# How do you control two different objects seperately(two player pong game)?

So I found this great game of pong created by this guy called Ferrari, and I was given the task to make it two playered with two scores but with no high score. I've tried many things except when I make a second bock of code that controls the movements it either gets completely ignored or I will press the up button that its assigned and it will go all the way up and won't come back down.

``````from decimal import Decimal, getcontext
getcontext().prec = 20
import time,random,os,sys
from Tkinter import *
from tkFileDialog import *
import tkFont
import os,sys

## decimal is for numbers and arithmatic that use irrational numbers
## Tkinter is the graphical interface for the program
## tkFont is the window that pops up
## os is operating system
## sys is system

## there are 2 different variables for player 1 and player 2 because one variable is a variable for a number, the other creates the rectangle(the actual paddle)
## these are just variables that represent numbers

refreshrate=100
do = 1
done=0
ballX=320
ballY=240
playerone=180
py2=180
pause=0
up=0
down=0
root = Tk()
root.title("Pong")
c = Canvas(root,width=640,height=480,bg='black')
c.pack()
xc = float(2)
yc = float(random.randint(-3,3))
while(yc==0):
yc = float(random.randint(-3,3))
ball = c.create_oval(ballX-10,ballY-10,ballX+10,ballY+10,fill='white')
player = c.create_rectangle(610,playerone,625,playerone+120,fill='blue')
playertwo = c.create_rectangle(15,playerone,30,playerone+120,fill='blue')
c.create_rectangle(318,0,322,480,fill='white')
c.create_rectangle(318,0,322,30,fill='white')
score = 0
escore= 0
lives = 5
font = tkFont.Font(family = "Book Antiqua", size = 15, weight = "bold")

## to change the keys in which you press to control the paddles, change the letter or arrow key between the quotation marks next to str a
## player1 controls

def up(event):
global playerone, player, py2, playertwo, high, low
up = 1
def down(event):
global playerone, player, py2, playertwo, high, low
down = 1
def escape(event):
global do, lives
lives = -1
do = 0
root.quit
root.quit()
def onkeyrelease(event):
global up, down, do, lives, pause
key = event.keysym
if (str(key)=="w"):
up = 0
if (str(key)=="s"):
down = 0
if (str(key)=="Escape" and done==1):
root.quit
do = 0
lives = -1
root.quit()
if (str(key)=="p"):
if(pause==1):
pause=0
elif(pause==0):
pause=1
def buttoninit():
root.bind("<w>",up)
root.bind("<s>",down)
root.bind("`",escape)
root.bind('<KeyRelease>', onkeyrelease)
buttoninit()

## player2 controls

def high(event):
global playerone, player, py2, playertwo, up, down
up = 1
def low(event):
global playerone, player, py2, playertwo, up, down
down = 1
def leave(event):
global do, lives
lives = -1
do = 0
root.quit
root.quit()
def offkeyrelease(event):
global up, down, do, lives, pause
key = event.keysym
if (str(key)=="Up"):
up = 0
if (str(key)=="Down"):
down = 0
if (str(key)=="Escape" and done==1):
root.quit
do = 0
lives = -1
root.quit()
if (str(key)=="p"):
if(pause==1):
pause=0
elif(pause==0):
pause=1
def buttononit():
root.bind("<Up>",high)
root.bind("<Down>",low)
root.bind("`",leave)
root.bind('<KeyRelease>', offkeyrelease)
buttononit()

c.create_text(475,10,text='Lives:',fill='white',font=font)
livestext = c.create_text(525,10,text=lives,fill='white',font=font)
c.create_text(475,25,text='Score:',fill='white',font=font)
