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start_snake.py
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start_snake.py
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#!/usr/bin/python3
# coding: utf-8
'''
Игра разработана Голубых Иваном Борисовичем.
Официальный сайт игры:
https://github.com/ivangolubykh/python-snake
'''
from tkinter import *
from enum import Enum
import time
import random
class python_snake: # Двигать тело змеюки в текущую сторону на 1 шаг
# При этом тело может увеличиться (add='add') в размерах или нет
def __init__(self, window, canv_x, canv_y, canv_width, canv_height):
self.__started = 1
self.__spped = 10
self.__window = window
self.__canv_x = canv_x
self.__canv_y = canv_y
self.canv_width = canv_width
self.canv_height = canv_height
self.__snake_x = self.canv_width // 2 # Координата старта змеи
self.__snake_y = self.canv_height // 2 # Координата старта змеи
self.canv = Canvas(self.__window, width=self.canv_width,
height=self.canv_height,
bg=self.CONST.CANVAS_BGCOLOR.value)
self.canv.place(x=self.__canv_x, y=self.__canv_y)
self.create_head_food()
self.__window.bind('<d>',self.right)
self.__window.bind('<D>',self.right)
self.__window.bind('<Right>',self.right)
self.__window.bind('<s>',self.down)
self.__window.bind('<S>',self.down)
self.__window.bind('<Down>',self.down)
self.__window.bind('<a>',self.left)
self.__window.bind('<A>',self.left)
self.__window.bind('<Left>',self.left)
self.__window.bind('<w>',self.up)
self.__window.bind('<W>',self.up)
self.__window.bind('<Up>',self.up)
self.__window.bind('<e>',self.move)
self.__window.bind('<q>',self.quit)
self.__window.bind('<Destroy>',self.quit)
self.__window.bind('<plus>',self.speed_key)
self.__window.bind('<minus>',self.speed_key)
self.__window.bind('<KP_Add>',self.speed_key) # Клавиша + на боковой клаве
self.__window.bind('<KP_Subtract>',self.speed_key) # Клавиша - на боковой клаве
# self.__window.bind('<KeyPress>',self.speed_key) # print(event.keysym) Вычислит нажатую клавишу
class CONST(Enum): # Список возможных направлений движения и других констант
RIGHT = 1
DOWN = 2
LEFT = 3
UP = 4
SNAKE_HCOLOR = 'red' # Цвет головы змейки
SNAKE_BCOLOR = 'green' # Цвет тела змейки
CANVAS_BGCOLOR = '#bfcff1' # Цвет фона холста
SNAKE_THICKNESS = 11 # Толщина тела змейки (нечётное число)
FOOD_THICKNESS = 15 # Толщина еды (нечётное число)
FOOD_COLOR = '#aced95' # Цвет тела еды
EXPLOSIVE = 15 # Диаметр взрыва при столкновении змеи с препятствием (нечётное число)
EXPLOSIVE_BORD = 10 # толщина контура взрыва при столкновении змеи с препятствием
EXPLOSIVE_BCOLOR = '#ff9999' # Цвет тела взрыва
EXPLOSIVE_CCOLOR = '#881a1a' # Цвет контура взрыва
# обработчики клавиш изменения направления движения:
def right(self, event):
self.__vector = self.CONST.RIGHT.value
def down(self, event):
self.__vector = self.CONST.DOWN.value
def left(self, event):
self.__vector = self.CONST.LEFT.value
def up(self, event):
self.__vector = self.CONST.UP.value
def speed_key(self, event):
# print(event.keysym)
if event.keysym == 'KP_Add' or event.keysym == 'plus' :
self.speed('+')
elif event.keysym == 'KP_Subtract' or event.keysym == 'minus' :
self.speed('-')
def create_head_food(self):
rand_vect=random.randint(1,4)
