import pygame
import sys
import random
from math import *
pygame.init()
width = 600
height = 400
display = pygame.display.set_mode((width, height))
pygame.display.set_caption("Pong the Game")
clock = pygame.time.Clock()
background = (27, 38, 49)
white = (236, 240, 241)
red = (203, 67, 53)
blue = (52, 152, 219)
yellow = (244, 208, 63)
top = white
bottom = white
left = white
right = white
margin = 4
scoreLeft = 0
scoreRight = 0
maxScore = 20
font = pygame.font.SysFont("Small Fonts", 30)
largeFont = pygame.font.SysFont("Small Fonts", 60)
def boundary():
global top, bottom, left, right
pygame.draw.rect(display, left, (0, 0, margin, height))
pygame.draw.rect(display, top, (0, 0, width, margin))
pygame.draw.rect(display, right, (width-margin, 0, margin, height))
pygame.draw.rect(display, bottom, (0, height - margin, width, margin))
l = 25
pygame.draw.rect(display, white, (width/2-margin/2, 10, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 60, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 110, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 160, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 210, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 260, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 310, margin, l))
pygame.draw.rect(display, white, (width/2-margin/2, 360, margin, l))
class Paddle:
def __init__(self, position):
self.w = 10
self.h = self.w*8
self.paddleSpeed = 6
if position == -1:
self.x = 1.5*margin
else:
self.x = width - 1.5*margin - self.w
self.y = height/2 - self.h/2
def show(self):
pygame.draw.rect(display, white, (self.x, self.y, self.w, self.h))
def move(self, ydir):
self.y += self.paddleSpeed*ydir
if self.y < 0:
self.y -= self.paddleSpeed*ydir
elif self.y + self.h> height:
self.y -= self.paddleSpeed*ydir
leftPaddle = Paddle(-1)
rightPaddle = Paddle(1)
class Ball:
def __init__(self, color):
self.r = 20
self.x = width/2 - self.r/2
self.y = height/2 -self.r/2
self.color = color
self.angle = random.randint(-75, 75)
if random.randint(0, 1):
self.angle += 180
self.speed = 8
def show(self):
pygame.draw.ellipse(display, self.color, (self.x, self.y, self.r, self.r))
def move(self):
global scoreLeft, scoreRight
self.x += self.speed*cos(radians(self.angle))
self.y += self.speed*sin(radians(self.angle))
if self.x + self.r > width - margin:
scoreLeft += 1
self.angle = 180 - self.angle
if self.x < margin:
scoreRight += 1
self.angle = 180 - self.angle
if self.y < margin:
self.angle = - self.angle
if self.y + self.r >=height - margin:
self.angle = - self.angle
def checkForPaddle(self):
if self.x < width/2:
if leftPaddle.x < self.x < leftPaddle.x + leftPaddle.w:
if leftPaddle.y < self.y < leftPaddle.y + 10 or leftPaddle.y < self.y + self.r< leftPaddle.y + 10:
self.angle = -45
if leftPaddle.y + 10 < self.y < leftPaddle.y + 20 or leftPaddle.y + 10 < self.y + self.r< leftPaddle.y + 20:
self.angle = -30
if leftPaddle.y + 20 < self.y < leftPaddle.y + 30 or leftPaddle.y + 20 < self.y + self.r< leftPaddle.y + 30:
self.angle = -15
if leftPaddle.y + 30 < self.y < leftPaddle.y + 40 or leftPaddle.y + 30 < self.y + self.r< leftPaddle.y + 40:
self.angle = -10
if leftPaddle.y + 40 < self.y < leftPaddle.y + 50 or leftPaddle.y + 40 < self.y + self.r< leftPaddle.y + 50:
self.angle = 10
if leftPaddle.y + 50 < self.y < leftPaddle.y + 60 or leftPaddle.y + 50 < self.y + self.r< leftPaddle.y + 60:
self.angle = 15
if leftPaddle.y + 60 < self.y < leftPaddle.y + 70 or leftPaddle.y + 60 < self.y + self.r< leftPaddle.y + 70:
self.angle = 30
if leftPaddle.y + 70 < self.y < leftPaddle.y + 80 or leftPaddle.y + 70 < self.y + self.r< leftPaddle.y + 80:
self.angle = 45
else:
if rightPaddle.x + rightPaddle.w > self.x + self.r > rightPaddle.x:
if rightPaddle.y < self.y < leftPaddle.y + 10 or leftPaddle.y < self.y + self.r< leftPaddle.y + 10:
self.angle = -135
if rightPaddle.y + 10 < self.y < rightPaddle.y + 20 or rightPaddle.y + 10 < self.y + self.r< rightPaddle.y + 20:
self.angle = -150
if rightPaddle.y + 20 < self.y < rightPaddle.y + 30 or rightPaddle.y + 20 < self.y + self.r< rightPaddle.y + 30:
self.angle = -165
if rightPaddle.y + 30 < self.y < rightPaddle.y + 40 or rightPaddle.y + 30 < self.y + self.r< rightPaddle.y + 40:
self.angle = 170
if rightPaddle.y + 40 < self.y < rightPaddle.y + 50 or rightPaddle.y + 40 < self.y + self.r< rightPaddle.y + 50:
self.angle = 190
if rightPaddle.y + 50 < self.y < rightPaddle.y + 60 or rightPaddle.y + 50 < self.y + self.r< rightPaddle.y + 60:
self.angle = 165
if rightPaddle.y + 60 < self.y < rightPaddle.y + 70 or rightPaddle.y + 60 < self.y + self.r< rightPaddle.y + 70:
self.angle = 150
if rightPaddle.y + 70 < self.y < rightPaddle.y + 80 or rightPaddle.y + 70 < self.y + self.r< rightPaddle.y + 80:
self.angle = 135
def showScore():
leftScoreText = font.render("Score : " + str(scoreLeft), True, red)
rightScoreText = font.render("Score : " + str(scoreRight), True, blue)
display.blit(leftScoreText, (3*margin, 3*margin))
display.blit(rightScoreText, (width/2 + 3*margin, 3*margin))
def gameOver():
if scoreLeft == maxScore or scoreRight == maxScore:
while True:
for event in pygame.event.get():
if event.type == pygame.QUIT:
close()
if event.type == pygame.KEYDOWN:
if event.key == pygame.K_q:
close()
if event.key == pygame.K_r:
reset()
if scoreLeft == maxScore:
playerWins = largeFont.render("Left Player Wins!", True, red)
elif scoreRight == maxScore:
playerWins = largeFont.render("Right Player Wins!", True, blue)
display.blit(playerWins, (width/2 - 100, height/2))
pygame.display.update()
def reset():
global scoreLeft, scoreRight
scoreLeft = 0
scoreRight = 0
board()
def close():
pygame.quit()
sys.exit()
def board():
loop = True
leftChange = 0
rightChange = 0
ball = Ball(yellow)
while loop:
for event in pygame.event.get():
if event.type == pygame.QUIT:
close()
if event.type == pygame.KEYDOWN:
if event.key == pygame.K_q:
close()
if event.key == pygame.K_SPACE or event.key == pygame.K_p:
Pause()
if event.key == pygame.K_r:
reset()
if event.key == pygame.K_w:
leftChange = -1
if event.key == pygame.K_s:
leftChange = 1