Difference between revisions of "CSC111 Programs for Week 9 2015"
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</source> | </source> | ||
<br /> | <br /> | ||
+ | =Graphics= | ||
<br /> | <br /> | ||
+ | The programs below are not fully documented. Just examples of putting a program together in class. | ||
<br /> | <br /> | ||
+ | == skeletonGraphics.py == | ||
<br /> | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # skeleton.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | center = Point( WIDTH//4, HEIGHT//4 ) | ||
+ | c1 = Circle( center, 30 ) | ||
+ | c1.setFill( "red" ) | ||
+ | c1.draw( win ) | ||
+ | |||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | == wheel1.py == | ||
+ | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # wheel1.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | 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 ) | ||
+ | |||
+ | class Car: | ||
+ | """a class containing a rectangle and 2 wheels, forming | ||
+ | a simple car""" | ||
+ | |||
+ | def __init__( self, refPoint ): | ||
+ | # create rectangle | ||
+ | P1 = refPoint | ||
+ | xP1 = P1.getX() | ||
+ | yP1 = P1.getY() | ||
+ | xP2 = xP1 + 180 | ||
+ | yP2 = yP1 + 60 | ||
+ | P2 = Point( xP2, yP2 ) | ||
+ | self.body = Rectangle( P1, P2 ) | ||
+ | self.body.setFill( "yellow" ) | ||
+ | |||
+ | # create the Wheels | ||
+ | self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) | ||
+ | self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) | ||
+ | |||
+ | def draw( self, win ): | ||
+ | self.body.draw( win ) | ||
+ | self.w1.draw( win ) | ||
+ | self.w2.draw( win ) | ||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | #w1 = Wheel( Point( WIDTH//4, HEIGHT//4 ), 30, 50 ) | ||
+ | #w1.draw( win ) | ||
+ | car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) | ||
+ | car1.draw( win ) | ||
+ | |||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | <br /> | ||
+ | == wheel2.py == | ||
+ | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # wheel1.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | 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 ) | ||
+ | |||
+ | class Car: | ||
+ | """a class containing a rectangle and 2 wheels, forming | ||
+ | a simple car""" | ||
+ | |||
+ | def __init__( self, refPoint ): | ||
+ | # create rectangle | ||
+ | P1 = refPoint | ||
+ | xP1 = P1.getX() | ||
+ | yP1 = P1.getY() | ||
+ | xP2 = xP1 + 180 | ||
+ | yP2 = yP1 + 60 | ||
+ | P2 = Point( xP2, yP2 ) | ||
+ | self.body = Rectangle( P1, P2 ) | ||
+ | self.body.setFill( "yellow" ) | ||
+ | |||
+ | # create the Wheels | ||
+ | self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) | ||
+ | self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) | ||
+ | |||
+ | def draw( self, win ): | ||
+ | self.body.draw( win ) | ||
+ | self.w1.draw( win ) | ||
+ | self.w2.draw( win ) | ||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | #w1 = Wheel( Point( WIDTH//4, HEIGHT//4 ), 30, 50 ) | ||
+ | #w1.draw( win ) | ||
+ | car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) | ||
+ | car1.draw( win ) | ||
+ | |||
+ | # animation loop | ||
+ | while True: | ||
+ | car1.setSpeed( 5, 0 ) | ||
+ | |||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | <br /> | ||
+ | == car1.py == | ||
+ | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # wheel1.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | 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 ) | ||
+ | |||
+ | class Car: | ||
+ | """a class containing a rectangle and 2 wheels, forming | ||
+ | a simple car""" | ||
+ | |||
