Why is the $! operator right-associative? I'm just learning Haskell and I'm still not entirely clear on when and how strict evaluation is forced When I want a function to evaluate its arguments strictly I find myself writing ((f$! x) $! y )$! z

which seems weird. Shouldn't $! be left-associative so I could write f$! x $! y$! z

and have it do what I want?

Am I completely misunderstanding the $! operator? • Why not just write a function !$ with the reversed fixity of $! that does what you want? – bheklilr May 9 '14 at 17:30 • The question is why the function isn't already defined that way. I want to know if my desire to write it that way reflects a misunderstanding of how things in Haskell work. – dspyz May 9 '14 at 17:33 • If you're just learning Haskell I don't think you should be messing with strict application. It's very rarely needed. – augustss May 9 '14 at 18:07 2 Answers Argument against I found a proposal from 2008 in haskell-prime to make the$ 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
• Older (2006), similar discussion in Haskell Cafe (he tells: "the associativity of $is just plain wrong"): mail-archive.com/haskell-cafe@haskell.org/msg12549.html – enrique Dec 25 '14 at 21:38 • To translate an expression in the conventional style f$! g $! x with the cited tactic for plain$ , one would need some sort of strict composition: f .! g $! x. I wonder: is there such operator already defined in a library? – imz -- Ivan Zakharyaschev Jun 18 '15 at 8:31 • BTW, the current <$> is consistent with the current conventional $: f <$> g <$> x seems to be equivalent to f . g <$> x. But another, left-associative version of <$> wouldn't make much sense, because consuming several Applicative arguments is written as f <$> x <*> y or g <*> x <*> y (for a pure f or an Applicative g). It seems that <*> is already left-associative (as wanted for $in Haskell-prime), and lower priority than <$>. – imz -- Ivan Zakharyaschev Jun 18 '15 at 8:49
• It seems that <$> is left-associative in the latest base (so, inconsistent with the conventional$), contrary to what I said in the above comment. But my <$> from an older base I have on my system is right associative! (show <$> show <$> Just 3 gives Just "\"3\"" for me; or I don't understand what is happening, so I asked a question) – imz -- Ivan Zakharyaschev Jun 18 '15 at 9:12 • Yes, there exists (.!): Strict composition. – imz -- Ivan Zakharyaschev Jun 23 '15 at 8:17 It's to mirror the fixity of$. You could make a very good case for both $and$! having the wrong fixity.

• – Thomas M. DuBuisson May 9 '14 at 17:39
• The Prelude operators are in the Haskell report. – augustss May 9 '14 at 18:06
• @dspyz Do note that there's no such thing as a list of Haskell operators. Is *%^*%^*&&\$&%^ a Haskell operator? Well, it could be, if some library defined it. – Carl May 9 '14 at 19:24
• @dspyz To search for Haskell operators and functions by name try Hoogle (uses a limited set of packages, but can also search by type which is very useful) or Hayoo (searches only by name, but in all of Hackage.) – Ørjan Johansen May 9 '14 at 21:01
• @dspyz FP Complete's Hoogle searches a larger number of packages than the regular Hoogle, so it can be handy fpcomplete.com/hoogle – David May 9 '14 at 23:54