277 lines
8.8 KiB
Plaintext
277 lines
8.8 KiB
Plaintext
(define (cond->if form)
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(cond-clauses->if (cdr form)))
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(define (cond-clauses->if lst)
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(if (atom lst)
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lst
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(let ((clause (car lst)))
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`(if ,(car clause)
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,(f-body (cdr clause))
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,(cond-clauses->if (cdr lst))))))
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(define (progn->cps forms k)
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(cond ((atom forms) `(,k ,forms))
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((null (cdr forms)) (cps- (car forms) k))
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(T (let ((_ (gensym))) ; var to bind ignored value
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(cps- (car forms) `(lambda (,_)
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,(progn->cps (cdr forms) k)))))))
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(define (rest->cps xformer form k argsyms)
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(let ((el (car form)))
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(if (or (atom el) (constantp el))
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(xformer (cdr form) k (cons el argsyms))
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(let ((g (gensym)))
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(cps- el `(lambda (,g)
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,(xformer (cdr form) k (cons g argsyms))))))))
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; (f x) => (cps- f `(lambda (F) ,(cps- x `(lambda (X) (F ,k X)))))
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(define (app->cps form k argsyms)
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(cond ((atom form)
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(let ((r (reverse argsyms)))
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`(,(car r) ,k ,@(cdr r))))
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(T (rest->cps app->cps form k argsyms))))
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; (+ x) => (cps- x `(lambda (X) (,k (+ X))))
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(define (builtincall->cps form k)
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(prim->cps (cdr form) k (list (car form))))
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(define (prim->cps form k argsyms)
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(cond ((atom form) `(,k ,(reverse argsyms)))
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(T (rest->cps prim->cps form k argsyms))))
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(define *top-k* (gensym))
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(set *top-k* identity)
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(define (cps form)
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(η-reduce
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(β-reduce
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(macroexpand
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(cps- (macroexpand form) *top-k*)))))
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(define (cps- form k)
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(let ((g (gensym)))
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(cond ((or (atom form) (constantp form))
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`(,k ,form))
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((eq (car form) 'lambda)
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`(,k (lambda ,(cons g (cadr form)) ,(cps- (caddr form) g))))
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((eq (car form) 'progn)
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(progn->cps (cdr form) k))
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((eq (car form) 'cond)
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(cps- (cond->if form) k))
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((eq (car form) 'if)
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(let ((test (cadr form))
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(then (caddr form))
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(else (cadddr form)))
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(if (atom k)
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(cps- test `(lambda (,g)
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(if ,g
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,(cps- then k)
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,(cps- else k))))
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`(let ((,g ,k))
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,(cps- form g)))))
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((eq (car form) 'and)
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(cond ((atom (cdr form)) `(,k T))
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((atom (cddr form)) (cps- (cadr form) k))
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(T
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(if (atom k)
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(cps- (cadr form)
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`(lambda (,g)
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(if ,g ,(cps- `(and ,@(cddr form)) k)
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(,k ,g))))
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`(let ((,g ,k))
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,(cps- form g))))))
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((eq (car form) 'or)
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(cond ((atom (cdr form)) `(,k ()))
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((atom (cddr form)) (cps- (cadr form) k))
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(T
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(if (atom k)
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(cps- (cadr form)
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`(lambda (,g)
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(if ,g (,k ,g)
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,(cps- `(or ,@(cddr form)) k))))
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`(let ((,g ,k))
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,(cps- form g))))))
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((eq (car form) 'while)
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(let ((test (cadr form))
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(body (caddr form))
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(lastval (gensym)))
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(cps- (macroexpand
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`(let ((,lastval nil))
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((label ,g (lambda ()
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(if ,test
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(progn (setq ,lastval ,body)
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(,g))
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,lastval))))))
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k)))
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((eq (car form) 'setq)
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(let ((var (cadr form))
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(E (caddr form)))
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(cps- E `(lambda (,g) (,k (setq ,var ,g))))))
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((eq (car form) 'reset)
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`(,k ,(cps- (cadr form) *top-k*)))
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((eq (car form) 'shift)
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(let ((v (cadr form))
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(E (caddr form))
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(val (gensym)))
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`(let ((,v (lambda (,g ,val) (,g (,k ,val)))))
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,(cps- E *top-k*))))
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((and (constantp (car form))
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(builtinp (eval (car form))))
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(builtincall->cps form k))
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; ((lambda (...) body) ...)