+ | def __init__( self, refPoint ): | ||
+ | # create rectangle | ||
+ | P1 = refPoint | ||
+ | xP1 = P1.getX() | ||
+ | yP1 = P1.getY() | ||
+ | xP2 = xP1 + 180 | ||
+ | yP2 = yP1 + 60 | ||
+ | P2 = Point( xP2, yP2 ) | ||
+ | self.body = Rectangle( P1, P2 ) | ||
+ | self.body.setFill( "yellow" ) | ||
+ | |||
+ | # create the Wheels | ||
+ | self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) | ||
+ | self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) | ||
+ | |||
+ | def draw( self, win ): | ||
+ | self.body.draw( win ) | ||
+ | self.w1.draw( win ) | ||
+ | self.w2.draw( win ) | ||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | #w1 = Wheel( Point( WIDTH//4, HEIGHT//4 ), 30, 50 ) | ||
+ | #w1.draw( win ) | ||
+ | car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) | ||
+ | car1.draw( win ) | ||
+ | |||
+ | |||
+ | |||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | <br /> | ||
+ | == car2.py == | ||
+ | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # wheel1.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | 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.circ1.move( dx, dy ) | ||
+ | self.circ2.move( dx, dy ) | ||
+ | |||
+ | class Car: | ||
+ | """a class containing a rectangle and 2 wheels, forming | ||
+ | a simple car""" | ||
+ | |||
+ | def __init__( self, refPoint ): | ||
+ | # create rectangle | ||
+ | P1 = refPoint | ||
+ | xP1 = P1.getX() | ||
+ | yP1 = P1.getY() | ||
+ | xP2 = xP1 + 180 | ||
+ | yP2 = yP1 + 60 | ||
+ | P2 = Point( xP2, yP2 ) | ||
+ | self.body = Rectangle( P1, P2 ) | ||
+ | self.body.setFill( "yellow" ) | ||
+ | |||
+ | # create the Wheels | ||
+ | self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) | ||
+ | self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) | ||
+ | |||
+ | # set the initial speed | ||
+ | self.dx = 1 | ||
+ | self.dy = 0 | ||
+ | |||
+ | def setSpeed( self, deltaX, deltaY ): | ||
+ | self.dx = deltaX | ||
+ | self.dy = deltaY | ||
+ | |||
+ | def draw( self, win ): | ||
+ | self.w1.draw( win ) | ||
+ | self.body.draw( win ) | ||
+ | self.w2.draw( win ) | ||
+ | |||
+ | def autoMove( self ): | ||
+ | self.w1.move( self.dx, self.dy ) | ||
+ | self.w2.move( self.dx, self.dy ) | ||
+ | self.body.move( self.dx, self.dy ) | ||
+ | |||
+ | def reverseDirection( self ): | ||
+ | self.dx = -self.dx | ||
+ | |||
+ | def getX( self ): | ||
+ | return self.body.getP1().getX() | ||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | |||
+ | car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) | ||
+ | car1.draw( win ) | ||
+ | car1.setSpeed( 5, 0 ) | ||
+ | |||
+ | while True: | ||
+ | car1.autoMove() | ||
+ | |||
+ | if car1.getX() > WIDTH or car1.getX() < 0: | ||
+ | car1.reverseDirection() | ||
+ | |||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | <br /> | ||
+ | == car3.py == | ||
+ | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # wheel1.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | import random | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | 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.circ1.move( dx, dy ) | ||
+ | self.circ2.move( dx, dy ) | ||
+ | |||
+ | class Car: | ||
+ | """a class containing a rectangle and 2 wheels, forming | ||
+ | a simple car""" | ||
+ | |||
+ | def __init__( self, refPoint ): | ||
+ | # create rectangle | ||
+ | P1 = refPoint | ||
+ | xP1 = P1.getX() | ||
+ | yP1 = P1.getY() | ||
+ | xP2 = xP1 + 180 | ||
+ | yP2 = yP1 + 60 | ||
+ | P2 = Point( xP2, yP2 ) | ||
+ | self.body = Rectangle( P1, P2 ) | ||
+ | self.body.setFill( "yellow" ) | ||
+ | |||
+ | # create the Wheels | ||
