125 lines
3.9 KiB
Python
125 lines
3.9 KiB
Python
from math import dist, sqrt
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import pygame
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from classes import minesweeper, system, bfs
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from random import randrange
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class AI:
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window:system.Window
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current_map:minesweeper.Map
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saper:minesweeper.Minesweeper
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the_way:list
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#jak True to można się poruszać strzałkami, jak False sam się porusza
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user_controlled=False
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def __init__(self, window, current_map, saper):
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self.window = window
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self.current_map = current_map
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self.saper = saper
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#co ma zrobić tylko na początku
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def ready(self):
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self.saper.set_map(self.current_map)
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self.bfs()
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#co ma robić przy każdym FPS'ie
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def updateFPS(self):
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pass
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#co ma zrobić przy każdym ruchu <------------------------- najważniejsze
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def updateTile(self, model):
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#aktualne pola (do debugu)
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sensor = self.saper.sensor()
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#print(sensor[0])
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#print(sensor[1])
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#print(sensor[2])
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#print("-------")
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#podniesienie bomby jeśli jest jakaś na tym polu
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self.saper.pick_up(model)
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#poruszenie się
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if self.user_controlled:
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self.minesweeper_controls()
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return
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self.way_controls()
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def minesweeper_controls(self):
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keys = pygame.key.get_pressed()
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if keys[pygame.K_DOWN]:
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self.saper.move(0)
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elif keys[pygame.K_UP]:
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self.saper.move(180)
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elif keys[pygame.K_LEFT]:
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self.saper.move(270)
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elif keys[pygame.K_RIGHT]:
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self.saper.move(90)
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def chaos_controls(self):
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dir = randrange(4)
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if dir==0:
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self.saper.rotate("N")
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elif dir==1:
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self.saper.rotate("S")
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elif dir==2:
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self.saper.rotate("W")
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elif dir==3:
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self.saper.rotate("E")
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self.saper.move()
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def way_controls(self):
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if type(self.the_way) is list and len(self.the_way)>0:
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way = self.the_way.pop(0)
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if way=="move":
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self.saper.move()
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elif way=="left" or way=="right":
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self.saper.rotate(way)
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else:
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self.saper.rotate(way)
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self.saper.move()
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elif len(self.current_map.encounters)!=0:
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self.bfs()
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def bfs(self):
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def mojafunkcja(ileczasu, jakdaleko, jaktrudno, jakciezko):
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return ((200-ileczasu)+(200-jakdaleko*10))-jaktrudno*jakciezko
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def fitness(x, y, z, w): #funkcja do ewaluacji
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ans = mojafunkcja(x, y, z, w)
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return abs(ans-400)
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dists = [] # how long way is to all encounters from start([0, 0])
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ranked = []
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for encounter in self.current_map.encounters:
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dists.append(abs(self.saper.position_x - encounter.position_x) + abs(self.saper.position_y - encounter.position_y))
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for a in self.current_map.mines:
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ranked.append((fitness(a.explosion_timer, (abs(self.saper.position_x - encounter.position_x) + abs(self.saper.position_y - encounter.position_y)), a.difficulty, a.weight), a))
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ranked.sort() #posortowana lista najlepszych wyborów dla min
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if ranked:
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print(ranked[0][0])
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indx = ranked[0][1].position_x
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indy = ranked[0][1].position_y
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else:
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ind = dists.index(min(dists))
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indx = self.current_map.encounters[ind].position_x
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indy = self.current_map.encounters[ind].position_y
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goal_state = [indx, indy]
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print(f'We go to {goal_state}')
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find_path = bfs.BFS(self.saper, self.window)
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tmp = find_path.graphsearch([], [], bfs.BFS.successor, goal_state)
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#print(f'tmp = {tmp}')
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if tmp is None:
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raise Exception("Error, path does not exist")
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else:
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self.the_way = tmp |