scoretext = c.create_text(525,25,text=score,fill='white',font=font)
print "Push 'p' to pause"
var=1

while (do):
##  player movement controls
if(playerone>0 and up==1 and down!=1 and pause==0):
playerone=playerone-5
if(playerone<360 and down==1 and up!=1 and pause==0):
playerone=playerone+5

##  player collision detection
if(ballX>=605 and ballY+10>=playerone and ballX<=616 and ballY+10>=playerone and ballY-10<=playerone+120):
xc*=-1
ballX=605
if(xc>-10):
xc=float(xc)-float(0.4)
if(yc>0):
yc=float(random.randint(15,70))
yc=float(yc)/float(10)
else:
yc=float(random.randint(-70,-15))
yc=float(yc)/float(10)

##  playertwo movement controls
if (playertwo>0 and high==1 and low!=1 and pause==0):
playertwo=playertwo+5
if (playertwo<360 and low==1 and high!=1 and pause==0):
playertwo=playertwo-5

##  playertwo collision detection
if(ballX<=40 and ballX>=29 and ballY+py2 and ballY-10<=py2+120):
xc*=-1
ballX=40
if(xc<10):
xc=float(xc)+float(0.4)
if(yc>0):
yc=float(random.randint(15,70))
yc=float(yc)/float(10)
else:
yc=float(random.randint(-70,-15))
yc=float(yc)/float(10)

##  left and right bounds collision detection (aka missed paddle)
if(ballX>=630 and xc>0):
ballX=320
ballY=240
xc = 2
yc = random.randint(-3,3)
while(yc==0):
yc = random.randint(-3,3)
lives = lives-1
escore=escore+1
if(ballX<=10 and xc<0):
ballX=320
ballY=240
xc = 2
yc = random.randint(-3,3)
while(yc==0):
yc = random.randint(-3,3)
score=score+1

##  top and bottom bounds colliison detection
if(playerone<0):
playerone=0
if(playerone>360):
playerone=360
if(ballY>=470 or ballY<=10):
yc*=-1

##  AI(artificial intelligence(ball)) movement controls
if(py2+60<ballY and py2<360 and xc<0 and pause==0):
py2=py2+4
if(py2+60>ballY and py2>0 and xc<0 and pause==0):
py2=py2-4
if(pause==0):
ballX=ballX+xc
ballY=ballY+yc
c.delete(ball)
ball = c.create_oval(ballX-10,ballY-10,ballX+10,ballY+10,fill='white')
c.delete(player)
player = c.create_rectangle(610,playerone,625,playerone+120,fill='blue')
c.delete(playertwo)

# to change the game to single player, remove the playerone's in the following line and replace them with py2's
# this are  the coordinates for the paddle
# the first playerone, tracks the position of the thing that the paddle is following
# 1#= how wide it is, 2# tracks the other object, 3# the width, 4# how tall the paddle is, 5# the color

playertwo = c.create_rectangle(15, playerone ,30,  playerone + 120 ,fill='blue')

c.delete(livestext)
livestext = c.create_text(525,10,text=lives,fill='white',font=font)
c.delete(scoretext)
scoretext = c.create_text(525,25,text=score,fill='white',font=font)
c.update()
time.sleep(Decimal("1")/Decimal("100"))
if(lives==0):
do=0
if(score > 0):
print score
done = 1
try:
c.update()
except:
print "Error"
root.quit
while(lives==0):
c.update()
try:
c.update()
except:
print "Error!!!"
root.quit
``````
-
I haven't investigated your code in any sort of thorough manner, but one issue that jumped out at me right away is that you're overwriting your `up` and `down` functions since those are also variable names. I'm not sure if it matters for their use as a callback, but it's probably something that should be fixed anyway. `do` is also a terrible variable name, even though it's not a keyword in python. –  Blckknght Aug 4 '12 at 2:06

Your code has been reworked into the following two-player game. The program has been reorganized into a variety of functions, classes, and methods. The controls are the same without an AI to play with.

