(test-assert (not (time-< '(7 . 8) '(7 . 2))))
(test-assert (not (time-< '(8 . 2) '(7 . 2))))
+(let ((tdelta (make-time-delta 8)))
+ (test-assert (time-delta? tdelta))
+ (test-eqv (time-delta-sec tdelta) 8)
+ (test-eqv (time-delta-usec tdelta) 0)
+ (test-equal
+ (time-+ '(2 . 3) tdelta)
+ '(10 . 3)))
+
+(let ((tdelta (make-time-delta 10 1)))
+ (test-assert (time-delta? tdelta))
+ (test-eqv (time-delta-sec tdelta) 10)
+ (test-eqv (time-delta-usec tdelta) 1)
+ (test-equal
+ (time-+ '(2 . 3) tdelta)
+ '(12 . 4)))
+
\f
;;; Schedule tests
(test-assert (schedule-empty? sched))
;; Add a segment at (10 . 0)
-(schedule-add! 10 a-proc sched)
+(schedule-add! sched 10 a-proc)
(test-assert (not (schedule-empty? sched)))
(test-equal (length (schedule-segments sched)) 1)
(test-equal (time-segment-time (car (schedule-segments sched)))
'((10 . 0)))
;; Add another segment at (10 . 0)
-(schedule-add! '(10 . 0) b-proc sched)
+(schedule-add! sched '(10 . 0) b-proc)
(test-assert (not (schedule-empty? sched)))
(test-equal (length (schedule-segments sched)) 1)
(test-equal (time-segment-time (car (schedule-segments sched)))
'((10 . 0)))
;; Add a segment to (11 . 0), (8 . 1) and (10 . 10)
-(schedule-add! 11 c-proc sched)
-(schedule-add! '(8 . 1) d-proc sched)
-(schedule-add! '(10 . 10) e-proc sched)
+(schedule-add! sched 11 c-proc)
+(schedule-add! sched '(8 . 1) d-proc)
+(schedule-add! sched '(10 . 10) e-proc)
(test-assert (not (schedule-empty? sched)))
(test-equal (length (schedule-segments sched)) 4)
(assert-times-expected (schedule-segments sched)
'((8 . 1) (10 . 0) (10 . 10) (11 . 0))
'())
+;; Break off half of those and do some tests on them
+(define some-extracted
+ (schedule-extract-until! sched 10))
+(assert-times-expected some-extracted '((8 . 1) (10 . 0)))
+(assert-times-expected (schedule-segments sched) '((10 . 10) (11 . 0)))
+(define first-extracted-queue
+ (time-segment-queue (car some-extracted)))
+(define second-extracted-queue
+ (time-segment-queue (cadr some-extracted)))
+(test-assert (not (q-empty? first-extracted-queue)))
+(test-equal ((deq! first-extracted-queue)) 'd)
+(test-assert (q-empty? first-extracted-queue))
+
+(test-assert (not (q-empty? second-extracted-queue)))
+(test-equal ((deq! second-extracted-queue)) 'a)
+(test-equal ((deq! second-extracted-queue)) 'b)
+(test-assert (q-empty? second-extracted-queue))
+
+;; Add one more and test flattening to a queue
+(test-assert (not (schedule-empty? sched)))
+(schedule-add! sched '(10 . 10) f-proc)
+(define remaining-segments
+ (schedule-extract-until! sched '(9000 . 1)))
+(test-assert (schedule-empty? sched))
+(define some-queue (make-q))
+(enq! some-queue (const 'ho-ho))
+(enq! some-queue (const 'ha-ha))
+(add-segments-contents-to-queue! remaining-segments some-queue)
+(test-assert (not (q-empty? some-queue)))
+(test-equal 'ho-ho ((deq! some-queue)))
+(test-equal 'ha-ha ((deq! some-queue)))
+(test-equal 'e ((deq! some-queue)))
+(test-equal 'f ((deq! some-queue)))
+(test-equal 'c ((deq! some-queue)))
+(test-assert (q-empty? some-queue))
+
+;; ... whew!
+
+;; Run/wrap request stuff
+;; ----------------------
+
+(let ((wrapped (wrap (+ 1 2))))
+ (test-assert (procedure? wrapped))
+ (test-equal (wrapped) 3))
+
+(let ((run-two-squared (run (lambda () (* 2 2)))))
+ (test-assert (run-request? run-two-squared))
+ (test-assert (procedure? (run-request-proc run-two-squared)))
+ (test-equal ((run-request-proc run-two-squared)) 4)
+ (test-eq (run-request-when run-two-squared) #f))
+
+(let ((run-two-squared (run (lambda () (* 2 2)) '(88 . 0))))
+ (test-assert (run-request? run-two-squared))
+ (test-assert (procedure? (run-request-proc run-two-squared)))
+ (test-equal ((run-request-proc run-two-squared)) 4)
+ (test-equal (run-request-when run-two-squared) '(88 . 0)))
+
+(let ((run-two-squared (run-wrap (* 2 2))))
+ (test-assert (run-request? run-two-squared))
+ (test-assert (procedure? (run-request-proc run-two-squared)))
+ (test-equal ((run-request-proc run-two-squared)) 4)
+ (test-eq (run-request-when run-two-squared) #f))
+
+(let ((run-two-squared (run-wrap-at (* 2 2) '(88 . 0))))
+ (test-assert (run-request? run-two-squared))
+ (test-assert (procedure? (run-request-proc run-two-squared)))
+ (test-equal ((run-request-proc run-two-squared)) 4)
+ (test-equal (run-request-when run-two-squared) '(88 . 0)))
+
+
+;;; Agenda tests
+;;; ------------
+
+;; helpers
+
+(define (speak-it)
+ (let ((messages '()))
+ (lambda* (#:optional message)
+ (if message (set! messages (append messages (list message))))
+ messages)))
+
+(define (true-after-n-times n)
+ (let ((count 0))
+ (lambda _
+ (set! count (+ count 1))
+ (if (>= count n) #t #f))))
+
+;; the dummy test
+
+(define speaker (speak-it))
+
+(define (dummy-func)
+ (speaker "I'm a dummy\n"))
+
+(define (run-dummy)
+ (speaker "I bet I can make you say you're a dummy!\n")
+ (run dummy-func))
+
+(let ((q (make-q)))
+ (set! speaker (speak-it)) ; reset the speaker
+ (enq! q run-dummy)
+ (start-agenda (make-agenda #:queue q)
+ (true-after-n-times 2))
+ (test-equal (speaker)
+ '("I bet I can make you say you're a dummy!\n"
+ "I'm a dummy\n")))
+
+;; should only do the first one after one round though
+(let ((q (make-q)))
+ (set! speaker (speak-it)) ; reset the speaker
+ (enq! q run-dummy)
+ (start-agenda (make-agenda #:queue q)
+ (true-after-n-times 1))
+ (test-equal (speaker)
+ '("I bet I can make you say you're a dummy!\n")))
+
;; End tests
(test-end "tests")