+ | self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) | ||
+ | self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) | ||
+ | |||
+ | # set the initial speed | ||
+ | self.dx = 1 | ||
+ | self.dy = 0 | ||
+ | |||
+ | def setSpeed( self, deltaX, deltaY ): | ||
+ | self.dx = deltaX | ||
+ | self.dy = deltaY | ||
+ | |||
+ | def draw( self, win ): | ||
+ | self.w1.draw( win ) | ||
+ | self.body.draw( win ) | ||
+ | self.w2.draw( win ) | ||
+ | |||
+ | def autoMove( self ): | ||
+ | self.w1.move( self.dx, self.dy ) | ||
+ | self.w2.move( self.dx, self.dy ) | ||
+ | self.body.move( self.dx, self.dy ) | ||
+ | |||
+ | def reverseDirection( self ): | ||
+ | self.dx = -self.dx | ||
+ | |||
+ | def getX( self ): | ||
+ | return self.body.getP1().getX() | ||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | cars = [] | ||
+ | for x in range( 10, WIDTH, 80 ): | ||
+ | car1 = Car( Point( x, random.choice( [10,50,100, 125, 175, 300 ]) ) ) | ||
+ | car1.draw( win ) | ||
+ | car1.setSpeed( random.choice( [-5, 3, 2, 5, 4] ), 0 ) | ||
+ | cars.append( car1 ) | ||
+ | |||
+ | while True: | ||
+ | for car1 in cars: | ||
+ | car1.autoMove() | ||
+ | |||
+ | if car1.getX() > WIDTH or car1.getX() < 0: | ||
+ | car1.reverseDirection() | ||
+ | |||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | <br /> | ||
+ | == car3randomColors.py == | ||
+ | <br /> | ||
+ | ::<source lang="python"> | ||
+ | # wheel1.py | ||
+ | # D. Thiebaut | ||
+ | # a skeleton program to get started with the graphics | ||
+ | # | ||
+ | from graphics import * | ||
+ | import random | ||
+ | |||
+ | # define geometry (constants) | ||
+ | WIDTH = 700 | ||
+ | HEIGHT = 600 | ||
+ | |||
+ | |||
+ | 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.circ1.move( dx, dy ) | ||
+ | self.circ2.move( dx, dy ) | ||
+ | |||
+ | class Car: | ||
+ | """a class containing a rectangle and 2 wheels, forming | ||
+ | a simple car""" | ||
+ | |||
+ | def __init__( self, refPoint ): | ||
+ | # create rectangle | ||
+ | P1 = refPoint | ||
+ | xP1 = P1.getX() | ||
+ | yP1 = P1.getY() | ||
+ | xP2 = xP1 + 180 | ||
+ | yP2 = yP1 + 60 | ||
+ | P2 = Point( xP2, yP2 ) | ||
+ | self.body = Rectangle( P1, P2 ) | ||
+ | self.body.setFill( random.choice( ["yellow", "black", "beige", | ||
+ | "magenta"] ) ) | ||
+ | |||
+ | # create the Wheels | ||
+ | self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) | ||
+ | self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) | ||
+ | |||
+ | # set the initial speed | ||
+ | self.dx = 1 | ||
+ | self.dy = 0 | ||
+ | |||
+ | def setSpeed( self, deltaX, deltaY ): | ||
+ | """change the speed of the car""" | ||
+ | self.dx = deltaX | ||
+ | self.dy = deltaY | ||
+ | |||
+ | def draw( self, win ): | ||
+ | """draw the car on the window""" | ||
+ | self.w1.draw( win ) | ||
+ | self.body.draw( win ) | ||
+ | self.w2.draw( win ) | ||
+ | |||
+ | def autoMove( self ): | ||
+ | """move the car in the current direction (dx, dy)""" | ||
+ | self.w1.move( self.dx, self.dy ) | ||
+ | self.w2.move( self.dx, self.dy ) | ||
+ | self.body.move( self.dx, self.dy ) | ||
+ | |||
+ | def reverseDirection( self ): | ||
+ | """reverses the direction of movement. If going right (dx>0), | ||
+ | change to going left (dx<0). If going left, change to going right.""" | ||
+ | self.dx = -self.dx | ||
+ | |||
+ | def getX( self ): | ||
+ | """return the x-coordinate of the top-left point of the rectangle""" | ||
+ | return self.body.getP1().getX() | ||
+ | |||
+ | #---------------------------------------------------------------- | ||
+ | def waitForClick( win, message ): | ||
