Suppose I want to trigger a Scheme macro on something other than the first item in an s-expression. For example, suppose that I wanted to replace
define with an infix-style
:=, so that:
(a := 5) -> (define a 5) ((square x) := (* x x)) -> (define (square x) (* x x))
The actual transformation seems to be quite straightforward. The trick will be getting Scheme to find the
:= expressions and macro-expand them. I've thought about surrounding large sections of code that use the infix syntax with a standard macro, maybe:
(with-infix-define expr1 expr2 ...), and having the standard macro walk through the expressions in its body and perform any necessary transformations. I know that if I take this approach, I'll have to be careful to avoid transforming lists that are actually supposed to be data, such as quoted lists, and certain sections of quasiquoted lists. An example of what I envision:
(with-infix-define ((make-adder n) := (lambda (m) (+ n m))) ((foo) := (add-3 := (make-adder 3)) (add-6 := (make-adder 6)) (let ((a 5) (b 6)) (+ (add-3 a) (add-6 b)))) (display (foo)) (display '(This := should not be transformed))
So, my question is two-fold:
- If I take the
with-infix-defineroute, do I have to watch out for any stumbling blocks other than quote and quasiquote?
- I feel a bit like I'm reinventing the wheel. This type of code walk seems like exactly what standard macro expanding systems would have to do - the only difference is that they only look at the first item in a list when deciding whether or not to do any code transformation. Is there any way I can just piggyback on existing systems?