ref: df52f0700401359e68f2c67440c0015af36f25e2
dir: /lib/lazy.scm/
; SRFI 45: Primitives for Expressing Iterative Lazy Algorithms ; by André van Tonder ;========================================================================= ; Boxes (define (box x) (list x)) (define unbox car) (define set-box! set-car!) ;========================================================================= ; Primitives for lazy evaluation: (define (eager x) (box (cons 'eager x))) #| (define-syntax lazy (syntax-rules () ((lazy exp) (box (cons 'lazy (lambda () exp)))))) (define-syntax delay (syntax-rules () ((delay exp) (lazy (eager exp))))) |# (define-macro (lazy exp) `(box (cons 'lazy (lambda () ,exp)))) (define-macro (delay exp) `(lazy (eager ,exp))) (define (force promise) (let ((content (unbox promise))) (case (car content) ((eager) (cdr content)) ((lazy) (let* ((promise* ((cdr content))) (content (unbox promise))) ; * (if (not (eqv? (car content) 'eager)) ; * (begin (set-car! content (car (unbox promise*))) (set-cdr! content (cdr (unbox promise*))) (set-box! promise* content))) (force promise)))))) ; (*) These two lines re-fetch and check the original promise in case ; the first line of the let* caused it to be forced. For an example ; where this happens, see reentrancy test 3 below.