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((and (consp (car form))
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(eq (caar form) 'lambda))
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(let ((largs (cadr (car form)))
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(lbody (caddr (car form))))
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(if (null largs)
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(cps- lbody k) ; ((lambda () x))
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(cps- (cadr form) `(lambda (,(car largs))
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,(cps- `((lambda ,(cdr largs) ,lbody)
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,@(cddr form))
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k))))))
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(T
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(app->cps form k ())))))
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; (lambda (args...) (f args...)) => f
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; but only for constant, builtin f
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(define (η-reduce form)
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(cond ((or (atom form) (constantp form)) form)
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((and (eq (car form) 'lambda)
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(let ((body (caddr form))
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(args (cadr form))
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(func (car (caddr form))))
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(and (consp body)
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(equal (cdr body) args)
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(constantp func))))
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(η-reduce (car (caddr form))))
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(T (map η-reduce form))))
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(define (contains x form)
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(or (eq form x)
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(any (lambda (p) (contains x p)) form)))
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(define (β-reduce form)
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(if (or (atom form) (constantp form))
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form
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(β-reduce- (map β-reduce form))))
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(define (β-reduce- form)
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; ((lambda (f) (f arg)) X) => (X arg)
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(cond ((and (= (length form) 2)
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(consp (car form))
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(eq (caar form) 'lambda)
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(let ((args (cadr (car form)))
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(body (caddr (car form))))
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(and (consp body)
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(= (length body) 2)
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(= (length args) 1)
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(eq (car body) (car args))
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(not (eq (cadr body) (car args)))
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(symbolp (cadr body)))))
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`(,(cadr form)
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,(cadr (caddr (car form)))))
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; (identity x) => x
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((eq (car form) *top-k*)
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(cadr form))
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; uncurry:
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; ((lambda (p1) ((lambda (args...) body) exprs...)) s) =>
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; ((lambda (p1 args...) body) s exprs...)
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; where exprs... doesn't contain p1
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((and (= (length form) 2)
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(consp (car form))
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(eq (caar form) 'lambda)
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(or (atom (cadr form)) (constantp (cadr form)))
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(let ((args (cadr (car form)))
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(s (cadr form))
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(body (caddr (car form))))
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(and (= (length args) 1)
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(consp body)
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(consp (car body))
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(eq (caar body) 'lambda)
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(let ((innerargs (cadr (car body)))
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(innerbody (caddr (car body)))
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(params (cdr body)))
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(and (not (contains (car args) params))
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`((lambda ,(cons (car args) innerargs)
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,innerbody)
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,s
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,@params)))))))
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(T form)))
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(defmacro with-delimited-continuations code (cps (f-body code)))
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(defmacro defgenerator (name args . body)
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(let ((ko (gensym))
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(cur (gensym)))
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`(defun ,name ,args
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(let ((,ko ())
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(,cur ()))
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(lambda ()
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(with-delimited-continuations
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(if ,ko (,ko ,cur)
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(reset
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(let ((yield
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(lambda (v)
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(shift yk
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(progn (setq ,ko yk)
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(setq ,cur v))))))
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,(f-body body))))))))))
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; a test case
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(defgenerator range-iterator (lo hi)
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((label loop
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(lambda (i)
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(if (< hi i)
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'done
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(progn (yield i)
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(loop (+ 1 i))))))
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lo))
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; example from Chung-chieh Shan's paper
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(assert (equal
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(with-delimited-continuations
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(cons 'a (reset (cons 'b (shift f (cons 1 (f (f (cons 'c ())))))))))
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'(a 1 b b c)))
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T
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#|
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todo:
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- tag lambdas that accept continuation arguments, compile computed
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calls to calls to funcall/cc that does the right thing for both
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cc-lambdas and normal lambdas
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- handle dotted arglists in lambda
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- use fewer gensyms
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here's an alternate way to transform a while loop:
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(let ((x 0))
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(while (< x 10)
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(progn (#.print x) (setq x (+ 1 x)))))
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=>
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(let ((x 0))
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(reset
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(let ((l nil))
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(let ((k (shift k (k k))))
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(if (< x 10)
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(progn (setq l (progn (#.print x)
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(setq x (+ 1 x))))
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(k k))
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l)))))
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|#
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