396 lines
12 KiB
Plaintext
396 lines
12 KiB
Plaintext
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;;;; "mbe.scm" "Macro by Example" (Eugene Kohlbecker, R4RS)
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;;; From: Dorai Sitaram, dorai@cs.rice.edu, 1991, 1997
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;
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;Permission to copy this software, to redistribute it, and to use it
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;for any purpose is granted, subject to the following restrictions and
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;understandings.
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;
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;1. Any copy made of this software must include this copyright notice
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;in full.
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;
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;2. I have made no warrantee or representation that the operation of
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;this software will be error-free, and I am under no obligation to
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;provide any services, by way of maintenance, update, or otherwise.
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;
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;3. In conjunction with products arising from the use of this
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;material, there shall be no use of my name in any advertising,
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;promotional, or sales literature without prior written consent in
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;each case.
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;;; revised Dec. 6, 1993 to R4RS syntax (if not semantics).
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;;; revised Mar. 2 1994 for SLIB (jaffer@ai.mit.edu).
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;;; corrections, Apr. 24, 1997.
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;;; revised Aug. 30 1999 for STk (eg@unice.fr)
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;;;
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;;; Last file update: 31-Aug-1999 15:56 (eg)
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;;;
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;;; A vanilla implementation of hygienic macro-by-example as described
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;;; by Eugene Kohlbecker and in R4RS Appendix.
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(define-module MBE
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;;;
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;;; Scheme utilities
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;;;
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(define (reverse! l)
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(let loop ((l l) (r '()))
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(if (null? l)
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r
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(let ((d (cdr l)))
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(set-cdr! l r)
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(loop d l)))))
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;=============================================================================
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(define hyg:rassq
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(lambda (k al)
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(let loop ((al al))
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(if (null? al) #f
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(let ((c (car al)))
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(if (eq? (cdr c) k) c
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(loop (cdr al))))))))
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(define hyg:tag
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(lambda (e kk al)
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(cond ((pair? e)
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(let* ((a-te-al (hyg:tag (car e) kk al))
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(d-te-al (hyg:tag (cdr e) kk (cdr a-te-al))))
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(cons (cons (car a-te-al) (car d-te-al))
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(cdr d-te-al))))
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((vector? e)
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(list->vector
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(hyg:tag (vector->list e) kk al)))
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((symbol? e)
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(cond ((eq? e '...) (cons '... al))
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((memq e kk) (cons e al))
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((hyg:rassq e al) =>
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(lambda (c)
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(cons (car c) al)))
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(else
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(let ((te (gensym)))
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(cons te (cons (cons te e) al))))))
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(else (cons e al)))))
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;;untagging
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(define hyg:untag
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(lambda (e al tmps)
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(if (pair? e)
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(let ((a (hyg:untag (car e) al tmps)))
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(if (list? e)
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(case a
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((quote) (hyg:untag-no-tags e al))
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((if begin)
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`(,a ,@(map (lambda (e1)
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(hyg:untag e1 al tmps)) (cdr e))))
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((set! define)
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`(,a ,(hyg:untag-vanilla (cadr e) al tmps)
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,@(map (lambda (e1)
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(hyg:untag e1 al tmps)) (cddr e))))
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((lambda) (hyg:untag-lambda (cadr e) (cddr e) al tmps))
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((letrec) (hyg:untag-letrec (cadr e) (cddr e) al tmps))
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((let)
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(let ((e2 (cadr e)))
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(if (symbol? e2)
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(hyg:untag-named-let e2 (caddr e) (cdddr e) al tmps)
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(hyg:untag-let e2 (cddr e) al tmps))))
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((let*) (hyg:untag-let* (cadr e) (cddr e) al tmps))
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((do) (hyg:untag-do (cadr e) (caddr e) (cdddr e) al tmps))
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((case)
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`(case ,(hyg:untag-vanilla (cadr e) al tmps)
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,@(map
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(lambda (c)
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`(,(hyg:untag-vanilla (car c) al tmps)
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,@(hyg:untag-list (cdr c) al tmps)))
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(cddr e))))
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((cond)
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`(cond ,@(map
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(lambda (c)
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(hyg:untag-list c al tmps))
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(cdr e))))
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(else (cons a (hyg:untag-list (cdr e) al tmps))))
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(cons a (hyg:untag-list* (cdr e) al tmps))))
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(hyg:untag-vanilla e al tmps))))
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(define hyg:untag-list
