/usr/lib/queue.scm is in scheme9 2013.11.26-1.
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 | ; Scheme 9 from Empty Space, Function Library
; By Nils M Holm, 2010,2012
; Placed in the Public Domain
;
; (make-queue) ==> queue
; (queue! queue object) ==> unspecific
; (unqueue! queue) ==> object
; (queue-empty? queue) ==> queue
; (unqueue* queue) ==> list
;
; MAKE-QUEUE returns an empty queue. A queue is a data structure
; that delivers unqueued elements in the same order in which they
; were queued (a first-in first-out structure). Both enqueue and
; dequeue operations are O(1).
;
; QUEUE! (destructively) inserts an OBJECT at the input end
; of QUEUE.
;
; QUEUE-EMPTY? returns #T if QUEUE is empty.
;
; UNQUEUE! (destructively) removes an element from the output end
; of QUEUE and returns it.
;
; UNQUEUE* removes an element from a queue and returns both the
; element and the queue in a list of the form
;
; (element queue)
;
; NOTE: although a queue may look like a list, it is actually
; a (directed acylic) graph. Altering a queue with list operations
; is therefore not recommended! Copying a queue with procedures
; like TREE-COPY will turn it into a non-queue. Caveat utilitor!
;
; Example: (let ((q (make-queue)))
; (for-each (lambda (x) (queue! q x))
; '(a b c d e))
; (unqueue* q)) ==> (a ((e) b c d e))
(define (make-queue)
(cons '() '()))
(define (queue! q x)
(let ((b (list x)))
(if (null? (car q))
(set-cdr! q b)
(set-cdr! (car q) b))
(set-car! q b)))
(define (queue-empty? q)
(null? (car q)))
(define (unqueue! q)
(let ((x (cadr q)))
(if (null? (cddr q))
(set-car! q '()))
(set-cdr! q (cddr q))
x))
(define (unqueue* q)
(let ((x (unqueue! q)))
(list x q)))
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