Difference between revisions of "CSC111 Python Programs Fall 2015"

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(Random Dot Demo)
(Fractal Tree)
 
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Line 1,533: Line 1,533:
 
         if addDotButton.isClicked( clickedPoint ):
 
         if addDotButton.isClicked( clickedPoint ):
 
             addDot( win )
 
             addDot( win )
 +
 +
            # redraw the buttons, just in case a circle covers them.
 
             OkButton.undraw()
 
             OkButton.undraw()
 
             OkButton.draw( win )
 
             OkButton.draw( win )
Line 1,539: Line 1,541:
 
             addDotButton.undraw()
 
             addDotButton.undraw()
 
             addDotButton.draw( win )
 
             addDotButton.draw( win )
 +
 +
            # go back to top of loop and wait for another click from user...
 
             continue
 
             continue
 
          
 
          
         # if I'm here, it's because user
+
         # if we're here, it's because user
 
         # clicked on window, but not on buttons
 
         # clicked on window, but not on buttons
 
         print( "clicked on window" )
 
         print( "clicked on window" )
Line 1,709: Line 1,713:
 
<br />
 
<br />
 
<br />
 
<br />
 +
=Wed. 11/18/15=
 +
<br />
 +
==SavePolyToFile.py==
 +
<br />
 +
::<source lang="python">
 +
# recordShapeIntoPolygon.py
 +
# D. Thiebaut
 +
# Brings up a gif image in the window
 +
# and creates 2 buttons.
 +
# User can click on buttons to 1) start
 +
# Recording a shape, and 2) stop recording
 +
# it and displaying it as light-blue polygon.
 +
 +
from graphics import *
 +
 +
WIDTH = 400
 +
HEIGHT = 400
 +
CSVFILE = "map.csv"
 +
 +
class Button:
 +
    """Implements a button, which contains a label (text),
 +
    is rectangular (frame), and can be clicked (True) or not clicked."""
 +
   
 +
    def __init__(self, x1, y1, w, h, text ):
 +
        """constructor: pass (x,y) of top left corner,
 +
        and width and height.  Pass the text displayed in
 +
        button."""
 +
        p1 = Point( x1, y1 )
 +
        p2 = Point( x1+w, y1+h )
 +
        self.frame = Rectangle( p1, p2 )
 +
        self.frame.setFill( "white" )
 +
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
 +
        self.clicked = False
 +
       
 +
    def draw( self, win ):
 +
        """display button on window."""
 +
        self.frame.draw( win )
 +
        self.label.draw( win )
 +
 +
    def isClicked( self, p ):
 +
        """Checks if p is inside the frame of the button.  Returns True
 +
        if p inside frame, False otherwise.  If p inside, button
 +
        changes state and color."""
 +
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
 +
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
 +
       
 +
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
 +
            self.clicked = not self.clicked
 +
            if self.clicked:
 +
                self.frame.setFill( "yellow" )
 +
            else:
 +
                self.frame.setFill( "white" )
 +
            return True
 +
        else:
 +
            return False
 +
 +
def savePolyToFile( pointList, fileName ):
 +
    file = open( fileName, "a" )
 +
 +
    L = []
 +
    for point in pointList:
 +
        x = point.getX()
 +
        y = point.getY()
 +
        #print( x, y )
 +
        L.append( str( x ) ) # "{0:1}".format( x )
 +
        L.append( str( y ) )
 +
       
 +
    #print( ", ".join( L ) )
 +
    file.write( ", ".join( L )  )
 +
    file.close()
 +
   
 +
def main():
 +
    global WIDTH, HEIGHT, CSVFILE
 +
 +
    # create a graphic window
 +
    win = GraphWin( "Record Polygon", WIDTH, HEIGHT )
 +
 +
    # put a logo of Smith in the middle of the window
 +
    img = Image( Point(WIDTH//2, HEIGHT//2), "smithLogo.gif" )
 +
    img.draw( win )
 +
 +
    # create 2 buttons
 +
    startB = Button( 10, 10, 60, 30, "Start" )
 +
    startB.draw( win )
 +
    stopB = Button( 80, 10, 60, 30, "Stop" )
 +
    stopB.draw( win )
 +
    exitB = Button( 150, 10, 60, 30, "Quit" )
 +
    exitB.draw( win )
 +
 +
    # create empty list of points
 +
    pointList = []
 +
   
 +
    # animation loop
 +
    while True:
 +
        clickedPoint = win.getMouse()
 +
       
 +
        # quit?
 +
        if exitB.isClicked( clickedPoint ):
 +
            break
 +
 +
        # start recording polygon?
 +
        if startB.isClicked( clickedPoint ):
 +
            pointList = []
 +
            continue
 +
 +
        # stop recording polygon?
 +
        if stopB.isClicked( clickedPoint):
 +
            poly = Polygon( pointList )
 +
            poly.setFill( "cyan" )
 +
            poly.draw( win )
 +
            savePolyToFile( pointList, CSVFILE )
 +
            continue
 +
 +
        # if we're here, it's because
 +
        # the user clicked somewhere outside
 +
        # the buttons
 +
        pointList.append( clickedPoint )
 +
 +
       
 +
    win.getMouse()       
 +
    win.close()
 +
 +
main()
 +
       
 +
 +
</source>
 +
<br />
 +
==Different Button Class==
 +
<br />
 +
::<source lang="python">
 +
 +
class Button:
 +
    """Implements a button, which contains a label (text),
 +
    is rectangular (frame), and can be clicked (True) or not clicked."""
 +
   
 +
    def __init__(self, x1, y1, w, h, text ):
 +
        """constructor: pass (x,y) of top left corner,
 +
        and width and height.  Pass the text displayed in
 +
        button."""
 +
        p1 = Point( x1, y1 )
 +
        p2 = Point( x1+w, y1+h )
 +
        self.frame = Rectangle( p1, p2 )
 +
        self.frame.setFill( "white" )
 +
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
 +
        self.clicked = False
 +
       
 +
    def draw( self, win ):
 +
        """display button on window."""
 +
        self.frame.draw( win )
 +
        self.label.draw( win )
 +
 +
    def isClicked( self, p ):
 +
        """Checks if p is inside the frame of the button.  Returns True
 +
        if p inside frame, False otherwise.  If p inside, button
 +
        changes state and color."""
 +
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
 +
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
 +
       
 +
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
 +
            self.clicked = not self.clicked  # toggle
 +
           
 +
            #if self.clicked:
 +
            #    self.frame.setFill( "yellow" )
 +
            #else:
 +
            #    self.frame.setFill( "white" )
 +
           
 +
            self.frame.setFill( "red" )
 +
            sleep( 0.1 ) # 0.1 sec
 +
            self.frame.setFill( "white" )
 +
           
 +
            return True
 +
        else:
 +
            return False
 +
 +
</source>
 +
<br />
 +
=Fri. 11/20/15=
 +
<br />
 +
==Merge 2 Lists==
 +
<br />
 +
::<source lang="python">
 +
# merging.py
 +
# D. Thiebaut
 +
# given 2 lists (in the form of stings), one a list
 +
# of Disney characters, one a fictitious list of
 +
# characters and their phone number, merge the
 +
# two lists and print the name of the Disney characters
 +
# and the area code they live in.
 +
 +
# master list
 +
master = """Mickey Mouse, Mickey Mouse Clubhouse
 +
Pluto, The Chain Gang
 +
Minnie Mouse, Plane Crazy
 +
Donald Duck, The Wise Little Hen
 +
bambi, bambi
 +
Pluto The Chain Gang
 +
"""
 +
 +
# secondary list
 +
phones = """Sue Green, (413) 585 1122, single
 +
Alex Marquis, (617) 512 1234, married
 +
Bambi, single
 +
Mickey Mouse, (212) 123 5598, married
 +
Pluto, (212) 123 5598, single
 +
Minnie Mouse, (212) 123 5598, married
 +
Donald Duck, (617) 525 1212, single
 +
Bambi, (209) 713 1139, single
 +
"""
 +
 +
def findPhone( name ):
 +
    """given name, a stripped name of a Disney
 +
    character, locate line in phone list, and
 +
    return line that contains phone associated
 +
    with name.
 +
    """
 +
    # split the string into lines
 +
    phoneList = phones.split( "\n" )
 +
 +
    # look at each line and see if we find the
 +
    # character with the given name
 +
    for line in phoneList:
 +
       
 +
        # is it valid?  Does it contain commas?
 +
        if len( line.split( "," ) ) != 3:
 +
            # no
 +
            continue
 +
 +
        # if we're here, we know the phone line is valid
 +
        # make it lower case, and see if our name is included in it
 +
        if line.lower().find( name ) != -1:
 +
 +
            # look for the position of the left parenthesis
 +
            index = line.find( "(" )
 +
 +
            # return a slice of the string, containing the 3 area code digits
 +
            return line[index+1:index+4]
 +
 +
    # if we didn't find the name in any of the lines,
 +
    # return None, indicating "not found"
 +
    return None   
 +
 +
def main():
 +
 +
    # split the master list into lines
 +
    disneyList = master.split( "\n" )
 +
 +
    # for each line in the master list...
 +
    for character in disneyList:
 +
 +
        # clean up the line
 +
        character = character.strip()
 +
 +
        # if not a blank line, process it
 +
        if len( character ) > 1:
 +
           
 +
            # get rid of lines not containing commas
 +
            fields = character.split(",")
 +
            if len( fields ) <= 1:
 +
                continue
 +
 +
            # get the name
 +
            name = fields[0].lower().strip()
 +
 +
            # look in secondary list, and fine
 +
            # the line associated with name
 +
            phoneLine = findPhone( name )
 +
 +
            # if we found a phone number, list it, otherwise
 +
            # skip that Disney character...
 +
            if phoneLine != None:
 +
                print( name.title(), phoneLine )
 +
           
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
==ColorOf==
 +
<br />
 +
::<source lang="python">
 +
def colorOf( year ):
 +
# assume year is an int
 +
if year <= 1799:
 +
return 215, 97, 1
 +
# if we're here... year is
 +
# above 1800 
 +
elif year <= 1899:
 +
return 241, 163, 64
 +
elif year <= 1999:
 +
return 253, 184, 99
 +
else:
 +
return 254, 224, 144
 +
 +
</source>
 +
<br />
 +
 +
==Aquarium Skeleton Program==
 +
::<source lang="python">
 +
# Aquarium.py
 +
# D. Thiebaut
 +
# A program with fish swimming in an aquarium
 +
# Two buttons control the creation of new fish, and how to
 +
# quit the program.
 +
 +
from graphics import *
 +
from time import sleep
 +
from random import *
 +
 +
# Global variables
 +
WIDTH = 700
 +
HEIGHT = 517
 +
AQUARIUM = "Tank2.gif"
 +
FISH = "Fish10.gif"
 +
 +
class Button:
 +
    """Implements a button, which contains a label (text),
 +
    is rectangular (frame), and can be clicked (True) or not clicked."""
 +
   
 +
    def __init__(self, x1, y1, w, h, text ):
 +
        """constructor: pass (x,y) of top left corner,
 +
        and width and height.  Pass the text displayed in
 +
        button."""
 +
        p1 = Point( x1, y1 )
 +
        p2 = Point( x1+w, y1+h )
 +
        self.frame = Rectangle( p1, p2 )
 +
        self.frame.setFill( "white" )
 +
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
 +
        self.clicked = False
 +
       
 +
    def draw( self, win ):
 +
        """display button on window."""
 +
        self.frame.draw( win )
 +
        self.label.draw( win )
 +
 +
    def isClicked( self, p ):
 +
        """Checks if p is inside the frame of the button.  Returns True
 +
        if p inside frame, False otherwise.  If p inside, button
 +
        changes state and color."""
 +
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
 +
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
 +
       
 +
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
 +
            self.clicked = not self.clicked
 +
            self.frame.setFill( "red" )
 +
            sleep(0.1)
 +
            self.frame.setFill( "white" )
 +
            return True
 +
        else:
 +
            return False
 +
 +
class Fish:
 +
    """A class for a fish, which is an image
 +
    """
 +
    def __init__( self, p ):
 +
        self.img = Image( p, FISH )
 +
 +
    def draw( self, win ):
 +
        self.img.draw( win )
 +
 +
    def autoMove( self ):
 +
        """makes the fish move. If the fish disappears from
 +
        the right, it automatically reappears on the left."""
 +
        dy = randint( -3, 3 )  # random vertical drift
 +
        dx = randint( 0, 3 )  # random move forward
 +
        self.img.move( dx, dy )
 +
 +
        # has it disappeared on the right?
 +
        x = self.img.getAnchor().getX()
 +
        if x > WIDTH + 50:
 +
            # yes, move it to the left of the aquarium
 +
            self.img.move( -WIDTH-50, 0 )
 +
 +
   
 +
#---------------------------------------------------------------
 +
# Functions
 +
#---------------------------------------------------------------
 +
 +
def main():
 +
    """The main interactive function.  Declare the graphic
 +
    window, populate it with a map and 2 buttons, and allows
 +
    the user to enter different polygons."""
 +
    global WIDTH, HEIGHT, AQUARIUM
 +
 +
    # create graphic window.  make it the size of the map.
 +
    win = GraphWin( "Aquarium", WIDTH, HEIGHT )
 +
 +
    # display background image
 +
    map = Image( Point( WIDTH//2, HEIGHT//2 ), AQUARIUM )
 +
    map.draw( win )
 +
 +
    # create 2 buttons to start recording and record points to
 +
    # csv
 +
    addFish = Button( 10, 10, 60, 30, "Add Fish" )
 +
    addFish.draw( win )
 +
    quitButton = Button( 80, 10, 60, 30, "Quit" )
 +
    quitButton.draw( win )
 +
 +
    fishList = []
 +
   
 +
    # animation loop
 +
    while True:
 +
        # has user clicked on a point?
 +
        clickedPoint = win.checkMouse()
 +
 +
        # yes, mouse clicked.
 +
        if clickedPoint != None and quitButton.isClicked( clickedPoint ):
 +
            break
 +
       
 +
        # was it on add-fish button?
 +
        if clickedPoint != None and addFish.isClicked( clickedPoint ):
 +
            clickedPoint = win.getMouse()
 +
            fish = Fish( clickedPoint )
 +
            fish.draw( win )
 +
            fishList.append( fish )
 +
            continue
 +
 +
        for fish in fishList:
 +
            fish.autoMove()
 +
 +
       
 +
    # We currently will not reach this point, as there is
 +
    # no way to escape the while loop.  A good idear would be
 +
    # to add an exit button.
 +
    win.close()
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
<br />
 +
<!-- ========================================================= -->
 +
==Aquarium.py (Fully functional)==
 +
<br />
 +
::<source lang="python">
 +
# Aquarium.py
 +
# D. Thiebaut
 +
# A program with fish swimming in an aquarium
 +
# Two buttons control the creation of new fish, and how to
 +
# quit the program.
 +
 +
from graphics import *
 +
from time import sleep
 +
from random import *
 +
 +
# Global variables
 +
WIDTH = 700
 +
HEIGHT = 517
 +
AQUARIUM = "Tank.gif"
 +
FISH = "Fish10.gif"
 +
 +
class Button:
 +
    """Implements a button, which contains a label (text),
 +
    is rectangular (frame), and can be clicked (True) or not clicked."""
 +
   
 +
    def __init__(self, x1, y1, w, h, text ):
 +
        """constructor: pass (x,y) of top left corner,
 +
        and width and height.  Pass the text displayed in
 +
        button."""
 +
        p1 = Point( x1, y1 )
 +
        p2 = Point( x1+w, y1+h )
 +
        self.frame = Rectangle( p1, p2 )
 +
        self.frame.setFill( "white" )
 +
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
 +
        self.clicked = False
 +
       
 +
    def draw( self, win ):
 +
        """display button on window."""
 +
        self.frame.draw( win )
 +
        self.label.draw( win )
 +
 +
    def isClicked( self, p ):
 +
        """Checks if p is inside the frame of the button.  Returns True
 +
        if p inside frame, False otherwise.  If p inside, button
 +
        changes state and color."""
 +
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
 +
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
 +
       
 +
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
 +
            self.clicked = not self.clicked
 +
            self.frame.setFill( "red" )
 +
            sleep(0.1)
 +
            self.frame.setFill( "white" )
 +
            return True
 +
        else:
 +
            return False
 +
 +
class Fish:
 +
    """A class for a fish, which is an image
 +
    """
 +
    def __init__( self, p ):
 +
        self.img = Image( p, FISH )
 +
 +
    def draw( self, win ):
 +
        self.img.draw( win )
 +
 +
    def autoMove( self ):
 +
        """makes the fish move. If the fish disappears from
 +
        the right, it automatically reappears on the left."""
 +
        dy = randint( -3, 3 )  # random vertical drift
 +
        dx = randint( 0, 3 )  # random move forward
 +
        self.img.move( dx, dy )
 +
 +
        # has it disappeared on the right?
 +
        x = self.img.getAnchor().getX()
 +
        if x > WIDTH + 50:
 +
            # yes, move it to the left of the aquarium
 +
            self.img.move( -WIDTH-50, 0 )
 +
 +
   
