import pygame from os import sys from generate import Generate from floor import Floor from wall import Wall from shelf import Shelf from wheel import Wheel from boxOnTheFloor import BoxOnTheFloor from box import Box from unboxOnTheFloor import UnboxOnTheFloor from AStar import AStar import numpy import easygui from neurons import Neurons from whereDecision import WhereDecision from Evencik import Evencik import pathlib from Data import Data from genetyczne import * class MainWindow: def __init__(self, szerokosc, wysokosc, kruche, latwopalne, radioaktywne, niebezpieczne): #config self.cell = 50 #init pygame.init() pygame.display.set_caption('Inteligentny wózek widłowy') self.clock = pygame.time.Clock() self.ticks = 0 self.data = Data() self.moves = [] self.regals = [] self.map = Generate.generate(szerokosc+2, wysokosc+2, kruche, latwopalne, radioaktywne, niebezpieczne) self.mapForAStar = Generate.generate(szerokosc+2, wysokosc+2, kruche, latwopalne, radioaktywne, niebezpieczne) self.screen = pygame.display.set_mode((((szerokosc+2)*self.cell), ((wysokosc+2)*self.cell))) self.neurons = Neurons() self.whereDecision = WhereDecision() #create self.wheel = Wheel(self.screen, self.cell); for i in range(len(self.map)): for j in range(len(self.map[i])): if (self.map[i][j]==1): self.map[i][j] = Wall(self.screen, self.cell, i, j) self.mapForAStar[i][j] = 1 elif (self.map[i][j]==2): self.map[i][j] = Floor(self.screen, self.cell, i, j) self.mapForAStar[i][j] = 0 elif (self.map[i][j]==23): self.map[i][j] = UnboxOnTheFloor(self.screen, self.cell, i, j) self.mapForAStar[i][j] = 0 else: #regals (kordy i,j oraz rodzaj regału) self.regals.append((i, j, (self.map[i][j]-3)//4)) self.map[i][j] = Shelf(self.screen, self.cell, i, j, (self.map[i][j]-3)%4, (self.map[i][j]-3)//4) self.mapForAStar[i][j] = 1 ################################################# #loop while True: self.events() self.draw() self.clock.tick(40) self.ticks+=1 if self.ticks>10: self.ticks=0 if len(self.moves)>0: if(self.moves[0]==1): self.wheel.move(Evencik(pygame.K_UP), self.map) elif (self.moves[0]==2): self.wheel.move(Evencik(pygame.K_DOWN), self.map) elif (self.moves[0]==3): self.wheel.move(Evencik(pygame.K_LEFT), self.map) elif (self.moves[0]==4): self.wheel.move(Evencik(pygame.K_RIGHT), self.map) self.moves.pop(0) def events(self): for event in pygame.event.get(): if(event.type==pygame.QUIT): sys.exit() elif(event.type==pygame.KEYDOWN): if event.key == pygame.K_g: updateMap(self.data, self.map, self.mapForAStar, self.regals) dane = okno() if(dane == 0): continue start(self.data,self.wheel, dane) for gen in self.data.best[0]: if(gen.unboxWczesniejszegoGenu == None): kordStartowy = (self.wheel.ns, self.wheel.we) else: kordStartowy = self.data.unbox[gen.unboxWczesniejszegoGenu] zbierzBox(gen,self.data, self.moves, kordStartowy) elif(event.key== pygame.K_r): self.map = randomBox(self.map, self.regals, 20) updateMap(self.data, self.map, self.mapForAStar, self.regals) elif len(self.moves)==0: self.wheel.move(event, self.map) elif(event.type==pygame.MOUSEBUTTONDOWN): if (type(self.map[0][2]) == Floor): meh = easygui.fileopenbox("Wybierz zdjęcie paczki", "Wybierz zdjęcie paczki", filetypes = [["*.jpg", "*.jpeg", "*.png", "Pliki graficzne"]]) if meh is None: return while pathlib.Path(meh).suffix!=".jpg" and pathlib.Path(meh).suffix!=".jpeg" and pathlib.Path(meh).suffix!=".png": meh = easygui.fileopenbox("Wybierz zdjęcie paczki", "Wybierz zdjęcie paczki", filetypes = [["*.jpg", "*.jpeg", "*.png", "Pliki graficzne"]]) if meh is None: return whatIsIt = self.neurons.whatIsIt(meh) where = self.whereDecision.recognize(whatIsIt, self.regalsik()) self.map[0][2] = BoxOnTheFloor(self.screen, self.cell, 0, 2, Box()) star = AStar() path = star.search([self.wheel.ns, self.wheel.we], [0, 2], self.mapForAStar, 1, 1) cns = self.wheel.ns cwe = self.wheel.we value = path[cns][cwe] while True: if cns>0 and path[cns-1][cwe]==(value+1): cns=cns-1 self.moves.append(1) value=value+1 continue if cns<(len(self.mapForAStar)-1) and path[cns+1][cwe]==(value+1): cns=cns+1 self.moves.append(2) value=value+1 continue if cwe>0 and path[cns][cwe-1]==(value+1): cwe=cwe-1 self.moves.append(3) value=value+1 continue if cwe<(len(self.mapForAStar[0])-1) and path[cns][cwe+1]==(value+1): cns=cns+1 self.moves.append(4) value=value+1 continue break self.mapForAStar[where[0]][where[1]] = 0 # wyszukiwanie ścieżki z miejsca podjęcia paczki do regału # zmienna path posiada macierz oraz kroki podjęte przez wózek path = star.search([0, 2], where, self.mapForAStar, 1, 1) self.mapForAStar[where[0]][where[1]] = 1 value = path[cns][cwe] while True: if cns>0 and path[cns-1][cwe]==(value+1): cns=cns-1 self.moves.append(1) value=value+1 continue if cns<(len(self.mapForAStar)-1) and path[cns+1][cwe]==(value+1): cns=cns+1 self.moves.append(2) value=value+1 continue if cwe>0 and path[cns][cwe-1]==(value+1): cwe=cwe-1 self.moves.append(3) value=value+1 continue if cwe<(len(self.mapForAStar[0])-1) and path[cns][cwe+1]==(value+1): cwe=cwe+1 self.moves.append(4) value=value+1 continue break self.data.zajeteRegaly = znajdzBox(self.map, self.regals) def draw(self): self.screen.fill((33,69,108)) for i in range(len(self.map)): for j in range(len(self.map[i])): self.map[i][j].draw() self.wheel.draw() pygame.display.flip() def regalsik(self): tmp = [] for regal in self.regals: if self.map[regal[0]][regal[1]].isOccupied()==False: tmp.append(regal) return tmp