220 lines
7.1 KiB
Python
220 lines
7.1 KiB
Python
import pygame
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from config import *
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from agent import *
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from map_add_ons import *
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from mobs import *
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#from unknown_mob import * #unknown mob
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from bfs import *
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from heapq import *
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class Game:
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def __init__(self):
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pygame.init()
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self.state =[-1,-1,-1,-1,-1,-1,-1,-1]
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self.SCREEN = pygame.display.set_mode((WIDTH, HEIGHT))
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self.running = True
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self.clock = pygame.time.Clock()
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self.BACKGROUND_IMG= pygame.image.load("./zdjecia/podloze.jpg")
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self.BACKGROUND = pygame.transform.scale(self.BACKGROUND_IMG,(64,64))
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self.LVL_ICON_PNG = pygame.image.load("./zdjecia/lvl_icon.png")
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self.LVL_ICON = pygame.transform.scale(self.LVL_ICON_PNG,(24,24))
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pygame.display.set_caption('Gra-SI')
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self.bfs = Bfs(self)
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def new(self): # tworzy się nowa sesja grania
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self.all_sprites = pygame.sprite.LayeredUpdates()
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self.rock_sprites = pygame.sprite.LayeredUpdates()
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self.grass_sprites = pygame.sprite.LayeredUpdates()
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self.archer_orks = pygame.sprite.LayeredUpdates()
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self.infantry_orks = pygame.sprite.LayeredUpdates()
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#self.infantry_orks2 = pygame.sprite.LayeredUpdates()
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self.sauronL = pygame.sprite.LayeredUpdates()
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self.flowers = pygame.sprite.LayeredUpdates()
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self.little_rock_sprites = pygame.sprite.LayeredUpdates()
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#self.unknown_mobs = pygame.sprite.LayeredUpdates() #unknown mob
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self.agent = Agent(self,1,1)
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self.archer_ork = Archer_ork(self,10,10)
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self.bfs.enemy_cells.append(self.bfs.get_cell_number(self.archer_ork.x,self.archer_ork.y))
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self.infantry_ork = Infantry_ork(self,10,4)
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self.bfs.enemy_cells.append(self.bfs.get_cell_number(self.infantry_ork.x,self.infantry_ork.y))
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#self.infantry_ork2 = Infantry_ork2(self,6,3)
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#self.bfs.enemy_cells.append(self.bfs.get_cell_number(self.infantry_ork2.x,self.infantry_ork2.y))
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self.sauron = Sauron(self, 1, 10)
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self.bfs.enemy_cells.append(self.bfs.get_cell_number(self.sauron.x,self.sauron.y))
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self.flower = Health_flower(self, 8,2)
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#self.unknown_mob = Unknown_mob(self,8,8) #unknown mob
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self.grass = Grass(self,0,2)
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self.grass = Grass(self,1,2)
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self.grass = Grass(self,0,3)
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self.grass = Grass(self,1,3)
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self.grass = Grass(self,0,4)
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self.grass = Grass(self,1,4)
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cost_cell_1000=[13,26,27,40]
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for y in range(5):
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self.rock = Rocks(self,3,y)
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self.bfs.wall_cells.append(self.bfs.get_cell_number(self.rock.x,self.rock.y))
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'''
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for i in range(10):
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x = random.randint(0,12)
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y = random.randint(0,11)
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self.grass = Grass(self,x,y)
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self.grass_cells.append(self.bfs.get_cell_number(self.grass.x,self.grass.y))
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for y in range(5,8):
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self.little_rocks = Little_Rocks(self,4,y)
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'''
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def update(self):
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self.all_sprites.update()
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def events(self):
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for event in pygame.event.get():
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if event.type == pygame.QUIT:
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self.running = False
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pygame.quit()
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if event.type == pygame.MOUSEBUTTONDOWN:
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mouse_presses = pygame.mouse.get_pressed()
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if mouse_presses[0]:
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self.bfs.bfs()
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def map(self): # tworzenie mapy
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self.clock.tick(FRAMERATE)
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for x in range(0, WIDTH, TILE_SIZE):
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for y in range(0, 768, TILE_SIZE):
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self.SCREEN.blit(self.BACKGROUND,(x,y))
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self.rect = pygame.Rect(x, y, TILE_SIZE, TILE_SIZE)
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pygame.draw.rect(self.SCREEN, BLACK, self.rect, 1)
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self.flowers.draw(self.SCREEN)
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self.all_sprites.draw(self.SCREEN)
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self.rock_sprites.draw(self.SCREEN)
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self.grass_sprites.draw(self.SCREEN)
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self.SCREEN.blit(self.LVL_ICON, (340 ,780))
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pygame.display.update()