 +
#---------------------------------------------------------------
 +
# Functions
 +
#---------------------------------------------------------------
 +
 +
def main():
 +
    """The main interactive function.  Declare the graphic
 +
    window, populate it with a map and 2 buttons, and allows
 +
    the user to enter different polygons."""
 +
    global WIDTH, HEIGHT, AQUARIUM
 +
 +
    # create graphic window.  make it the size of the map.
 +
    win = GraphWin( "Aquarium", WIDTH, HEIGHT )
 +
 +
    # display background image
 +
    map = Image( Point( WIDTH//2, HEIGHT//2 ), AQUARIUM )
 +
    map.draw( win )
 +
 +
    # create 2 buttons to start recording and record points to
 +
    # csv
 +
    addFish = Button( 10, 10, 60, 30, "Add Fish" )
 +
    addFish.draw( win )
 +
    quitButton = Button( 80, 10, 60, 30, "Quit" )
 +
    quitButton.draw( win )
 +
 +
    fishList = []
 +
   
 +
    # animation loop
 +
    while True:
 +
        # has user clicked on a point?
 +
        clickedPoint = win.checkMouse()
 +
 +
        # yes, mouse clicked.
 +
        if clickedPoint != None and quitButton.isClicked( clickedPoint ):
 +
            break
 +
       
 +
        # was it on add-fish button?
 +
        if clickedPoint != None and addFish.isClicked( clickedPoint ):
 +
            clickedPoint = win.getMouse()
 +
            fish = Fish( clickedPoint )
 +
            fish.draw( win )
 +
            fishList.append( fish )
 +
            continue
 +
 +
        for fish in fishList:
 +
            fish.autoMove()
 +
 +
       
 +
    # We currently will not reach this point, as there is
 +
    # no way to escape the while loop.  A good idear would be
 +
    # to add an exit button.
 +
    win.close()
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
=Mon. 11/23/15=
 +
<br />
 +
[[Image:Milou.gif|right]]
 +
==CountUniqueDogsWithLists.py==
 +
<br />
 +
::<source lang="python">
 +
# countingUniqueDogsWithList.py
 +
# D. Thiebaut
 +
# Use a list to figure out how many unique
 +
# dogs are in the text variable.
 +
 +
# a text string with many dogs.  Some are repeats.
 +
text = """Fido 0
 +
Fido 10
 +
Rex 0
 +
Milou 9
 +
Ralph 3
 +
Fido 8
 +
"""
 +
 +
# MAIN:
 +
def main():
 +
    dogsFound = []
 +
    # look at each line of text
 +
    for line in text.split( "\n" ):
 +
 +
        # split the line on white space
 +
        fields = line.capitalize().strip().split()
 +
 +
        # if invalid, skip
 +
        if len( fields ) != 2:
 +
            continue
 +
 +
        # get dog name
 +
        name = fields[0]
 +
 +
        # have we seen it yet?
 +
        if not name in dogsFound:
 +
            dogsFound.append( name )
 +
 +
 +
    print( "We have found", len( dogsFound ), "dog(s)" )
 +
    print( "The dogs found are", ", ".join( dogsFound ) )
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
==CountingDogsWithDictionary.py==
 +
<br />
 +
::<source lang="python">
 +
# countingUniqueDogsWithDictionary.py
 +
# D. Thiebaut
 +
# Demonstration program of the use of a dictionary
 +
# to keep track of unique elements found in a collection
 +
# of lines.
 +
 +
# the list of dogs, and some value associated with each one.
 +
text = """Fido 0
 +
Fido 10
 +
Rex 0
 +
Milou 9
 +
Ralph 3
 +
Fido 8
 +
"""
 +
 +
def main():
 +
 +
    # create an empty dictionary
 +
    dogsFound = {}
 +
 +
    # look at each line of text
 +
    for line in text.split( "\n" ):
 +
 +
        # split the line on white space
 +
        fields = line.capitalize().strip().split()
 +
 +
        # if invalid, skip
 +
        if len( fields ) != 2:
 +
            continue
 +
 +
        # get dog name
 +
        name = fields[0]
 +
        age = int( fields[1] )
 +
 +
        # have we seen it yet?
 +
        dogsFound[ name ] = age
 +
 +
    print( "We have found", len( dogsFound ), "dog(s)" )
 +
    print( "The dogs found are:" )
 +
 +
    for name in dogsFound.keys():
 +
        print( name, dogsFound[ name ] )
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
==Keeping track of the first, last, and dogs with largest key found==
 +
<br />
 +
::<source lang="python">
 +
# countingUniqueDogsWithDictionary.py
 +
# D. Thiebaut
 +
# Demonstration program of the use of a dictionary
 +
# to keep track of unique elements found in a collection
 +
# of lines.
 +
 +
# the list of dogs, and some value associated with each one.
 +
text = """Fido 0
 +
Fido 10
 +
Rex 0
 +
Milou 9
 +
Ralph 3
 +
Fido 8
 +
"""
 +
 +
def main():
 +
    dogsFoundFirst = {}
 +
    dogsFoundLast = {}
 +
    dogsFoundLargest = {}
 +
   
 +
    # look at each line of text
 +
    for line in text.split( "\n" ):
 +
 +
        # split the line on white space
 +
        fields = line.capitalize().strip().split()
 +
 +
        # if invalid, skip
 +
        if len( fields ) != 2:
 +
            continue
 +
 +
        # get dog name
 +
        name = fields[0]
 +
        age = int( fields[1] )
 +
 +
        # Keep the first dog we see
 +
        if not name in dogsFoundFirst.keys():   
 +
            dogsFoundFirst[ name ] = age
 +
 +
        # Keep the last dog we see
 +
        dogsFoundLast[ name ] = age
 +
 +
        # Keep the dog with the largest associated value
 +
        if not name in dogsFoundLargest.keys():
 +
            dogsFoundLargest[ name ] = age
 +
        else:
 +
            # is the new dog found with an age larger than
 +
            # what we have recorded so far, for this dog?
 +
            if dogsFoundLargest[ name ] < age:
 +
                # no, update and keep the new larger age
 +
                dogsFoundLargest[ name ] = age
 +
 +
    print( "We have found", len( dogsFoundFirst ), "unique dog(s)" )
 +
   
 +
    print( "The first dogs found are:" )
 +
    for name in dogsFoundFirst.keys():
 +
        print( " -", name, dogsFoundFirst[ name ] )
 +
 +
 +
    print( "\nThe last dogs found are:" )
 +
    for name in dogsFoundLast.keys():
 +
        print( " -", name, dogsFoundLast[ name ] )
 +
 +
    print( "\nThe dogs with the largest age found are:" )
 +
    for name in dogsFoundLargest.keys():
 +
        print( " -", name, dogsFoundLargest[ name ] )
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
=Nov. 30, 2015=
 +
<br />
 +
==Cambridge.data==
 +
<br />
 +
* You can get the data from this URL: [http://cs.smith.edu/~dthiebaut/UKTemperatures/cambridgedata.txt http://cs.smith.edu/~dthiebaut/UKTemperatures/cambridgedata.txt]
 +
<br />
 +
==Email Addresses==
 +
<br />
 +
* These are fake addresses of students registered for different classes.  The goal is to create a list of unique addresses for Smith students present in the list, as well as unique addresses for 5-College students.
 +
<br />
 +
::<source lang="text">
 +
Ammie@hampshire.edu
 +
Bessie@smith.edu
 +
Carylon@smith.edu
 +
Cheryll@smith.edu
 +
Cordelia@smith.edu
 +
Illa@smith.edu
 +
Lisbeth@smith.edu
 +
Mackenzie@smith.edu
 +
Maryellen@smith.edu
 +
Matha@smith.edu
 +
Patrica@hampshire.edu
 +
Sanjuana@smith.edu
 +
Sharie@smith.edu
 +
Sonya@smith.edu
 +
Yuko@smith.edu
 +
 +
Cheryll@smith.edu
 +
Codi@smith.edu
 +
Cordelia@smith.edu
 +
Elenore@smith.edu
 +
Emelia@smith.edu
 +
Josie@smith.edu
 +
Lina@smith.edu
 +
Lisbeth@smith.edu
 +
Mackenzie@smith.edu
 +
Margaretta@smith.edu
 +
Rosalina@smith.edu
 +
Sade@smith.edu
 +
Sanjuana@smith.edu
 +
Shelli@smith.edu
 +
Sonya@smith.edu
 +
 +
Aja@hampshire.edu
 +
Alesia@hampshire.edu
 +
Bessie@smith.edu
 +
Carylon@smith.edu
 +
Chun@smith.edu
 +
Codi@smith.edu
 +
Constance@smith.edu
 +
Felisa@smith.edu
 +
Illa@smith.edu
 +
Karena@hampshire.edu
 +
Kortney@hampshire.edu
 +
Lina@smith.edu
 +
Mallie@smith.edu
 +
Patrica@hampshire.edu
 +
Zofia@smith.edu
 +
 +
Anna@hampshire.edu
 +
Bessie@smith.edu
 +
Candyce@smith.edu
 +
Clorinda@smith.edu
 +
Elenore@smith.edu
 +
Karine@hampshire.edu
 +
Kaylee@hampshire.edu
 +
Kortney@hampshire.edu
 +
Lisbeth@smith.edu
 +
Marline@smith.edu
 +
Matha@smith.edu
 +
Porsha@hampshire.edu
 +
Renata@smith.edu
 +
Sanjuana@smith.edu
 +
Sonya@smith.edu
 +
 +
Ammie@hampshire.edu
 +
Anna@hampshire.edu
 +
Birdie@smith.edu
 +
Codi@smith.edu
 +
Constance@smith.edu
 +
Edelmira@smith.edu
 +
Kaylee@hampshire.edu
 +
Kristel@hampshire.edu
 +
Margaretta@smith.edu
 +
Moira@smith.edu
 +
Patrica@hampshire.edu
 +
Phuong@hampshire.edu
 +
Sade@smith.edu
 +
Tamela@smith.edu
 +
Yuko@smith.edu
 +
</source>
 +
<br />
 +
==Presidents.txt==
 +
<br />
 +
* The content of the file with all the presidents, up to G. W. Bush, can be found [[CSC111 presidents.txt| here]].
 +
<br />
 +
<br />
 +
 +
==rainyCambridge.py==
 +
<br />
 +
::<source lang="python">
 +
# rainyCambridge.py
 +
# D. Thiebaut
 +
# This program finds the rainiest month and year
 +
# in Cambridge, UK.  The file is fetched from a
 +
# Web site (http://cs.smith.edu/~dthiebaut/UKTemperatures/)
 +
# where several text files are stored, including one
 +
# for Cambridge, called cambridgedata.txt.
 +
# Information on how to retrieve URLs found at
 +
# https://docs.python.org/3.0/library/urllib.request.html
 +
# and http://stackoverflow.com/questions/606191/convert-bytes-to-a-python-string
 +
 +
i
 +
 +
import urllib.request  # library for accessing Web pages
 +
 +
#--- some constants used by the program ---
 +
BASEURL = "http://cs.smith.edu/~dthiebaut/UKTemperatures/"
 +
 +
 +
def getTemperatureData( fileName ):
 +
    # fetches the file from the Website and returns it as
 +
    # a long string.
 +
    # format of the file, with a sample of the lines:
 +
    """Cambridge NIAB
 +
Location: 5435E 2606N, 26 metres amsl
 +
Estimated data is marked with a * after the value.
 +
Missing data (more than 2 days missing in month) is marked by  ---.
 +
Sunshine data taken from an automatic Kipp & Zonen sensor marked with a #, otherwise sunshine data taken from a Campbell Stokes recorder.
 +
  yyyy  mm  tmax    tmin      af    rain    sun
 +
              degC    degC    days      mm  hours
 +
  1959  1    4.4    -1.4      20    ---    78.1
 +
  1961  1    6.2    1.0      5    55.9    50.5
 +
  1961  2  10.3    4.3      0    50.4    65.9
 +
  2011  7  21.2    10.9      0    38.4*    ---
 +
  2015  1    8.0    1.3      12    48.4*  ---    Provisional
 +
 +
 +
    """
 +
    url = BASEURL + fileName
 +
    print( "Retrieving data from", url )
 +
    f = urllib.request.urlopen( url )
 +
    data = f.read().decode("utf-8")
 +
    return data
 +
 +
def main():
 +
    # get the string
 +
    data = getTemperatureData( "cambridgedata.txt" )
 +
 +
    # split string into lines
 +
    lines = data.split( "\n" )
 +
   
 +
 
 +
    # create empty list
 +
    L = []
 +
   
 +
    # loop through all the lines
 +
    for line in lines:
 +
 +
        # strip extra space and remove the * characters
 +
        line = line.strip().replace( '*', ' ' )
 +
       
 +
        # get rid of blank lines
 +
        if len( line ) <= 1:
 +
            continue
 +
 +
        # get preamble
 +
        if not line[0] in ['1', '2']:
 +
            continue
 +
 +
        # extract rain, year, month
 +
        fields = line.split( )
 +
        year = fields[0]
 +
        month = fields[1]
 +
        rain = fields[5]
 +
 +
        # it is possible that the rain data is a string
 +
        # of the form "---", in which case taking the float
 +
        # equivalent will result in an exception.  We catch this
 +
        # exception with a try/except clause.
 +
        try:
 +
            tuple = ( float( rain ), month, year )
 +
        except ValueError:
 +
            continue
 +
 +
        # if we're here, the rain data is correct.  Put it as
 +
        # the first item in a tuple, and record the tuple in a
 +
        # list.
 +
        L.append( tuple )
 +
 +
       
 +
    # sort the list and reverse it
 +
    L.sort()
 +
    L.reverse()
 +
   
 +
   
 +
    # display rainiest month/year
 +
    rain, month, year = L[0]
 +
    print( "rain = ", rain, "year = ", year, "month = ", month )
 +
   
 +
   
 +
main()
 +
 +
</source>
 +
<br />
 +
 +
==processEmails.py==
 +
<br />
 +
::<source lang="python">
 +
 +
# processEmail.py
 +
# D. Thiebaut
 +
# Takes a list containing several (fake) email addresses and
 +
# splits them into two lists of unique addresses, one for Smith
 +
# and one for 5-college students.
 +
 +
emails = """Ammie@hampshire.edu
 +
Bessie@smith.edu
 +
 +
Carylon@smith.edu
 +
Bessie@smith.edu
 +
 +
Ammie@hampshire.edu
 +
"""
 +
 +
def main():
 +
    # create an empty list for Smith, and
 +
    # an empty list for 5-col
 +
    smith = []
 +
    fiveCol = []
 +
 +
    # process each line and add to appropriate
 +
    # list.
 +
    for line in emails.split( "\n" ):
 +
        line = line.strip()
 +
        if len( line ) <= 1:
 +
            continue
 +
        if line.find( "@smith" ) != -1:
 +
            if not line in smith:
 +
                smith.append( line )
 +
        else:
 +
            if not line in fiveCol:
 +
                fiveCol.append( line )
 +
 +
    print( "Smith = ", smith )
 +
    print( "5-col = ", fiveCol )
 +
 +
 +
main()
 +
 +
 +
</source>
 +
<br />
 +
==Presidents.py==
 +
<br />
 +
::<source lang="python">
 +
# presidents.py
 +
# D. Thiebaut
 +
 +
text = """
 +
copy paste the list of presidents here...
 +
"""
 +
 +
def main():
 +
    # split into individual lines
 +
    lines = text.split( "\n" )
 +
 +
    # display header
 +
    print( lines[0] )
 +
 +
    # process all but first line
 +
    for line in lines[1:]:
 +
        fields = line.split( "," )
 +
        # remove Fields 2, 6, and 7
 +
        fields = fields[0:2] + fields[3:6] + fields[8:]
 +
 +
        # display the newly formed lines
 +
        print( ", ".join( fields ) )
 +
 +
main()   
 +
 +
 +
</source>
 +
<br />
 +
 +
=Tue, 12/1/15=
 +
<br />
 +
* Programs developed during office hours on 12/1/15 with a group of students
 +
<br />
 +
==hw11a.py==
 +
<br />
 +
::<source lang="python">
 +
lines = """building, Outdoor Track, Purple, Anna BD & Bailey Bogan, 108, 151, 103, 98, 202, 92, 209, 102, 214, 132, 206, 144
 +
Building, The Pitch, Purple, Anna BD & Bailey Bogan, 172, 249, 173, 193, 266, 190, 270, 244
 +
field, Outdoor Track, red, Anisha Tyagi and Sara Kacmoli, 1, 91, 98, 115, 91, 143, 87, 164, 86, 204, 87,
 +
"""
 +
 +
def main():
 +
    # create a dictionary of buildings
 +
    dict = {}
 +
 +
    # process each line
 +
    for line in lines.split( "\n" ):
 +
        fields = line.lower().split( "," )
 +
       
