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I've been making the snake game, but when I run it, it performs like it should, but withown the tkinter window shown. When I delete the 'while' cycle, it shows the window, but without anything inside because the visualization is inside the cycle. I use pycharm pro 2021.3.2, and python 3.9. Here is my code:

from tkinter import *
import random as rm
import time
import keyboard as kb

# Creating the window and the canvas
root = Tk()
root.geometry("390x390")
root.resizable(False, False)

c = Canvas(root, width=390, height=390, bg="white")
c.pack()

#Creating lists of all possible x and y coordinates
board = []
for i in range(39):
    for j in range(39):
        board.append([i, j])





# Creating the Snake class
class Snake:
    def __init__(self):
        # Initializating:
        self.head_cords = [20, 20]    # A list that contains the x and the y coordinate of the Snake head
        self.body_cords = [[17, 20], [18, 20], [19, 20]]    # A list with smaller lists with coordinates of each Snake block
        self.direction = "right"    # The directions the Snake is facing
        self.lenght = 4    # The Snake length (Not the game score, that is the number of eaten Apples, but the number of the Snake blocks + 1 for the head)

    def move(self):
        # Creating the movement function

        # Movineg the body
        self.body_cords.pop(0)
        self.body_cords.append(self.head_cords)

        # Moving the head according to the Snake direction
        if self.direction == "up":
            self.head_cords[1] = self.head_cords[1] - 1
        if self.direction == "down":
            self.head_cords[1] = self.head_cords[1] + 1
        if self.direction == "left":
            self.head_cords[0] = self.head_cords[0] - 1
        if self.direction == "right":
            self.head_cords[0] = self.head_cords[0] + 1

    def check_dead(self):
        # Creating the function to check if the Snake is dead basing on 2 conditions:

        # 1: If the Snake hits the wall
        if self.head_cords[0] > 39 or self.head_cords[0] < 1 or self.head_cords[1] > 39 or self.head_cords[1] < 1:
            return True
        # 2: If the Snake hits itself
        elif self.head_cords in self.body_cords:
            return True
        else:
            return False

    def grow(self):
        # Creating the growth function (it will be called if the Snake eats an Apple)
        self.body_cords.insert(0, [self.body_cords[0][0], self.body_cords[0][1]])

Jordan = Snake()    # Creating an instance of the Snake class


# Creating the Apple class
class Apple:
    def __init__(self):
        # Initializating the x and the y coordinates


        # To place the Apple somewhere on the board, we should check which cells are already occupied by the Snake
        snake_positions = []
        for pos in Jordan.body_cords:
            snake_positions.append(pos)
        snake_positions.append(Jordan.head_cords)


        # Then we choose which cells are not occupied by the Snake
        possinle_positions = []
        for pos in board:
            if pos in snake_positions:
                pass
            else:
                possinle_positions.append(pos)

        # And choose one of them randomly
        rm.choice(possinle_positions)
        self.pos = rm.choice(possinle_positions)

    def check_eaten(self):
        # Creating the function to check if the Apple it eaten by the Snake
        if Jordan.head_cords == self.pos:
            return True
        else:
            return False

    def __del__(self):
        # Creating the Apple delete function
        print("+1 Apple")



nessy = Apple()    # Creating an instance of the Apple class


# Creating the visualization function
def visualizate():

    # Clearing everything
    c.create_rectangle(0, 0, 390, 390, fill="white")

    # Visualizing the Snake

    # Head
    c.create_rectangle(Jordan.head_cords[0]*10-9, Jordan.head_cords[0]*10, Jordan.head_cords[1]*10-9, Jordan.head_cords[1]*10,
                       fill="yellow", outline="black", width=2)
    # Body
    for block in Jordan.body_cords:
        c.create_rectangle(block[0]*10-9, block[0]*10, block[1]*10-9, block[1]*10, fill="yellow", outline="white", width=2)

    # Visualizing the Apple
    c.create_rectangle(nessy.pos[0]*10-9, nessy.pos[0]*10, nessy.pos[1]*10-9, nessy.pos[1]*10, fill="red", outline="black", width=1)




