Python Games
Snake Game
#Snake Tutorial Python
import math
import random
import pygame
import tkinter as tk
from tkinter import messagebox
class cube(object):
rows = 20
w = 500
def __init__(self,start,dirnx=1,dirny=0,color=(255,0,0)):
self.pos = start
self.dirnx = 1
self.dirny = 0
self.color = color
def move(self, dirnx, dirny):
self.dirnx = dirnx
self.dirny = dirny
self.pos = (self.pos[0] + self.dirnx, self.pos[1] + self.dirny)
def draw(self, surface, eyes=False):
dis = self.w // self.rows
i = self.pos[0]
j = self.pos[1]
pygame.draw.rect(surface, self.color, (i*dis+1,j*dis+1, dis-2, dis-2))
if eyes:
centre = dis//2
radius = 3
circleMiddle = (i*dis+centre-radius,j*dis+8)
circleMiddle2 = (i*dis + dis -radius*2, j*dis+8)
pygame.draw.circle(surface, (0,0,0), circleMiddle, radius)
pygame.draw.circle(surface, (0,0,0), circleMiddle2, radius)
class snake(object):
body = []
turns = {}
def __init__(self, color, pos):
self.color = color
self.head = cube(pos)
self.body.append(self.head)
self.dirnx = 0
self.dirny = 1
def move(self):
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
keys = pygame.key.get_pressed()
for key in keys:
if keys[pygame.K_LEFT]:
self.dirnx = -1
self.dirny = 0
self.turns[self.head.pos[:]] = [self.dirnx, self.dirny]
elif keys[pygame.K_RIGHT]:
self.dirnx = 1
self.dirny = 0
self.turns[self.head.pos[:]] = [self.dirnx, self.dirny]
elif keys[pygame.K_UP]:
self.dirnx = 0
self.dirny = -1
self.turns[self.head.pos[:]] = [self.dirnx, self.dirny]
elif keys[pygame.K_DOWN]:
self.dirnx = 0
self.dirny = 1
self.turns[self.head.pos[:]] = [self.dirnx, self.dirny]
for i, c in enumerate(self.body):
p = c.pos[:]
if p in self.turns:
turn = self.turns[p]
c.move(turn[0],turn[1])
if i == len(self.body)-1:
self.turns.pop(p)
else:
if c.dirnx == -1 and c.pos[0] <= 0: c.pos = (c.rows-1, c.pos[1])
elif c.dirnx == 1 and c.pos[0] >= c.rows-1: c.pos = (0,c.pos[1])
elif c.dirny == 1 and c.pos[1] >= c.rows-1: c.pos = (c.pos[0], 0)
elif c.dirny == -1 and c.pos[1] <= 0: c.pos = (c.pos[0],c.rows-1)
else: c.move(c.dirnx,c.dirny)
def reset(self, pos):
self.head = cube(pos)
self.body = []
self.body.append(self.head)
self.turns = {}
self.dirnx = 0
self.dirny = 1
def addCube(self):
tail = self.body[-1]
dx, dy = tail.dirnx, tail.dirny
if dx == 1 and dy == 0:
self.body.append(cube((tail.pos[0]-1,tail.pos[1])))
elif dx == -1 and dy == 0:
self.body.append(cube((tail.pos[0]+1,tail.pos[1])))
elif dx == 0 and dy == 1:
self.body.append(cube((tail.pos[0],tail.pos[1]-1)))
elif dx == 0 and dy == -1:
self.body.append(cube((tail.pos[0],tail.pos[1]+1)))
self.body[-1].dirnx = dx
self.body[-1].dirny = dy
def draw(self, surface):
for i, c in enumerate(self.body):
if i ==0:
c.draw(surface, True)
else:
c.draw(surface)
def drawGrid(w, rows, surface):
sizeBtwn = w // rows
x = 0
y = 0
for l in range(rows):
x = x + sizeBtwn
y = y + sizeBtwn
pygame.draw.line(surface, (255,255,255), (x,0),(x,w))
pygame.draw.line(surface, (255,255,255), (0,y),(w,y))
def redrawWindow(surface):
global rows, width, s, snack
surface.fill((0,0,0))
s.draw(surface)
snack.draw(surface)
drawGrid(width,rows, surface)
pygame.display.update()
def randomSnack(rows, item):
positions = item.body
while True:
x = random.randrange(rows)
y = random.randrange(rows)
if len(list(filter(lambda z:z.pos == (x,y), positions))) > 0:
continue
else:
break
return (x,y)
def message_box(subject, content):
root = tk.Tk()
root.attributes("-topmost", True)
root.withdraw()
messagebox.showinfo(subject, content)
try:
root.destroy()
except:
pass
def main():
global width, rows, s, snack
width = 500
rows = 20
win = pygame.display.set_mode((width, width))
s = snake((255,0,0), (10,10))
snack = cube(randomSnack(rows, s), color=(0,255,0))
flag = True
clock = pygame.time.Clock()
while flag:
pygame.time.delay(50)
clock.tick(10)
s.move()
if s.body[0].pos == snack.pos:
s.addCube()
snack = cube(randomSnack(rows, s), color=(0,255,0))
for x in range(len(s.body)):
if s.body[x].pos in list(map(lambda z:z.pos,s.body[x+1:])):
print('Score: ', len(s.body))
message_box('You Lost!', 'Play again...')
s.reset((10,10))
break
redrawWindow(win)
pass
main()
STONE PAPER SCISSOR GAME
import random
print("\t\t\t-----------------STONE PAPER SCISSOR GAME ------------------\n")
##Computer choice area
randNo=random.randint(1,3)
if randNo==1:
computer_choice='s'
elif randNo==2:
computer_choice='p'
elif randNo==3:
computer_choice='x'
## Taking user input and converting it into lower case
user_input=input("Choices:\n Stone (s) \n Paper(p) \n Scissor(x) \nEnter your choice -->")
user_choice=user_input.lower()
## Making function for comparing computer_choice and user_choice
def userwin(computer_choice,user_choice):
if computer_choice==user_choice:
return None
if computer_choice=='s':
if user_choice=='x':
return False
elif user_choice=='p':
return True
if computer_choice=='p':
if user_choice=='s':
return False
elif user_choice=='x':
return True
if computer_choice=='x':
if user_choice=='p':
return False
elif user_choice=='p':
return True
##Calling compare function
calling_compare_function=userwin(computer_choice,user_choice)
##Printing computer and user choices
print("\n\n---------Arena-----------")
print(f"Computer chose--> {computer_choice}")
print(f"User chose--> {user_choice}")
##Calling compare function and finding who won
if calling_compare_function==None:
print("Game is Tied!")
elif calling_compare_function==True:
print("You won!")
else:
print("You lose!")
OUTPUT:
Choices:
Stone (s)
Paper(p)
Scissor(x)
Enter your choice -->p
---------Arena-----------
Computer chose--> p
User chose--> p
Game is Tied!
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