common/swig/include/2.0.11/chicken/multi-generic.scm - platform/prebuilts/misc - Git at Google

 ;; This file is no longer necessary with Chicken versions above 1.92
 ;;
 ;; This file overrides two functions inside TinyCLOS to provide support
 ;; for multi-argument generics.  There are many ways of linking this file
 ;; into your code... all that needs to happen is this file must be
 ;; executed after loading TinyCLOS but before any SWIG modules are loaded
 ;;
 ;; something like the following
 ;; (require 'tinyclos)
 ;; (load "multi-generic")
 ;; (declare (uses swigmod))
 ;;
 ;; An alternative to loading this scheme code directly is to add a
 ;; (declare (unit multi-generic)) to the top of this file, and then
 ;; compile this into the final executable or something.  Or compile
 ;; this into an extension.

 ;; Lastly, to override TinyCLOS method creation, two functions are
 ;; overridden: see the end of this file for which two are overridden.
 ;; You might want to remove those two lines and then exert more control over
 ;; which functions are used when.

 ;; Comments, bugs, suggestions: send either to chicken-users@nongnu.org or to
 ;; Most code copied from TinyCLOS

 (define <multi-generic> (make <entity-class>
 			  'name "multi-generic"
 			  'direct-supers (list <generic>)
 			  'direct-slots '()))

 (letrec ([applicable?
           (lambda (c arg)
             (memq c (class-cpl (class-of arg))))]

          [more-specific?
           (lambda (c1 c2 arg)
             (memq c2 (memq c1 (class-cpl (class-of arg)))))]

          [filter-in
            (lambda (f l)
              (if (null? l)
                  '()
                  (let ([h (##sys#slot l 0)]
 	               [r (##sys#slot l 1)] )
 	           (if (f h)
 	               (cons h (filter-in f r))
 	               (filter-in f r) ) ) ) )])

 (add-method compute-apply-generic
   (make-method (list <multi-generic>)
     (lambda (call-next-method generic)
       (lambda args
 		(let ([cam (let ([x (compute-apply-methods generic)]
 				 [y ((compute-methods generic) args)] )
 			     (lambda (args) (x y args)) ) ] )
 		  (cam args) ) ) ) ) )


 (add-method compute-methods
   (make-method (list <multi-generic>)
     (lambda (call-next-method generic)
       (lambda (args)
 	(let ([applicable
 	       (filter-in (lambda (method)
                             (let check-applicable ([list1 (method-specializers method)]
                                                    [list2 args])
                               (cond ((null? list1) #t)
                                     ((null? list2) #f)
                                     (else
                                       (and (applicable? (##sys#slot list1 0) (##sys#slot list2 0))
                                            (check-applicable (##sys#slot list1 1) (##sys#slot list2 1)))))))
 			  (generic-methods generic) ) ] )
 	  (if (or (null? applicable) (null? (##sys#slot applicable 1)))
 	      applicable
 	      (let ([cmms (compute-method-more-specific? generic)])
 		(sort applicable (lambda (m1 m2) (cmms m1 m2 args))) ) ) ) ) ) ) )

 (add-method compute-method-more-specific?
   (make-method (list <multi-generic>)
     (lambda (call-next-method generic)
       (lambda (m1 m2 args)
 	(let loop ((specls1 (method-specializers m1))
 		   (specls2 (method-specializers m2))
 		   (args args))
 	  (cond-expand
 	   [unsafe
 	    (let ((c1  (##sys#slot specls1 0))
 		  (c2  (##sys#slot specls2 0))
 		  (arg (##sys#slot args 0)))
 	      (if (eq? c1 c2)
 		  (loop (##sys#slot specls1 1)
 			(##sys#slot specls2 1)
 			(##sys#slot args 1))
 		  (more-specific? c1 c2 arg))) ]
 	   [else
 	    (cond ((and (null? specls1) (null? specls2))
 		   (##sys#error "two methods are equally specific" generic))
 		  ;((or (null? specls1) (null? specls2))
 		  ; (##sys#error "two methods have different number of specializers" generic))
                   ((null? specls1) #f)
                   ((null? specls2) #t)
 		  ((null? args)
 		   (##sys#error "fewer arguments than specializers" generic))
 		  (else
 		   (let ((c1  (##sys#slot specls1 0))
 			 (c2  (##sys#slot specls2 0))
 			 (arg (##sys#slot args 0)))
 		     (if (eq? c1 c2)
 			 (loop (##sys#slot specls1 1)
 			       (##sys#slot specls2 1)
 			       (##sys#slot args 1))
 			 (more-specific? c1 c2 arg)))) ) ] ) ) ) ) ) )

