First of all you need to understand how the world is processed in this main circle:
- The system takes the first argument of big-bang - 100, and remembers it as a WorldState.
- Then it passes it to a on-tick (sub1) function, provided it exists on each tick.
- When the key is pressed, it calls on-key (change) and passes the woldState there, as a w argument.
- There you draw some pictures and return it in case of an arrow key is pressed. So when an arrow is pressed, it returns the result of ball-image = result of place-image - image
- The system remembers it as a current worldState,
and with the next tick, it passes the new value to the old procedure: sub1.
- Since the value is now an image, sub1 rejects it.
If you want to move a ball in two directions, you have to store at least two coordinates (x . y). So let now the WorldState be the pair of two numbers. We don't need a on-tick function, since nothing changes on its own. Also we don't need to draw the ball in the keyboard processor, so let's simple change the corresponding value in the pair (worldState), and draw it only during the call (ball-image) which puts the ball into the new place (remember, x = (car t), y = (cdr t), and (x . y) = (cons x y)):
(define (ball-image t) ;<-- the t-parameter is our WorldState
(place-image (circle 10 "solid" "red")
(car t) ;<-- here now x variable coordinate
(cdr t) ;<-- here now y variable, instead of 150
(empty-scene 300 300)))
(define (change w a-key)
(cond ;w - is the previous worldState, V here we change it
[(key=? a-key "left") (cons (sub1 (car w)) (cdr w))];and
[(key=? a-key "right") (cons (add1 (car w)) (cdr w))];return
[(= (string-length a-key) 1) w] ;<-- this line is excess
[(key=? a-key "up") (cons (car w) (sub1 (cdr w)))]
[(key=? a-key "down") (cons (car w) (add1 (cdr w)))]
[else w])) ;<-- If the key of no interest, just
return the previous WorldState
(big-bang '(150 . 150) ;<-- initial state
(to-draw ball-image) ;<-- redraws the world
(on-key change)) ;<-- process the event of key press