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(lambda (ee al tmps)
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(map (lambda (e)
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(hyg:untag e al tmps)) ee)))
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(define hyg:untag-list*
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(lambda (ee al tmps)
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(let loop ((ee ee))
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(if (pair? ee)
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(cons (hyg:untag (car ee) al tmps)
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(loop (cdr ee)))
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(hyg:untag ee al tmps)))))
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(define hyg:untag-no-tags
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(lambda (e al)
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(cond ((pair? e)
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(cons (hyg:untag-no-tags (car e) al)
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(hyg:untag-no-tags (cdr e) al)))
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((vector? e)
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(list->vector
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(hyg:untag-no-tags (vector->list e) al)))
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((not (symbol? e)) e)
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((assq e al) => cdr)
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(else e))))
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(define hyg:untag-lambda
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(lambda (bvv body al tmps)
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(let ((tmps2 (append! (hyg:flatten bvv) tmps)))
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`(lambda ,bvv
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,@(hyg:untag-list body al tmps2)))))
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(define hyg:untag-letrec
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(lambda (varvals body al tmps)
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(let ((tmps (append! (map car varvals) tmps)))
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`(letrec
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,(map
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(lambda (varval)
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`(,(car varval)
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,(hyg:untag (cadr varval) al tmps)))
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varvals)
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,@(hyg:untag-list body al tmps)))))
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(define hyg:untag-let
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(lambda (varvals body al tmps)
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(let ((tmps2 (append! (map car varvals) tmps)))
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`(let
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,(map
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(lambda (varval)
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`(,(car varval)
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,(hyg:untag (cadr varval) al tmps)))
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varvals)
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,@(hyg:untag-list body al tmps2)))))
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(define hyg:untag-named-let
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(lambda (lname varvals body al tmps)
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(let ((tmps2 (cons lname (append! (map car varvals) tmps))))
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`(let ,lname
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,(map
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(lambda (varval)
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`(,(car varval)
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,(hyg:untag (cadr varval) al tmps)))
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varvals)
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,@(hyg:untag-list body al tmps2)))))
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(define hyg:untag-let*
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(lambda (varvals body al tmps)
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(let ((tmps2 (append! (reverse! (map car varvals)) tmps)))
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`(let*
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,(let loop ((varvals varvals)
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(i (length varvals)))
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(if (null? varvals) '()
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(let ((varval (car varvals)))
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(cons `(,(car varval)
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,(hyg:untag (cadr varval)
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al (list-tail tmps2 i)))
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(loop (cdr varvals) (- i 1))))))
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,@(hyg:untag-list body al tmps2)))))
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(define hyg:untag-do
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(lambda (varinistps exit-test body al tmps)
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(let ((tmps2 (append! (map car varinistps) tmps)))
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`(do
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,(map
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(lambda (varinistp)
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(let ((var (car varinistp)))
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`(,var ,@(hyg:untag-list (cdr varinistp) al
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(cons var tmps)))))
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varinistps)
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,(hyg:untag-list exit-test al tmps2)
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,@(hyg:untag-list body al tmps2)))))
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(define hyg:untag-vanilla
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(lambda (e al tmps)
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(cond ((pair? e)
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(cons (hyg:untag-vanilla (car e) al tmps)
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(hyg:untag-vanilla (cdr e) al tmps)))
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((vector? e)
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(list->vector
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(hyg:untag-vanilla (vector->list e) al tmps)))
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((not (symbol? e)) e)
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((memq e tmps) e)
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((assq e al) => cdr)
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(else e))))
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(define hyg:flatten
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(lambda (e)
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(let loop ((e e) (r '()))
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(cond ((pair? e) (loop (car e)
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(loop (cdr e) r)))
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((null? e) r)
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(else (cons e r))))))
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;;;; End of hygiene filter.
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;;; finds the leftmost index of list l where something equal to x
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;;; occurs
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(define mbe:position
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(lambda (x l)
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(let loop ((l l) (i 0))
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(cond ((not (pair? l)) #f)
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((equal? (car l) x) i)
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(else (loop (cdr l) (+ i 1)))))))
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;;; tests if expression e matches pattern p where k is the list of
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;;; keywords
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(define mbe:matches-pattern?