+ | """ waitForClick: stops the GUI and displays a message. | ||
+ | Returns when the user clicks the window. The message is erased.""" | ||
+ | |||
+ | # wait for user to click mouse to start | ||
+ | startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) | ||
+ | startMsg.draw( win ) # display message | ||
+ | win.getMouse() # wait | ||
+ | startMsg.undraw() # erase | ||
+ | |||
+ | def main(): | ||
+ | global W, H | ||
+ | win = GraphWin( "wheel demo", WIDTH, HEIGHT ) | ||
+ | |||
+ | # wait for user to click the window... | ||
+ | waitForClick( win, "click to start" ) | ||
+ | |||
+ | # create a list of several cars, with random positions and random | ||
+ | # speeds | ||
+ | cars = [] | ||
+ | for x in range( 10, WIDTH, 120 ): | ||
+ | # create a new car at a random height in the window | ||
+ | car1 = Car( Point( x, random.choice( [10,50,100, 125, 175, 300 ]) ) ) | ||
+ | |||
+ | # draw the car | ||
+ | car1.draw( win ) | ||
+ | |||
+ | # set its speed randomly | ||
+ | car1.setSpeed( random.choice( [-5, 30, 2, 15, -4] ), 0 ) | ||
+ | |||
+ | # add the car to the list | ||
+ | cars.append( car1 ) | ||
+ | |||
+ | |||
+ | # animation loop: keep on going as long as the user does not click | ||
+ | # on the window. | ||
+ | while win.checkMouse()==None: | ||
+ | |||
+ | # move each car of the list | ||
+ | for car1 in cars: | ||
+ | # move it | ||
+ | car1.autoMove() | ||
+ | |||
+ | # if it's hitting a left or right edge of the window | ||
+ | # change the direction of movement of the car. | ||
+ | if car1.getX() > WIDTH or car1.getX() < 0: | ||
+ | car1.reverseDirection() | ||
+ | |||
+ | # wait for the user to click one last time... | ||
+ | waitForClick( win, "click to end" ) | ||
+ | win.close() | ||
+ | |||
+ | main() | ||
+ | </source> | ||
+ | <br /> | ||
+ | <br /> | ||
<br /> | <br /> | ||
<br /> | <br /> |
Revision as of 11:08, 2 April 2015
--D. Thiebaut (talk) 09:03, 30 March 2015 (EDT)
Contents
Die
# dice.py # D. Thiebaut # Program for Week 9 # an example program that defines a Die class, and # demonstrates how to create 2 objects from this class. import random class Die: """a class implementing a Die, with a given number of sides, and a value (the number of the top face)""" def __init__( self, n ): """initializes the die with n faces, and a value 1, by default""" self.noSides = n self.value = 1 def roll( self ): """roll the die and pick a new random value for it""" self.value = random.randrange( 1, self.noSides+1 ) def getValue( self ): """return the current value, i.e. the number on the top side""" return self.value def main(): # Create 2 dice, one with 6 sides, one with 8 d1 = Die( 6 ) d2 = Die( 8 ) while True: # Roll both dice d1.roll( ) d2.roll( ) # display their value print( "Die 1: ", d1.getValue() ) print( "Die 2: ", d2.getValue() ) ans = input( "Press enter to continue. Any other key to quit: " ) if len( ans.strip() )!= 0: break if __name__=="__main__": main()
Cats
# cats1.py # D. Thiebaut # program developed in class on 4/1/15 # class Cat: """Cat class. contains information about a cat: name, whether vaccinated, breed, and age""" def __init__( self, na, vacc, bree, ag ): self.name = na self.vaccinated = vacc self.breed = bree self.age = ag def __str__( self ): """default string representation for a cat. Will be use by print() if we ask it to print a cat object.""" if self.vaccinated: vac = "vaccinated" else: vac = "not vaccinated" # create the string representation of the object s = "{0:10} ==> ({1:1}), {2:1}, {3:1}".format( self.name, self.breed, self.age, vac ) # return the string representation