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Copy pathTic Tac Toe (Human vs Computer) (Easy).py
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Tic Tac Toe (Human vs Computer) (Easy).py
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#Tic Tac Toe Game Using Turtle Module Human vs AI (easy)
#By Kaustubh Kulkarni
import turtle as t
from random import choice
#Window
wn = t.Screen()
wn.title("Tic Tac Toe")
wn.bgcolor("#14BDAC")
wn.setup(width=500, height=500)
#Winning variable
play=True
# grid lists lists
grid_list = ["00","01", "02", "10", "11", "12", "20", "21", "22"]
#Dictionary
dictionary = {"00":(-110,-25), "01":(0,-25), "02":(110, -25),
"10":(-110,-135), "11":(0,-135), "12":(110, -135),
"20":(-110,-245), "21":(0,-245), "22":(110, -245),
}
#Cell Variables
grid=[[0,0,0],[0,0,0],[0,0,0]]
#Grid Pen: This turtle gives the title and draws the grid.
#The Title: Tic tac Toe
grid_pen = t.Turtle()
grid_pen.ht()
grid_pen.penup()
grid_pen.speed(0)
grid_pen.goto(0,190)
grid_pen.color("#FFFFFF")
grid_pen.write("Tac ", align="center", font=("Sans serif", 30, "normal"))
grid_pen.color("#545454")
grid_pen.write("Tic Toe", align="center", font=("Sans serif", 30, "normal"))
#Grid drawing
grid_pen.ht()
grid_pen.color("#0DA192")
grid_pen.pensize(10)
grid_pen.speed(0)
grid_pen.penup()
grid_pen.goto(-55,-220)
grid_pen.pendown()
grid_pen.lt(90)
grid_pen.fd(320)
grid_pen.penup()
grid_pen.goto(55,100)
grid_pen.rt(180)
grid_pen.pendown()
grid_pen.fd(320)
grid_pen.penup()
grid_pen.goto(160,-115)
grid_pen.rt(90)
grid_pen.pendown()
grid_pen.fd(320)
grid_pen.penup()
grid_pen.goto(-160,-5)
grid_pen.rt(180)
grid_pen.pendown()
grid_pen.fd(320)
#Status Turtle
status = t.Turtle()
status.ht()
status.penup()
status.color("#545454")
status.speed(0)
#Reset Turtle
reset = t.Turtle()
reset.ht()
reset.penup()
reset.color("#545454")
reset.speed(0)
reset.goto(160,140)
reset.write("Reset", align="right", font=("Sans serif", 20, "normal"))
#XO Pen
xo_pen = t.Turtle()
xo_pen.ht()
xo_pen.color("#545454")
xo_pen.penup()
xo_pen.speed(0)
# Click function
def clk(x, y):
global grid
global play
global grid_list
def x_winner():
global play
play=False
status.clear()
status.goto(-160,131)
status.color("#545454")
status.write("×", align="left", font=("Sans serif", 30, "normal"))
status.goto(-160,140)
status.write(" Won!", align="left", font=("Sans serif", 20, "normal"))
def o_winner():
global play
play=False
status.clear()
status.goto(-160,131)
status.color("#FFFFFF")
status.write("○", align="left", font=("Sans serif", 35, "normal"))
status.goto(-160,140)
status.write(" Won!", align="left", font=("Sans serif", 20, "normal"))
def game_draw():
status.clear()
status.color("#545454")
status.goto(-160,140)
status.write("Draw!", align="left", font=("Sans serif", 20, "normal"))
def AI_writes():
# AI writes o
try :
cell = choice(grid_list)
grid[int(cell[0])][int(cell[1])] = "○"
xo_pen.color("#FFFFFF")
xo_pen.goto(dictionary[cell])
xo_pen.write("○", align="center", font=("Sans serif", 110, "bold"))
grid_list.remove(cell)
except IndexError or ValueError:
pass
#O Winner
if grid[0][0]=="○" and grid[0][1]=="○" and grid[0][2]=="○":
o_winner()
xo_pen.goto(-160,50)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,50)
xo_pen.penup()
if grid[1][0]=="○" and grid[1][1]=="○" and grid[1][2]=="○":
o_winner()
xo_pen.goto(-160,-60)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,-60)
xo_pen.penup()
if grid[2][0]=="○" and grid[2][1]=="○" and grid[2][2]=="○":
o_winner()
xo_pen.goto(-160,-170)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,-170)
xo_pen.penup()
if grid[0][0]=="○" and grid[1][0]=="○" and grid[2][0]=="○":
o_winner()
xo_pen.goto(-110,100)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(-110,-220)
xo_pen.penup()
if grid[0][1]=="○" and grid[1][1]=="○" and grid[2][1]=="○":
o_winner()
