Update 2: examples removed, because they were misleading. The ones below are more relevant.
Is there a programming language with such a construct?
Update: Now when I think about it, Prolog has something similar. I even allows defining operations at definition line. (forget about backtracking and relations - think about syntax)
I asked this question because I believe, it's a nice thing to have symmetry in a language. Symmetry between "in" parameters and "out" parameters.
If returning values like that would be easy, we could drop explicit returning in designed language.
retruning pairs ... I think this is a hack. we do not need a data structure to pass multiple parameters to a function.
To give an example of syntax I'm looking for:
f (s, d&) = // & indicates 'out' variable d = s+s. main = f("say twice", &twice) // & indicates 'out' variable declaration print(twice) main2 = print (f("say twice", _))
Or in functional + prolog style
f $s (s+s). // use $ to mark that s will get it's value in other part of the code main = f "say twice" $twice // on call site the second parameter will get it's value from print twice main2 = print (f "Say twice" $_) // anonymous variable
In a proposed language, there are no expressions, because all returns are through parameters. This would be cumbersome in situations where deep hierarchical function calls are natural. Lisp'ish example:
(let x (* (+ 1 2) (+ 3 4))) // equivalent to C x = ((1 + 2) * (3 + 4))
would need in the language names for all temporary variables:
+ 1 2 res1 + 3 4 res2 * res1 res2 x
So I propose anonymous variables that turn a whole function call into value of this variable:
* (+ 1 2 _) (+ 3 4 _)
This is not very natural, because all the cultural baggage we have, but I want to throw away all preconceptions about syntax we currently have.