 +
        # get rid of invalid lines
 +
        if len( fields ) < 8:
 +
            continue
 +
       
 +
        if fields[0].startswith( "building" ) == False:
 +
            continue
 +
 +
        # valid fields
 +
        #print( "fields = ", fields )
 +
 +
       
 +
        # add line to dictionary, key is building name,
 +
        # value is list of coordinates
 +
        name = fields[1].strip()
 +
        coordinates = fields[4: ]
 +
 +
        dict[ name ] = coordinates
 +
       
 +
       
 +
    # display contents of dictionary
 +
    for key in dict.keys():
 +
        print( key, "-->", dict[ key ] )
 +
 +
       
 +
   
 +
main()
 +
</source>
 +
<br />
 +
==hw11b.py==
 +
<br />
 +
::<source lang="python">
 +
L = [ 1, 2, 3, 4, 5, 6, 10, 11, 14, 20]
 +
 +
for i in range( 0, len( L ), 2 ):
 +
    first = L[i]
 +
    second = L[i+1]
 +
    print( "(", first, ",", second, ")" )
 +
 +
 +
</source>
 +
<br />
 +
==hw11c.py==
 +
<br />
 +
::<source lang="python">
 +
dateDict = {}
 +
 +
dateDict[ "Ford Hall" ] = 2005
 +
dateDict[ "Burton Hall" ] = 1905
 +
dateDict[ "Bass Hall" ] = 1998
 +
 +
 +
 +
for name in [ "Ford", "Ford Hall", "Art", "Bass Hall", "Bass" ]:
 +
    #if name in dateDict.keys():
 +
    #    print( name )
 +
    for key in dateDict.keys():
 +
        if key.find( name ) != -1:
 +
            print( name )
 +
 +
           
 +
 +
</source>
 +
<br />
 +
 +
=Wed. 12/2/15=
 +
<br />
 +
==Inheritance0.py==
 +
<br />
 +
* A program that displays a moving car.  Need to add a Truck class...
 +
<br />
 +
::<source lang="python">
 +
# inheritance0.py
 +
# A simple car class to start with.
 +
# To do:  add a truck class, which is a car
 +
# with a top.
 +
 +
from graphics import *
 +
 +
WIDTH = 600
 +
HEIGHT = 400
 +
 +
class Wheel:
 +
    """a Wheel is 2 concentric circles, the larger one black,
 +
    the smaller one grey."""
 +
 +
    def __init__(self, centr, rad1, rad2 ):
 +
        # make circ1 the smaller of the 2 circles
 +
        self.circ1  = Circle( centr, min( rad1, rad2 ) )
 +
        self.circ2  = Circle( centr, max( rad1, rad2 ) )
 +
        self.circ1.setFill( "grey" )
 +
        self.circ2.setFill( "black" )
 +
       
 +
    def draw( self, win ):
 +
        self.circ2.draw( win )
 +
        self.circ1.draw( win )
 +
 +
    def move( self, dx, dy ):
 +
        self.circ2.move( dx, dy )
 +
        self.circ1.move( dx, dy )
 +
       
 +
class Car:
 +
    """A default simple car class.  Sets the color to "Yellow" """
 +
    def __init__( self, rp ):
 +
        """builds a car 180 pixels long on a reference point"""
 +
        x = rp.getX()
 +
        y = rp.getY()
 +
        length = 180          # geometry of the car
 +
        height = length // 3 
 +
        firstQuarter = length//4
 +
        thirdQuarter = length * 3 // 4
 +
        p2 = Point( x+length, y+height )
 +
        self.body = Rectangle( rp, p2 )
 +
        self.body.setFill( "yellow" )
 +
        self.w1  = Wheel( Point( x+firstQuarter, y+height ), 20,10 )
 +
        self.w2  = Wheel( Point( x+thirdQuarter, y+height ), 20,10 )
 +
 +
    def draw( self, win ):
 +
        """ draws the body and wheels on the window"""
 +
        self.body.draw( win )
 +
        self.w1.draw( win )
 +
        self.w2.draw( win )
 +
 +
    def move( self, dx, dy ):
 +
        """ moves the body and wheels some delta x and y"""
 +
        self.body.move( dx, dy )
 +
        self.w1.move( dx, dy )
 +
        self.w2.move( dx, dy )
 +
 +
                 
 +
def main():
 +
    # open the window
 +
    win = GraphWin( "CSC111 Inheritance Demo", WIDTH, HEIGHT )
 +
 +
    car = Car( Point( 100,250 ) )
 +
    car.draw( win )
 +
 +
    # animation loop
 +
    while win.checkMouse()==None:
 +
        car.move( 2, 0 )
 +
       
 +
    win.close()
 +
 +
main()
 +
</source>
 +
<br />
 +
==Inheritance4.py==
 +
<br />
 +
::<source lang="python">
 +
# inheritance4.py
 +
# a graphic demo program for creating a circle
 +
# with a label in the middle.
 +
#
 +
 +
from graphics import *
 +
WIDTH = 800
 +
HEIGHT = 600
 +
 +
class MyCircle( Circle ):
 +
    def __init__( self, rp, rad, text ):
 +
        super().__init__( rp, rad )
 +
        self.label= Text( rp, text )
 +
 +
    def draw( self, win ):
 +
        super().draw( win )
 +
        self.label.draw( win )
 +
 +
    def move( self, dx, dy ):
 +
        super().move( dx, dy )
 +
        self.label.move( dx, dy )
 +
       
 +
    def setText( self, newText ):
 +
        self.label.setText( newText )
 +
       
 +
def main():
 +
    win = GraphWin( "MyCircle Demo", WIDTH, HEIGHT )
 +
 +
    labCirc = MyCircle( Point( 100, 100 ), 50, "Hello!" )
 +
    labCirc.draw( win )
 +
 +
    count = 0
 +
    while win.checkMouse() == None:
 +
        labCirc.move( 2, 1 )
 +
        count += 1
 +
 +
        #if count % 30 == 0:
 +
        labCirc.setText( "{0:1} steps!".format( count ) )
 +
 +
           
 +
 +
    win.close()
 +
 +
main()
 +
 +
 
 +
</source>
 +
<br />
 +
<br />
 +
=Fri. 12/4/14=
 +
<br />
 +
==Inheritance5.py==
 +
<br />
 +
::<source lang="python">
 +
# inheritance5.py
 +
# Animal class to be used as super class
 +
# for Cow and Dog classes.
 +
# Cow class contains milk member variable
 +
# Dog class contains attribute: trained, hospital,
 +
# seeing-eye dog, rescue.
 +
 +
class Animal:
 +
    def __init__( self, name, birth, vacc, tattd ):
 +
        self.name = name
 +
        self.dob  = birth
 +
        self.vaccinated = vacc
 +
        self.tattooed  = tattd
 +
 +
    def __str__( self ):
 +
        vaccString = "vaccinated"
 +
        if self.vaccinated == False:
 +
            vaccString = "not vaccinated"
 +
        tattString = "tattooed"
 +
        if self.tattooed == False:
 +
            tattString = "not tattooed"
 +
           
 +
        return "{0:1}: {1:1}, {2:1}, {3:1}".format(
 +
                    self.name, self.dob, vaccString, tattString )
 +
 +
    def isVaccinated( self ):
 +
        return self.vaccinated
 +
 +
    def isTattooed( self ):
 +
        return self.tattooed
 +
 +
    def getDOB( self ):
 +
        return self.dob
 +
 +
    def getName( self ):
 +
        return self.name
 +
 +
class Cow( Animal ):
 +
    def __init__( self, name, birth, vacc, tattd, milk ):
 +
        super().__init__( name, birth, vacc, tattd )
 +
        self.milk = milk
 +
 +
    def getMilk( self ):
 +
        return self.milk
 +
 +
    def __str__( self ):
 +
        s = super().__str__()
 +
        return s + ", {0:1}".format( self.milk )
 +
   
 +
 +
def main():
 +
    pet1 = Animal( "Rex", "12/02/2015", True, True )
 +
    pet2 = Animal( "Garfield", "01/01/1978", True, False )
 +
    print( "pet #1 = ", pet1 )
 +
    print( "pet #2 = ", pet2 )
 +
   
 +
    cow1 = Cow( "Rosie", "12/1/14", True, False, 20 )
 +
    print( "cow #1 = ", cow1 )
 +
 +
main()
 +
 +
</source>
 +
<br />
 +
 +
==Polymorphism.py==
 +
<br />
 +
::<source lang="python">
 +
class Animal:
 +
    def name(self):
 +
        return
 +
    def sleep(self):
 +
        print( "sleeping now" )
 +
    def speak(self):
 +
        return
 +
 +
class Dog( Animal ):
 +
    def name(self):
 +
        print( "I am a dog!" )
 +
    def speak(self):
 +
        print( "Woof!" )
 +
 +
class Cat( Animal ):
 +
    def name(self):
 +
        print( "I am a cat!" )
 +
    def speak(self):
 +
        print( "Meow!" )
 +
 +
class Duck( Animal ):
 +
    def name(self):
 +
        print( "I am a duck!" )
 +
    def speak(self):
 +
        print( "Quack!" )
 +
 +
 +
 +
</source>
 +
<br />
 +
==Bananas.py==
 +
[[Image:MinionBanana.jpg|right|200px]]
 
<br />
 
<br />
 +
::<source lang="python">
 +
 +
def minion( bunch ):
 +
    """this minion is given a bunch of bananas.
 +
    if there's only 1 banana in the bunch, it will
 +
    return that banana as the largest in the bunch.
 +
 +
    If there's more than 1 banana in the bunch, this
 +
    minion will keep one banana (the first one it finds)
 +
    and pass the remainder of the bananas to another
 +
    minion.  That new minion will follow the *exact*
 +
    same script in order to find the largest banana.
 +
    At some point that second minion will return the
 +
    largest of the bananas in the remainder.  Our first
 +
    minion will compare that to the one it kept, and
 +
    return the largest of the two.
 +
    """
 +
 +
    # if minion gets a bunch of 1 banana, that banana
 +
    # is the largest of what it got.
 +
    if len( bunch ) == 1:
 +
        banana = bunch[0]
 +
        return banana
 +
 +
    # if we're here, it's because the bunch has more
 +
    # than 1 banana.
 +
    # keep the first one:
 +
    kept = bunch[0]
 +
 +
    # create a smaller bunch: the remaining bananas
 +
    remainingBananas = bunch[1: ]
 +
 +
    # pass that to another minion
 +
    largestOfRemainingBananas = minion( remainingBananas )
 +
 +
    # figure out which of the 2 bananas is largest: the
 +
    # one kept, or the one just returned
 +
    if kept > largestOfRemainingBananas:
 +
        return kept
 +
    else:
 +
        return largestOfRemainingBananas
 +
 +
def main():
 +
    bananas = [10, 2, 3, 20, -1, 5, 7, 0, 3, 6]
 +
    largest = minion( bananas )
 +
 +
    print( "bunch = ", bananas )
 +
    print( "largest banana found = ", largest )
 +
 +
main()
 +
 +
</source>
 
<br />
 
<br />
 +
=Mon. 12/07/15=
 
<br />
 
<br />
 +
==LookForBanana.py==
 
<br />
 
<br />
 +
::<source lang="python">
 +
# this program is based on the program that finds the heaviest banana
 +
# in a bunch of bananas, using minions to do the work.  This time we
 +
# are interested if there is a banana of a given weight in the bunch.
 +
# The algorithm in this case will have a minion work this way:
 +
#  1) it gets a bunch of bananas, along with a weight, and its job is
 +
#      to figure out if there is a banana with this weight in the bunch.
 +
#  2) the minion then checks to see if it has gotten a bunch with just
 +
#      one banana.  If so, it checks to see if that banana has the weight
 +
#      that is being sought.  If it is, the minion returns True, meaning that
 +
#      a banana was found with that weight.  Otherwise it returns False.
 +
#  3) the minion takes 1 banana out of the bunch.  Before passing the
 +
#      remaining bananas to another minion, it checks to see if the banana
 +
#      it has just picked has the weight that is being sought.  If so, then
 +
#      the minion can stop the recursion and return True.
 +
#  4) otherwise the minion passes the remaining bananas to another 
 +
#      minion and asks that new minion to go through the same 5 steps
 +
#      explained here.
 +
#  5) whatever is returned by the minion that was just called, this minion
 +
#      will also return.
 +
 +
def minion( bunch, look ):
 +
    print( "I'm a minion, and I got", bunch, "and am looking for", look )
 +
   
 +
    # stopping condition #1
 +
    if len( bunch )==1:
 +
        if bunch[0] == look:
 +
            return True
 +
        else:
 +
            return False
 +
 +
    kept = bunch[0]
 +
 +
    # stopping condition #2
 +
    if kept == look:
 +
        return True
 +
 +
    # recursive step. Call another minion to see
 +
    # if look is in remaining bananas
 +
    remaining = bunch[1 : ]
 +
 +
    # return whatever that minion returns to us...
 +
    return minion( remaining, look )
 +
 +
 +
def main():
 +
    bananas = [ 100, 120, 107, 97, 105 ]
 +
 +
    for item in bananas:
 +
        look = item
 +
 +
        if minion( bananas, look ) == True:
 +
            print( look," found!" )
 +
        else:
 +
            print( look, "not found!" )
 +
 +
main()
 +
 +
</source>
 
<br />
 
<br />
 +
==Factorial.py==
 
<br />
 
<br />
 +
::<source lang="python">
 +
def factorial( n ):
 +
    # stopping condition
 +
    if n==1:
 +
        return 1
 +
 +
    # recursive step
 +
    result = n * factorial( n-1 )
 +
   
 +
    return result
 +
 +
 +
def main():
 +
    while True:
 +
        n = int( input( "> " ) )
 +
        if n<=0:
 +
            break
 +
 +
        print( "{0:1}! = {1:1}".format( n, factorial( n ) ) )
 +
 +
main()
 +
</source>
 
<br />
 
<br />
 
<br />
 
<br />
 +
=Wed. 12/09/15=
 
<br />
 
<br />
 +
==Recursively Visiting a Maze==
 
<br />
 
<br />
 +
 +
::<source lang="python">
 +
# graphicsVisitMaze.py
 +
# D. Thiebaut
 +
# Generates a maze and displays it in a graphics window.
 +
# The maze is defined as a collection of lines of text.
 +
# MazeText is the variable containing the raw definition.
 +
# MazeText is split into lines and the list of lines is kept
 +
# in the variable maze.
 +
# Each line in mazeText contains # or . characters.  A #-character
 +
# indicates a wall, while a . indicates an empty space.
 +
# MazeText is cleaned up and all the dots are replaced by spaces.
 +
# Then the maze is displayed in the graphic window.
 +
# The program maintains the status of the visit in the variable
 +
# maze.  A '.' will represent a breadcrumb, i.e. a place that has
 +
# been visited and that is potentially on the path to the exit.  A
 +
# 'v' character indicates a visited place that leads to an impass.
 +
# The program starts by visiting location STARTi (line number)
 +
# and STARTj (column number).
 +
#
 +
import time
 +
import os
 +
from graphics import *
 +
 +
 +
# Dimensions of the graphics window
 +
WIDTH  = 600
 +
HEIGHT = 600
 +
 +
mazeText = """
 +
#########################
 +
........................#
 +
##############.##########
 +
#.#.#........#.#........#
 +
#.#.#.########.########.#
 +
#.#.#.................#.#
 +
#.#.###.#####.#####.#...#
 +
#...........#.#.#.#.#####
 +
#.#########.#.#.#.#...#.#
 +
#.#.#.#.#.#.#.#.#######.#
 +
#.#.........#.#.......#..
 +
#.###############.#####.#
 +
#...............#.......#
 +
#.###########.#########.#
 +
#........#..............#
 +
#########################
 +
"""
 +
 +
mazeText1 = """
 +
#########################
 +
........................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#........................
 +
#########################
 +
"""
 +
 +
mazeText2 = """
 +
#########################
 +
........................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#######################.#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#.#######################
 +
#.......................#
 +
#.......................#
 +
#.......................#
 +
#........................
 +
#########################
 +
"""
 +
 +
#
 +
STARTi = 1  # line number
 +
STARTj = 0  # column number
 +
 +
NOLINES = len( mazeText.strip().split("\n") )
 +
NOCHARS = len( mazeText.strip().split("\n")[1] )
 +
BLOCKWIDTH  = WIDTH // NOCHARS  # width in pixels of block on graphics window
 +
BLOCKHEIGHT = HEIGHT / NOLINES  # height in pixels of block on graphics window
 +
 +
 +
def getMazeFromFile( fileName ):
 +
    """reads the definition of the maze from a file"""
 +
 +
    try:
 +
        lines = open( fileName, 'r' ).read()
 +
    except:
 +
        print( "I/O Error: could not open", fileName )
 +
        return None
 +
 +
    return getMaze( lines )
 +
 +
def getMaze( mazeText ):
 +
    """take the string representing the maze and
 +
    break it down into an array of lines"""
 +
    maze=[]
 +
    for i, line in enumerate( mazeText.split( '\n' ) ):
 +
        line = line.strip()
 +
        #print( "%d [%s]" % (i, line ) )
 +
        if len( line ) < 2:
 +
            continue
 +
        line = line.replace( '.', ' ' )
 +
        maze.append( line )
 +
    return maze
 +
 +
def setBreakCrumb( i, j, win ):
 +
    """draw a circle where the walker has just landed, in
 +
    the maze."""
 +
    global BLOCKWIDTH
 +
    global BLOCKHEIGHT
 +
    radius = BLOCKWIDTH // 4
 +
    brd = Circle( Point( (j+0.5)*BLOCKWIDTH, (i+0.5)*BLOCKHEIGHT ), radius )
 +
    brd.setFill( "red" )
 +
    brd.draw( win )
 +
   
