h`

is invalid,

so that writing such pipelines with composition is better, as it allows easier cleanup of code

2) Left associative ($) allows you to eliminate more parentheses, in addition to the ones eliminated with (.), for instance:

`f (g x) (h y) ==> f $ g x $ h y`

3) your argument: the right associative version of `$!`

is inconvenient because of giving rise to things like: `((f $! x) $! y) $! z`

instead of `f $! x $! y $! z`

# Conclusion

I give support to use the better left-associative version of application operators redefining them at the beginning of our code, like this:

```
import Prelude hiding (($), ($!))
infixl 0 $, $!
($), ($!) :: (a -> b) -> a -> b
f $ x = f x
f $! x = x `seq` f x
```

`!$`

with the reversed fixity of`$!`

that does what you want? – bheklilr May 9 '14 at 17:30