if rand_vect == 1:
self.__vector = self.CONST.RIGHT.value
elif rand_vect == 2:
self.__vector = self.CONST.DOWN.value
elif rand_vect == 3:
self.__vector = self.CONST.LEFT.value
else:
self.__vector = self.CONST.UP.value
self.head = self.element_square(self, self.__snake_x,
self.__snake_y,
self.CONST.SNAKE_THICKNESS.value,
self.CONST.SNAKE_HCOLOR.value)
self.food.add(self)
self.body = []
self.body.append({'id': self.head.draw(),
'x': self.__snake_x,
'y': self.__snake_y})
self.step('add')
self.step('add')
self.step('add')
self.step('add')
def speed(self, way):
if way == '+' and self.__spped > 1:
self.__spped -= 1
elif way == '-' and self.__spped < 20:
self.__spped += 1
def reload(self):
self.quit = 'n'
self.__started = 1
self.__spped = 10
self.canv.delete('all')
del self.body
self.body = []
self.create_head_food()
self.start()
def quit(self, event): # Возможность остановить змейку (пауза)
self.quit = 'y'
def move(self, event):
if self.quit != 'n':
self.start()
def start(self): # Бесконечный цикл движения змейки
if self.__started == 1:
self.quit = 'n'
i = 0
add = 'del'
while i == 0:
self.step(add)
if self.food.eat(self) == 1:
add = 'add'
self.speed('+')
elif add == 'add':
add = 'del'
if self.bump_wall() == 'the end':
break
if self.bump_body() == 'the end':
break
for x in range(1, (self.__spped + 1) ):
time.sleep(0.05)
self.__window.update()
if self.quit == 'y':
i = 1
break
def bump_wall(self): # Проверка на столкновение со стеной
__head_x = self.body[-1]['x']
__head_y = self.body[-1]['y']
if ( (__head_x < ( (self.CONST.SNAKE_THICKNESS.value // 2) + 1 ) )
or (__head_y < ( (self.CONST.SNAKE_THICKNESS.value // 2) + 1 ) )
or (__head_x > ( self.canv_width
- (self.CONST.SNAKE_THICKNESS.value // 2) + 1 ) )
or (__head_y > ( self.canv_height
- (self.CONST.SNAKE_THICKNESS.value // 2) + 1 ) ) ):
self.explosive()
return 'the end'
else:
return 0
def bump_body(self): # Проверка на столкновение с телом змеи
__head_x = self.body[-1]['x']
__head_y = self.body[-1]['y']
bump = 0
for i in range(0, (len(self.body) - 1) ):
if ( (__head_x == self.body[i]['x'])
and (__head_y == self.body[i]['y']) ):
self.explosive()
bump = 'the end'
return bump
def explosive(self):
self.__started = 0
self.canv.create_oval( (self.body[-1]['x']
- self.CONST.EXPLOSIVE.value),
(self.body[-1]['y']
- self.CONST.EXPLOSIVE.value),
(self.body[-1]['x']
+ self.CONST.EXPLOSIVE.value),
(self.body[-1]['y']
+ self.CONST.EXPLOSIVE.value),
fill=self.CONST.EXPLOSIVE_BCOLOR.value,
outline=self.CONST.EXPLOSIVE_CCOLOR.value,
width=self.CONST.EXPLOSIVE_BORD.value)
def step(self, add): # Двигать тело змеюки в текущую сторону на 1 шаг
# При этом тело может увеличиться (add='add') в размерах или нет
if self.__vector == self.CONST.RIGHT.value:
deltax = self.CONST.SNAKE_THICKNESS.value
deltay = 0
elif self.__vector == self.CONST.DOWN.value:
deltax = 0
deltay = self.CONST.SNAKE_THICKNESS.value
elif self.__vector == self.CONST.LEFT.value:
deltax = -self.CONST.SNAKE_THICKNESS.value
deltay = 0
elif self.__vector == self.CONST.UP.value:
deltax = 0
deltay = -self.CONST.SNAKE_THICKNESS.value
self.head.x += deltax
self.head.y += deltay
self.head = self.element_square(self, self.head.x, self.head.y,
self.CONST.SNAKE_THICKNESS.value,