 +
    # rest a tiny bit to slow down the program
 +
    time.sleep( 0.1 )
 +
 +
def setImpass( i, j, win ):
 +
    """mark a block as not leading to an exit.  Set its color
 +
    to grey"""
 +
    global BLOCKWIDTH
 +
    global BLOCKHEIGHT
 +
    radius = BLOCKWIDTH // 4
 +
    blk = Rectangle( Point( j*BLOCKWIDTH, i*BLOCKHEIGHT ),
 +
                  Point( (j+1)*BLOCKWIDTH, (i+1)*BLOCKHEIGHT ) )
 +
    blk.setFill( "lightgrey" )
 +
    blk.setOutline( "lightgrey" )
 +
    blk.draw( win )
 +
   
 +
    # rest a tiny bit to slow down the program
 +
    time.sleep( 0.1 )
 +
 +
 +
def displayMaze( maze, win ):
 +
    """ display the maze and wait for some amount of time"""
 +
    global BLOCKWIDTH
 +
    global BLOCKHEIGHT
 +
    global NOLINES
 +
    global NOCHARS
 +
   
 +
    blocks = []
 +
    for i in range (NOLINES ):
 +
      for j in range( NOCHARS ):
 +
          if maze[i][j]=="#":
 +
            r = Rectangle( Point( j*BLOCKWIDTH, i*BLOCKHEIGHT ),
 +
                        Point( (j+1)*BLOCKWIDTH, (i+1)*BLOCKHEIGHT ) )
 +
            r.setFill( "blue" )
 +
            r.setOutline( "blue" )
 +
            r.draw( win )
 +
            blocks.append( r )
 +
   
 +
    return blocks
 +
 +
def setChar( maze, i, j, char ):
 +
    """puts the character char at position i, j in the maze"""
 +
    line = maze[i]
 +
    letters = []
 +
    for letter in line:
 +
        letters.append( letter )
 +
    letters[j] = char
 +
    maze[i] = ''.join( letters )
 +
   
 +
def visitMaze( maze, i, j, win ):
 +
    """recursive visit of the maze.  Returns True when it
 +
    has found the exit, False otherwise"""
 +
 +
    # put a breadcrumb where we just landed.
 +
    setBreakCrumb( i, j, win )
 +
    setChar( maze, i, j, '.' )
 +
 +
    # stopping condition: we landed on the Exit...       
 +
    if ( i != STARTi or j != STARTj ) \
 +
        and ( (i==0 or i==len( maze )-1 ) or (j==0 or j==len( maze[0] )-1 ) ):
 +
        return True
 +
 +
    #--- try the four directions around where we are ---
 +
    #--- to the right? ---
 +
    if j+1< len( maze[0] ) and maze[i][j+1]==' ':
 +
        if visitMaze( maze, i, j+1, win ) == True:
 +
                return True # found an exit by going right!
 +
 +
    #--- down? ---
 +
    if i+1< len( maze ) and maze[i+1][j]==' ':
 +
        if visitMaze( maze, i+1, j, win ) == True:
 +
                return True # found an exit by going down!
 +
 +
    #--- up? ---
 +
    if i-1>=0 and maze[i-1][j]==' ':
 +
        if visitMaze( maze, i-1, j, win ) == True:
 +
                return True # found an exit by going up!
 +
 +
    #--- to the left? ---
 +
    if j-1>=0 and maze[i][j-1]==' ':
 +
        if  visitMaze( maze, i, j-1, win ) == True:
 +
                return True # found an exit by going left!
 +
 +
    #--- if we're here, none of the 4 directions was successful ---
 +
    #--- in bringing us to an exit, we have to mark our cell with--
 +
    #--- a v, and return false to our caller, indicating that we---
 +
    #--- couldn't find a path                                  ---
 +
 +
    setImpass( i, j, win )
 +
    setChar( maze, i, j, 'v' )
 +
    #printMaze( maze )
 +
    return False
 +
 +
 +
def main():
 +
    """gets the maze, visit and display it"""
 +
    #maze = getMazeFromFile( 'largemaze.txt' )
 +
    win = GraphWin("Maze", WIDTH, HEIGHT )
 +
    win.getMouse()
 +
   
 +
    maze = getMaze( mazeText2 )
 +
 +
    #printMaze( maze )
 +
    blocks = displayMaze( maze, win )
 +
   
 +
    success = visitMaze( maze, STARTi, STARTj, win )
 +
 +
    #--- print the maze without the v-characters ---
 +
    #printMazeNoVs( maze )
 +
 +
    if success:
 +
        print( "A path was found!" )
 +
    else:
 +
        print( "No path to an exit found..." )
 +
 +
    win.getMouse()
 +
    win.close()
 +
   
 +
main()
 +
 +
 +
 +
 +
</source>
 
<br />
 
<br />
 +
==Fractal Tree==
 
<br />
 
<br />
 +
::<source lang="python">
 +
# fractalTree.py
 +
# D. Thiebaut
 +
# Code taken from http://openbookproject.net/thinkcs/python/english3e/recursion.html
 +
# and adapted to work with graphics111.py.
 +
#
 +
# Draws a fractal tree on the graphic window.
 +
#
 +
from graphics import *
 +
import math
 +
import time
 +
import random
 +
 +
# dimensions of the window
 +
MAXWIDTH = 800
 +
MAXHEIGHT = 800
 +
 +
# recursive tree-drawing function
 +
#
 +
def draw_tree(win  ,      # the canvas
 +
              order,        # the level of recursion.  Starts positive.
 +
              theta,        # angle of new branch leaving this trunk
 +
              sz,          # size of this branch
 +
              x, y,        # coordinates of base of this branch
 +
              heading,      # angle of direction of this branch
 +
              color        # color
 +
              ):   
 +
 +
  trunk_ratio = 0.29      # How big is the trunk relative to whole tree?
 +
  trunk = sz * trunk_ratio # length of trunk
 +
 +
  # compute x, y of end of the current branch
 +
  delta_x = trunk * math.cos(heading)
 +
  delta_y = trunk * math.sin(heading)
 +
  x2, y2 = x + delta_x, y + delta_y
 +
 +
 
 +
  # draw current branch
 +
  branch = Line( Point( x, y), Point( x2, y2 ) )
 +
  branch.setFill( color )
 +
  branch.setWidth( 2 )
 +
  branch.setOutline( color )
 +
  branch.draw( win )
 +
 +
  # if this branch has sub-branches, then recurse
 +
  if order > 0:   
 +
     
 +
      # make the recursive calls to draw the two subtrees
 +
      newsz = sz*(1 - trunk_ratio)
 +
      draw_tree(win,
 +
                order-1, theta, newsz, x2, y2, heading-theta,
 +
                color )
 +
      draw_tree(win,
 +
                order-1, theta, newsz, x2, y2, heading+theta,
 +
                color )
 +
     
 +
 +
# draw 1 tree in the middle of the screen, shooting straight up.
 +
def main():
 +
    win = GraphWin("Fractal Tree", MAXWIDTH, MAXHEIGHT )
 +
    theta = 0.65      # use 0.02 for tall skinny trees, 0.7 for fat trees
 +
    draw_tree(win,
 +
              9,
 +
              theta,
 +
              MAXWIDTH*0.9, MAXWIDTH//2,
 +
              MAXHEIGHT-50,
 +
              -math.pi/2,
 +
              "brown" )
 +
       
 +
    win.getMouse()
 +
    win.close()
 +
 +
main()
  
 +
 +
 +
</source>
 +
<br />
 +
==Hanoi.py==
 +
<br />
 +
The program can be found [[CSC231_hanoi.py| here]].
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 +
<br />
 
[[Category:CSC111]][[Category:Python]]
 
[[Category:CSC111]][[Category:Python]]

Latest revision as of 12:17, 9 December 2015

--D. Thiebaut (talk) 10:34, 18 September 2015 (EDT)


Contents

Wed., 9/16/15


# displayWeek.py
# D. Thiebaut
# displays a schedule for the five days of the week

length = eval( input( "Length of bar? " ) )

print( "-" * length )
for day in [ "Mo:", "Tu:", "We:", "Th:", "Fr:" ]:
    print( day )
    #print( "  :" * 2)
    print( "  :" )
    print( "-" * length )


Friday, 9/18/15


# displayGrade.py
# D. Thiebaut
#
# prompts user for information and
# grade.
# display user's grade in graph, along with
# class average (constant)


# constant information
classAvg = 80

# user input.  Get info from user
fName = "Al"
lName = "K"
Id    = "990123456"
final = 90


#--- Format information and display ---
# create the bar 
bar = "+" + 48*"-" + "+"
lenBar = len( bar )

# compute the number of dashes
noSpaces = lenBar - len( fName ) -len(lName )-len(Id) - 6
spaces = " " * noSpaces

# create the scale
scale = "      00...10...20...30...40...50...60...70...80...90...100"

# display the information
print( bar )
print( "|" + fName, lName, spaces, Id, "|" )
print( bar )
print()
print( scale )
# the length of the bar for the bar-graph, in number of characters
# is 1/2 the actual grade.  So divide the grade by half to get the
# number of chars.  We use // to get the integer part of the result
print( "grade:", (final//2) * "#" )
print( "class:", (classAvg//2) * "#" )


Monday, 9/21/15


Version 1 of Teller Machine program

# tellerMachine.py
# D. Thiebaut
# A program that simulates a teller machine, where user enters an amount of
# dollars, and program figures out the number of bills to return.

# get the amount 
amount = eval( input( "Please enter amount: " ) )
amount = int( amount )
print()

# break down into bills
no20s = amount // 20       # how many 20s go into amount
amount = amount % 20    # what is left over after giving out 20s go back into amount

no10s = amount // 10
amount = amount % 10

no5s = amount //5
no1s = amount % 5

# display the results
print( "Amount withdrawn = ", amount )
print( "Please lift your keyboard and find: " )
print( no20s, "$20-bill(s)" )
print( no10s, "$10-bill(s)" )
print( no5s, "$5-bill(s)" )
print( no1s, "$1-bill(s)" )


Version 2, submitted by Shirui Cheng, who figured out that it was a perfect opportunity to use a loop!

# Teller machine simulator
# Shirui Cheng

# get the input
amount = eval(input ("How much money do you want to withdraw? "))

# break down in $20-, $10-, $5-, and $1-bills
# and print the result at every step
for bill in (20, 10, 5, 1):
    no = amount // bill
    amount = amount % bill
    print (no, "$", bill, "bill(s)")


Wednesday, 9/23/15


# averageAge.py
# D. Thiebaut
#
# Example of how one would go about computing
# the average value of a list of numbers.
#
def main():

    # initialize variables
    sum = 0
    count = 0

    # loop through a list of ages and compute the total sum
    # of the ages, and the number of values in the list.
    for age in [20, 19, 21, 20, 21, 29, 17]:
        sum = sum + age
        count = count + 1

    # compute the average, displays quantities of interest
    print( "-" * 30 )
    print( "average = ", sum/count )

main()


Accumulating Strings


# stringPatterns.py
# D. Thiebaut
# print a string of 5 alternating patterns.

def main():
    # define 2 different patterns
    pat1 = "**"
    pat2 = "++"

    # create an empty string
    result = ""

    # loop 5 times (we want a string of 5 alternating patterns)
    for i in range( 5 ):
        # add a new pattern to the string
        result = result + pat1

        # switch the patterns around
        pat1, pat2 = pat2, pat1

    # done with the loop!  Print string of patterns
    print( result )

main()


Friday, 9/25/15


# averageAge.py
# D. Thiebaut
#
# Example of how one would go about debugging a simple
# program and reveal how the loop works.
#
def main():

    # initialize variables
    sum = 0
    count = 0
    print( "sum = {0:1} count = {1:1}".format( sum, count ) )
    input()

    # loop through a list of ages and compute the total sum
    # of the ages, and the number of values in the list.
    for age in [20, 19, 21, 20, 21, 29, 17]:
        sum = sum + age
        count = count + 1
        print( "age = {0:5} sum = {1:5} count = {2:5}".format( age, sum, count ) )
        input()

    # compute the average, displays quantities of interest
    print( "-" * 30 )
    print( "sum = ", sum )
    print( "count = ", count )
    print( "average = ", sum/count )

main()



Wed., 9/30/15


# exercises 9/30/15

def main():
    # Exercise #1
    fName = "SOPHIA"
    lName = "smith"

    fullName = fName + " " + lName

    print( fullName.title().center( 60 ) )
    print( "\n", "-"*60, "\n\n", sep="" )
   
    # Exercise #2
    # Define the string with multiple lines
    book = """Ulysses
    James Joyce
    Stately, plump Buck Mulligan came from the stairhead, 
    bearing a bowl of lather on which
    a mirror and a razor lay crossed. 
    """

    # split the book into a list of lines
    lines = book.splitlines()

    # assign different lines to variables
    bookTitle = lines[0]
    author = lines[1]
    sentence = lines[2] + lines[3] + lines[4]
    # this next statement is too sophisticated for now
    #sentence = " ".join( lines[2: ] )

    # display the result
    print( bookTitle.upper().center( 60 ) )
    print( author.title().center( 60 ) )
    print( )
    print( sentence )

main()


Fri., 10/2/15


# Using split()
# -------------------------
poem = """Chocolate
Chocolate is the first luxury.
It has so many things wrapped up in it:
Deliciousness in the moment,
childhood memories,
and that grin-inducing
feeling of getting a reward for being good.
--Mariska Hargitay"""

# display each line centered in 60 spaces.
# first line all uppercase.
# last line right justified in 60 spaces.

lines = poem.split( "\n" )
#print( lines )

# -----------------------------------------------------------------------
# (remove the triple double-quotes to energize the code section)
print( lines[0].upper().center(60) )

for line in lines[1: ]:
    print( line.center( 60 ) )

# -----------------------------------------------------------------------
print( "-" * 60 )

lines[0] = lines[0].upper()
for line in lines[0:3]+lines[4:]:
    print( line.center(60) )


Another Example


# -------------------------
# Another Example
# -------------------------


def printBar():
    print( 60 * '-' )


def sayHello():
    print( )
    print( "Hello, and welcome!" )
    print( )


def main():
    for i in range( 10 ):
        printBar() 
    sayHello()
    printBar()

main()


Happy Birthday


# ------------------------------------------
# Sing Happy Birthday to some Minions
# ------------------------------------------

def singHappyBirthday( minion ):
    print( "Happy birthday to you\n" * 2, end="" )
    print( "Happy birthday, dear", minion )
    print( "Happy birthday to you" )
    print()
    
def main():
    #singHappyBirthday( "Dave" )
    #singHappyBirthday( "Stuart" )
    minions = "Dave, Stuart, Jerry, Jorge, Tim, Mark, Phil, Kevin,  Jon"

    minions = minions.split( ", " )
    #print( minions )
    
    for minion in minions:
        singHappyBirthday( minion.strip() )
        
main()


Mon. 10/5/15


Converting Temperatures


# F  = C * 9 / 5 + 32
def convert( c ):
    return int( c * 9/5 + 32 )


def main():
    for C in [ 0, 32, 100 ] :
        fahr = convert(  C )
        print( fahr )


main()


Transforming dates


def singHappyBirthday( minion ):
    print( "minion = ", minion )
    #print( "Happy birthday to you\n" * 2, end="" )
    #print( "Happy birthday, dear", minion )
    #print( "Happy birthday to you" )
    #print()

def worker0( ):
    return "clap " *  10  

def worker1( num1 ):
    return num1 * 2 + 1 

def worker2( n ):
    return n % 10 

def worker3( p ):
    p = worker1( p )
    p = worker2( p )
    return p 
    
def dateConvert( date ):
    """converts a date in the form "2 Jan 2010" into
    a date of the form 01022010"
    """
    # split the string into day, month, and year
    fields = date.split()
    day = fields[0]
    month = fields[1]
    year = fields[2]

