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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:

   ((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:

  1. If I take the with-infix-define route, do I have to watch out for any stumbling blocks other than quote and quasiquote?
  2. 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?
share|improve this question
Is there a code-walker package for Scheme? It seems that all you need to do is wrap the code in a with-macro, walk that code and swap := with the previous s-exp, then define a symbol macro that makes := equivalent to define. Not sure on the quoted s-exps though. – Clayton Stanley May 29 '12 at 4:58
up vote 12 down vote accepted
  1. Before you continue with this, it's best to think things over thoroughly -- IME you'd often find that what you really want a reader-level handling of := as an infix syntax. That will of course mean that it's also infix in quotations etc, so it would seem bad for now, but again, my experience is that you end up realizing that it's better to do things consistently.

  2. For completeness, I'll mention that in Racket there's a read-syntax hack for infix-like expressions: (x . define . 1) is read as (define x 1). (And as above, it works everywhere.)

  3. Otherwise, your idea of a wrapping macro is pretty much the only thing you can do. This doesn't make it completely hopeless though, you might have a hook into your implementation's expander that can allow you to do such things -- for example, Racket has a special macro called #%module-begin that wraps a complete module body and #%top-interaction that wraps toplevel expressions on the REPL. (Both of these are added implicitly in the two contexts.) Here's an example (I'm using Racket's define-syntax-rule for simplicity):

    #lang racket/base
    (provide (except-out (all-from-out racket/base)
                         #%module-begin #%top-interaction)
             (rename-out [my-module-begin #%module-begin]
                         [my-top-interaction #%top-interaction]))
    (define-syntax infix-def
      (syntax-rules (:= begin)
        [(_ (begin E ...)) (begin (infix-def E) ...)]
        [(_ (x := E ...))  (define x (infix-def E) ...)]
        [(_ E)             E]))
    (define-syntax-rule (my-module-begin E ...)
      (#%module-begin (infix-def E) ...))
    (define-syntax-rule (my-top-interaction . E)
      (#%top-interaction . (infix-def E)))

    If I put this in a file called my-lang.rkt, I can now use it as follows:

    #lang s-exp "my-lang.rkt"
    (x := 10)
    ((fib n) :=
     (done? := (<= n 1))
     (if done? n (+ (fib (- n 1)) (fib (- n 2)))))
    (fib x)
  4. Yes, you need to deal with a bunch of things. Two examples in the above are handling begin expressions and handling function bodies. This is obviously a very partial list -- you'll also want bodies of lambda, let, etc. But this is still better than some blind massaging, since that's just not practical as you can't really tell in advance how some random piece of code will end up. As an easy example, consider this simple macro:

    (define-syntax-rule (track E)
      (begin (eprintf "Evaluating: ~s\n" 'E)
    (x := 1)
  5. The upshot of this is that for a proper solution, you need some way to pre-expand the code, so that you can then scan it and deal with the few known core forms in your implmenetation.

  6. Yes, all of this is repeating work that macro expanders do, but since you're changing how expansion works, there's no way around this. (To see why it's a fundamental change, consider something like (if := 1) -- is this a conditional expression or a definition? How do you decide which one takes precedence?) For this reason, for languages with such "cute syntax", a more popular approach is to read and parse the code into plain S-expressions, and then let the actual language implementation use plain functions and macros.

share|improve this answer
Hmmm... I can see how my proposed solution could get very ugly very quickly... If I decide to go the reader-macro route, do you know of any good resources where I could learn about Scheme (particularly Racket) read-macros? I've had very little experience with them, but I seem to remember that Scheme reader-macros seemed to me to be much less powerful than, say, Common Lisp reader-macros. In particular: can I write a regular macro which expands to a reader-macro definition? Or will it be too late at that point to modify reading? – Ord May 29 '12 at 14:33
Racket has the ability to do full parsing (which is too much), and CL-style readtable-based reader macros (which is also not a good fit here). Instead, it's best to just read the file as usual, then find S-exprs that look like what you want, and convert them by moving the := to the left. But it's possible to do that with the #%module-begin thing by just making a simple loop that does the same and then sends the result to the usual one -- but this loop should be done with real code, not with a syntax-rules. – Eli Barzilay May 29 '12 at 15:42
Okay, so if I understand your solution correctly - I use a regular define-syntax macro very much like your my-module-begin example, and then I just walk through the s-exprs that get passed into my macro and transform them as needed into prefix expressions? – Ord May 29 '12 at 20:21
Yes, except that you won't be able to do that with a syntax-rules macro. – Eli Barzilay May 30 '12 at 19:05

Redefining define is a little complicated. See @Eli's excellent explanation.

If on the other hand, you are content with := to use set! things are a little simpler.

Here is a small example:

#lang racket

(module assignment racket
  (provide (rename-out [app #%app]))

  (define-syntax (app stx)
    (syntax-case stx (:=)
      [(_ id := expr)
       (identifier? #'id)
       (syntax/loc stx (set! id expr))]      
      [(_ . more) 
       (syntax/loc stx (#%app . more))])))

(require 'assignment)

(define x 41)
(x := (+ x 1))
(displayln x)

To keep the example to a single file, I used submodules (available in the prerelease version of Racket).

share|improve this answer
Thanks soegaard; but why couldn't I just apply your solution to define as well? If every expression is implicitly wrapped in #%app, wouldn't that work? – Ord May 29 '12 at 14:29
In short: Definitions are not expressions. Definitions and expressions can occur in different places. Consider the right hand side of a let binding for example. – soegaard May 29 '12 at 14:46
So, not every define-like form is necessarily wrapped with #%app? Or is it that some forms where a definition would not be appropriate are wrapped with #%app (as in, I assume, your let example)? – Ord May 29 '12 at 14:50
No, only applications are wrapped in #%app. See… for legal context of definitions vs expressions. See… for information on how #%app appears. – soegaard May 29 '12 at 14:53

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