self.CONST.SNAKE_HCOLOR.value)
self.body.append({'id': self.head.draw(), 'x': self.head.x,
'y': self.head.y}) # Создал новую голову
self.canv.itemconfig(self.body[-2]['id'],
fill=self.CONST.SNAKE_BCOLOR.value) # Перекрасил старую голову в тело
if add != 'add':
self.canv.delete(self.body[0]['id'])
self.body.pop(0)
class food:
def add(self):
self.food.x = random.randint(self.CONST.FOOD_THICKNESS.value
// 2, self.canv_width
- self.CONST.FOOD_THICKNESS.value // 2)
self.food.y = random.randint(self.CONST.FOOD_THICKNESS.value
// 2, self.canv_height
- self.CONST.FOOD_THICKNESS.value // 2)
self.food.body = self.element_square(self, self.food.x,
self.food.y,
self.CONST.FOOD_THICKNESS.value,
self.CONST.FOOD_COLOR.value)
self.food.id = self.food.body.draw()
def eat(self):
head_x = self.body[-1]['x']
head_y = self.body[-1]['y']
eat = 0
if ( (head_x
+ self.CONST.SNAKE_THICKNESS.value // 2 > (self.food.x
- self.CONST.FOOD_THICKNESS.value // 2) )
and (head_x
- self.CONST.SNAKE_THICKNESS.value // 2 < (self.food.x
+ self.CONST.FOOD_THICKNESS.value // 2) )
and (head_y
+ self.CONST.SNAKE_THICKNESS.value // 2 > (self.food.y
- self.CONST.FOOD_THICKNESS.value // 2) )
and (head_y
- self.CONST.SNAKE_THICKNESS.value // 2 < (self.food.y
+ self.CONST.FOOD_THICKNESS.value // 2) ) ):
self.canv.delete(self.food.id)
self.food.add(self)
eat = 1
return eat
class element_square: # Рисую квадратик со стороной d и центром x,y
def __init__(self, self_glob, x, y, d, color):
self.self_glob = self_glob
self.x = x
self.y = y
self.d = d
self.color = color
if (self.d % 2) == 0:
self.d +=1 # сторону квадрата делаю нечётной
def draw(self):
x = self.x - (self.d // 2) # координата левой грани квадрата
y = self.y - (self.d // 2) # координата верхней грани квадрата
return self.self_glob.canv.create_rectangle(x, y, x + self.d,
y + self.d,
fill=self.color,
width=2)
def main():
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'''
image2_data='''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'''
def button_press(a):
reload_button['image']=reload_button_img2
snake.reload()
def button_unpress(a):
reload_button['image']=reload_button_img1
root = Tk()
root.title('Программа Змейка на питоне в графике')
root.geometry('800x600+150+150')
frame = Frame(root, width=740, height=90, bg='#f2ffe0')
frame.place(x=30, y=5)
text = Label(root, text='''Игра Змейка написана на Python 3 Голубых Иваном Борисовичем в ноябре 2016 года для
тренировки и демонстрации навыков работы с Git и Python 3. Правила: Змейка должна кушать
зелёные плоды. При съедании плода, скорость змейки возрастает. Скорость можно
отрегулировать вручную клавишами "+" и "-". Нельзя выползать за границы поля и есть себя.
Официальный сайт игры: https://github.com/ivangolubykh/python-snake''',
bg='#f2ffe0', width=79)
text.place(x=30, y=10)
reload_button_img1=PhotoImage(data = image1_data)
reload_button = Label(image=reload_button_img1, bg='#f2ffe0')
reload_button.place(x=675, y=13)
reload_button_img2=PhotoImage(data = image2_data)
reload_button.bind('<Button-1>',button_press)
reload_button.bind('<ButtonRelease-1>',button_unpress)
snake = python_snake(root, 30, 100, 740, 470)
snake.start()
root.mainloop()
if __name__ == '__main__':
main()