    #print( day, month, year )

    # if the day is less than 10, add a 0 in front of it
    day = ( '0' + day )[-2: ]
    
    #print( day, month, year )

    # find where the month is located in a string of 3-letter
    # months.  If the string is "Jan", then the location will
    # be 0.  If the string is "Feb", then the location will be 3,
    # etc.
    months = "janfebmaraprmayjunjulaugsepoctnovdec"
    index  = months.find( month.lower() )

    # divide by 3 to find the index in the form 0, 1, 2,... 11.
    # and add 1 to make this 1, 2,... 12
    monthDigit = index//3 + 1

    # transform this digit into a string, with a 0 in front
    # in case the digit is less than 10.
    monthDigit = "{0:02}".format( monthDigit )
    
    #print( day, month, year, monthDigit )

    # return the formatted string
    return "{0:1}{1:1}{2:1}".format( monthDigit, day, year )


def main():

    for date in [ "1 Jan 2010", "2 Mar 1900", "31 Dec 2015" ]:
        print( dateConvert( date ) )

    
main()
  • Output:


01012010
03021900
12312015


Fri. 10/9/15


Once More: the Teller Machine program

def getAmount():
    amount = eval( input( "Amount? " ) )
    return abs( amount )

def breakDown( amount ):
    no20s, amount = amount // 20, amount % 20
    no10s, amount = amount // 10, amount % 10
    no5s, amount   = amount // 5, amount % 5
    no1s = amount

    return no20s, no10s, no5s, no1s

def display(orgAmount, No20s, No10s, No5s, No1s ):
    print( orgAmount, No20s, No10s, No5s, No1s )
    return 
    
def main():
    # get amount from user
    amount = getAmount( )
    orgAmount = amount    # keep value of original amount
    
    # get Number of $20-, $10, $5-, and $1-bills
    No20s, No10s, No5s, No1s = breakDown( amount )

    # display result
    display( orgAmount, No20s, No10s, No5s, No1s )

main()


Flipping DNA


def getSentence(  ):
    sentence = input( "Enter a list of words: " )

    words = sentence.split( )
    for i in range( len( words ) ):
        #print( "i = ", i, "words = ", words )
        #print( "words[i] = ", words[i] )
        #print( "words[i].capitalize() = ", words[i].capitalize() )
        words[i] = words[i].capitalize()
        #print( "i = ", i, "words = ", words )
        #print()
        
    return words

def flip( DNA ):
    newDNA = DNA.replace( "A", "t" ).replace( "T", "a" )
    newDNA = newDNA.replace( "G", 'c' ).replace( "C", 'g' )
    return newDNA.upper()
        
def main():

    listWords = getSentence( )
    print( "list = ", listWords )

    print( "AAACGTTTAG", flip( "AAACGTTTAG" ), sep="\n" )
    
main()


Wed 10/14/15


dempolls.raw


<html>
<head>
<title>
Democratic Polls
</title>
</head>
<body>
<h1>Results</h1>
<data />
</body>
</html>


dempolls.data


Biden 19.1
Chafee 0.6
Clinton 44.4
Lessig 0.0
O'Malley 1.0
Sanders 25.1
Webb 1.2


createDynamicWebPage.py


# createDynamicWebPage.py
# D. Thiebaut
# create dynamic Web page


import datetime  # get a library that will allow
                 # us to print today's date.

# getTextFrom(): given a file name, opens the
# file, gets its contents as a string, and return
# it.
def getTextFrom( fileName ):
    file = open( fileName, "r" )
    text = file.read()
    file.close()
    return text

def main():

    # get the raw html file
    html = getTextFrom( "dempolls.raw" )

    # get the raw data file
    candidates = getTextFrom( "dempolls.data" )

    # replace <data /> tag with the data just
    # read in the raw html file.
    today = datetime.datetime.today().strftime("%m/%d/%Y")
    newString = today + "<br />" + candidates
    html = html.replace( "<data />", newString )

    # store new html to file
    file = open( "dempolls.html", "w" )
    file.write( html )
    file.close()

    # tell the user that process is over
    print( "File dempolls.html created, and in your directory!" )
    
main()


Wed. 10/21/15


graphicsDemo.py


# graphicsDemo.py
# D. thiebaut
# A demo program using the graphics library to make a ball
# move on the graphic window.

from graphics import *
from random import *

def main():
    # open the graphic window
    win = GraphWin("My Circle", 600, 600)

    # put some text in the middle of the window
    label = Text( Point( 300, 300 ),
                  "CSC111 Graphics Demo" )
    label.draw( win )
    
    # draw a circle
    x = 50
    y = 50
    r = 20
    c = Circle( Point( x, y ), r )
    red = randint( 0, 255 )
    green = randint( 0, 255 )
    blue = randint( 0, 255 )
    color = color_rgb( red, green, blue )
    c.setFill( color )
    c.draw( win )
    dx = 3
    dy = 0

    for i in range( 1000 ):
        # pick random color
        red = randint( 0, 255 )
        green = randint( 0, 255 )
        blue = randint( 0, 255 )
        color = color_rgb( red, green, blue )
        c.setFill( color )

        # move
        c.move( dx, dy )

        # see if bounce off walls
        center = c.getCenter()
        x = center.getX()
        if x > 600-r or x < 0+r:
            dx = -dx
        #win.getMouse()

        # move label
        label.move( 1, -1 )
        
    # wait for user to click in window
    win.getMouse() 

    # close the window
    win.close()

main()


Mon. 11/2/15


Exception, Version 1


# getInput: returns an integer larger
# than 0.  Expected to be robust…

def getInput():
  while True:
      x = int( input( "Enter a positive int:  " ) )        
      if  x >= 0:
          return x
      print( "invalid input.  Please reenter" )


def main():
   num = getInput()
   print( "you entered", num )

main()


Exception, Version 2


# getInput: returns an integer larger
# than 0.  Expected to be robust…

def getInput():
  while True:
      try:
          x = int( input( "Enter a positive int:  " ) )
      except ValueError:
          print( "Invalid number.  Please reenter" )
          continue
        
      if  x >= 0:
          return x
      print( "invalid input.  Please reenter" )


def main():
   num = getInput()
   print( "you entered", num )

main()


Quadratic Equation with Exceptions


import math

def ZelleExample():
    print( "solution to quadratic equation" )
    try:
        a, b, c = eval( input( "Enter 3 coefficients (a, b, c): " ) )
        disc = math.sqrt( b*b - 4*a*c )
        root1 = (-b + disc )/ (2*a)
        root2 = (-b - disc )/ (2*a)
        print( "solutions: ", root1, roo2 )
    except NameError:
        print( "You didn't enter 3 numbers!" )
    except TypeError:
        print( "Your input contained invalid numbers" )
    except SyntaxError:
        print( "Forgot a comma between the numbers? " )
    except ValueError:
        print( "No real roots, negative discriminant" )
    except:
        print( "Something went wrong..." )

def main():
    ZelleExample()

main()


Dice: Definining Classes


# DiceExample.py
# D. Thiebaut
# our first program where we define a class.
#
# The class implement a die, with some number
# of sides, and a way to "roll" and show a new
# number (value) up top.

# libraries
import random

# a class for a die
class Die:
    def __init__( self, n ):
         self.noSides = n
         self.value      = 1

    def roll( self ):
         self.value = random.randrange( 1, self.noSides+1 )

    def getValue( self ):
         return self.value


def main():
    # Create 2 dice, one with 6 sides, one with 8
    d1 = Die( 6 )
    d2 = Die( 8 )

    # Roll both dice
    d1.roll( )
    d2.roll( )

    # display their value
    print( "Die 1: ",  d1.getValue() )
    print( "Die 2: ",  d2.getValue() )

main()


A program with a class to implement Cat objects


# cats1.py
# D. Thiebaut
# Our first built-from scratch program involving
# classes and objects.
# In this program we read a CSV file containing
# the definitions of cats, one cat per line.
# We extract the name, vaccinated status, breed,
# and age of the cat, and save them in a cat
# object.  the Cat class is used to define how
# a cat object behaves.

class Cat:
    def __init__( self, na, vac, bre, ag ):
        self.name= na
        self.vaccinated = vac
        self.breed = bre
        self.age = ag

    def isVaccinated( self ):
        #if self.vaccinated == True:
        #    return True
        #else:
        #    return False
        return self.vaccinated

    def getName( self ):
        return self.name
    
def main():
    # Minou, 3, vac, stray
    text = """Minou, 3, vac, stray
    Max, 1, not-vac, Burmese
    Gizmo, 2, vac, Bengal
    Garfield, 4, not-vac, Orange Tabby"""

    catList = [] 
    for line in text.split( "\n" ):
        words = line.split( "," )
        if words[2].find( "not" ) != -1:
            vac = False
        else:
            vac = True
        age = int( words[1].strip() )
            
        cat = Cat( words[0], vac, words[3], age )
        catList.append( cat )
        
    #cat1 = Cat( "Minou", True, "stray", 3 )
    for cat in catList:    
        if cat.isVaccinated():
            print( cat.name, "is vaccinated" )
        else:
            print( cat.getName(), "is not vaccinated" )

main()


Cats1.csv File


Max, 1, vaccinated, not tattooed, stray
Black, 3, not vaccinated, tattooed, stray
Gizmo, 2, vaccinated, not tattooed, Bengal
Winston, 2, vaccinated, tattooed, Bengal
Garfield, 3, vaccinated, not tattooed, Burmese
Bob, 4, not vaccinated, tattooed, Orange Tabby
Minou, 1, vaccinated, tattooed, stray
Silky, 3, not vaccinated, tattooed, Siamese


Wed. 11/04/15


cats1.py


# cats1.py
# D. Thiebaut
# Our first built-from scratch program involving
# classes and objects.
# In this program we read a CSV file containing
# the definitions of cats, one cat per line.
# We extract the name, vaccinated status, breed,
# and age of the cat, and save them in a cat
# object.  the Cat class is used to define how
# a cat object behaves.

class Cat:
    def __init__( self, na, vac, bre, ag ):
        self.name= na
        self.vaccinated = vac
        self.breed = bre
        self.age = ag

    def isVaccinated( self ):
        #if self.vaccinated == True:
        #    return True
        #else:
        #    return False
        return self.vaccinated

    def getBreed( self ):
        return self.breed
    
    def getName( self ):
        return self.name

    def __str__( self ):
        if self.vaccinated == True:
            vacc = "vaccinated"
        else:
            vacc = "not vaccinated"
        return "{0:1}: {1:1} {2:1} {3:1} yrs old".format(
            self.name, vacc, self.breed, self.age )
    

def getCatList( fileName ):
    """parses a collection of lines and creates
    a list of cat objects."""

    file = open( fileName, "r" )
    text = file.read()
    file.close()

    catList = [] 
    for line in text.split( "\n" ):
        words = line.split( "," )
        
        if len( words ) != 4:
            continue
        
        if words[2].find( "not" ) != -1:
            vac = False
        else:
            vac = True
        age = int( words[1].strip() )
            
        cat = Cat( words[0].strip(), vac, words[3].strip(), age )
        catList.append( cat )
        
    return catList

def main():
    fileName = input( "File name? " )
    catList = getCatList( fileName )
    for cat in catList: print( cat )

    for cat in catList:
        if not cat.isVaccinated() and cat.getBreed()=="stray":
            print( cat )
        
    return
main()


cats2.csv


Minou, 3, vac, stray
Max, 1, not-vac, Burmese
Gizmo, 2, vac, Bengal
Garfield, 4, not-vac, Orange Tabby
Smudges, 10, not-vac, stray
Minique, 5, vac, French Tabby



Fri. 11/06/15


Wheel1.py


The beginning of a car...

# Graphics with Objects.
# Demo program illustrating how we are going to
# build a car.
# 
from graphics import *

#define global geometry of window
WIDTH = 800
HEIGHT = 600


def main():
    global WIDTH, HEIGHT
    win = GraphWin( "Wheel Demo", WIDTH, HEIGHT )

    c1 = Circle( Point( WIDTH//2, HEIGHT//2 ), 30 )
    c1.draw( win )


    win.getMouse()
    win.close()

main()


Car1.py


# Graphics with Objects.
# Demo program illustrating how we are going to
# build a car.
# 
from graphics import *

#define global geometry of window
WIDTH = 800
HEIGHT = 600

class Wheel:
    def __init__( self, center, radius ):
        self.c1 = Circle( center, radius )
        self.c2 = Circle( center, radius//2 )
        self.c1.setFill( "black" )
        self.c2.setFill( "white" )

    def draw( self, win ):
        self.c1.draw( win )
        self.c2.draw( win )

    def move( self, dx, dy ):
        self.c1.move( dx, dy )
        self.c2.move( dx, dy )

    

class Car:
    def __init__( self, refPoint ):
        x1 = refPoint.getX()
        y1 = refPoint.getY()
        x2 = x1 + 180
        y2 = y1 + 60
        self.body = Rectangle( Point( x1 , y1 ), Point( x2 , y2 ) )
        self.w1 = Wheel( Point( x1+40, y1+60 ), 20 )
        self.w2 = Wheel( Point( x1+140, y1+60 ), 20 )
        self.body.setFill( "yellow" )

    def draw( self, win ):
        self.body.draw( win )
        self.w1.draw( win )
        self.w2.draw( win )

    def move( self, dx, dy ):
        self.body.move( dx, dy )
        self.w1.move( dx, dy )
        self.w2.move( dx, dy )
                  
        
def main():
    """Open a graphic window and puts graphic object(s)
    on it.  Wait for user to click mouse to close.
    """
    global WIDTH, HEIGHT

    # open window
    win = GraphWin( "Wheel Demo", WIDTH, HEIGHT )

    # Create a list of 10 cars
    cars = [] # empty list
    for i in range( 10 ):
        # create a new car
        c1 = Car( Point( i*10, i*90 ) )

        # draw the car just created
        c1.draw( win )
        
        # add car just created to the list
        cars.append( c1 ) 

    dx = 3 # x-direction for movement of cars
    dy = 0 # y-direction for movement of cars

    # animation loop
    while True:
        # move all the cars in the list
        for c1 in cars:
            c1.move( dx, dy )

        # if user clicks the mouse, change the
        # direction of movement.
        if win.checkMouse() != None:
            dx = -dx
        
    # wait for user to click the mouse to close window
    win.getMouse()
    win.close()

main()



Mon. 11/9/15


Images to Play With


catGlasses.gif


CatGlasses.gif


imageProcessing.py


# imageProcessingSkel.py
# D. Thiebaut
# A skeleton program to start doing image processing
# in Python
from graphics import *
# image geometry = 424x18
# make the window the same geometry

WIDTH  = 424
HEIGHT = 418

def main():
    # open the window
    win = GraphWin( "CSC111 Image Viewer", WIDTH, HEIGHT )

    # get the file name from the user
    fileName = "catGlasses.gif" #input( "Image name? " )
    print()
    
    # open the cat image
    cat = Image( Point(WIDTH//2, HEIGHT//2), fileName )
    cat.draw( win )

    # wait for user to click the mouse...
    win.getMouse()

    # and close the window
    win.close()

main()


pixelProcessing.py


# pixelProcessingSkel.py
# D. Thiebaut
# Simple skeleton program for processing
# the pixels of an image

from graphics import *

WIDTH  = 424   
HEIGHT = 418   
IMAGEFILENAME = "catGlasses.gif" 


    
def makeRed( img, win ):
    """ set the red component of all the pixels to 255, the
    maximum value.
    """
    global WIDTH, HEIGHT

    for y in range( HEIGHT ):
        win.update()  # refresh the window after each inner loop
        for x in range( WIDTH ):
            red, green, blue = img.getPixel( x, y )
            green, blue, red = red, green, blue
            red = 255
            img.setPixel( x, y, color_rgb(red, green, blue ) )


def main():

    win = GraphWin( "CSC111 Image Viewer", WIDTH, HEIGHT )

    img = Image( Point(WIDTH//2, HEIGHT//2), IMAGEFILENAME )
    img.draw( win )

    makeRed( img, win )
    
    win.getMouse()
    win.close()

main()


Wed. 11/11/15


chessboard0.py


# chessboard0,py
# D. Thiebaut
# Displays an 8x8 chessboard.

from graphics import *

WIDTH = 600
HEIGHT = 600

            
def displayBoard( win ):
    """display an 8x8 chessboard in the square
    window defined by WIDTH and HEIGHT"""
    global WIDTH, HEIGHT

