def loadOrganism(self, name, posX, posY, strn, mvd, age): temp = Grass(posX, posY, self) if name == "Antelope": temp = Antelope(posX, posY, self) elif name == "CSheep": temp = CSheep(posX, posY, self) elif name == "Fox": temp = Fox(posX, posY, self) elif name == "Human": temp = Human(posX, posY, self) elif name == "Sheep": temp = Sheep(posX, posY, self) elif name == "Turtle": temp = Turtle(posX, posY, self) elif name == "Wolf": temp = Wolf(posX, posY, self) elif name == "Dandelion": temp = Dandelion(posX, posY, self) elif name == "DeadlyNightshade": temp = DeadlyNightshade(posX, posY, self) elif name == "Grass": temp = Grass(posX, posY, self) elif name == "Guarana": temp = Guarana(posX, posY, self) elif name == "Hogweed": temp = Hogweed(posX, posY, self) temp.age = age temp.strength = strn temp.movedTo = mvd self.organisms.append(temp)
def addOrganismByName(self, name, posX, posY): temp = Grass(posX, posY, self) if name == "Antelope": temp = Antelope(posX, posY, self) elif name == "CSheep": temp = CSheep(posX, posY, self) elif name == "Fox": temp = Fox(posX, posY, self) elif name == "Human": temp = Human(posX, posY, self) elif name == "Sheep": temp = Sheep(posX, posY, self) elif name == "Turtle": temp = Turtle(posX, posY, self) elif name == "Wolf": temp = Wolf(posX, posY, self) elif name == "Dandelion": temp = Dandelion(posX, posY, self) elif name == "DeadlyNightshade": temp = DeadlyNightshade(posX, posY, self) elif name == "Grass": temp = Grass(posX, posY, self) elif name == "Guarana": temp = Guarana(posX, posY, self) elif name == "Hogweed": temp = Hogweed(posX, posY, self) self.organisms.append(temp)
def generate_organism(self, point: Point, species): if (species == df.const.ANTELOPE_SIGN): self._organisms.append(Antelope(self, point)) elif (species == df.const.HUMAN_SIGN): self._organisms.append(Human(self, point)) elif (species == df.const.GUARANA_SIGN): self._organisms.append(Guarana(self, point)) elif (species == df.const.FOX_SIGN): self._organisms.append(Fox(self, point)) elif (species == df.const.DANDELION_SIGN): self._organisms.append(Dandelion(self, point)) elif (species == df.const.SHEEP_SIGN): self._organisms.append(Sheep(self, point)) elif (species == df.const.CYBER_SHEEP_SIGN): self._organisms.append(CyberSheep(self, point)) elif (species == df.const.GRASS_SIGN): self._organisms.append(Grass(self, point)) elif (species == df.const.BELLADONNA_SIGN): self._organisms.append(Belladonna(self, point)) elif (species == df.const.WOLF_SIGN): self._organisms.append(Wolf(self, point)) elif (species == df.const.TORTOISE_SIGN): self._organisms.append(Tortoise(self, point)) elif (species == df.const.SOSNOWSKIS_HOGWEED_SIGN): self._organisms.append(SosnowskisHogweed(self, point))
def load_organism(self, line): text = line.split() age = int(text[3]) id1 = int(text[4]) strength = int(text[5]) point = Point(int(text[1]), int(text[2])) species = text[0] if (species == df.const.ANTELOPE_SIGN): self._organisms.append(Antelope(self, point, age, id1, strength)) elif (species == df.const.SOSNOWSKIS_HOGWEED_SIGN): self._organisms.append(SosnowskisHogweed(self, point, age, id1, strength)) elif (species == df.const.HUMAN_SIGN): self._organisms.append(Human(self, point, age, id1, strength, int(text[6]))) elif (species == df.const.GUARANA_SIGN): self._organisms.append(Guarana(self, point, age, id1, strength)) elif (species == df.const.FOX_SIGN): self._organisms.append(Fox(self, point, age, id1, strength)) elif (species == df.const.DANDELION_SIGN): self._organisms.append(Dandelion(self, point, age, id1, strength)) elif (species == df.const.SHEEP_SIGN): self._organisms.append(Sheep(self, point, age, id1, strength)) elif (species == df.const.CYBER_SHEEP_SIGN): self._organisms.append(CyberSheep(self, point, age, id1, strength)) elif (species == df.const.GRASS_SIGN): self._organisms.append(Grass(self, point, age, id1, strength)) elif (species == df.const.BELLADONNA_SIGN): self._organisms.append(Belladonna(self, point, age, id1, strength)) elif (species == df.const.WOLF_SIGN): self._organisms.append(Wolf(self, point, age, id1, strength)) elif (species == df.const.TORTOISE_SIGN): self._organisms.append(Tortoise(self, point, age, id1, strength))
