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* q.scm (sync-q!, q?, q-remove!, q-push!, enq!): Lots of bugs, and

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(eq?  #f '()) assumptions.  Make functions that aren't documented
to return anything else return the queue itself.  (Bug report from
Michael Livshin --- thanks!)
This commit is contained in:
Jim Blandy 1998-10-09 13:56:16 +00:00
parent 31b9e7671b
commit 1168a720b1
1 changed files with 47 additions and 38 deletions
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85
ice-9/q.scm
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@ -30,12 +30,14 @@
;;;; ;;;;
;;; {Q} ;;; {Q}
;;; ;;;
;;; A list is just a bunch of cons pairs that follows some constrains, right? ;;; A list is just a bunch of cons pairs that follows some constrains,
;;; Association lists are the same. Hash tables are just vectors and association ;;; right? Association lists are the same. Hash tables are just
;;; lists. You can print them, read them, write them as constants, pun them off as other data ;;; vectors and association lists. You can print them, read them,
;;; structures etc. This is good. This is lisp. These structures are fast and compact ;;; write them as constants, pun them off as other data structures
;;; and easy to manipulate arbitrarily because of their simple, regular structure and ;;; etc. This is good. This is lisp. These structures are fast and
;;; non-disjointedness (associations being lists and so forth). ;;; compact and easy to manipulate arbitrarily because of their
;;; simple, regular structure and non-disjointedness (associations
;;; being lists and so forth).
;;; ;;;
;;; So I figured, queues should be the same -- just a "subtype" of cons-pair ;;; So I figured, queues should be the same -- just a "subtype" of cons-pair
;;; structures in general. ;;; structures in general.
@ -43,36 +45,47 @@
;;; A queue is a cons pair: ;;; A queue is a cons pair:
;;; ( <the-q> . <last-pair> ) ;;; ( <the-q> . <last-pair> )
;;; ;;;
;;; <the-q> is a list of things in the q. New elements go at the end of that list. ;;; <the-q> is a list of things in the q. New elements go at the end
;;; of that list.
;;; ;;;
;;; <last-pair> is #f if the q is empty, and otherwise is the last pair of <the-q>. ;;; <last-pair> is #f if the q is empty, and otherwise is the last
;;;pair of <the-q>.
;;; ;;;
;;; q's print nicely, but alas, they do not read well because the eq?-ness of ;;; q's print nicely, but alas, they do not read well because the
;;; <last-pair> and (last-pair <the-q>) is lost by read. The procedure ;;; eq?-ness of <last-pair> and (last-pair <the-q>) is lost by read.
;;;
;;; All the functions that aren't explicitly defined to return
;;; something else (a queue element; a boolean value) return the queue
;;; object itself.
;;;
;;; The procedure
;;; ;;;
;;; (sync-q! q) ;;; (sync-q! q)
;;; ;;;
;;; recomputes and resets the <last-pair> component of a queue. ;;; recomputes and resets the <last-pair> component of a queue.
;;; ;;;
(define-public (sync-q! q)
(define-public (sync-q! obj) (set-cdr! obj (and (car obj) (last-pair (car obj))))) (set-cdr! q (if (pair? (car q)) (last-pair (car q))
#f))
q)
;;; make-q ;;; make-q
;;; return a new q. ;;; return a new q.
;;; ;;;
(define-public (make-q) (cons '() '())) (define-public (make-q) (cons '() #f))
;;; q? obj ;;; q? obj
;;; Return true if obj is a Q. ;;; Return true if obj is a Q.
;;; An object is a queue if it is equal? to '(#f . #f) or ;;; An object is a queue if it is equal? to '(() . #f)
;;; if it is a pair P with (list? (car P)) and (eq? (cdr P) (last-pair P)). ;;; or it is a pair P with (list? (car P))
;;; and (eq? (cdr P) (last-pair (car P))).
;;; ;;;
(define-public (q? obj) (and (pair? obj) (define-public (q? obj)
(or (and (null? (car obj)) (and (pair? obj)
(null? (cdr obj))) (if (pair? (car obj))
(and (eq? (cdr obj) (last-pair (car obj)))
(list? (car obj)) (and (null? (car obj))
(eq? (cdr obj) (last-pair (car obj))))))) (not (cdr obj))))))
;;; q-empty? obj ;;; q-empty? obj
;;; ;;;
@ -82,7 +95,6 @@
;;; Throw a q-empty exception if Q is empty. ;;; Throw a q-empty exception if Q is empty.
(define-public (q-empty-check q) (if (q-empty? q) (throw 'q-empty q))) (define-public (q-empty-check q) (if (q-empty? q) (throw 'q-empty q)))
;;; q-front q ;;; q-front q
;;; Return the first element of Q. ;;; Return the first element of Q.
(define-public (q-front q) (q-empty-check q) (caar q)) (define-public (q-front q) (q-empty-check q) (caar q))
@ -94,26 +106,26 @@
;;; q-remove! q obj ;;; q-remove! q obj
;;; Remove all occurences of obj from Q. ;;; Remove all occurences of obj from Q.
(define-public (q-remove! q obj) (define-public (q-remove! q obj)
(while (memq obj (car q)) (set-car! q (delq! obj (car q)))
(set-car! q (delq! obj (car q)))) (sync-q! q))
(set-cdr! q (last-pair (car q))))
;;; q-push! q obj ;;; q-push! q obj
;;; Add obj to the front of Q ;;; Add obj to the front of Q
(define-public (q-push! q d) (define-public (q-push! q obj)
(let ((h (cons d (car q)))) (let ((h (cons obj (car q))))
(set-car! q h) (set-car! q h)
(if (null? (cdr q)) (or (cdr q) (set-cdr! q h)))
(set-cdr! q h)))) q)
;;; enq! q obj ;;; enq! q obj
;;; Add obj to the rear of Q ;;; Add obj to the rear of Q
(define-public (enq! q d) (define-public (enq! q obj)
(let ((h (cons d '()))) (let ((h (cons obj '())))
(if (not (null? (cdr q))) (if (null? (car q))
(set-cdr! (cdr q) h) (set-car! q h)
(set-car! q h)) (set-cdr! (cdr q) h))
(set-cdr! q h))) (set-cdr! q h))
q)
;;; q-pop! q ;;; q-pop! q
;;; Take the front of Q and return it. ;;; Take the front of Q and return it.
@ -134,6 +146,3 @@
;;; Return the number of enqueued elements. ;;; Return the number of enqueued elements.
;;; ;;;
(define-public (q-length q) (length (car q))) (define-public (q-length q) (length (car q)))