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I'm writing a custom language that features some functional elements. When I get stuck somewhere I usually check how Haskell does it. This time though, the problem is a bit to complicated for me to think of an example to give to Haskell.

Here's how it goes.

Say we have the following line

a . b

in Haskell. Obviously, we are composing two functions, a and b. But what if the function a took another two functions as parameters. What's stopping it from operating on . and b? You can surround it in brackets but that shouldn't make a difference since the expression still evaluates to a function, a prefix one, and prefix functions have precedence over infix functions.

If you do

(+) 2 3 * 5

for example, it will output 25 instead of 17.

Basically what I'm asking is, what mechanism does Haskell use when you want an infix function to operate before a preceding prefix function.

So. If "a" is a function that takes two functions as its parameters. How do you stop Haskell from interpreting

a . b

as "apply . and b to the function a" and Interpret it as "compose functions a and b".

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So this is basically a question about the parsing of such expressions? –  leftaroundabout Feb 8 '13 at 12:00
I can always think of some solution that deals with these kinds of problems but I really want to know how it's implemented in Haskell. Perhaps not implemented, just how it works. –  Luka Horvat Feb 8 '13 at 12:02
I don't really understand the question? –  Cubic Feb 8 '13 at 12:10
Function application binds stronger than any infix operator. –  Cat Plus Plus Feb 8 '13 at 12:15
I tried to explain my question a bit better. I really don't know how else to express myself. How do you make that infix function (the composition) operate on a and b instead of a operating on . and b? –  Luka Horvat Feb 8 '13 at 12:18

4 Answers 4

up vote 11 down vote accepted

If you don't put parens around an operator, it's always parsed as infix; i.e. as an operator, not an operand.
E.g. if you have f g ? i j, there are no parens around ?, so the whole thing is a call to (?) (parsed as (f g) ? (i j), equivalent to (?) (f g) (i j)).

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Interesting. So you're saying that, if f took 2 functions as parameters, it still wouldn't take ? because it's an infix function? –  Luka Horvat Feb 8 '13 at 12:34
@LukaHorvat Not because it is an infix function, but because it is an infix name. It is based purely on syntax. –  Sjoerd Visscher Feb 8 '13 at 13:15

I think what you're looking for are fixity declarations (see The Haskell Report).

They basically allow you to declare the operator precedence of infix functions.

For instance, there is

infixl 7 *
infixl 6 +

which means that + and * are both left associative infix operators. * has precedence 7 while + has precendence 6, i.e * binds stronger than +. In the report page, you can also see that . is defined as infixr 9 .

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And in addition, function application binds tighter than any infix operator. (And record syntax/update binds even tighter than that.) –  Antal S-Z Feb 8 '13 at 15:54
and :info is useful in GHCi to check out operator fixity –  jberryman Feb 8 '13 at 16:00

Basically what I'm asking is, what mechanism does Haskell use when you want an infix function to operate before a preceding prefix function.

Just to point out a misconception: This is purely a matter of how expressions are parsed. The Haskell compiler does not know (or: does not need to know) if, in

f . g

f, g and (.) are functions, or whatever.

It goes the other way around:

  1. Parser sees f . g (or, the syntactically equivalent: i + j)
  2. Hands this up as something like App (App (.) f) g following the lexical and syntax rules.
  3. Only then, when the typechecker sees App a b it concludes that a must be a function.
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But it's lexical and syntax rules would tell it to parse it as App (App (f (.)) g –  Luka Horvat Feb 8 '13 at 14:09
Not true. If this were so, then 2 + 3 would also be parsed App (App 2 (+)) 3 which is nonsensical. –  Ingo Feb 8 '13 at 14:22
That means Haskell obviously has to know what is a function and what isn't. Contrary to what you said before. It even needs to know the precedence if the function is in infix form. –  Luka Horvat Feb 9 '13 at 4:36
@LukaHorvat No, this dow not follow. Look, it is so easy: If you see a b c it is a applied to b applied to c, if you see a ° b where ° is no varid or a varid enclosed in backquotes, it is (°) applied to a applied to b. (To sort out more complicated expressions, you have to know the precedence and associativity, though.) In no case, however, does it play a role whether the operands (i.e. a and b) are functions or not, as you assumed in your question. –  Ingo Feb 9 '13 at 12:11
(+) 2 3 * 5

is parsed as

((+) 2 3) * 5

and thus

(2 + 3) * 5

That is, because function applications (like (+) 2 3) get evaluated first, before functions in infix notation, like *.

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I understand how and why that works. I just used it as an example of a function turning prefix when you surround it with brackets. –  Luka Horvat Feb 8 '13 at 12:21

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