``````from tkinter import *
from tkinter.font import Font
import functools
import math
import random
import time

################################################################################

class Pong(Canvas):

DEFAULTS = dict(width=640,
height=480,
background='black',
highlightthickness=0)

@classmethod
def main(cls):
root = Tk()
root.title('Pong')
root.resizable(False, False)
root.bind_all('<Escape>', lambda event: root.destroy())
game = cls(Font(family='Book Antiqua', size=15, weight='bold'), 5, 100,
background='black', width=640, height=480)
game.grid()
root.mainloop()

def __init__(self, font, lives, fps, master=None, cnf={}, **kw):
for item in self.DEFAULTS.items():
kw.setdefault(*item)
super().__init__(master, cnf, **kw)
self.font = font
self.height, 120, 15, 5)
self.p2 = Paddle(lives, 'blue', self.width - 10,
self.height, 120, 15, 5)
self.wait = 1000 // fps
self.separator = Box(Point(self.width // 2 - 2, 0),
Point(self.width // 2 + 2, self.height))
self.new_rect(self.separator, 'white')
self.bind('<p>', self.pause)
self.p1.bind(self, 'w', 's')
self.p2.bind(self, 'Up', 'Down')
self.draw_high = True
self.after_idle(self.startup)
self.focus_force()

def pause(self, event):
if not self.running_startup:
self.refresh = self.after_cancel(self.refresh) \
if self.refresh else self.after_idle(self.animate)

def startup(self, countdown=3, target=None):
if target is None:
self.running_startup = True
self.ball = Ball('white', self.width, self.height, 20)
self.refresh = None
target = time.clock() + countdown
self.draw_all()
remaining = math.ceil(target - time.clock())
if remaining:
self.new_text(Point(self.width >> 1, self.height >> 1),
self.random_color(), str(remaining), CENTER)
self.after(self.wait, self.startup, None, target)
else:
self.running_startup = False
self.after_idle(self.animate)

@classmethod
def random_color(cls):
return '#{:02X}{:02X}{:02X}'.format(*cls.random_bytes(3))

@staticmethod
def random_bytes(n):
return bytes(random.randrange(1 << 8) for _ in range(n))

def animate(self):
self.move_all()
if self.in_bounds():
self.draw_all()
self.refresh = self.after(self.wait, self.animate)

def move_all(self):
for obj in self.p1, self.p2, self.ball:
obj.move()
if obj is not self.ball:
obj.bounce(self.ball)

def in_bounds(self):
if self.boundary.intersects(self.ball.boundary):
return True
if (self.p2 if self.ball.position.x > 0 else self.p1).kill():
self.after_idle(self.startup)
else:
self.draw_all()
self.after(5000, self.quit)
return False

def draw_all(self):
self.delete('actor')
for obj in self.p1, self.p2, self.ball:
obj.render(self)
self.render_status()

def render_status(self, x_margin=4, y_margin=4):
self.draw_high = high = (self.ball.position.y > self.height * 0.25) \
if self.draw_high else \
(self.ball.position.y >= self.height * 0.75)
if high:
self.new_text(self.separator.NW + Point(-x_margin, +y_margin),
'white', self.p1.status, NE)
self.new_text(self.separator.NE + Point(+x_margin, +y_margin),
'white', self.p2.status, NW)
else:
self.new_text(self.separator.SW + Point(-x_margin, -y_margin),
'white', self.p1.status, SE)
self.new_text(self.separator.SE + Point(+x_margin, -y_margin),
'white', self.p2.status, SW)

def new_rect(self, box, color, tag='static'):
self.create_rectangle(box, fill=color, outline=color, tag=tag)

def new_oval(self, box, color, tag='static'):
self.create_oval(box, fill=color, outline=color, tag=tag)

def new_text(self, point, color, text, anchor, tag='actor'):
self.create_text(point, fill=color, tag=tag,
text=text, anchor=anchor, font=self.font)

@property
def width(self):
return int(self['width'])

@property
def height(self):
return int(self['height'])

@property
def boundary(self):
return Box(Point(0, 0), Point(self.width, self.height))

################################################################################

def enum(names):
return type('enum', (), dict(map(reversed, enumerate(
names.replace(',', ' ').split())), __slots__=()))()

def copy_sign(x, y):
return type(x)(math.copysign(x, y))

################################################################################

PART = enum('null, upper, center, lower')

def __init__(self, lives, color, alignment, board_height,
self.lives = lives
self.color = color
self.height = board_height
self.position = Point(alignment, board_height >> 1)
self.move_by = move_by
self.score = 0
self.just_bounced = False

def kill(self):
self.lives -= 1
self.score >>= 1
return self.lives > 0

def center(self):
y, middle = self.position.y, self.height >> 1
if y < middle:
self.move(down=True)
elif y > middle:
self.move(up=True)

def move(self, *, up=False, down=False):
if up or (not down and self.keys.up and
self.position.y - self.size.y > 0):
self.position -= Point(0, self.move_by)
if down or (not up and self.keys.down and
self.position.y + self.size.y < self.height):
self.position += Point(0, self.move_by)

def bounce(self, ball):
if self.position.x != ball.position.x and self.overlap(ball, minimum):
if not self.just_bounced:
self.just_bounced = True
self.score += abs(ball.velocity.y)
sign = +1 if self.position.x < ball.position.x else -1
if self.collision_area == self.PART.center:
ball.position.x = self.position.x + minimum * sign
else:
ball.velocity.x = copy_sign(ball.velocity.x, sign)
ball.change_speed()
else:
self.just_bounced = False

def overlap(self, ball, minimum):
box = self.boundary
if box.intersects(ball.boundary):
self.collision_area = self.PART.center
elif (self.hi_mid(box) - ball.position).magnitude <= minimum:
self.collision_area = self.PART.upper
elif (self.lo_mid(box) - ball.position).magnitude <= minimum:
self.collision_area = self.PART.lower
else:
self.collision_area = self.PART.null
return self.collision_area

def render(self, surface):
box = self.boundary
surface.new_rect(box, self.color, 'actor')
surface.new_oval(Box.from_point(self.hi_mid(box), self.size.x),
self.color, 'actor')
surface.new_oval(Box.from_point(self.lo_mid(box), self.size.x),
self.color, 'actor')

def hi_mid(self, boundary):
self.middle_point = Point(self.position.x, boundary.a.y)
return self.middle_point

def lo_mid(self, boundary):
self.middle_point = Point(self.position.x, boundary.b.y)
return self.middle_point

def bind(self, surface, up, down):
self.keys = KeyListener(surface, up=up, down=down)

@property
def boundary(self):
return Box.from_point(self.position, self.size)

@property
def status(self):
return 'Lives: {}\nScore: {}'.format(self.lives, self.score)

################################################################################

class KeyListener:

def __init__(self, widget, **kwargs):
self.__state = dict.fromkeys(kwargs, False)
for name, key in kwargs.items():
widget.bind('<KeyPress-{}>'.format(key), self.__set(name, True))
widget.bind('<KeyRelease-{}>'.format(key), self.__set(name, False))

def __set(self, name, value):
def handler(event):
self.__state[name] = value
return handler

def __getattr__(self, name):
return self.__state[name]

################################################################################

class Ball:

def __init__(self, color, width, height, size):
self.color = color
self.board = Point(width, height)
self.position = self.board / 2
self.velocity = Point(1 - 2 * random.randrange(2),
1 - 2 * random.randrange(2))
self.change_speed()

def change_speed(self, max_x=10, max_y=10):
speed = self.velocity
speed.x = copy_sign(random.randint(1, max_x), speed.x)
speed.y = copy_sign(random.randint(1, max_y), speed.y)

def move(self):
self.position += self.velocity
self.bounce()

def bounce(self):
if self.position.y - self.radius < 0:
self.velocity.y = copy_sign(self.velocity.y, +1)
self.change_speed()
elif self.position.y + self.radius > self.board.y:
self.velocity.y = copy_sign(self.velocity.y, -1)
self.change_speed()

def render(self, surface):
surface.new_oval(self.boundary, self.color, 'actor')

@property
def boundary(self):

################################################################################

def autocast(function):
@functools.wraps(function)
def cast(self, other):
if not isinstance(other, self.__class__):
other = self.__class__(other, other)
return function(self, other)
return cast

################################################################################

class Point(list):

def __init__(self, x, y):
super().__init__((x, y))

def __repr__(self):
return '{}({})'.format(self.__class__.__name__,
', '.join(map(repr, self)))

@autocast
return self.__class__(self.x + other.x, self.y + other.y)

@autocast
def __sub__(self, other):
return self.__class__(self.x - other.x, self.y - other.y)

@autocast
def __mul__(self, other):
return self.__class__(self.x * other.x, self.y * other.y)

@autocast
def __truediv__(self, other):
return self.__class__(self.x / other.x, self.y / other.y)

@autocast
def __floordiv__(self, other):
return self.__class__(self.x // other.x, self.y // other.y)

@autocast
self.x += other.x
self.y += other.y
return self

@autocast
def __isub__(self, other):
self.x -= other.x
self.y -= other.y
return self

def __get_x(self):
return self[0]