def createOrganisms(self): a = self.generateXandY() count = 0 typ = 0 num = 0 self.addOrganism(Human(a[0], a[1], self)) while count < self.fill(): a = self.generateXandY() if num >= 22: typ = randint(0, 10) if typ == 0: self.addOrganism(Antelope(a[0], a[1], self)) elif typ == 1: self.addOrganism(CSheep(a[0], a[1], self)) elif typ == 2: self.addOrganism(Fox(a[0], a[1], self)) elif typ == 3: self.addOrganism(Sheep(a[0], a[1], self)) elif typ == 4: self.addOrganism(Turtle(a[0], a[1], self)) elif typ == 5: self.addOrganism(Wolf(a[0], a[0], self)) elif typ == 6: self.addOrganism(Dandelion(a[0], a[1], self)) elif typ == 7: self.addOrganism(DeadlyNightshade(a[0], a[1], self)) elif typ == 8: self.addOrganism(Grass(a[0], a[1], self)) elif typ == 9: self.addOrganism(Guarana(a[0], a[1], self)) elif typ == 10: self.addOrganism(Hogweed(a[0], a[1], self)) count += 1 if num < 22: typ = (typ + 1) % 11 num += 1 for i in range(len(self.organisms) - 1): self.organisms[i].increaseAge()
def load(self): self.organisms = [] file = open("savedWorld.txt", "r") index = 2 self.string = file.readline(index) self.string = self.string.strip() count = int(self.string) # for a in range(0, count): # print(file.readline(index)) # for a in range(0, count): index = 2 self.string = file.readline(index) self.string = self.string.strip() type_ = self.string index = 3 self.string = file.readline(index) print(self.string) self.string = self.string.strip() poz_x = int(self.string) self.string = file.readline(index) self.string = self.string.strip() poz_y = int(self.string) self.string = file.readline(index) index = 2 self.string = self.string.strip() force_ = int(self.string) self.string = file.readline(index) self.string = self.string.strip() ini = int(self.string) if type_ == 'H': index = 3 self.organisms.append(Human(self, poz_x, poz_y)) self.string = file.readline(index) self.string = self.string.strip() coll = int(self.string) self.get_organism_by_xy(poz_x, poz_y).coldown = coll elif type_ == 'A': self.organisms.append(Antilope(self, poz_x, poz_y)) elif type_ == 'W': self.organisms.append(Wolf(self, poz_x, poz_y)) elif type_ == 'B': self.organisms.append(WolfBerry(self, poz_x, poz_y)) elif type_ == 'L': self.organisms.append(Fox(self, poz_x, poz_y)) elif type_ == 's': self.organisms.append(Sheep(self, poz_x, poz_y)) elif type_ == 'Z': self.organisms.append(Turtle(self, poz_x, poz_y)) elif type_ == 'K': self.organisms.append(BarszczSosnowksiego(self, poz_x, poz_y)) elif type_ == 'U': self.organisms.append(Guarana(self, poz_x, poz_y)) elif type_ == 'O': self.organisms.append(SowThistle(self, poz_x, poz_y)) elif type_ == 'C': self.organisms.append(CyberSheep(self, poz_x, poz_y)) if self.get_organism_by_xy(poz_x, poz_y) != None: self.get_organism_by_xy(poz_x, poz_y).force = force_ self.get_organism_by_xy(poz_x, poz_y).initiative = ini
from Plants.BarszczSosnowskiego import BarszczSosnowksiego print("ok") #y= Animal() #x=World() # #s.createMe(x ,4 ,4); WORLD = World() s = CyberSheep(WORLD, 3, 4) WORLD.organisms.append(s) s = Human(WORLD, 13, 14) WORLD.organisms.append(s) s = BarszczSosnowksiego(WORLD, 10, 10) WORLD.organisms.append(s) #WORLD.save() s = Fox(WORLD, 3, 4) WORLD.organisms.append(s) s = Sheep(WORLD, 11, 4) #WORLD.organisms.append(s) s = Turtle(WORLD, 13, 4) WORLD.organisms.append(s) s = Wolf(WORLD, 7, 4) WORLD.organisms.append(s) s = SowThistle(WORLD, 14, 4) WORLD.organisms.append(s) F = Frame(WORLD)