We are going to look at an interesting program: rball.py - a simulation of a racquetball game, which combines most of concepts we've learned covered by Chapter 1-8. from: https://mcsp.wartburg.edu/zelle/python/ppics3/code/chapter09/rball.py, (We recommend you to use Chrome as web browser to open this link). 3. Copy/paste this rball.py file on your Python IDLE, run it to see how it works, if needed, read the textbook Chapter 9. This program uses what we learned so far to simulate a game. When running it, make sure to "interact" with it by INPUTTING percentage of the probability a player could win, e.g.: 0.78 4. To earn pts, 1) Run this program successfully with reasonable inputs and outputs; 2) Add more comments to the program to explain each line of statements by using # sign. Keep same alignment for each line of code and comment. 3) Revise this rball.py program a little bit by moving the main() function to bottom of this program, in other words, make the main() function as the last function in the program.
We are going to look at an interesting
from: https://mcsp.wartburg.edu/zelle/python/ppics3/code/chapter09/rball.py, (We recommend you to use Chrome as web browser to open this link).
3. Copy/paste this rball.py file on your Python IDLE, run it to see how it works, if needed, read the textbook Chapter 9. This program uses what we learned so far to simulate a game. When running it, make sure to "interact" with it by INPUTTING percentage of the probability a player could win, e.g.: 0.78
4. To earn pts,
1) Run this program successfully with reasonable inputs and outputs;
2) Add more comments to the program to explain each line of statements by using # sign. Keep same alignment for each line of code and comment.
3) Revise this rball.py program a little bit by moving the main() function to bottom of this program, in other words, make the main() function as the last function in the program.
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