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testing.scm at [e8f9900f14]
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File batchsim/testing.scm artifact c6005591aa part of check-in e8f9900f14


;; run sim for four hours
;;
(define *end-time* (* 60 50))

;; create the cpus
;;
(let loop ((count 200))
  (add-cpu (conc "cpu_" count) 1 1)
  (if (>= count 0)(loop (- count 1))))

;; (draw-cpus)

(define *pool1* (new-pool "generic" 20 20 12 80 2 4))
(let loop ((count 10))
  (pool:add-cpu *pool1* (conc count) 1 1)
  (if (> count 0)
      (loop (- count 1))))

(pool:draw *ezx* *pool1*)

;; ;; init the queues
;; ;;
;; (hash-table-set! *queues* "normal" '())
;; (hash-table-set! *queues* "quick"  '())
;; (draw-queues)
;; 
;; ;; user k adds 200 jobs at time zero
;; ;;
;; (event *start-time*
;;        (lambda ()
;; 	 (let loop ((count 300)) ;; add 500 jobs
;; 	   (add-job "normal" "k" 600 1 1)
;; 	   (if (>= count 0)(loop (- count 1))))))
;; 
;; ;; one minute in user m runs ten jobs
;; ;;
;; (event (+ 600 *start-time*)
;;        (lambda ()
;; 	 (let loop ((count 300)) ;; add 100 jobs
;; 	   (add-job "normal" "m" 600 1 1)
;; 	   (if (> count 0)(loop (- count 1))))))
;; 
;; ;; every minute user j runs ten jobs
;; ;;
;; (define *user-j-jobs* 300)
;; (event (+ 600 *start-time*)
;;        (lambda ()
;; 	 (let f ()
;; 	   (schedule 60)
;; 	   (if (> *user-j-jobs* 0)
;; 	       (begin
;; 		 (let loop ((count 5)) ;; add 100 jobs
;; 		   (add-job "quick" "j" 600 1 1)
;; 		   (if (> count 0)(loop (- count 1))))
;; 		 (set! *user-j-jobs* (- *user-j-jobs* 5))))
;; 	   (if (and (not *done*)
;; 		    (> *user-j-jobs* 0))
;; 	       (f))))) ;; Megatest user running 200 jobs
;; 
;; ;; every minute user j runs ten jobs
;; ;;
;; (define *user-j-jobs* 300)
;; (event (+ 630 *start-time*)
;;        (lambda ()
;; 	 (let f ()
;; 	   (schedule 60)
;; 	   (if (> *user-j-jobs* 0)
;; 	       (begin
;; 		 (let loop ((count 5)) ;; add 100 jobs
;; 		   (add-job "quick" "n" 600 1 1)
;; 		   (if (> count 0)(loop (- count 1))))
;; 		 (set! *user-j-jobs* (- *user-j-jobs* 5))))
;; 	   (if (and (not *done*)
;; 		    (> *user-j-jobs* 0))
;; 	       (f))))) ;; Megatest user running 200 jobs
;; 
;; ;; ;;
;; ;; (event *start-time*
;; ;;        (lambda ()
;; ;; 	 (let f ((count 200))
;; ;; 	   (schedule 10)
;; ;; 	   (add-job "normal" "t" 60 1 1)
;; ;; 	   (if (and (not *done*)
;; ;; 		    (>= count 0))
;; ;; 	       (f (- count 1))))))
;; 
;; ;; every 3 seconds check for available machines and launch a job
;; ;;
;; (event *start-time*
;;        (lambda ()
;; 	 (let f ()
;; 	   (schedule 3)
;; 	   (let ((queue-names (random-sort (hash-table-keys *queues*))))
;; 	     (let loop ((cpu   (get-cpu))
;; 			(count (+ (length queue-names) 4))
;; 			(qname (car queue-names))
;; 			(remq  (cdr queue-names)))
;; 	       (if (and cpu
;; 			(> count 0))
;; 		   (begin
;; 		     (if (peek-job qname) ;; any jobs to do in normal queue
;; 			 (let ((job (take-job qname)))
;; 			   (run-job cpu job)))
;; 		     (loop (get-cpu)
;; 			   (- count 1)
;; 			   (if (null? remq)
;; 			       (car queue-names)
;; 			       (car remq))
;; 			   (if (null? remq)
;; 			       (cdr queue-names)
;; 			       (cdr remq)))))))
;; 	   (if (not *done*)(f)))))
;; 
;; ;; screen updates
;; ;;
(event *start-time* (lambda ()
		      (let f ()
			(schedule 60) ;; update the screen every 60 seconds of sim time
			;; (draw-cpus) ;; (print "Now: " *now* " queue: " (hash-table->alist *queues*))
			(pool:draw *ezx* *pool1*)

			(wait-for-next-draw-time)
			(if (not *done*) (f)))))
;; 
;; 
;; ;; end the simulation
;; ;;
(event *end-time*
       (lambda () 
	 (set! *event-list* '())
	 (set! *done* #t)))
;; 
(start)
;; ;; (exit 0)
;;