# Haskell function composition (.) and function application (\$) idioms: correct use

I have been reading Real World Haskell and I am nearing the end but a matter of style has been niggling at me to do with the (.) and (\$) operators.

When you write a function that is a composition of other functions you write it like:

``````f = g . h
``````

But when you apply something to the end of those functions I write it like this:

``````k = a \$ b \$ c \$ value
``````

But the book would write it like this:

``````k = a . b . c \$ value
``````

Now to me they look functionally equivalent, they do the exact same thing in my eyes. However, the more I look, the more I see people writing their functions in the manner that the book does: compose with (.) first and then only at the end use (\$) to append a value to evaluate the lot (nobody does it with many dollar compositions). Is there a reason for using the books way that is much better than using all (\$) symbols? Or is there some best practice here that I am not getting? Or is it superfluous and I shouldn't be worrying about it at all? Thanks.

-
Note that the second example can be done as `k = a \$ b \$ c value` –  Thomas Eding Jun 13 '10 at 17:11
Yes it can, as Zifre mentioned below, but I decided to leave it there as it does not harm anything and makes his (and now your) comments make sense. Thankyou though. +1 :) –  Robert Massaioli Jun 14 '10 at 1:44
Good question, it took me a while to get it more or less correctly. –  David V. Jun 16 '10 at 9:45
Another common approach is `a . b \$ c value`, which I don't like quite as much as the third example but saves a few characters. –  John L Jun 20 '12 at 10:31

I guess I can answer this from authority.

Is there a reason for using the books way that is much better than using all (\$) symbols?

There's no special reason. Bryan and I both prefer to reduce line noise. `.` is quieter than `\$`

As a result, the book uses the `f . g . h \$ x` syntax

-
+1 and thanks for Real World Haskell. –  pmr Jun 13 '10 at 1:56
Well, I cannot hope for a better answer than this one; from one of the authors himself. :) And that makes sense, it does look much quieter on the page as I read. Marking this as the answer because It directly answers the question. Thankyou for the response; and, infact, the book. –  Robert Massaioli Jun 13 '10 at 3:16
Not to disagree with the author, but I think there is another more prominent reason in the mental model of creating something rather than using it. Haskell users tend to want to think of `f.g.h` as a new clever creation rather `f(g(h()))`. Now they're calling a new, albeit anonymous, function which they created rather than just chaining a big dictionary of prefabbed function calls like a PHP user. –  Evan Carroll Jun 22 '10 at 15:20
That's an interesting statement: 'reduce line noise' and 'quieter than'. I never thought about programming languages in this terminology, but it makes perfect sense. –  Rabarberski May 27 '13 at 19:33

They are indeed equivalent: Keep in mind that the `\$` operator does, essentially, nothing. `f \$ x` evaluates to `f x`. The purpose of `\$` is its fixity behavior: right-associative and minimal precedence. Removing `\$` and using parentheses for grouping instead of infix precedence, the code snippets look like this:

``````k = a (b (c (value)))
``````

and

``````k = (a . b . c) value
``````

The reason for preferring the `.` version over the `\$` version is the same reason for preferring both over the very parenthesized version above: aesthetic appeal.

Although, some might wonder if using infix operators instead of parentheses is based on some subconscious urge to avoid any possible resemblance to Lisp (just kidding... I think?).

-
Nice answer. Thanks. +1 –  Robert Massaioli Jun 13 '10 at 8:20

I'd add that in `f . g \$ x`, `f . g` is a meaningful syntactic unit. Meanwhile, in `f \$ g \$ x`, `f \$ g` is not a meaningful unit. a chain of `\$` is arguably more imperative -- first get the result of g of x, then do f to it, then do foo to it, then etc. Meanwhile a chain of `.` is arguably more declarative, and in some sense closer to a dataflow centric view -- compose a series of functions, and ultimately apply them to something.

-

For me, I think the answer is (a) the neatness, as Don said; and (b) I find that when I'm editing code, my function may end up in point-free style, and then all I have to do is delete the last `\$` instead of going back and changing everything. A minor point, certainly, but a nicety.

-
Yeah that is a good reason to write it like that, if you want to end in a function composition then it is faster. :) Yay for saving keystrokes, but more importantly time. +1 –  Robert Massaioli Jun 13 '10 at 8:22

There's an interesting discussion of this question on this haskell-cafe thread. Apparently there's a minority viewpoint that holds that the right associativity of `\$` is "just plain wrong", and choosing `f . g . h \$ x` over `f \$ g \$ h \$ x` is one way of side-stepping the issue.

-
+1 for the links. –  Thomas Eding Jun 13 '10 at 17:49
Hey, you found a whole discussion on the matter. That is awesome, I'm having a read now. +1 –  Robert Massaioli Jun 14 '10 at 14:09
Your method just looks strange, and the last `\$` is unnecessary.