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(lambda (p e k)
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(cond ((mbe:ellipsis? p)
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(and (or (null? e) (pair? e))
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(let* ((p-head (car p))
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(p-tail (cddr p))
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(e-head=e-tail (mbe:split-at-ellipsis e p-tail)))
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(and e-head=e-tail
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(let ((e-head (car e-head=e-tail))
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(e-tail (cdr e-head=e-tail)))
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(and (every
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(lambda (x) (mbe:matches-pattern? p-head x k))
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e-head)
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(mbe:matches-pattern? p-tail e-tail k)))))))
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((pair? p)
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(and (pair? e)
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(mbe:matches-pattern? (car p) (car e) k)
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(mbe:matches-pattern? (cdr p) (cdr e) k)))
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((symbol? p) (if (memq p k) (eq? p e) #t))
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(else (equal? p e)))))
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;;; gets the bindings of pattern variables of pattern p for
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;;; expression e;
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;;; k is the list of keywords
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(define mbe:get-bindings
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(lambda (p e k)
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(cond ((mbe:ellipsis? p)
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(let* ((p-head (car p))
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(p-tail (cddr p))
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(e-head=e-tail (mbe:split-at-ellipsis e p-tail))
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(e-head (car e-head=e-tail))
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(e-tail (cdr e-head=e-tail)))
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(cons (cons (mbe:get-ellipsis-nestings p-head k)
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(map (lambda (x) (mbe:get-bindings p-head x k))
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e-head))
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(mbe:get-bindings p-tail e-tail k))))
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((pair? p)
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(append (mbe:get-bindings (car p) (car e) k)
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(mbe:get-bindings (cdr p) (cdr e) k)))
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((symbol? p)
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(if (memq p k) '() (list (cons p e))))
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(else '()))))
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;;; expands pattern p using environment r;
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;;; k is the list of keywords
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(define mbe:expand-pattern
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(lambda (p r k)
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(cond ((mbe:ellipsis? p)
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(append (let* ((p-head (car p))
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(nestings (mbe:get-ellipsis-nestings p-head k))
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(rr (mbe:ellipsis-sub-envs nestings r)))
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(map (lambda (r1)
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(mbe:expand-pattern p-head (append r1 r) k))
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rr))
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(mbe:expand-pattern (cddr p) r k)))
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((pair? p)
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(cons (mbe:expand-pattern (car p) r k)
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(mbe:expand-pattern (cdr p) r k)))
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((symbol? p)
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(if (memq p k) p
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(let ((x (assq p r)))
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(if x (cdr x) p))))
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(else p))))
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;;; returns a list that nests a pattern variable as deeply as it
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;;; is ellipsed
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(define mbe:get-ellipsis-nestings
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(lambda (p k)
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(let sub ((p p))
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(cond ((mbe:ellipsis? p) (cons (sub (car p)) (sub (cddr p))))
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((pair? p) (append (sub (car p)) (sub (cdr p))))
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((symbol? p) (if (memq p k) '() (list p)))
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(else '())))))
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;;; finds the subenvironments in r corresponding to the ellipsed
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;;; variables in nestings
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(define mbe:ellipsis-sub-envs
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(lambda (nestings r)
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(some (lambda (c)
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(if (mbe:contained-in? nestings (car c)) (cdr c) #f))
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r)))
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;;; checks if nestings v and y have an intersection
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(define mbe:contained-in?
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(lambda (v y)
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(if (or (symbol? v) (symbol? y)) (eq? v y)
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(some (lambda (v_i)
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(some (lambda (y_j)
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(mbe:contained-in? v_i y_j))
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y))
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v))))
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;;; split expression e so that its second half matches with
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;;; pattern p-tail
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(define mbe:split-at-ellipsis
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(lambda (e p-tail)
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(if (null? p-tail) (cons e '())
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(let ((i (mbe:position (car p-tail) e)))
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(if i (cons (butlast e (- (length e) i))
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(list-tail e i))
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(error "mbe:split-at-ellipsis : bad-arg"))))))
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;;; tests if x is an ellipsing pattern, i.e., of the form
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;;; (blah ... . blah2)
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(define mbe:ellipsis?
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(lambda (x)
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(and (pair? x) (pair? (cdr x)) (eq? (cadr x) '...))))
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;define-syntax
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(define-macro (define-syntax macro-name syn-rules)
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(if (or (not (pair? syn-rules))
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(not (eq? (car syn-rules) 'syntax-rules)))
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(error "define-syntax: in ~S, bad syntax-rules" macro-name syn-rules)
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(let ((keywords (cons macro-name (cadr syn-rules)))
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(clauses (cddr syn-rules)))
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`(define-macro (,macro-name . macro-arg)
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(let ((macro-arg (cons ',macro-name macro-arg))
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(keywords ',keywords)
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(mbe:matches-pattern? (with-module mbe mbe:matches-pattern?))
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(mbe:expand-pattern (with-module mbe mbe:expand-pattern))
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(mbe:get-bindings (with-module mbe mbe:get-bindings))
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(hyg:tag (with-module mbe hyg:tag))
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(hyg:untag (with-module mbe hyg:untag))
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(hyg:flatten (with-module mbe hyg:flatten)))
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(cond ,@(map
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(lambda (clause)
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(let ((in-pattern (car clause))
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(out-pattern (cadr clause)))
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`((mbe:matches-pattern? ',in-pattern macro-arg
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keywords)
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(let ((tagged-out-pattern+alist
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(hyg:tag
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',out-pattern
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(append! (hyg:flatten ',in-pattern) keywords)
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'())))
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(hyg:untag
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(mbe:expand-pattern
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(car tagged-out-pattern+alist)
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(mbe:get-bindings ',in-pattern macro-arg keywords)
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keywords)
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(cdr tagged-out-pattern+alist)
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'())))))
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clauses)
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(else (error "~S: no matching clause: ~S"
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',macro-name ',clauses))))))))
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)
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;; Make only define-syntax visible from MBE
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(with-module Scheme
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(define define-syntax (with-module MBE define-syntax)))
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(provide "defsyntax")
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