 ) ;; end of letrec

 (define multi-add-method
   (lambda (generic method)
     (slot-set!
      generic
      'methods
        (let filter-in-method ([methods (slot-ref generic 'methods)])
          (if (null? methods)
            (list method)
            (let ([l1 (length (method-specializers method))]
 		 [l2 (length (method-specializers (##sys#slot methods 0)))])
              (cond ((> l1 l2)
                     (cons (##sys#slot methods 0) (filter-in-method (##sys#slot methods 1))))
                    ((< l1 l2)
                     (cons method methods))
                    (else
                      (let check-method ([ms1 (method-specializers method)]
                                         [ms2 (method-specializers (##sys#slot methods 0))])
                        (cond ((and (null? ms1) (null? ms2))
                               (cons method (##sys#slot methods 1))) ;; skip the method already in the generic
                              ((eq? (##sys#slot ms1 0) (##sys#slot ms2 0))
                               (check-method (##sys#slot ms1 1) (##sys#slot ms2 1)))
                              (else
                                (cons (##sys#slot methods 0) (filter-in-method (##sys#slot methods 1))))))))))))

     (##sys#setslot (##sys#slot generic (- (##sys#size generic) 2)) 1 (compute-apply-generic generic)) ))

 (define (multi-add-global-method val sym specializers proc)
   (let ((generic (if (procedure? val) val (make <multi-generic> 'name (##sys#symbol->string sym)))))
     (multi-add-method generic (make-method specializers proc))
     generic))

 ;; Might want to remove these, or perhaps do something like
 ;; (define old-add-method ##tinyclos#add-method)
 ;; and then you can switch between creating multi-generics and TinyCLOS generics.
 (set! ##tinyclos#add-method multi-add-method)
 (set! ##tinyclos#add-global-method multi-add-global-method)
	;; This file is no longer necessary with Chicken versions above 1.92
	;;
	;; This file overrides two functions inside TinyCLOS to provide support
	;; for multi-argument generics. There are many ways of linking this file
	;; into your code... all that needs to happen is this file must be
	;; executed after loading TinyCLOS but before any SWIG modules are loaded
	;;
	;; something like the following
	;; (require 'tinyclos)
	;; (load "multi-generic")
	;; (declare (uses swigmod))
	;;
	;; An alternative to loading this scheme code directly is to add a
	;; (declare (unit multi-generic)) to the top of this file, and then
	;; compile this into the final executable or something. Or compile
	;; this into an extension.

	;; Lastly, to override TinyCLOS method creation, two functions are
	;; overridden: see the end of this file for which two are overridden.
	;; You might want to remove those two lines and then exert more control over
	;; which functions are used when.

	;; Comments, bugs, suggestions: send either to chicken-users@nongnu.org or to
	;; Most code copied from TinyCLOS

	(define <multi-generic> (make <entity-class>
	'name "multi-generic"
	'direct-supers (list <generic>)
	'direct-slots '()))

	(letrec ([applicable?
	(lambda (c arg)
	(memq c (class-cpl (class-of arg))))]

	[more-specific?
	(lambda (c1 c2 arg)
	(memq c2 (memq c1 (class-cpl (class-of arg)))))]

	[filter-in
	(lambda (f l)
	(if (null? l)
	'()
	(let ([h (##sys#slot l 0)]
	[r (##sys#slot l 1)] )
	(if (f h)
	(cons h (filter-in f r))
	(filter-in f r) ) ) ) )])

	(add-method compute-apply-generic
	(make-method (list <multi-generic>)
	(lambda (call-next-method generic)
	(lambda args
	(let ([cam (let ([x (compute-apply-methods generic)]
	[y ((compute-methods generic) args)] )
	(lambda (args) (x y args)) ) ] )
	(cam args) ) ) ) ) )