return s def getName( self ): """returns the name of the cat""" return self.name def isVaccinated( self ): """returns True if the cat is vaccinated, False otherwise.""" #if self.vaccinated: # return True #else: # return False return self.vaccinated # ------------------------------------------------------------- # MAIN # ------------------------------------------------------------- def main(): # create an empty list of cats catList = [] # Create 3 cat objects and add them to the list # Minou, 3, vaccinated, stray #catList.append( Cat( "Minou", True, "stray", 3 ) ) #catList.append( Cat( "Ralph", False, "Burmese", 1 ) ) #catList.append( Cat( "Garfield", True, "Orange Tabby", 10 ) ) # open csv file containing cats. Example of line in file shown below. # Winston, 1, not vaccinated, stray file = open( "cats.csv", "r" ) lines = file.readlines() file.close() # the contents of the file is now in a list of strings. The list is called lines. # for each line in the list of lines... for line in lines: #print( line ) # split the line into 4 fields fields = line.split( ',' ) # if the line doesn't contain 4 fields, it must be invalid. Skip it! if len( fields ) != 4: continue # assign each one of the 4 items in the list fields to 4 different variables name, age, vacc, breed = fields # transform vacc from "vaccinated" or "not vaccinated" to True or False if vacc.lower().strip() == "vaccinated": vacc = True else: vacc = False # add a new cat with this information to the list of cats cat = Cat( name.strip(), vacc, breed.strip(), int(age.strip()) ) catList.append( cat ) # list all the cats in the list for cat in catList: print( cat ) main()
Graphics
The programs below are not fully documented. Just examples of putting a program together in class.
skeletonGraphics.py
# skeleton.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * # define geometry (constants) WIDTH = 700 HEIGHT = 600 #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) waitForClick( win, "click to start" ) center = Point( WIDTH//4, HEIGHT//4 ) c1 = Circle( center, 30 ) c1.setFill( "red" ) c1.draw( win ) waitForClick( win, "click to end" ) win.close() main()
wheel1.py
# wheel1.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * # define geometry (constants) WIDTH = 700 HEIGHT = 600 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 ) class Car: """a class containing a rectangle and 2 wheels, forming a simple car""" def __init__( self, refPoint ): # create rectangle P1 = refPoint xP1 = P1.getX() yP1 = P1.getY() xP2 = xP1 + 180 yP2 = yP1 + 60 P2 = Point( xP2, yP2 ) self.body = Rectangle( P1, P2 ) self.body.setFill( "yellow" ) # create the Wheels self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) def draw( self, win ): self.body.draw( win ) self.w1.draw( win ) self.w2.draw( win ) #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) waitForClick( win, "click to start" ) #w1 = Wheel( Point( WIDTH//4, HEIGHT//4 ), 30, 50 ) #w1.draw( win ) car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) car1.draw( win ) waitForClick( win, "click to end" ) win.close() main()
wheel2.py
# wheel1.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * # define geometry (constants) WIDTH = 700 HEIGHT = 600 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 ) class Car: """a class containing a rectangle and 2 wheels, forming a simple car""" def __init__( self, refPoint ): # create rectangle P1 = refPoint xP1 = P1.getX() yP1 = P1.getY() xP2 = xP1 + 180 yP2 = yP1 + 60 P2 = Point( xP2, yP2 ) self.body = Rectangle( P1, P2 ) self.body.setFill( "yellow" ) # create the Wheels self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) def draw( self, win ): self.body.draw( win ) self.w1.draw( win ) self.w2.draw( win ) #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) waitForClick( win, "click to start" ) #w1 = Wheel( Point( WIDTH//4, HEIGHT//4 ), 30, 50 ) #w1.draw( win ) car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) car1.draw( win ) # animation loop while True: car1.setSpeed( 5, 0 ) waitForClick( win, "click to end" ) win.close() main()
car1.py