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def main(self):
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self.events()
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self.update()
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self.map()
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grass_cells = []
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cols, rows = 13,12
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def get_circle(x,y):
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return (x * TILE_SIZE + TILE_SIZE//2, y* TILE_SIZE + TILE_SIZE//2), TILE_SIZE//4
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def get_rect(x,y):
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return x*TILE_SIZE +1, y* TILE_SIZE +1, TILE_SIZE -2, TILE_SIZE -2
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'''
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def get_next_nodes(x,y):
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check_next_node = lambda x, y:True if 0<= x < cols and 0<=y < rows else False
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ways =[-1,0],[0,-1],[1,0],[0,1]
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return [(grid[y + dy][x + dx], (x + dx, y + dy)) for dx, dy in ways if check_next_node(x + dx, y + dy)]
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'''
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def get_neighbours(x, y):
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check_neighbour = lambda x, y: True if 0 <= x < cols and 0 <= y < rows else False
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ways = [-1, 0], [0, -1], [1, 0], [0, 1]
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return [(grid[y + dy][x + dx], (x + dx, y + dy)) for dx, dy in ways if check_neighbour(x + dx, y + dy)]
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def heuristic(a, b):
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return abs(a[0] - b[0]) + abs(a[1] - b[1])
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def dijkstra(start, goal, graph):
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queue = []
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heappush(queue, (0, start))
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cost_visited = {start: 0}
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visited = {start: None}
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while queue:
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cur_cost, cur_node = heappop(queue)
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if cur_node == goal:
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break
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neighbours = graph[cur_node]
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for neighbour in neighbours:
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neigh_cost, neigh_node = neighbour
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new_cost = cost_visited[cur_node] + neigh_cost
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if neigh_node not in cost_visited or new_cost < cost_visited[neigh_node]:
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priority = new_cost + heuristic(neigh_node, goal)
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heappush(queue, (priority, neigh_node))
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cost_visited[neigh_node] = new_cost
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visited[neigh_node] = cur_node
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return visited
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grid =['2229222222222',
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'2229222222222',
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'9929222222222',
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'9929222222222',
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'9929222222222',
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'2222222222222',
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'2222222222222',
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'2222222222222',
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'2222222222222',
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'2222222222222',
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'2222222222222',
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'2222222222222'
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]
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grid = [[int(char) for char in string ] for string in grid]
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graph ={}
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for y, row in enumerate(grid):
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for x, col in enumerate(row):
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graph[(x, y)] = graph.get((x, y), []) + get_neighbours(x, y)
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print("graph 2 0",graph[(2,0)])
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start = (1,1)
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goal =(0,5)
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queue =[]
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heappush(queue, (0,start))
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cost_visited = {start:0}
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visited = {start: None}
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goall=1
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while goall==1:
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if queue:
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visited=dijkstra(start,goal,graph)
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goall=0
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path=[]
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path_head, path_segment = goal, goal
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while path_segment:
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print("path_segment: ",path_segment)
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path_segment =visited[path_segment]
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path.append(path_segment)
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print("path_head",path_head)
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path.pop(len(path)-1)
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path.reverse()
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path_true=[]
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bfss =Bfs(Game)
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for i in path:
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z=str(i)
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print("Z:",z)
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x=z[1]
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y=z[4]
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x=int(x)*64
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y=int(y)*64
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a=bfss.get_cell_number(x,y)
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path_true.append(a)
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print("path:",path)
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print("path_true:",path_true)
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#bfss.move_agent(path_true)
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g = Game()
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g.new()
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while g.running:
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g.main()
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