    # compute size of square 
    side = WIDTH//8

    # display 8 columns and 8 rows of squares
    for i in range( 0, 8 ):
        for j in range( 0, 8 ):

            # create a rectangle
            r = Rectangle( Point( i*side, j*side ),
                           Point( i*side+side, j*side+side ) )

            # figure out if it should be black or white
            if (i+j) % 2 != 0:
                r.setFill( "grey" )
            else:
                r.setFill( "white" )

            # draw it
            r.draw( win )

def main():
    global WIDTH, HEIGHT

    # open a graphics window.
    win = GraphWin( "Chessboard", WIDTH, HEIGHT )

    # display the board.
    displayBoard( win )

    # wait for use to click window, and close up.       
    win.getMouse()
    win.close()

main()


Gifs for the game of Checkers

  • piece.gif

Piece.gif

  • piece2.gif

Piece2.gif


Interactive Checkers

InteractiveCheckers.png


# Interactive game of checkers.
# This program creates an 8x8 board, with
# alternating white and dark cells.  It then positions
# 3 rows of white pieces, and 3 rows of black pieces at
# the top and bottom of the board, respectively.
# It then allows the user to click on various pieces to make them 
# disappear.

from graphics import *

WIDTH = 600
HEIGHT = 600

class CheckersPiece:
    """ a class defining a checkers piece.  It uses gif images for
    each piece."""

    def __init__(self, color, i, j ):
        global WIDTH, HEIGHT
        side = WIDTH // 8
        x = i * side
        y = j * side
        centerPoint = Point( x+side//2, y+side//2 )
        if color=="white":
            self.img = Image( centerPoint, "piece2.gif" )
        else:
            self.img = Image( centerPoint, "piece.gif" )
            
    def draw( self, win ):
        self.img.draw( win )
        
    def undraw( self ):
        self.img.undraw()

    def getCoords( self ):
        global WIDTH, HEIGHT
        side = WIDTH // 8
        x = self.img.getAnchor().getX()
        y = self.img.getAnchor().getY()
        return x-side//2, y-side//2, x+side//2, y+side//2

def isWhite( i, j ):
    if (i+j)%2==0:
        return True
    return False
           
def displayBoard( win ):
    """this function displays the 8x8 board, with alternating
    colors."""
    global WIDTH, HEIGHT
    side = WIDTH//8
    for i in range( 0, 8 ):
        for j in range( 0, 8 ):
            r = Rectangle( Point( i*side, j*side ),
                           Point( i*side+side, j*side+side ) )
            if not isWhite( i, j ):
                r.setFill( "grey" )
            else:
                r.setFill( "white" )
            r.draw( win )

def createDisplayPieces( win ):
    """create 3 rows of white pieces at the top,
    and 3 rows of black pieces at the bottom.  Put them
    only on dark squares."""
    whites = []
    blacks = []
    for i in range( 8 ):
        for j in range( 3 ):
            if isWhite( i, j ):
                continue
            c = CheckersPiece( "white", i, j )
            c.draw( win )
            whites.append( c )
            
        for j in range( 5, 8 ):
            if isWhite( i, j ):
                continue
            c = CheckersPiece( "black", i, j )
            c.draw( win )
            blacks.append( c )

    return whites, blacks

def findClickedPiece( p, whites, blacks ):
    """loop through all the pieces and see if the point that the user
    clicked (p) is inside the square that corresponds to where the piece
    is."""
    for c in whites + blacks:
        x1, y1, x2, y2 = c.getCoords()
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            return c
    return None

def main():
    global WIDTH, HEIGHT
    
    win = GraphWin( "Chessboard", WIDTH, HEIGHT )

    displayBoard( win )
    whites, blacks = createDisplayPieces( win )

    # animation loop
    while True:
        p = win.getMouse()
        c = findClickedPiece( p, whites, blacks )
        if c != None:
            c.undraw( )
            
            
            
    win.getMouse()
    win.close()

main()


Mon, 11/16/15


Button Demo


# buttonDemo.py
# D. Thiebaut

from graphics import *
WIDTH = 600
HEIGHT = 600

class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked
            if self.clicked:
                self.frame.setFill( "yellow" )
            else:
                self.frame.setFill( "white" )
            return True
        else:
            return False

def main():
    global WIDTH, HEIGHT
    win = GraphWin( "Pushbutton Demo", WIDTH, HEIGHT )

    button1 = Button( 10, 10, 60, 30, "OK" )
    button1.draw( win )
    
    while True:
        clickPoint = win.getMouse()
        if button1.isClicked( clickPoint ):
            print( "button clicked!" )

    win.close()

main()


Random Circles Demo


# randomDotDemo.py
# D. Thiebaut

from graphics import *
from random import *

WIDTH = 600
HEIGHT = 600

class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def undraw( self ):
        self.frame.undraw( )
        self.label.undraw( )
        
    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked
            if self.clicked:
                self.frame.setFill( "yellow" )
            else:
                self.frame.setFill( "white" )
            return True
        else:
            return False

def addDot( win ):
    x = randint( 100, 500 )
    y = randint( 100, 500 )
    center = Point( x, y )
    radius = randint( 10, 600 )
    c = Circle( center, radius )
    r = randint( 0, 255 )
    g = randint( 0, 255 )
    b = randint( 0, 255 )
    c.setFill( color_rgb( r, g, b ) )
    c.draw( win )
    
def main():
    global WIDTH, HEIGHT
    win = GraphWin( "Pushbutton Demo", WIDTH, HEIGHT )

    # create UI
    OkButton = Button( 10, 10, 60, 30, "Ok" )
    OkButton.draw( win )
    quitButton = Button( 80, 10, 60, 30, "Quit" )
    quitButton.draw( win )
    addDotButton = Button( 150, 10, 60, 30, "Add Dot" )
    addDotButton.draw( win )
    
    # animation loop
    while True:
        clickedPoint = win.getMouse()
        if quitButton.isClicked( clickedPoint ):
            break
        
        if OkButton.isClicked( clickedPoint ):
            print( "button clicked!" )
            continue

        if addDotButton.isClicked( clickedPoint ):
            addDot( win )

            # redraw the buttons, just in case a circle covers them.
            OkButton.undraw()
            OkButton.draw( win )
            quitButton.undraw()
            quitButton.draw( win )
            addDotButton.undraw()
            addDotButton.draw( win )

            # go back to top of loop and wait for another click from user...
            continue
        
        # if we're here, it's because user
        # clicked on window, but not on buttons
        print( "clicked on window" )
        
    win.close()

main()


Polygon Demo


# buttonDemo.py
# polygon demo.  A triangle
# and a start are drawn
# D. Thiebaut

from graphics import *
from random import *
WIDTH = 300
HEIGHT = 300


def main():
    global WIDTH, HEIGHT
    win = GraphWin( "Pushbutton Demo", WIDTH, HEIGHT )

    # draw a triangle
    points = [ Point( 100, 100 ),
               Point( 150, 100 ),
               Point( 175, 150 ) ]
    poly1 = Polygon( points )
    poly1.setFill( "orange" )
    poly1.draw( win )

    # draw a star
    points = [ Point( 35, 120 ),
               Point( 37.9,129.1),
               Point( 46.9,129.1),
               Point( 39.7,134.5),
               Point( 42.3, 143.1 ),
               Point( 35, 139 ),
               Point( 27.7, 143.1 ),
               Point( 30.3, 134.5 ),
               Point( 23.1, 129.1 ),
               Point( 32.1, 129.1 ) ]
    poly2 = Polygon( points )
    poly2.setFill( "lightgreen" )
    poly2.draw( win )
    
    # wait for user to click mouse to close window
    win.getMouse()
    win.close()

main()


Create Polygon With Mouse Demo: Skeleton Program


SmithLogo.gif
# recordShapeIntoPolygon.py
# D. Thiebaut
# Brings up a gif image in the window
# and creates 2 buttons.
# User can click on buttons to 1) start
# Recording a shape, and 2) stop recording
# it and displaying it as light-blue polygon.
# WARNING: the program, as is, is not safe and will crash
#   if the user start the program and clicks on a point that is not
#   inside a button...   The problem is with pointList...

from graphics import *

WIDTH = 400
HEIGHT = 400

class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked
            if self.clicked:
                self.frame.setFill( "yellow" )
            else:
                self.frame.setFill( "white" )
            return True
        else:
            return False

def main():
    global WIDTH, HEIGHT

    # create a graphic window
    win = GraphWin( "Record Polygon", WIDTH, HEIGHT )

    # put a logo of Smith in the middle of the window
    img = Image( Point(WIDTH//2, HEIGHT//2), "smithLogo.gif" )
    img.draw( win )

    # create 2 buttons
    startB = Button( 10, 10, 60, 30, "Start" )
    startB.draw( win )
    stopB = Button( 80, 10, 60, 30, "Stop" )
    stopB.draw( win )

 # animation loop
    while True:
        clickedPoint = win.getMouse()
        
        # quit?
        if exitB.isClicked( clickedPoint ):
            break

        # start recording polygon?
        if startB.isClicked( clickedPoint ):
            pointList = []
            continue

        # stop recording polygon?
        if stopB.isClicked( clickedPoint):
            poly = Polygon( pointList )
            poly.setFill( "cyan" )
            poly.draw( win )
            continue

        # if we're here, it's because
        # the user clicked somewhere outside
        # the buttons
        pointList.append( clickedPoint )

    win.getMouse()   
    win.close()

main()



Wed. 11/18/15


SavePolyToFile.py


# recordShapeIntoPolygon.py
# D. Thiebaut
# Brings up a gif image in the window
# and creates 2 buttons.
# User can click on buttons to 1) start
# Recording a shape, and 2) stop recording
# it and displaying it as light-blue polygon.

from graphics import *

WIDTH = 400
HEIGHT = 400
CSVFILE = "map.csv"

class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked
            if self.clicked:
                self.frame.setFill( "yellow" )
            else:
                self.frame.setFill( "white" )
            return True
        else:
            return False

def savePolyToFile( pointList, fileName ):
    file = open( fileName, "a" )

    L = []
    for point in pointList:
        x = point.getX()
        y = point.getY()
        #print( x, y )
        L.append( str( x ) ) # "{0:1}".format( x )
        L.append( str( y ) )
        
    #print( ", ".join( L ) )
    file.write( ", ".join( L )  )
    file.close()
    
def main():
    global WIDTH, HEIGHT, CSVFILE

    # create a graphic window
    win = GraphWin( "Record Polygon", WIDTH, HEIGHT )

    # put a logo of Smith in the middle of the window
    img = Image( Point(WIDTH//2, HEIGHT//2), "smithLogo.gif" )
    img.draw( win )

    # create 2 buttons
    startB = Button( 10, 10, 60, 30, "Start" )
    startB.draw( win )
    stopB = Button( 80, 10, 60, 30, "Stop" )
    stopB.draw( win )
    exitB = Button( 150, 10, 60, 30, "Quit" )
    exitB.draw( win )

    # create empty list of points
    pointList = []
    
    # animation loop
    while True:
        clickedPoint = win.getMouse()
        
        # quit?
        if exitB.isClicked( clickedPoint ):
            break

        # start recording polygon?
        if startB.isClicked( clickedPoint ):
            pointList = []
            continue

        # stop recording polygon?
        if stopB.isClicked( clickedPoint):
            poly = Polygon( pointList )
            poly.setFill( "cyan" )
            poly.draw( win )
            savePolyToFile( pointList, CSVFILE ) 
            continue

        # if we're here, it's because
        # the user clicked somewhere outside
        # the buttons
        pointList.append( clickedPoint )

        
    win.getMouse()        
    win.close()

main()


Different Button Class


class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked  # toggle
            
            #if self.clicked:
            #    self.frame.setFill( "yellow" )
            #else:
            #    self.frame.setFill( "white" )
            
            self.frame.setFill( "red" )
            sleep( 0.1 ) # 0.1 sec
            self.frame.setFill( "white" )
            
            return True
        else:
            return False


Fri. 11/20/15


Merge 2 Lists


# merging.py
# D. Thiebaut
# given 2 lists (in the form of stings), one a list
# of Disney characters, one a fictitious list of
# characters and their phone number, merge the
# two lists and print the name of the Disney characters
# and the area code they live in.

# master list
master = """Mickey Mouse, Mickey Mouse Clubhouse
Pluto, The Chain Gang
Minnie Mouse, Plane Crazy
Donald Duck, The Wise Little Hen
bambi, bambi
Pluto The Chain Gang
"""

# secondary list
phones = """Sue Green, (413) 585 1122, single
Alex Marquis, (617) 512 1234, married
Bambi, single
Mickey Mouse, (212) 123 5598, married
Pluto, (212) 123 5598, single
Minnie Mouse, (212) 123 5598, married
Donald Duck, (617) 525 1212, single
Bambi, (209) 713 1139, single
"""

def findPhone( name ):
    """given name, a stripped name of a Disney
    character, locate line in phone list, and
    return line that contains phone associated
    with name.
    """
    # split the string into lines
    phoneList = phones.split( "\n" )

    # look at each line and see if we find the
    # character with the given name
    for line in phoneList:
        
        # is it valid?  Does it contain commas?
        if len( line.split( "," ) ) != 3:
            # no
            continue

        # if we're here, we know the phone line is valid
        # make it lower case, and see if our name is included in it
        if line.lower().find( name ) != -1:

            # look for the position of the left parenthesis
            index = line.find( "(" )

            # return a slice of the string, containing the 3 area code digits
            return line[index+1:index+4]

    # if we didn't find the name in any of the lines,
    # return None, indicating "not found"
    return None    

def main():

    # split the master list into lines
    disneyList = master.split( "\n" )

    # for each line in the master list...
    for character in disneyList:

        # clean up the line
        character = character.strip()

        # if not a blank line, process it
        if len( character ) > 1:
            
            # get rid of lines not containing commas
            fields = character.split(",")
            if len( fields ) <= 1:
                continue

            # get the name
            name = fields[0].lower().strip()

            # look in secondary list, and fine
            # the line associated with name
            phoneLine = findPhone( name )

            # if we found a phone number, list it, otherwise
            # skip that Disney character...
            if phoneLine != None:
                print( name.title(), phoneLine )
            

main()


ColorOf


def colorOf( year ):
	# assume year is an int
	if year <= 1799:
		return 215, 97, 1
	# if we're here... year is
	# above 1800  
	elif year <= 1899:
		return 241, 163, 64
	elif year <= 1999:
		return 253, 184, 99
	else:
		return 254, 224, 144


Aquarium Skeleton Program

# Aquarium.py
# D. Thiebaut
# A program with fish swimming in an aquarium
# Two buttons control the creation of new fish, and how to
# quit the program.

from graphics import *
from time import sleep
from random import *

# Global variables
WIDTH = 700
HEIGHT = 517
AQUARIUM = "Tank2.gif"
FISH = "Fish10.gif"

class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked
            self.frame.setFill( "red" )
            sleep(0.1)
            self.frame.setFill( "white" )
            return True
        else:
            return False

class Fish:
    """A class for a fish, which is an image
    """
    def __init__( self, p ):
        self.img = Image( p, FISH )

    def draw( self, win ):
        self.img.draw( win )

    def autoMove( self ):
        """makes the fish move. If the fish disappears from
        the right, it automatically reappears on the left."""
        dy = randint( -3, 3 )  # random vertical drift
        dx = randint( 0, 3 )   # random move forward
        self.img.move( dx, dy )

        # has it disappeared on the right?
        x = self.img.getAnchor().getX()
        if x > WIDTH + 50:
            # yes, move it to the left of the aquarium
            self.img.move( -WIDTH-50, 0 )

    
#---------------------------------------------------------------
# Functions
#---------------------------------------------------------------

def main():
    """The main interactive function.  Declare the graphic
    window, populate it with a map and 2 buttons, and allows
    the user to enter different polygons."""
    global WIDTH, HEIGHT, AQUARIUM

    # create graphic window.  make it the size of the map.
    win = GraphWin( "Aquarium", WIDTH, HEIGHT )

    # display background image
    map = Image( Point( WIDTH//2, HEIGHT//2 ), AQUARIUM )
    map.draw( win )

    # create 2 buttons to start recording and record points to
    # csv
    addFish = Button( 10, 10, 60, 30, "Add Fish" )
    addFish.draw( win )
    quitButton = Button( 80, 10, 60, 30, "Quit" )
    quitButton.draw( win )

    fishList = []
    
    # animation loop
    while True:
        # has user clicked on a point?
        clickedPoint = win.checkMouse()

        # yes, mouse clicked.
        if clickedPoint != None and quitButton.isClicked( clickedPoint ):
            break
        
        # was it on add-fish button?
        if clickedPoint != None and addFish.isClicked( clickedPoint ):
            clickedPoint = win.getMouse()
            fish = Fish( clickedPoint )
            fish.draw( win )
            fishList.append( fish )
            continue

        for fish in fishList:
            fish.autoMove()

