# TurtleGraphics Python: Bouncing turtle off the walls?

So, I am trying to make a realistic bouncing function, where the turtle hits a wall and bounces off at the corresponding angle. My code looks like this:

``````def bounce(num_steps, step_size, initial_heading):
turtle.reset()
top = turtle.window_height()/2
bottom = -top
right = turtle.window_width()/2
left = -right

for step in range(num_steps):
turtle.forward(step_size)
x, y = turtle.position()
if left <= x <= right and bottom <= y <= top:
pass
else:
``````

So, this works for the side walls, but I don't get how to make it bounce correctly off the top/bottom. Any suggestions?

-

Try something like this:

``````if not (left <= x <= right):
elif not (bottom <= y <= top):
else:
pass
``````

My python syntax is a little rusty, sorry :P. But the math is a little different for a horizontal vs. a vertical flip.

EDIT:

I suspect that what is happening is your turtle is getting into a situation where it is pointing upwards and stuck above the top wall. That would lead it to just flip indefinitely. You could try adding the following conditions:

``````if (x <= left and 90 <= turtle.heading() <= 270) or (right <= x and not 90 <= turtle.heading() <= 270):
elif (y <= bottom and turtle.heading() >= 180) or (top <= y and turtle.heading <= 180):
else:
pass
``````

If that works, there is probably a bug elsewhere in your code. Edge handling is tricky to get right. I assume that turtle.heading() will always return something between 0 and 360 - if not then it will be even more tricky to get right.

-
The turtle still gets hung up on the top wall though, but thanks for trying. –  user176073 Sep 22 '09 at 1:11
Oh, update: I changed the -2 in turtle.left under elif not to 2 and it seems to be bouncing properly. Thanks again. –  user176073 Sep 22 '09 at 1:15
+1: The original solution works fine for me. Nice! –  ire_and_curses Sep 22 '09 at 1:23

Gday,

Your problem seems to be that you are using the same trigonometry to calculate the right and left walls, as you are the top and bottom. A piece of paper and a pencil should suffice to calculate the required deflections.

``````def inbounds(limit, value):
'returns boolean answer to question "is turtle position within my axis limits"'
return -limit < value * 2 < limit

'''given the number of steps, the size of the steps
and an initial heading in degrees, plot the resultant course
on a turtle window, taking into account elastic collisions
with window borders.
'''

turtle.reset()
height = turtle.window_height()
width = turtle.window_width()

for step in xrange(num_steps):
turtle.forward(step_size)
x, y = turtle.position()

if not inbounds(height, y):
I've used the `setheading` function and a helper function (`inbounds`) to further declare the intent of the code here. Providing some kind of doc-string is also good practice in any code that you write (provided the message it states is accurate!!)
Your mileage may vary on the use of `xrange`, Python 3.0+ renames it to simply `range`.