# wheel1.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * # define geometry (constants) WIDTH = 700 HEIGHT = 600 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 ) class Car: """a class containing a rectangle and 2 wheels, forming a simple car""" def __init__( self, refPoint ): # create rectangle P1 = refPoint xP1 = P1.getX() yP1 = P1.getY() xP2 = xP1 + 180 yP2 = yP1 + 60 P2 = Point( xP2, yP2 ) self.body = Rectangle( P1, P2 ) self.body.setFill( "yellow" ) # create the Wheels self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) def draw( self, win ): self.body.draw( win ) self.w1.draw( win ) self.w2.draw( win ) #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) waitForClick( win, "click to start" ) #w1 = Wheel( Point( WIDTH//4, HEIGHT//4 ), 30, 50 ) #w1.draw( win ) car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) car1.draw( win ) waitForClick( win, "click to end" ) win.close() main()
car2.py
# wheel1.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * # define geometry (constants) WIDTH = 700 HEIGHT = 600 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.circ1.move( dx, dy ) self.circ2.move( dx, dy ) class Car: """a class containing a rectangle and 2 wheels, forming a simple car""" def __init__( self, refPoint ): # create rectangle P1 = refPoint xP1 = P1.getX() yP1 = P1.getY() xP2 = xP1 + 180 yP2 = yP1 + 60 P2 = Point( xP2, yP2 ) self.body = Rectangle( P1, P2 ) self.body.setFill( "yellow" ) # create the Wheels self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) # set the initial speed self.dx = 1 self.dy = 0 def setSpeed( self, deltaX, deltaY ): self.dx = deltaX self.dy = deltaY def draw( self, win ): self.w1.draw( win ) self.body.draw( win ) self.w2.draw( win ) def autoMove( self ): self.w1.move( self.dx, self.dy ) self.w2.move( self.dx, self.dy ) self.body.move( self.dx, self.dy ) def reverseDirection( self ): self.dx = -self.dx def getX( self ): return self.body.getP1().getX() #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) waitForClick( win, "click to start" ) car1 = Car( Point( WIDTH//4, HEIGHT//4 ) ) car1.draw( win ) car1.setSpeed( 5, 0 ) while True: car1.autoMove() if car1.getX() > WIDTH or car1.getX() < 0: car1.reverseDirection() waitForClick( win, "click to end" ) win.close() main()
car3.py
# wheel1.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * import random # define geometry (constants) WIDTH = 700 HEIGHT = 600 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.circ1.move( dx, dy ) self.circ2.move( dx, dy ) class Car: """a class containing a rectangle and 2 wheels, forming a simple car""" def __init__( self, refPoint ): # create rectangle P1 = refPoint xP1 = P1.getX() yP1 = P1.getY() xP2 = xP1 + 180 yP2 = yP1 + 60 P2 = Point( xP2, yP2 ) self.body = Rectangle( P1, P2 ) self.body.setFill( "yellow" ) # create the Wheels self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) # set the initial speed self.dx = 1 self.dy = 0 def setSpeed( self, deltaX, deltaY ): self.dx = deltaX self.dy = deltaY def draw( self, win ): self.w1.draw( win ) self.body.draw( win ) self.w2.draw( win ) def autoMove( self ): self.w1.move( self.dx, self.dy ) self.w2.move( self.dx, self.dy ) self.body.move( self.dx, self.dy ) def reverseDirection( self ): self.dx = -self.dx def getX( self ): return self.body.getP1().getX() #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) waitForClick( win, "click to start" ) cars = [] for x in range( 10, WIDTH, 80 ): car1 = Car( Point( x, random.choice( [10,50,100, 125, 175, 300 ]) ) ) car1.draw( win ) car1.setSpeed( random.choice( [-5, 3, 2, 5, 4] ), 0 ) cars.append( car1 ) while True: for car1 in cars: car1.autoMove() if car1.getX() > WIDTH or car1.getX() < 0: car1.reverseDirection() waitForClick( win, "click to end" ) win.close() main()
car3randomColors.py
# wheel1.py # D. Thiebaut # a skeleton program to get started with the graphics # from graphics import * import random # define geometry (constants) WIDTH = 700 HEIGHT = 600 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.circ1.move( dx, dy ) self.circ2.move( dx, dy ) class Car: """a class containing a rectangle and 2 wheels, forming a simple car""" def __init__( self, refPoint ): # create rectangle P1 = refPoint xP1 = P1.getX() yP1 = P1.getY() xP2 = xP1 + 180 yP2 = yP1 + 60 P2 = Point( xP2, yP2 ) self.body = Rectangle( P1, P2 ) self.body.setFill( random.choice( ["yellow", "black", "beige", "magenta"] ) ) # create the Wheels self.w1 = Wheel( Point( xP1+40, yP1+60 ), 10, 20 ) self.w2 = Wheel( Point( xP1+140, yP1+60 ), 10, 20 ) # set the initial speed self.dx = 1 self.dy = 0 def setSpeed( self, deltaX, deltaY ): """change the speed of the car""" self.dx = deltaX self.dy = deltaY def draw( self, win ): """draw the car on the window""" self.w1.draw( win ) self.body.draw( win ) self.w2.draw( win ) def autoMove( self ): """move the car in the current direction (dx, dy)""" self.w1.move( self.dx, self.dy ) self.w2.move( self.dx, self.dy ) self.body.move( self.dx, self.dy ) def reverseDirection( self ): """reverses the direction of movement. If going right (dx>0), change to going left (dx<0). If going left, change to going right.""" self.dx = -self.dx def getX( self ): """return the x-coordinate of the top-left point of the rectangle""" return self.body.getP1().getX() #---------------------------------------------------------------- def waitForClick( win, message ): """ waitForClick: stops the GUI and displays a message. Returns when the user clicks the window. The message is erased.""" # wait for user to click mouse to start startMsg = Text( Point( win.getWidth()/2, win.getHeight()/2 ), message ) startMsg.draw( win ) # display message win.getMouse() # wait startMsg.undraw() # erase def main(): global W, H win = GraphWin( "wheel demo", WIDTH, HEIGHT ) # wait for user to click the window... waitForClick( win, "click to start" ) # create a list of several cars, with random positions and random # speeds cars = [] for x in range( 10, WIDTH, 120 ): # create a new car at a random height in the window car1 = Car( Point( x, random.choice( [10,50,100, 125, 175, 300 ]) ) ) # draw the car car1.draw( win ) # set its speed randomly car1.setSpeed( random.choice( [-5, 30, 2, 15, -4] ), 0 ) # add the car to the list cars.append( car1 ) # animation loop: keep on going as long as the user does not click # on the window. while win.checkMouse()==None: # move each car of the list for car1 in cars: # move it car1.autoMove() # if it's hitting a left or right edge of the window # change the direction of movement of the car. if car1.getX() > WIDTH or car1.getX() < 0: car1.reverseDirection() # wait for the user to click one last time... waitForClick( win, "click to end" ) win.close() main()