        
    # We currently will not reach this point, as there is
    # no way to escape the while loop.  A good idear would be
    # to add an exit button.
    win.close()

main()



Aquarium.py (Fully functional)


# Aquarium.py
# D. Thiebaut
# A program with fish swimming in an aquarium
# Two buttons control the creation of new fish, and how to
# quit the program.

from graphics import *
from time import sleep
from random import *

# Global variables
WIDTH = 700
HEIGHT = 517
AQUARIUM = "Tank.gif"
FISH = "Fish10.gif"

class Button:
    """Implements a button, which contains a label (text),
    is rectangular (frame), and can be clicked (True) or not clicked."""
    
    def __init__(self, x1, y1, w, h, text ):
        """constructor: pass (x,y) of top left corner,
        and width and height.  Pass the text displayed in
        button."""
        p1 = Point( x1, y1 )
        p2 = Point( x1+w, y1+h )
        self.frame = Rectangle( p1, p2 )
        self.frame.setFill( "white" )
        self.label = Text(Point( x1+w//2, y1+h//2 ), text )
        self.clicked = False
        
    def draw( self, win ):
        """display button on window."""
        self.frame.draw( win )
        self.label.draw( win )

    def isClicked( self, p ):
        """Checks if p is inside the frame of the button.  Returns True
        if p inside frame, False otherwise.  If p inside, button
        changes state and color."""
        x1, y1 = self.frame.getP1().getX(), self.frame.getP1().getY()
        x2, y2 = self.frame.getP2().getX(), self.frame.getP2().getY()
        
        if x1 <= p.getX() <= x2 and y1 <= p.getY() <= y2:
            self.clicked = not self.clicked
            self.frame.setFill( "red" )
            sleep(0.1)
            self.frame.setFill( "white" )
            return True
        else:
            return False

class Fish:
    """A class for a fish, which is an image
    """
    def __init__( self, p ):
        self.img = Image( p, FISH )

    def draw( self, win ):
        self.img.draw( win )

    def autoMove( self ):
        """makes the fish move. If the fish disappears from
        the right, it automatically reappears on the left."""
        dy = randint( -3, 3 )  # random vertical drift
        dx = randint( 0, 3 )   # random move forward
        self.img.move( dx, dy )

        # has it disappeared on the right?
        x = self.img.getAnchor().getX()
        if x > WIDTH + 50:
            # yes, move it to the left of the aquarium
            self.img.move( -WIDTH-50, 0 )

    
#---------------------------------------------------------------
# Functions
#---------------------------------------------------------------

def main():
    """The main interactive function.  Declare the graphic
    window, populate it with a map and 2 buttons, and allows
    the user to enter different polygons."""
    global WIDTH, HEIGHT, AQUARIUM

    # create graphic window.  make it the size of the map.
    win = GraphWin( "Aquarium", WIDTH, HEIGHT )

    # display background image
    map = Image( Point( WIDTH//2, HEIGHT//2 ), AQUARIUM )
    map.draw( win )

    # create 2 buttons to start recording and record points to
    # csv
    addFish = Button( 10, 10, 60, 30, "Add Fish" )
    addFish.draw( win )
    quitButton = Button( 80, 10, 60, 30, "Quit" )
    quitButton.draw( win )

    fishList = []
    
    # animation loop
    while True:
        # has user clicked on a point?
        clickedPoint = win.checkMouse()

        # yes, mouse clicked.
        if clickedPoint != None and quitButton.isClicked( clickedPoint ):
            break
        
        # was it on add-fish button?
        if clickedPoint != None and addFish.isClicked( clickedPoint ):
            clickedPoint = win.getMouse()
            fish = Fish( clickedPoint )
            fish.draw( win )
            fishList.append( fish )
            continue

        for fish in fishList:
            fish.autoMove()

        
    # We currently will not reach this point, as there is
    # no way to escape the while loop.  A good idear would be
    # to add an exit button.
    win.close()

main()


Mon. 11/23/15


Milou.gif

CountUniqueDogsWithLists.py


# countingUniqueDogsWithList.py
# D. Thiebaut
# Use a list to figure out how many unique
# dogs are in the text variable.

# a text string with many dogs.  Some are repeats.
text = """Fido 0
Fido 10
Rex 0
Milou 9
Ralph 3
Fido 8
"""

# MAIN:
def main():
    dogsFound = []
    # look at each line of text
    for line in text.split( "\n" ):

        # split the line on white space
        fields = line.capitalize().strip().split()

        # if invalid, skip
        if len( fields ) != 2:
            continue

        # get dog name
        name = fields[0]

        # have we seen it yet?
        if not name in dogsFound:
            dogsFound.append( name )


    print( "We have found", len( dogsFound ), "dog(s)" )
    print( "The dogs found are", ", ".join( dogsFound ) )

main()


CountingDogsWithDictionary.py


# countingUniqueDogsWithDictionary.py
# D. Thiebaut
# Demonstration program of the use of a dictionary
# to keep track of unique elements found in a collection
# of lines.

# the list of dogs, and some value associated with each one.
text = """Fido 0
Fido 10
Rex 0
Milou 9
Ralph 3
Fido 8
"""

def main():

    # create an empty dictionary
    dogsFound = {}

    # look at each line of text
    for line in text.split( "\n" ):

        # split the line on white space
        fields = line.capitalize().strip().split()

        # if invalid, skip
        if len( fields ) != 2:
            continue

        # get dog name
        name = fields[0]
        age = int( fields[1] )

        # have we seen it yet?
        dogsFound[ name ] = age

    print( "We have found", len( dogsFound ), "dog(s)" )
    print( "The dogs found are:" )

    for name in dogsFound.keys():
        print( name, dogsFound[ name ] )

main()


Keeping track of the first, last, and dogs with largest key found


# countingUniqueDogsWithDictionary.py
# D. Thiebaut
# Demonstration program of the use of a dictionary
# to keep track of unique elements found in a collection
# of lines.

# the list of dogs, and some value associated with each one.
text = """Fido 0
Fido 10
Rex 0
Milou 9
Ralph 3
Fido 8
"""

def main():
    dogsFoundFirst = {}
    dogsFoundLast = {}
    dogsFoundLargest = {}
    
    # look at each line of text
    for line in text.split( "\n" ):

        # split the line on white space
        fields = line.capitalize().strip().split()

        # if invalid, skip
        if len( fields ) != 2:
            continue

        # get dog name
        name = fields[0]
        age = int( fields[1] )

        # Keep the first dog we see
        if not name in dogsFoundFirst.keys():    
            dogsFoundFirst[ name ] = age

        # Keep the last dog we see
        dogsFoundLast[ name ] = age

        # Keep the dog with the largest associated value
        if not name in dogsFoundLargest.keys():
            dogsFoundLargest[ name ] = age
        else:
            # is the new dog found with an age larger than
            # what we have recorded so far, for this dog?
            if dogsFoundLargest[ name ] < age:
                # no, update and keep the new larger age
                dogsFoundLargest[ name ] = age

    print( "We have found", len( dogsFoundFirst ), "unique dog(s)" )
    
    print( "The first dogs found are:" )
    for name in dogsFoundFirst.keys():
        print( " -", name, dogsFoundFirst[ name ] )


    print( "\nThe last dogs found are:" )
    for name in dogsFoundLast.keys():
        print( " -", name, dogsFoundLast[ name ] )

    print( "\nThe dogs with the largest age found are:" )
    for name in dogsFoundLargest.keys():
        print( " -", name, dogsFoundLargest[ name ] )

main()


Nov. 30, 2015


Cambridge.data



Email Addresses


  • These are fake addresses of students registered for different classes. The goal is to create a list of unique addresses for Smith students present in the list, as well as unique addresses for 5-College students.


Ammie@hampshire.edu
Bessie@smith.edu
Carylon@smith.edu
Cheryll@smith.edu
Cordelia@smith.edu
Illa@smith.edu
Lisbeth@smith.edu
Mackenzie@smith.edu
Maryellen@smith.edu
Matha@smith.edu
Patrica@hampshire.edu
Sanjuana@smith.edu
Sharie@smith.edu
Sonya@smith.edu
Yuko@smith.edu

Cheryll@smith.edu
Codi@smith.edu
Cordelia@smith.edu
Elenore@smith.edu
Emelia@smith.edu
Josie@smith.edu
Lina@smith.edu
Lisbeth@smith.edu
Mackenzie@smith.edu
Margaretta@smith.edu
Rosalina@smith.edu
Sade@smith.edu
Sanjuana@smith.edu
Shelli@smith.edu
Sonya@smith.edu

Aja@hampshire.edu
Alesia@hampshire.edu
Bessie@smith.edu
Carylon@smith.edu
Chun@smith.edu
Codi@smith.edu
Constance@smith.edu
Felisa@smith.edu
Illa@smith.edu
Karena@hampshire.edu
Kortney@hampshire.edu
Lina@smith.edu
Mallie@smith.edu
Patrica@hampshire.edu
Zofia@smith.edu

Anna@hampshire.edu
Bessie@smith.edu
Candyce@smith.edu
Clorinda@smith.edu
Elenore@smith.edu
Karine@hampshire.edu
Kaylee@hampshire.edu
Kortney@hampshire.edu
Lisbeth@smith.edu
Marline@smith.edu
Matha@smith.edu
Porsha@hampshire.edu
Renata@smith.edu
Sanjuana@smith.edu
Sonya@smith.edu

Ammie@hampshire.edu
Anna@hampshire.edu
Birdie@smith.edu
Codi@smith.edu
Constance@smith.edu
Edelmira@smith.edu
Kaylee@hampshire.edu
Kristel@hampshire.edu
Margaretta@smith.edu
Moira@smith.edu
Patrica@hampshire.edu
Phuong@hampshire.edu
Sade@smith.edu
Tamela@smith.edu
Yuko@smith.edu


Presidents.txt


  • The content of the file with all the presidents, up to G. W. Bush, can be found here.



rainyCambridge.py


# rainyCambridge.py
# D. Thiebaut
# This program finds the rainiest month and year
# in Cambridge, UK.   The file is fetched from a
# Web site (http://cs.smith.edu/~dthiebaut/UKTemperatures/)
# where several text files are stored, including one
# for Cambridge, called cambridgedata.txt.
# Information on how to retrieve URLs found at
# https://docs.python.org/3.0/library/urllib.request.html
# and http://stackoverflow.com/questions/606191/convert-bytes-to-a-python-string

i

import urllib.request   # library for accessing Web pages

#--- some constants used by the program ---
BASEURL = "http://cs.smith.edu/~dthiebaut/UKTemperatures/"


def getTemperatureData( fileName ):
    # fetches the file from the Website and returns it as
    # a long string.
    # format of the file, with a sample of the lines:
    """Cambridge NIAB
Location: 5435E 2606N, 26 metres amsl
Estimated data is marked with a * after the value.
Missing data (more than 2 days missing in month) is marked by  ---.
Sunshine data taken from an automatic Kipp & Zonen sensor marked with a #, otherwise sunshine data taken from a Campbell Stokes recorder.
   yyyy  mm   tmax    tmin      af    rain     sun
              degC    degC    days      mm   hours
   1959   1    4.4    -1.4      20     ---    78.1
   1961   1    6.2     1.0       5    55.9    50.5
   1961   2   10.3     4.3       0    50.4    65.9
   2011   7   21.2    10.9       0    38.4*    ---
   2015   1    8.0     1.3      12    48.4*   ---    Provisional


    """
    url = BASEURL + fileName
    print( "Retrieving data from", url )
    f = urllib.request.urlopen( url )
    data = f.read().decode("utf-8") 
    return data

def main():
    # get the string
    data = getTemperatureData( "cambridgedata.txt" )

    # split string into lines
    lines = data.split( "\n" )
    
   
    # create empty list
    L = []
    
    # loop through all the lines
    for line in lines:

        # strip extra space and remove the * characters
        line = line.strip().replace( '*', ' ' )
        
        # get rid of blank lines
        if len( line ) <= 1:
            continue

        # get preamble
        if not line[0] in ['1', '2']:
            continue

        # extract rain, year, month
        fields = line.split( )
        year = fields[0]
        month = fields[1]
        rain = fields[5]

        # it is possible that the rain data is a string
        # of the form "---", in which case taking the float
        # equivalent will result in an exception.  We catch this
        # exception with a try/except clause.
        try:
            tuple = ( float( rain ), month, year )
        except ValueError:
            continue

        # if we're here, the rain data is correct.  Put it as
        # the first item in a tuple, and record the tuple in a
        # list.
        L.append( tuple )

        
    # sort the list and reverse it
    L.sort()
    L.reverse()
    
    
    # display rainiest month/year
    rain, month, year = L[0]
    print( "rain = ", rain, "year = ", year, "month = ", month )
    
    
main()


processEmails.py


# processEmail.py
# D. Thiebaut
# Takes a list containing several (fake) email addresses and
# splits them into two lists of unique addresses, one for Smith
# and one for 5-college students.

emails = """Ammie@hampshire.edu
Bessie@smith.edu

Carylon@smith.edu
Bessie@smith.edu

Ammie@hampshire.edu
"""

def main():
    # create an empty list for Smith, and
    # an empty list for 5-col
    smith = []
    fiveCol = []

    # process each line and add to appropriate
    # list.
    for line in emails.split( "\n" ):
        line = line.strip()
        if len( line ) <= 1:
            continue
        if line.find( "@smith" ) != -1:
            if not line in smith:
                smith.append( line )
        else:
            if not line in fiveCol:
                fiveCol.append( line )

    print( "Smith = ", smith )
    print( "5-col = ", fiveCol )


main()


Presidents.py


# presidents.py
# D. Thiebaut

text = """
 copy paste the list of presidents here...
"""

def main():
    # split into individual lines
    lines = text.split( "\n" )

    # display header
    print( lines[0] )

    # process all but first line
    for line in lines[1:]:
        fields = line.split( "," )
        # remove Fields 2, 6, and 7
        fields = fields[0:2] + fields[3:6] + fields[8:]

        # display the newly formed lines
        print( ", ".join( fields ) )

main()


Tue, 12/1/15


  • Programs developed during office hours on 12/1/15 with a group of students


hw11a.py


lines = """building, Outdoor Track, Purple, Anna BD & Bailey Bogan, 108, 151, 103, 98, 202, 92, 209, 102, 214, 132, 206, 144
Building, The Pitch, Purple, Anna BD & Bailey Bogan, 172, 249, 173, 193, 266, 190, 270, 244
field, Outdoor Track, red, Anisha Tyagi and Sara Kacmoli, 1, 91, 98, 115, 91, 143, 87, 164, 86, 204, 87,
"""

def main():
    # create a dictionary of buildings
    dict = {}

    # process each line
    for line in lines.split( "\n" ):
        fields = line.lower().split( "," )
        
        # get rid of invalid lines
        if len( fields ) < 8:
            continue
        
        if fields[0].startswith( "building" ) == False:
            continue

        # valid fields
        #print( "fields = ", fields )

        
        # add line to dictionary, key is building name,
        # value is list of coordinates
        name = fields[1].strip()
        coordinates = fields[4: ]

        dict[ name ] = coordinates
        
        
    # display contents of dictionary
    for key in dict.keys():
        print( key, "-->", dict[ key ] )

        
    
main()


hw11b.py


L = [ 1, 2, 3, 4, 5, 6, 10, 11, 14, 20]

for i in range( 0, len( L ), 2 ):
    first = L[i]
    second = L[i+1]
    print( "(", first, ",", second, ")" )


hw11c.py


dateDict = {}

dateDict[ "Ford Hall" ] = 2005
dateDict[ "Burton Hall" ] = 1905
dateDict[ "Bass Hall" ] = 1998



for name in [ "Ford", "Ford Hall", "Art", "Bass Hall", "Bass" ]:
    #if name in dateDict.keys():
    #    print( name )
    for key in dateDict.keys():
        if key.find( name ) != -1:
            print( name )


Wed. 12/2/15


Inheritance0.py


  • A program that displays a moving car. Need to add a Truck class...