# Creating the contlors

# If you are from stackoverflow - ignore the controls. They do nothing now
def change_direction(id):
    if id == 1:
        Jordan.direction = "up"
    if id == 2:
        Jordan.direction = "down"
    if id == 3:
        Jordan.direction = "left"
    if id == 4:
        Jordan.direction = "right"

kb.add_hotkey("up", change_direction(1))
kb.add_hotkey("down", change_direction(2))
kb.add_hotkey("left", change_direction(3))
kb.add_hotkey("right", change_direction(4))



# The game cycle
while True:
    visualizate()    # Visualizing what we have

    # Checking if the Snake is dead
    if Jordan.check_dead():
        time.sleep(5)
        root.destroy()    #Closing 
        print("You died")
        break


    # Checking if the Apple is eaten
    if nessy.check_eaten():
        del nessy
        Jordan.grow()
        nessy = Apple()

    Jordan.move()

    print("move")
    time.sleep(1)










root.mainloop()
12
  • You didn't post any code. Aug 15 at 20:07
  • I didn't notice. Now everything is OK.
    – matveygal
    Aug 15 at 20:23
  • 1
    This is not a "minimal, verifiable, reproducible" code sample. There is far too much here for us to understand your problem, please distill it.
    – mdurant
    Aug 15 at 21:09
  • Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer.
    – Community Bot
    Aug 15 at 21:36
  • 1
    root.mainloop() is special loop which gets key/mouse events from system, sends them to widgets, update widgets and (re)draw all on screen. But your while True runs forever so it can't run mainloop(). You may have to run it loop in separated thread. OR inside loop you have to use root.update() to allow tkinter to execute one loop (and it update window). OR you should ure root.after(milliseconds, function) instead of while-loop and sleep() - to execute one loop periodically.
    – furas
    Aug 15 at 22:07

1 Answer 1

1

root.mainloop() is special loop which gets key/mouse events from system, sends them to widgets, update widgets and (re)draw all on screen. But your while True runs forever so it can't run mainloop(). You may have to run it loop in separated thread. Or inside loop you have to use root.update() to allow tkinter to execute one loop (and update window). Or you should use root.after(milliseconds, function) instead of while-loop and sleep() - to execute one loop periodically.

tkinter can bind() keys to functions and it doesn't need module keyboard (BTW: on my Linux module keyboard needs to run as root (admin))

If you would use change_direction("up") instead change_direction(1) then you could reduce function to def change_direction(direction): jordan.direction = direction. But as for me add_hotkey() may need function's name without () and without arguments - so called "callback" - or you would have to use lambda to create callback kb.add_hotkey("up", lambda:change_direction("up"))

You use wrong values in create_rectangle and it creates big rectangles with different sizes. You use create_rectangle to create white rectangle to remove previous elements but it doesn't remove previous rectangles from canvas but it only hides them behind white rectanlge - and in some moment you may have hundreds hidden rectangles - you should use canvas.delete('all'). OR you should keep object's ID - apple_id = c.create_rectange(...) - and later move objects to new place c.move(apple_id, ...)

Last problem: when you move then you append head to body but it is list with to elements and Python doesn't duplicate list when it append to other list but it send only reference and later when you change head's position then it change also position in body - it needs to use .copy() to append duplicated element self.body_cords.append(self.head_cords.copy())

EDIT: I also moved function change_direction() into Snake.change_direction()

EDIT: == gives True or False so in check_eaten() you can write shorter using single line return (jordan.head_cords == self.pos) without if/else


This code works for me

import tkinter as tk  # PE8: `import *` is not preferred
import random
import time

# --- classes ---  # PEP8: all classes directly after imports

# Creating the Snake class
class Snake:
    def __init__(self):
        # Initializating:
        self.head_cords = [20, 20]    # A list that contains the x and the y coordinate of the Snake head
        self.body_cords = [[17, 20], [18, 20], [19, 20]]    # A list with smaller lists with coordinates of each Snake block
        self.direction = "right"    # The directions the Snake is facing
        self.lenght = 4    # The Snake length (Not the game score, that is the number of eaten Apples, but the number of the Snake blocks + 1 for the head)

    def move(self):
        # Creating the movement function

        # Movineg the body
        self.body_cords.pop(0)
        self.body_cords.append(self.head_cords.copy())

        # Moving the head according to the Snake direction
        if self.direction == "up":
            self.head_cords[1] -= 1    # shorter with `-=` / `+=`
        if self.direction == "down":
            self.head_cords[1] += 1    # shorter with `-=` / `+=`
        if self.direction == "left":
            self.head_cords[0] -= 1    # shorter with `-=` / `+=`
        if self.direction == "right":
            self.head_cords[0] += 1    # shorter with `-=` / `+=`

    def check_dead(self):
        # Creating the function to check if the Snake is dead basing on 2 conditions:

        # 1: If the Snake hits the wall
        if self.head_cords[0] > 39 or self.head_cords[0] < 1 or self.head_cords[1] > 39 or self.head_cords[1] < 1:
            print('collide wall')
            return True
        # 2: If the Snake hits itself
        elif self.head_cords in self.body_cords:
            print('collide itself')
            return True
        else:
            return False

    def grow(self):
        # Creating the growth function (it will be called if the Snake eats an Apple)
        self.body_cords.insert(0, [self.body_cords[0][0], self.body_cords[0][1]])

    def change_direction(self, direction):
        self.direction = direction
        
# Creating the Apple class
class Apple:
    def __init__(self):
        # Initializating the x and the y coordinates

        # To place the Apple somewhere on the board, we should check which cells are already occupied by the Snake
        snake_positions = []
        for pos in jordan.body_cords:
            snake_positions.append(pos)
        snake_positions.append(jordan.head_cords)

        # Then we choose which cells are not occupied by the Snake
        possinle_positions = []
        for pos in board:
            if pos not in snake_positions:
                possinle_positions.append(pos)

        # And choose one of them randomly
        self.pos = random.choice(possinle_positions)

    def check_eaten(self):
        # Creating the function to check if the Apple it eaten by the Snake
        #if jordan.head_cords == self.pos:
        #    return True
        #else:
        #    return False
        return (jordan.head_cords == self.pos)  # `==` gives `True` or `False`

    def __del__(self):
        # Creating the Apple delete function
        print("+1 Apple")

# --- functions ---  # PEP8: all functions directly after classes

# Creating the visualization function
def visualizate():

    # Clearing everything
    #c.create_rectangle(0, 0, 390, 390, fill="white")
    c.delete('all')
    
    # Visualizing the Snake

    # Head
    x = jordan.head_cords[0]*10
    y = jordan.head_cords[1]*10
    c.create_rectangle(x-9, y-9, x, y, fill="green", outline="black", width=2)
    
    # Body
    for block in jordan.body_cords:
        x = block[0]*10
        y = block[1]*10
        c.create_rectangle(x-9, y-9, x, y, fill="yellow", outline="white", width=2)

    # Visualizing the Apple
    x = nessy.pos[0]*10
    y = nessy.pos[1]*10
    c.create_rectangle(x-9, y-9, x, y, fill="red", outline="black", width=1)

# --- main ---

# Creating the window and the canvas
root = tk.Tk()
root.geometry("390x390")
root.resizable(False, False)

c = tk.Canvas(root, width=390, height=390, bg="white")
c.pack()

# Creating lists of all possible x and y coordinates
board = []
for i in range(39):
    for j in range(39):
        board.append([i, j])

jordan = Snake()  # Creating an instance of the Snake class  # PEP8: `CamelCaseNames` only for classes - it helps to recognize class in code
nessy  = Apple()  # Creating an instance of the Apple class

root.bind("<Up>",    lambda event:jordan.change_direction("up"))
root.bind("<Down>",  lambda event:jordan.change_direction("down"))
root.bind("<Left>",  lambda event:jordan.change_direction("left"))
root.bind("<Right>", lambda event:jordan.change_direction("right"))

# The game cycle
while True:
    visualizate()    # Visualizing what we have

    print('check snake')
    # Checking if the Snake is dead
    if jordan.check_dead():
        print("You died")
        root.update()
        time.sleep(5)
        root.destroy()    # Closing 
        break

    print('check apple')
    # Checking if the Apple is eaten
    if nessy.check_eaten():
        del nessy
        jordan.grow()
        nessy = Apple()

    print("move")
    jordan.move()

    root.update()   # allow `mainloop()` to update window
    time.sleep(0.5)

#root.mainloop()  # no need if you use `root.update()`

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