x_winner()
xo_pen.goto(0,100)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(0,-220)
if grid[0][2]=="○" and grid[1][2]=="○" and grid[2][2]=="○":
o_winner()
xo_pen.goto(110,100)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(110,-220)
xo_pen.penup()
if grid[0][0]=="○" and grid[1][1]=="○" and grid[2][2]=="○":
o_winner()
xo_pen.goto(-160,100)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,-220)
xo_pen.penup()
if grid[2][0]=="○" and grid[1][1]=="○" and grid[0][2]=="○":
o_winner()
xo_pen.goto(160,100)
xo_pen.color("#FFFFFF")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(-160,-220)
xo_pen.penup()
#draw xo function
def draw_xo():
if play:
# Write x
xo_pen.color("#545454")
xo_pen.write("×", align="center", font=("Sans serif", 100, "normal"))
#X Winner
if grid[0][0]=="×" and grid[0][1]=="×" and grid[0][2]=="×":
x_winner()
xo_pen.goto(-160,50)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,50)
xo_pen.penup()
if grid[1][0]=="×" and grid[1][1]=="×" and grid[1][2]=="×":
x_winner()
xo_pen.goto(-160,-60)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,-60)
xo_pen.penup()
if grid[2][0]=="×" and grid[2][1]=="×" and grid[2][2]=="×":
x_winner()
xo_pen.goto(-160,-170)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,-170)
xo_pen.penup()
if grid[0][0]=="×" and grid[1][0]=="×" and grid[2][0]=="×":
x_winner()
xo_pen.goto(-110,100)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(-110,-220)
xo_pen.penup()
if grid[0][1]=="×" and grid[1][1]=="×" and grid[2][1]=="×":
x_winner()
xo_pen.goto(0,100)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(0,-220)
xo_pen.penup()
if grid[0][2]=="×" and grid[1][2]=="×" and grid[2][2]=="×":
x_winner()
xo_pen.goto(110,100)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(110,-220)
xo_pen.penup()
if grid[0][0]=="×" and grid[1][1]=="×" and grid[2][2]=="×":
x_winner()
xo_pen.goto(-160,100)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(160,-220)
xo_pen.penup()
if grid[2][0]=="×" and grid[1][1]=="×" and grid[0][2]=="×":
x_winner()
xo_pen.goto(160,100)
xo_pen.color("#545454")
xo_pen.pensize(10)
xo_pen.pendown()
xo_pen.goto(-160,-220)
xo_pen.penup()
if grid[0][0]!=0 and grid[0][1]!=0 and grid[0][2]!=0 and grid[1][0]!=0 and grid[1][1]!=0 and grid[1][2]!=0 and grid[2][0]!=0 and grid[2][1]!=0 and grid[2][2]!=0 and play==True:
game_draw()
if play:
AI_writes()
# Reset
if x>80 and x<164 and y>140 and y<175:
xo_pen.clear()
grid=[[0,0,0],[0,0,0],[0,0,0]]
grid_list = ["00","01", "02", "10", "11", "12", "20", "21", "22"]
play=True
status.clear()
status.color("#545454")
# Drawing x on click
try:
if x>-160 and x<-60 and y>0 and y<100 and grid[0][0]==0:
xo_pen.goto(-110,-25)#50
grid[0][0]="×"
grid_list.remove("00")
draw_xo()
if x>-50 and x<50 and y>0 and y<100 and grid[0][1]==0:
xo_pen.goto(0,-25)
grid[0][1]="×"
grid_list.remove("01")
draw_xo()
if x>60 and x<160 and y>0 and y<100 and grid[0][2]==0:
xo_pen.goto(110,-25)
grid[0][2]="×"
grid_list.remove("02")
draw_xo()
if x>-160 and x<-60 and y>-110 and y<-10 and grid[1][0]==0:
xo_pen.goto(-110,-135)
grid[1][0]="×"
grid_list.remove("10")
draw_xo()
if x>-50 and x<50 and y>-110 and y<-10 and grid[1][1]==0:
xo_pen.goto(0,-135)
grid[1][1]="×"
grid_list.remove("11")
draw_xo()
if x>60 and x<160 and y>-110 and y<-10 and grid[1][2]==0:
xo_pen.goto(110,-135)
grid[1][2]="×"
grid_list.remove("12")
draw_xo()
if x>-160 and x<-60 and y>-220 and y<-120 and grid[2][0]==0:
xo_pen.goto(-110,-245)
grid[2][0]="×"
grid_list.remove("20")
draw_xo()
if x>-50 and x<50 and y>-220 and y<-120 and grid[2][1]==0:
xo_pen.goto(0,-245)
grid[2][1]="×"
grid_list.remove("21")
draw_xo()
if x>60 and x<160 and y>-220 and y<-120 and grid[2][2]==0:
xo_pen.goto(110,-245)
grid[2][2]="×"
grid_list.remove("22")
draw_xo()
except ValueError:
pass
#Listening to mouse click
t.onscreenclick(clk)
t.listen()
t.done()