# inheritance0.py
# A simple car class to start with.
# To do:  add a truck class, which is a car
# with a top.

from graphics import *

WIDTH = 600
HEIGHT = 400

class Wheel:
    """a Wheel is 2 concentric circles, the larger one black,
    the smaller one grey."""

    def __init__(self, centr, rad1, rad2 ):
        # make circ1 the smaller of the 2 circles
        self.circ1   = Circle( centr, min( rad1, rad2 ) )
        self.circ2   = Circle( centr, max( rad1, rad2 ) )
        self.circ1.setFill( "grey" )
        self.circ2.setFill( "black" )
        
    def draw( self, win ):
        self.circ2.draw( win )
        self.circ1.draw( win )

    def move( self, dx, dy ):
        self.circ2.move( dx, dy )
        self.circ1.move( dx, dy )
        
class Car:
    """A default simple car class.   Sets the color to "Yellow" """
    def __init__( self, rp ):
        """builds a car 180 pixels long on a reference point"""
        x = rp.getX()
        y = rp.getY()
        length = 180           # geometry of the car
        height = length // 3   
        firstQuarter = length//4
        thirdQuarter = length * 3 // 4
        p2 = Point( x+length, y+height )
        self.body = Rectangle( rp, p2 )
        self.body.setFill( "yellow" )
        self.w1   = Wheel( Point( x+firstQuarter, y+height ), 20,10 )
        self.w2   = Wheel( Point( x+thirdQuarter, y+height ), 20,10 )

    def draw( self, win ):
        """ draws the body and wheels on the window"""
        self.body.draw( win )
        self.w1.draw( win )
        self.w2.draw( win )

    def move( self, dx, dy ):
        """ moves the body and wheels some delta x and y"""
        self.body.move( dx, dy )
        self.w1.move( dx, dy )
        self.w2.move( dx, dy )

                  
def main():
    # open the window
    win = GraphWin( "CSC111 Inheritance Demo", WIDTH, HEIGHT )

    car = Car( Point( 100,250 ) )
    car.draw( win )

    # animation loop
    while win.checkMouse()==None:
        car.move( 2, 0 )
        
    win.close()

main()


Inheritance4.py


# inheritance4.py
# a graphic demo program for creating a circle
# with a label in the middle.
#

from graphics import *
WIDTH = 800
HEIGHT = 600

class MyCircle( Circle ):
    def __init__( self, rp, rad, text ):
        super().__init__( rp, rad )
        self.label= Text( rp, text )

    def draw( self, win ):
        super().draw( win )
        self.label.draw( win )

    def move( self, dx, dy ):
        super().move( dx, dy )
        self.label.move( dx, dy )
        
    def setText( self, newText ):
        self.label.setText( newText )
        
def main():
    win = GraphWin( "MyCircle Demo", WIDTH, HEIGHT )

    labCirc = MyCircle( Point( 100, 100 ), 50, "Hello!" )
    labCirc.draw( win )

    count = 0
    while win.checkMouse() == None:
        labCirc.move( 2, 1 )
        count += 1

        #if count % 30 == 0:
        labCirc.setText( "{0:1} steps!".format( count ) )

            

    win.close()

main()



Fri. 12/4/14


Inheritance5.py


# inheritance5.py
# Animal class to be used as super class
# for Cow and Dog classes.
# Cow class contains milk member variable
# Dog class contains attribute: trained, hospital,
# seeing-eye dog, rescue.

class Animal:
    def __init__( self, name, birth, vacc, tattd ):
        self.name = name
        self.dob  = birth
        self.vaccinated = vacc
        self.tattooed   = tattd

    def __str__( self ):
        vaccString = "vaccinated"
        if self.vaccinated == False:
            vaccString = "not vaccinated"
        tattString = "tattooed"
        if self.tattooed == False:
            tattString = "not tattooed"
            
        return "{0:1}: {1:1}, {2:1}, {3:1}".format( 
                    self.name, self.dob, vaccString, tattString )

    def isVaccinated( self ):
        return self.vaccinated

    def isTattooed( self ):
        return self.tattooed

    def getDOB( self ):
        return self.dob

    def getName( self ):
        return self.name

class Cow( Animal ):
    def __init__( self, name, birth, vacc, tattd, milk ):
        super().__init__( name, birth, vacc, tattd )
        self.milk = milk

    def getMilk( self ):
        return self.milk

    def __str__( self ):
        s = super().__str__()
        return s + ", {0:1}".format( self.milk )
    

def main():
    pet1 = Animal( "Rex", "12/02/2015", True, True )
    pet2 = Animal( "Garfield", "01/01/1978", True, False )
    print( "pet #1 = ", pet1 )
    print( "pet #2 = ", pet2 )
    
    cow1 = Cow( "Rosie", "12/1/14", True, False, 20 )
    print( "cow #1 = ", cow1 )

main()


Polymorphism.py


class Animal:
    def name(self):
        return
    def sleep(self):
        print( "sleeping now" )
    def speak(self):
        return

class Dog( Animal ):
    def name(self):
        print( "I am a dog!" )
    def speak(self):
        print( "Woof!" )

class Cat( Animal ):
    def name(self):
        print( "I am a cat!" )
    def speak(self):
        print( "Meow!" )

class Duck( Animal ):
    def name(self):
        print( "I am a duck!" )
    def speak(self):
        print( "Quack!" )


Bananas.py

MinionBanana.jpg


def minion( bunch ):
    """this minion is given a bunch of bananas.
    if there's only 1 banana in the bunch, it will
    return that banana as the largest in the bunch.

    If there's more than 1 banana in the bunch, this
    minion will keep one banana (the first one it finds)
    and pass the remainder of the bananas to another
    minion.  That new minion will follow the *exact*
    same script in order to find the largest banana.
    At some point that second minion will return the
    largest of the bananas in the remainder.  Our first
    minion will compare that to the one it kept, and
    return the largest of the two.
    """

    # if minion gets a bunch of 1 banana, that banana
    # is the largest of what it got.
    if len( bunch ) == 1:
        banana = bunch[0]
        return banana

    # if we're here, it's because the bunch has more
    # than 1 banana.
    # keep the first one:
    kept = bunch[0]

    # create a smaller bunch: the remaining bananas
    remainingBananas = bunch[1: ]

    # pass that to another minion
    largestOfRemainingBananas = minion( remainingBananas )

    # figure out which of the 2 bananas is largest: the
    # one kept, or the one just returned
    if kept > largestOfRemainingBananas:
        return kept
    else:
        return largestOfRemainingBananas

def main():
    bananas = [10, 2, 3, 20, -1, 5, 7, 0, 3, 6]
    largest = minion( bananas )

    print( "bunch = ", bananas )
    print( "largest banana found = ", largest )

main()


Mon. 12/07/15


LookForBanana.py


# this program is based on the program that finds the heaviest banana
# in a bunch of bananas, using minions to do the work.  This time we
# are interested if there is a banana of a given weight in the bunch.
# The algorithm in this case will have a minion work this way:
#  1) it gets a bunch of bananas, along with a weight, and its job is
#      to figure out if there is a banana with this weight in the bunch.
#  2) the minion then checks to see if it has gotten a bunch with just
#      one banana.  If so, it checks to see if that banana has the weight
#      that is being sought.  If it is, the minion returns True, meaning that
#      a banana was found with that weight.  Otherwise it returns False.
#  3) the minion takes 1 banana out of the bunch.  Before passing the
#      remaining bananas to another minion, it checks to see if the banana
#      it has just picked has the weight that is being sought.  If so, then
#      the minion can stop the recursion and return True.
#  4) otherwise the minion passes the remaining bananas to another  
#      minion and asks that new minion to go through the same 5 steps
#      explained here.
#  5) whatever is returned by the minion that was just called, this minion
#      will also return.

def minion( bunch, look ):
    print( "I'm a minion, and I got", bunch, "and am looking for", look )
    
    # stopping condition #1
    if len( bunch )==1:
        if bunch[0] == look:
            return True
        else:
            return False

    kept = bunch[0]

    # stopping condition #2
    if kept == look:
        return True

    # recursive step. Call another minion to see
    # if look is in remaining bananas
    remaining = bunch[1 : ]

    # return whatever that minion returns to us...
    return minion( remaining, look )


def main():
    bananas = [ 100, 120, 107, 97, 105 ]

    for item in bananas:
        look = item

        if minion( bananas, look ) == True:
            print( look," found!" )
        else:
            print( look, "not found!" )

main()


Factorial.py


def factorial( n ):
    # stopping condition
    if n==1:
        return 1

    # recursive step
    result = n * factorial( n-1 )
    
    return result


def main():
    while True:
        n = int( input( "> " ) )
        if n<=0:
            break

        print( "{0:1}! = {1:1}".format( n, factorial( n ) ) )

main()



Wed. 12/09/15


Recursively Visiting a Maze


# graphicsVisitMaze.py
# D. Thiebaut
# Generates a maze and displays it in a graphics window.
# The maze is defined as a collection of lines of text.
# MazeText is the variable containing the raw definition.
# MazeText is split into lines and the list of lines is kept
# in the variable maze.
# Each line in mazeText contains # or . characters.  A #-character
# indicates a wall, while a . indicates an empty space.
# MazeText is cleaned up and all the dots are replaced by spaces.
# Then the maze is displayed in the graphic window.
# The program maintains the status of the visit in the variable
# maze.  A '.' will represent a breadcrumb, i.e. a place that has
# been visited and that is potentially on the path to the exit.  A
# 'v' character indicates a visited place that leads to an impass.
# The program starts by visiting location STARTi (line number)
# and STARTj (column number).
# 
import time
import os
from graphics import *


# Dimensions of the graphics window
WIDTH  = 600
HEIGHT = 600

mazeText = """
#########################
........................#
##############.##########
#.#.#........#.#........#
#.#.#.########.########.#
#.#.#.................#.#
#.#.###.#####.#####.#...#
#...........#.#.#.#.#####
#.#########.#.#.#.#...#.#
#.#.#.#.#.#.#.#.#######.#
#.#.........#.#.......#..
#.###############.#####.#
#...............#.......#
#.###########.#########.#
#........#..............#
#########################
"""

mazeText1 = """
#########################
........................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#.......................#
#........................
#########################
"""

mazeText2 = """
#########################
........................#
#.......................#
#.......................#
#.......................#
#######################.#
#.......................#
#.......................#
#.......................#
#.......................#
#.#######################
#.......................#
#.......................#
#.......................#
#........................
#########################
""" 

#
STARTi = 1   # line number
STARTj = 0   # column number

NOLINES = len( mazeText.strip().split("\n") )
NOCHARS = len( mazeText.strip().split("\n")[1] )
BLOCKWIDTH  = WIDTH // NOCHARS  # width in pixels of block on graphics window
BLOCKHEIGHT = HEIGHT / NOLINES  # height in pixels of block on graphics window

 
def getMazeFromFile( fileName ):
    """reads the definition of the maze from a file"""
 
    try:
        lines = open( fileName, 'r' ).read()
    except:
        print( "I/O Error: could not open", fileName )
        return None
 
    return getMaze( lines )
 
def getMaze( mazeText ):
    """take the string representing the maze and
    break it down into an array of lines"""
    maze=[]
    for i, line in enumerate( mazeText.split( '\n' ) ):
        line = line.strip()
        #print( "%d [%s]" % (i, line ) )
        if len( line ) < 2:
            continue
        line = line.replace( '.', ' ' )
        maze.append( line )
    return maze
 
def setBreakCrumb( i, j, win ):
    """draw a circle where the walker has just landed, in
    the maze."""
    global BLOCKWIDTH
    global BLOCKHEIGHT
    radius = BLOCKWIDTH // 4
    brd = Circle( Point( (j+0.5)*BLOCKWIDTH, (i+0.5)*BLOCKHEIGHT ), radius )
    brd.setFill( "red" )
    brd.draw( win )
    
    # rest a tiny bit to slow down the program
    time.sleep( 0.1 )

def setImpass( i, j, win ):
    """mark a block as not leading to an exit.  Set its color
    to grey"""
    global BLOCKWIDTH
    global BLOCKHEIGHT
    radius = BLOCKWIDTH // 4
    blk = Rectangle( Point( j*BLOCKWIDTH, i*BLOCKHEIGHT ),
                  Point( (j+1)*BLOCKWIDTH, (i+1)*BLOCKHEIGHT ) )
    blk.setFill( "lightgrey" )
    blk.setOutline( "lightgrey" )
    blk.draw( win )
    
    # rest a tiny bit to slow down the program
    time.sleep( 0.1 )


def displayMaze( maze, win ):
    """ display the maze and wait for some amount of time"""
    global BLOCKWIDTH
    global BLOCKHEIGHT
    global NOLINES
    global NOCHARS
    
    blocks = []
    for i in range (NOLINES ):
       for j in range( NOCHARS ):
          if maze[i][j]=="#":
             r = Rectangle( Point( j*BLOCKWIDTH, i*BLOCKHEIGHT ),
                        Point( (j+1)*BLOCKWIDTH, (i+1)*BLOCKHEIGHT ) )
             r.setFill( "blue" )
             r.setOutline( "blue" )
             r.draw( win )
             blocks.append( r )
    
    return blocks

def setChar( maze, i, j, char ):
    """puts the character char at position i, j in the maze"""
    line = maze[i]
    letters = []
    for letter in line:
        letters.append( letter )
    letters[j] = char
    maze[i] = ''.join( letters )
    
def visitMaze( maze, i, j, win ):
    """recursive visit of the maze.  Returns True when it
    has found the exit, False otherwise"""

    # put a breadcrumb where we just landed.
    setBreakCrumb( i, j, win )
    setChar( maze, i, j, '.' )

    # stopping condition: we landed on the Exit...        
    if ( i != STARTi or j != STARTj ) \
        and ( (i==0 or i==len( maze )-1 ) or (j==0 or j==len( maze[0] )-1 ) ):
        return True
 
    #--- try the four directions around where we are ---
    #--- to the right? ---
    if j+1< len( maze[0] ) and maze[i][j+1]==' ':
        if visitMaze( maze, i, j+1, win ) == True:
                return True # found an exit by going right!
 
    #--- down? ---
    if i+1< len( maze ) and maze[i+1][j]==' ':
        if visitMaze( maze, i+1, j, win ) == True:
                return True # found an exit by going down!
 
    #--- up? ---
    if i-1>=0 and maze[i-1][j]==' ':
        if visitMaze( maze, i-1, j, win ) == True:
                return True # found an exit by going up!
 
    #--- to the left? ---
    if j-1>=0 and maze[i][j-1]==' ':
         if  visitMaze( maze, i, j-1, win ) == True:
                return True # found an exit by going left!
 
    #--- if we're here, none of the 4 directions was successful ---
    #--- in bringing us to an exit, we have to mark our cell with--
    #--- a v, and return false to our caller, indicating that we---
    #--- couldn't find a path                                   ---

    setImpass( i, j, win )
    setChar( maze, i, j, 'v' )
    #printMaze( maze )
    return False
 
 
def main():
    """gets the maze, visit and display it"""
    #maze = getMazeFromFile( 'largemaze.txt' )
    win = GraphWin("Maze", WIDTH, HEIGHT )
    win.getMouse()
    
    maze = getMaze( mazeText2 )

    #printMaze( maze )
    blocks = displayMaze( maze, win )
    
    success = visitMaze( maze, STARTi, STARTj, win )
 
    #--- print the maze without the v-characters ---
    #printMazeNoVs( maze )
 
    if success:
        print( "A path was found!" )
    else:
        print( "No path to an exit found..." )

    win.getMouse()
    win.close()
    
main()


Fractal Tree


# fractalTree.py
# D. Thiebaut
# Code taken from http://openbookproject.net/thinkcs/python/english3e/recursion.html
# and adapted to work with graphics111.py.
#
# Draws a fractal tree on the graphic window.
#
from graphics import *
import math
import time
import random

# dimensions of the window
MAXWIDTH = 800
MAXHEIGHT = 800

# recursive tree-drawing function
# 
def draw_tree(win   ,       # the canvas
              order,        # the level of recursion.  Starts positive.
              theta,        # angle of new branch leaving this trunk
              sz,           # size of this branch
              x, y,         # coordinates of base of this branch
              heading,      # angle of direction of this branch
              color         # color
              ):    

   trunk_ratio = 0.29       # How big is the trunk relative to whole tree?
   trunk = sz * trunk_ratio # length of trunk

   # compute x, y of end of the current branch
   delta_x = trunk * math.cos(heading)
   delta_y = trunk * math.sin(heading)
   x2, y2 = x + delta_x, y + delta_y

   
   # draw current branch
   branch = Line( Point( x, y), Point( x2, y2 ) )
   branch.setFill( color )
   branch.setWidth( 2 )
   branch.setOutline( color )
   branch.draw( win )

   # if this branch has sub-branches, then recurse
   if order > 0:    
       
      # make the recursive calls to draw the two subtrees
      newsz = sz*(1 - trunk_ratio)
      draw_tree(win,
                order-1, theta, newsz, x2, y2, heading-theta,
                color )
      draw_tree(win,
                order-1, theta, newsz, x2, y2, heading+theta,
                color )
      

# draw 1 tree in the middle of the screen, shooting straight up.
def main():
    win = GraphWin("Fractal Tree", MAXWIDTH, MAXHEIGHT )
    theta = 0.65      # use 0.02 for tall skinny trees, 0.7 for fat trees
    draw_tree(win,
              9,
              theta,
              MAXWIDTH*0.9, MAXWIDTH//2,
              MAXHEIGHT-50,
              -math.pi/2,
              "brown" )
        
    win.getMouse()
    win.close()

main()


Hanoi.py


The program can be found here.