def __set_x(self, value):
self[0] = value

x = property(__get_x, __set_x)

def __get_y(self):
return self[1]

def __set_y(self, value):
self[1] = value

y = property(__get_y, __set_y)

def __get_magnitude(self):
return math.hypot(self.x, self.y)

def __set_magnitude(self, value):
magnitude = self.magnitude
self.x *= value / magnitude
self.y *= value / magnitude

magnitude = property(__get_magnitude, __set_magnitude)

vector = self - projected_from
vector.magnitude = distance
self.x = round(projected_from.x + vector.x)
self.y = round(projected_from.y + vector.y)

################################################################################

class Box(list):

@classmethod
def from_point(cls, point, extension):
return cls(point - extension, point + extension)

def __init__(self, a, b):
super().__init__((a, b))

def __repr__(self):
return '{}({})'.format(self.__class__.__name__,
', '.join(map(repr, self)))

def intersects(self, other):
return not (self.a.x > other.b.x or other.a.x > self.b.x or
self.a.y > other.b.y or other.a.y > self.b.y)

def __get_a(self):
return self[0]

def __set_a(self, value):
self[0] = value

a = NW = property(__get_a, __set_a)

def __get_b(self):
return self[1]

def __set_b(self, value):
self[1] = value

b = SE = property(__get_b, __set_b)

@property
def NE(self):
return Point(self.b.x, self.a.y)

@property
def SW(self):
return Point(self.a.x, self.b.y)

################################################################################

if __name__ == '__main__':
Pong.main()
``````

Edit: In designing the scoring system, it did not make sense to have a score and lives. If a player's score is incremented by one when the opponent looses, scores could be dropped, and the winner would be the person who did not loose all lives. If a player's score is incremented by one each time the ball is hit, both players will have nearly identical scores throughout the game, and the scores are fairly meaningless.

I chose to increment a player's score based on an approximation of how difficult the ball was to hit. If the ball happened to have a vertical movement of five and the player hits the ball, then the player's score is incremented by five. To add further incentive not to loose lives, a player's score is halved upon loosing a life. That also provides ample opportunity for the other player to catch up in scoring.

As for the weird bouncing, the ball will have a random change in speed each time it hits an object. The reason for this is that if the ball stayed at the same speed and bounced normally, it would be very easy to predict where the ball was going to go, and the game would be too easy. If the player finds no challenge in the game, being bored and invincible would lead to rapid abandonment of the game.

The status display moves to the opposite side of the board when the ball gets close enough so that the status and ball never end up on top of each other, confusing potential players. The change is triggered by the ball's moving up past 25% screen height or the ball's moving down past 75% screen height. If there is anything that you feel should be different about the game, please consider learning Python so that you can modify the game yourself.

-
you should have commented it, no way he is going to understand that –  iKlsR Aug 7 '12 at 13:12
After I fixed he importing errors, it gave me Traceback (most recent call last): File "Untitled", line 435 Pong.main() File "Untitled", line 24, in main backgound='black', width=640, height=480) File "Untitled", line 31, in init super().__init__(master, cnf, **kw) TypeError: super() takes at least 1 argument (0 given) And I don't know what it means or how to fix it. –  Alex A Aug 7 '12 at 15:58
Try running the code with the latest version of Python (3.2.3), and you should not need to make any changes to get it working. –  Noctis Skytower Aug 7 '12 at 16:18
That's sick but the score and lives move up and down, and it gets messed up after like a minute the score was like 33 to 14, and the last complaint sorry, is that the direction of the ball after it hits one of the side is not the exact opposite, like if it hits the side it does all this crazy movements. But thanks for the help its sick. –  Alex A Aug 7 '12 at 17:05
Hopefully, the explanation added after the code in the edit will explain some of the game's bizarre behavior. I wanted to write Pong according to your code but also add my own design that would set it apart from other implementations. –  Noctis Skytower Aug 7 '12 at 18:55
show 1 more comment