	(add-method compute-methods
	(make-method (list <multi-generic>)
	(lambda (call-next-method generic)
	(lambda (args)
	(let ([applicable
	(filter-in (lambda (method)
	(let check-applicable ([list1 (method-specializers method)]
	[list2 args])
	(cond ((null? list1) #t)
	((null? list2) #f)
	(else
	(and (applicable? (##sys#slot list1 0) (##sys#slot list2 0))
	(check-applicable (##sys#slot list1 1) (##sys#slot list2 1)))))))
	(generic-methods generic) ) ] )
	(if (or (null? applicable) (null? (##sys#slot applicable 1)))
	applicable
	(let ([cmms (compute-method-more-specific? generic)])
	(sort applicable (lambda (m1 m2) (cmms m1 m2 args))) ) ) ) ) ) ) )

	(add-method compute-method-more-specific?
	(make-method (list <multi-generic>)
	(lambda (call-next-method generic)
	(lambda (m1 m2 args)
	(let loop ((specls1 (method-specializers m1))
	(specls2 (method-specializers m2))
	(args args))
	(cond-expand
	[unsafe
	(let ((c1 (##sys#slot specls1 0))
	(c2 (##sys#slot specls2 0))
	(arg (##sys#slot args 0)))
	(if (eq? c1 c2)
	(loop (##sys#slot specls1 1)
	(##sys#slot specls2 1)
	(##sys#slot args 1))
	(more-specific? c1 c2 arg))) ]
	[else
	(cond ((and (null? specls1) (null? specls2))
	(##sys#error "two methods are equally specific" generic))
	;((or (null? specls1) (null? specls2))
	; (##sys#error "two methods have different number of specializers" generic))
	((null? specls1) #f)
	((null? specls2) #t)
	((null? args)
	(##sys#error "fewer arguments than specializers" generic))
	(else
	(let ((c1 (##sys#slot specls1 0))
	(c2 (##sys#slot specls2 0))
	(arg (##sys#slot args 0)))
	(if (eq? c1 c2)
	(loop (##sys#slot specls1 1)
	(##sys#slot specls2 1)
	(##sys#slot args 1))
	(more-specific? c1 c2 arg)))) ) ] ) ) ) ) ) )

	) ;; end of letrec

	(define multi-add-method
	(lambda (generic method)
	(slot-set!
	generic
	'methods
	(let filter-in-method ([methods (slot-ref generic 'methods)])
	(if (null? methods)
	(list method)
	(let ([l1 (length (method-specializers method))]
	[l2 (length (method-specializers (##sys#slot methods 0)))])
	(cond ((> l1 l2)
	(cons (##sys#slot methods 0) (filter-in-method (##sys#slot methods 1))))
	((< l1 l2)
	(cons method methods))
	(else
	(let check-method ([ms1 (method-specializers method)]
	[ms2 (method-specializers (##sys#slot methods 0))])
	(cond ((and (null? ms1) (null? ms2))
	(cons method (##sys#slot methods 1))) ;; skip the method already in the generic
	((eq? (##sys#slot ms1 0) (##sys#slot ms2 0))
	(check-method (##sys#slot ms1 1) (##sys#slot ms2 1)))
	(else
	(cons (##sys#slot methods 0) (filter-in-method (##sys#slot methods 1))))))))))))

	(##sys#setslot (##sys#slot generic (- (##sys#size generic) 2)) 1 (compute-apply-generic generic)) ))

	(define (multi-add-global-method val sym specializers proc)
	(let ((generic (if (procedure? val) val (make <multi-generic> 'name (##sys#symbol->string sym)))))
	(multi-add-method generic (make-method specializers proc))
	generic))

	;; Might want to remove these, or perhaps do something like
	;; (define old-add-method ##tinyclos#add-method)
	;; and then you can switch between creating multi-generics and TinyCLOS generics.
	(set! ##tinyclos#add-method multi-add-method)
	(set! ##tinyclos#add-global-method multi-add-global-method)