Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm writing a scheme program for an assignment that creates "planets" when the user clicks, and starts/stops the planets from orbiting each other when a checkbox is clicked. We are supposed to implement this with a thread. However, thread-suspend does not seem to work when I click the checkbox, but resume does.

Thanks for any help you can offer! Here is the code:

#lang racket

(require racket/gui)
(require racket/block)

;; Small 2d vector library for the Newtonian physics
(define (x v) (vector-ref v 0))
(define (y v) (vector-ref v 1))
(define (x! v value) (vector-set! v 0 value))
(define (y! v value) (vector-set! v 1 value))
(define (v* v value) (vector-map (lambda (x) (* x value)) v))
(define (v+ v w) (vector-map + v w))
(define (v- v w) (vector-map - v w))
(define (v-zero! v) (vector-map! (lambda (x) 0) v))
(define (v-dot v w) (let ((vw (vector-map * v w))) (+ (x vw) (y vw))))
(define (v-mag v) (sqrt (v-dot v v)))
(define sem (make-semaphore))

;; Planet object
(define planet%
  (class object%
(public m p v calculate-force move draw)
(init-field (mass 1)
            (position (vector 0 0 ))
            (velocity (vector 0 0 ))
            (force (vector 0 0 )))
(define (m) mass)
(define (p) position)
(define (v) velocity)
;; Use Newton's law of gravitation.
;; I assume the gravitational constant is one
(define (calculate-force planet-list)
  (v-zero! force)
  (for-each (lambda (other-planet)
              (when (not (equal? this other-planet))
                (let* ((direction (v- (send other-planet p) position))
                       (dist (max 1 (v-mag direction)))
                       (other-mass (send other-planet m))
                       (new-force (v* direction (/ (* mass other-mass) (* dist dist))))
                  (vector-map! + force new-force))))
;; Simple Euler integration of acceleration and velocity
(define (move) 
  (let ((acc (v* force (/ 1.0 mass))))
    (vector-map! + velocity acc)
    (vector-map! + position velocity)))
;; Draw a circle 
(define (draw dc) 
  (send dc set-brush brush)
  (send dc set-pen pen)
  (send dc draw-ellipse (x position) (y position) radius radius ))
;; Initialize to random velocity, mass, and color
(x! velocity (random))
(y! velocity (random))
(set! mass (+ 1 (* 10 (random))))
(define radius (* 5 (sqrt mass)))
(define color 
  (let* ((r (random))
         (b (real->floating-point-bytes r 4)))
    (make-object color% (bytes-ref b 0) (bytes-ref b 1) (bytes-ref b 2) )))
(define brush (make-object brush% color))
(define pen (make-object pen% color))
;; Don't forget the super-new!
;; Abstract the list-handling for a list of planets
(define planet-list%
  (class object%
(public add-planet calculate-force move draw)
(init-field (planets '()))
(define (add-planet planet)
  (set! planets (cons planet planets)))
(define (calculate-force)
  (for-each (lambda (planet)
              (send planet calculate-force planets))
(define (move)
  (for-each (lambda (planet)
              (send planet move))
(define (draw dc)
  (for-each (lambda (planet)
              (send planet draw dc))
(define planet-list (new planet-list%))

;; The GUI
(define frame (new frame% 
               (label "Planets")
               (min-width 120)
               (min-height 80)
(send frame create-status-line)
(send frame show #t)

(define h-panel
  (new horizontal-panel%
   (parent frame)
   (stretchable-height #f)
   (style '(border))
   (border 2)))

(define run-checkbox
  (new check-box%
   (parent h-panel)
   (label "Run animation")
    (lambda (button event)
      (cond [(send run-checkbox get-value)(thread-resume (thread-a))]
            [(not (send run-checkbox get-value)) (thread-suspend (thread-a))]

(define my-canvas%
  (class canvas%
(override on-paint on-event)

(define (on-paint)
  (let ((dc (send this get-dc))
        (w (send this get-width))
        (h (send this get-height)))
    (send dc clear)
    (send planet-list draw dc)
(define (on-event event)
  (when (send event button-down?)
    (let ((x (send event get-x))
          (y (send event get-y)))
      (send frame set-status-text (format "Mouse at ~a ~a" x y))
      (send planet-list add-planet (new planet% (position (vector x y))))

      (send this refresh)))
(send (send this get-dc) set-background (make-object color% 8 8 64))

(define canvas
  (new my-canvas%
   (parent frame)
   (style '(border))
   (min-width 640)
   (min-height 480)))

;; planet animator
(define thread-a (lambda ()
(let loop ()
  (sleep/yield .1)
(send planet-list calculate-force)
(send planet-list move)
(send canvas refresh)

; this creates the thread-a and starts the program

(thread-suspend (thread thread-a))
share|improve this question
up vote 3 down vote accepted

It's actually miraculous that you got this working as much as it does.

The problem is that thread-a is not a thread. It's not a function that produces a thread. It's a function that runs forever, moving planets around and updating the canvas.

So when your checkbox's callback does (thread-suspend (thread-a)), for example, the thread-suspend never actually happens. The call to thread-a just starts running and never returns.

The reason the GUI doesn't lock up (which it normally would if an event callback didn't return) is that thread-a periodically calls sleep/yield, which allows the GUI event loop to process more events. (That's why I said the code is miraculous.)

The fix is to define thread-a as the thread itself:

(define thread-a
    (lambda ()
      (let loop () ....))))
(thread-suspend thread-a)

and change the other references from (thread-a) to just thread-a.

share|improve this answer
Thank you so much! This makes perfect sense. – Mr K Jan 27 '13 at 6:23

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.