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.

``````#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))))
planet-list)
)
;; 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)
;; 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!
(super-new)
))
;; Abstract the list-handling for a list of planets
(define planet-list%
(class object%
(init-field (planets '()))
(set! planets (cons planet planets)))
(define (calculate-force)
(for-each (lambda (planet)
(send planet calculate-force planets))
planets))
(define (move)
(for-each (lambda (planet)
(send planet move))
planets))
(define (draw dc)
(for-each (lambda (planet)
(send planet draw dc))
planets))
(super-new)
)
)
(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")
(callback
(lambda (button event)
)))
))

(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)))
)
(super-new)
(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
(let loop ()
(sleep/yield .1)
(send planet-list calculate-force)
(send planet-list move)
(send canvas refresh)
(loop))))

; this creates the thread-a and starts the program

``````
-

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