CSC111 Lab 9 2011
--D. Thiebaut 13:15, 2 November 2011 (EDT)
Contents
Working with Functions
- For this part, work in Idle or emacs and create the various functions this lab presents you, and test them in main().
- For example, if you are asked to write a function that receives a string as parameter and prints it with a box around it, you could write something like this:
def boxIt( string ):
noChars = len( string )
print( "-" * ( 2 + noChars + 2 ) )
print( "| " + string + " |" )
print( "-" * ( 2 + noChars + 2 ) )
def main():
boxIt( "hello!" )
boxIt( "This is a very long string!" )
boxIt( "" ) # empty string
main()
- No need to add documentation for the code in this lab (or just in spots where you think you need to add markers for yourself)
Box
- Go ahead and create the boxIt() function above.
- Test it. Notice that I tested it with 3 different strings, one of them the empty string. It is important to test for "strange" conditions. An empty string is a totally valid string, and if our program is supposed to work with strings, it should work with empty strings as well without crashing.
Triple Boxes
- Add a new function called BoxIt3( s1, s2, s3), that receives 3 strings and prints each string in its own box.
- If you call your function in main() like this BoxIt3( "Hello", "There", "Smith College" ), it will print
--------- | Hello | --------- --------- | There | --------- ----------------- | Smith College | -----------------
- Go ahead and test your new function. Test it with different strings.
- If your solution does not use the function BoxIt() created earlier, modify BoxIt3() so that it calls BoxIt() 3 times.
Multiple Boxes
- Add a new function called multipleBoxes( L ) that receives a list of strings and prints each string in the list with BoxIt().
- Here is are different possible ways one could test your function:
multipleBoxes( [ "Doc", "Grumpy", "Happy", "Sleepy", "Bashful", "Sneezy", "Dopey" ] ) multipleBoxes( [ "Hello", "", "", "There!" ] ) multipleBoxes( "Hello Smith College!" . split() )
Intelligent BoxIt()
- Make BoxIt() not print anything if the string it is given is empty.
Functions Returning Values
Median of 3
- write a function that returns the median of 3 numbers.
- For example:
def median3( a, b, c ):
# could it be b?
if a <= b and b <= c:
return b
# if we're here, it's not b. Could it be a?
if b <= a and a <= c:
return a
# if we're here it's not b and not a. It has to be c!
return c
def main():
print( median3( 10, 10, 20 ) )
print( median3( 1, 2, 3 ) )
print( median3( 6, 5, 7 ) )
print( median3( 8, 10, 9 ) )
main()
- Modify the code above and make it simpler by remembering that you can put a, b, and c in a list, sort the list, and return the element at Index 1.
Second Smallest
- Write a function that receives a list of numbers (or strings), and that returns the second smallest of them.
- For example:
L = [ 1, 10, 2, 3, 30, 40, 50 ]
ss = secondSmallest( L )
print( ss ) # prints out 2
- Make sure your function works even if the list is empty or contains just one element!
Testing Second Smallest
- Test the function you have just written, and print the contents of the List of numbers (or strings) before you call secondSmallest() and after you call it.
- You will likely see that your list has changed. (if not, then skip to the next problem)
- If it has changed it is because you are sorting the list inside your function, and the list is passed by reference to the function.
- Modify your function so that the list does not get modified by the function when it is passed.
Make User Name
- This one should make sense just by looking at what it returns.
user = makeUserName( "Alex Andra" )
print( user )
# will print aandra
print( makeUserName( "Mini Driver" ) )
# will print mdriver
print( makeUserName( "Alan J. Smith" ) )
# will print asmith
- make sure the name returned is all lower-case.
Graphics with Functions
from graphics import *
def isInside( xc, yc, x1, y1, x2, y2 ):
#
# add your code here!
#
return 0
def main():
w = 600
h = 400
x1 = 20
y1 = 30
x2 = w // 3
y2 = h - y1
win = GraphWin( "Click me to stop!", w, h )
c = Circle( Point( w//2, h//4 ), 20 )
c.setFill( "yellow" )
c.draw( win )
r = Rectangle( Point( x1, y1 ), Point( x2, y2 ) )
r.setWidth(3)
r.draw( win )
dirX = 5
dirY = 3
while True:
c.move( dirX, dirY )
xc = c.getCenter().getX()
yc = c.getCenter().getY()
if not ( 0 <= xc <= w ): dirX = -dirX
if not ( 0 <= yc <= h ): dirY = -dirY
if isInside( xc, yc, x1, y1, x2, y2 )== 1:
# center inside rectangle
c.setFill( "red" )
else:
# center outside rectangle
c.setFill( "yellow" )
if win.checkMouse() != None:
break
win.close()
main()
- write the body of the function isInside( ) above. This function gets the coordinates of the center of the circle, and the coordinates of the points defining a rectangle, and it returns 1 when the center is inside the rectangle, and returns 0 when it is not.
- Basically, the body of the function should be the python translation of this algorithm:
if xc is between x1 and x2, and if yc is between y1 and y2, then return 1 else return 0
- Once your function works, the circle should move freely around the graphics window, bouncing off the edges, and should change color as soon as its center enters the rectangle.