14.4. Randomly Walking Turtles¶
Suppose we want to entertain ourselves by watching a turtle wander around randomly inside the screen. When we run the program we want the turtle and program to behave in the following way:
The turtle begins in the center of the screen.
Flip a coin. If it’s heads then turn to the left 90 degrees. If it’s tails then turn to the right 90 degrees.
Take 50 steps forward.
If the turtle has moved outside the screen then stop, otherwise go back to step 2 and repeat.
Notice that we cannot predict how many times the turtle will need to flip the coin before it wanders out of the screen, so we can’t use a for loop in this case. In fact, although very unlikely, this program might never end, that is why we call this indefinite iteration.
So based on the problem description above, we can outline a program as follows:
create a window and a turtle
while the turtle is still in the window:
generate a random number between 0 and 1
if the number == 0 (heads):
turn left
else:
turn right
move the turtle forward 50
Now, probably the only thing that seems a bit confusing to you is the part about whether or
not the turtle is still in the screen. But this is the nice thing about programming, we can
delay the tough stuff and get something in our program working right away. The way we are
going to do this is to delegate the work of deciding whether the turtle is still in the screen
or not to a boolean function. Let’s call this boolean function isInScreen
We can write a very
simple version of this boolean function by having it always return True
, or by having it
decide randomly, the point is to have it do something simple so that we can focus on the parts
we already know how to do well and get them working. Since having it always return True would not
be a good idea we will write our version to decide randomly. Let’s say that there is a 90% chance
the turtle is still in the window and 10% that the turtle has escaped.
Now we have a working program that draws a random walk of our turtle that has a 90% chance of staying on the screen. We are in a good position, because a large part of our program is working and we can focus on the next bit of work – deciding whether the turtle is inside the screen boundaries or not.
We can find out the width and the height of the screen using the window_width
and
window_height
methods of the screen object. However, remember that the turtle starts at
position 0,0 in the middle of the screen. So we never want the turtle to go farther right than
width/2 or farther left than negative width/2. We never want the turtle to go further up than
height/2 or further down than negative height/2. Once we know what the boundaries are we can use
some conditionals to check the turtle position against the boundaries and return False
if the
turtle is outside or True
if the turtle is inside.
Once we have computed our boundaries we can get the current position of the turtle and then use conditionals to decide. Here is one implementation:
def isInScreen(wn,t):
leftBound = -(wn.window_width() / 2)
rightBound = wn.window_width() / 2
topBound = wn.window_height() / 2
bottomBound = -(wn.window_height() / 2)
turtleX = t.xcor()
turtleY = t.ycor()
stillIn = True
if turtleX > rightBound or turtleX < leftBound:
stillIn = False
if turtleY > topBound or turtleY < bottomBound:
stillIn = False
return stillIn
There are lots of ways that the conditional could be written. In this case we have given
stillIn
the default value of True
and use two if
statements to possibly set
the value to False
. You could rewrite this to use nested conditionals or elif
statements and set stillIn
to True
in an else clause.
Here is the full version of our random walk program.
We could have written this program without using a boolean function. You might want to try to rewrite it using a complex condition on the while statement. However, using a boolean function makes the program much more readable and easier to understand. It also gives us another tool to use if this was a larger program and we needed to have a check for whether the turtle was still in the screen in another part of the program. Another advantage is that if you ever need to write a similar program, you can reuse this function with confidence the next time you need it. Breaking up this program into a couple of parts is another example of functional decomposition.
Check your understanding
- Returns True if the turtle is still on the screen and False if the turtle is no longer on the screen.
- The isInScreen function computes the boolean test of whether the turtle is still in the window. It makes the condition of the while loop in the main part of the code simpler.
- Uses a while loop to move the turtle randomly until it goes off the screen.
- The isInScreen function does not contain a while-loop. That loop is outside the isInScreen function.
- Turns the turtle right or left at random and moves the turtle forward 50.
- The isInScreen function does not move the turtle.
- Calculates and returns the position of the turtle in the window.
- While the isInScreen function does use the size of the window and position of the turtle, it does not return the turtle position.
In the random walk program in this section, what does the isInScreen function do?