crossover working version
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8b1e390e6b
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74fd6d9263
@ -11,46 +11,127 @@ from domain.world import World
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from AI_brain.rotate_and_go_aStar import RotateAndGoAStar, State
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steps_distance_cashed = {}
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hits = 0
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misses = 0
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class Cashed_sub_paths(dict):
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def __init__(self):
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super().__init__()
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def __missing__(self, key):
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self[key] = Cashed_sub_paths()
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return self[key]
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class Cashed_sub_path:
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def __init__(self, sub_path: list[str] = [], distance: int = 0):
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self.sub_path = sub_path
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self.distance = distance
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steps_distance_cashed: dict[tuple[int, int], Cashed_sub_path] = Cashed_sub_paths()
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class Path:
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def __init__(self):
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self.walk = []
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self.permutation = []
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self.real_path = []
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self.distance = 0
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def random_walk(self, dusts: list[Entity]):
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random_permutation = generate_random_permutation(len(dusts))
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self.walk = addStopsForStopStation(
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random_permutation, config.getint("CONSTANT", "BananaFilling")
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permutation = generate_random_permutation(len(dusts))
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self.permutation = permutation
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self.walk = addStartAndStation(
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permutation, config.getint("CONSTANT", "BananaFilling")
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)
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def calculate_distance(self, world: World):
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distance = 0
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for i in range(len(self.walk) - 1):
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distance += self.step_distance(self.walk[i], self.walk[i + 1], world)
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next_distance, next_real_path = self.step_distance(
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self.walk[i], self.walk[i + 1], world
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)
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distance += next_distance
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# BUG this part is not working and is not used, B.1 must be resolved
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self.real_path = self.real_path + ["DEFAULT_ROTATION"] + next_real_path
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self.distance = distance
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def step_distance(self, from_id: int, to_id: int, world: World) -> int:
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def step_distance(
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self, from_id: int, to_id: int, world: World
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) -> tuple[int, list[str]]:
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global hits, misses
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if (from_id, to_id) in steps_distance_cashed:
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return steps_distance_cashed[(from_id, to_id)]
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hits += 1
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distance = steps_distance_cashed[(from_id, to_id)].distance
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sub_path = steps_distance_cashed[(from_id, to_id)].sub_path
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return distance, sub_path
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misses += 1
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path_searcher = RotateAndGoAStar(
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world,
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self.getPosition(from_id, world.dustList, world.doc_station),
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self.getPosition(to_id, world.dustList, world.doc_station),
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self.getPosition(from_id, world.dustList),
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self.getPosition(to_id, world.dustList),
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)
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path_searcher.search()
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number_of_go = path_searcher.number_of_moves_forward()
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steps_distance_cashed[(from_id, to_id)] = path_searcher.cost
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steps_distance_cashed[(to_id, from_id)] = path_searcher.cost
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return path_searcher.cost
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def getPosition(self, number: int, dusts: list[Entity], station: Entity) -> State:
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steps_distance_cashed[(from_id, to_id)] = Cashed_sub_path(
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path_searcher.actions, path_searcher.cost
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)
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# BUG B.1 inverse path
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inverse_sub_path = path_searcher.actions.copy()
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steps_distance_cashed[(to_id, from_id)] = Cashed_sub_path(
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inverse_sub_path, path_searcher.cost
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)
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return path_searcher.cost, path_searcher.actions
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def inverse_sub_path(sub_path: list[str]) -> list[str]:
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sub_path.reverse()
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for command in sub_path:
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command.replace("RL", "RR")
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command.replace("RR", "RR")
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def getPosition(
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self,
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number: int,
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dustList: list[Entity],
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) -> State:
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if number == -1:
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return State(station.x, station.y)
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dock_start_x, dock_start_y = config.get(
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"CONSTANT", "DockStationStartPosition"
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).split(",")
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dock_start_x, dock_start_y = int(dock_start_x), int(dock_start_y)
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return State(dusts[number].x, dusts[number].y)
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return State(dock_start_x, dock_start_y)
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if number == -2:
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vacuum_start_x, vacuum_start_y = config.get(
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"CONSTANT", "RobotStartPosition"
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).split(",")
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vacuum_start_x, vacuum_start_y = int(vacuum_start_x), int(vacuum_start_y)
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return State(vacuum_start_x, vacuum_start_y)
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return State(dustList[number].x, dustList[number].y)
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def get_real_path(self, world: World):
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full_path = []
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for index_place in range(len(self.walk) - 1):
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path_searcher = RotateAndGoAStar(
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world,
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self.getPosition(self.walk[index_place], world.dustList),
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self.getPosition(self.walk[index_place + 1], world.dustList),
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)
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path_searcher.search()
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full_path = full_path + ["DEFAULT_ROTATION"] + path_searcher.actions
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self.real_path = full_path
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def generate_random_permutation(n):
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@ -63,12 +144,104 @@ def generate_random_permutation(n):
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return numbers
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def addStopsForStopStation(permutation: list[int], bananaFilling: int):
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# BUG solution: inverse direction at the last step
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def addStartAndStation(permutation: list[int], bananaFilling: int):
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frequency = math.ceil(100 / bananaFilling)
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numer_of_stops = math.ceil(len(permutation) / frequency)
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walk = permutation.copy()
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for i in range(1, numer_of_stops):
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permutation.insert((frequency + 1) * i - 1, -1)
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permutation.insert(len(permutation), -1)
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walk.insert((frequency + 1) * i - 1, -1)
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walk.insert(len(walk), -1)
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walk.insert(0, -2)
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return permutation
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return walk
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class GeneticAlgorytm:
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def __init__(self, world: World):
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self.world = world
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self.population_size = config.getint("GENETIC_ALGORITHM", "PopulationSize")
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self.mutation_probability = config.getfloat(
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"GENETIC_ALGORITHM", "MutationProbability"
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)
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self.iteration_number = config.getint("GENETIC_ALGORITHM", "IterationNumber")
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self.descendants_number = config.getint(
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"GENETIC_ALGORITHM", "DescendantsNumber"
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)
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self.dusts = world.dustList
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self.doc_station = world.doc_station
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self.paths: list[Path] = []
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self.checked_permutations = {}
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self.best_path = None
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self.best_distance = math.inf
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self.best_real_path = []
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def generate_population(self):
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for i in range(self.population_size):
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path = Path()
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path.random_walk(self.dusts)
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self.checked_permutations[tuple(path.permutation)] = True
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path.calculate_distance(self.world)
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self.paths.append(path)
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def evaluate_population(self):
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self.paths.sort(key=lambda x: x.distance, reverse=False)
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self.best_distance = self.paths[0].distance
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self.best_path = self.paths[0]
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for path in self.paths[self.population_size :]:
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del self.checked_permutations[tuple(path.permutation)]
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self.paths = self.paths[: self.population_size]
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def create_child(self, parent1: Path, parent2: Path) -> Path:
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child = Path()
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child.permutation = parent1.permutation[: len(parent1.permutation) // 2]
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# Add missing items from parent2 in the order they appear
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for item in parent2.permutation:
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if item not in child.permutation:
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child.permutation.append(item)
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child.walk = addStartAndStation(
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child.permutation, config.getint("CONSTANT", "BananaFilling")
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)
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child.calculate_distance(self.world)
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return child
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def run(self):
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self.generate_population()
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for i in range(self.iteration_number):
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self.crossover()
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# self.mutate()
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self.evaluate_population()
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self.best_real_path = self.paths[0].get_real_path(self.world)
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print(hits, (misses + hits))
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print(hits / (misses + hits))
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def crossover(self):
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for i in range(self.descendants_number):
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parent1 = self.paths[random.randint(0, self.population_size - 1)]
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parent2 = self.paths[random.randint(0, self.population_size - 1)]
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child = self.create_child(parent1, parent2)
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while tuple(child.permutation) in self.checked_permutations:
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parent1 = self.paths[random.randint(0, self.population_size - 1)]
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parent2 = self.paths[random.randint(0, self.population_size - 1)]
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child = self.create_child(parent1, parent2)
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self.checked_permutations[tuple(child.permutation)] = True
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self.paths.append(child)
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self.evaluate_population()
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@ -8,6 +8,9 @@ NumberOfBananas = 5
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NumberOfEarrings = 3
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NumberOfPlants = 5
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BananaFilling = 25
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RobotStartPosition = 1, 1
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DockStationStartPosition = 9, 8
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#9,8
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[NEURAL_NETWORK]
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is_neural_network_off = True
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@ -15,3 +18,9 @@ is_neural_network_off = True
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[AI_BRAIN]
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mode = full_clean
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#accept: full_clean, to_station
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[GENETIC_ALGORITHM]
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PopulationSize = 20
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DescendantsNumber = 5
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MutationProbability = 0.1
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IterationNumber = 100
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@ -8,7 +8,7 @@ class World:
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self.width = width
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self.height = height
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self.dust = [[[] for j in range(height)] for i in range(width)]
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self.dustList = []
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self.dustList: list[Entity] = []
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self.obstacles = [[[] for j in range(height)] for i in range(width)]
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self.entity = [[[] for j in range(height)] for i in range(width)]
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42
main.py
42
main.py
@ -16,7 +16,7 @@ from domain.entities.earring import Earring
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from domain.entities.docking_station import Doc_Station
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from domain.world import World
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from view.renderer import Renderer
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from AI_brain.genetic_algorytm import Path
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from AI_brain.genetic_algorytm import GeneticAlgorytm, Path
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if not config.getboolean("NEURAL_NETWORK", "is_neural_network_off"):
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from AI_brain.image_recognition import VacuumRecognizer
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@ -53,9 +53,6 @@ class Main:
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def run_robot(self):
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self.renderer.render(self.world)
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# path_searcher = GoAnyDirectionBFS(self.world, start_state, end_state)
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# path_searcher = RotateAndGoBFS(self.world, start_state, end_state)
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if config["AI_BRAIN"]["mode"] == "to_station":
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start_state = State(self.world.vacuum.x, self.world.vacuum.y)
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end_state = State(self.world.doc_station.x, self.world.doc_station.y)
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@ -67,13 +64,20 @@ class Main:
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exit(0)
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print(path_searcher.actions)
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print(path_searcher.cost)
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robot_actions = path_searcher.actions
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elif config["AI_BRAIN"]["mode"] == "full_clean":
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x = Path()
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x.random_walk(self.world.dustList)
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x.calculate_distance(self.world)
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print(x.walk)
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print(x.distance)
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exit(0)
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genetic_searcher = GeneticAlgorytm(self.world)
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genetic_searcher.run()
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print(
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str(genetic_searcher.best_path.walk)
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+ ": "
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+ str(genetic_searcher.best_distance)
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)
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robot_actions = genetic_searcher.best_path.real_path
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else:
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print("Wrong mode")
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exit(0)
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@ -83,8 +87,8 @@ class Main:
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if event.type == pygame.QUIT:
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self.running = False
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if len(path_searcher.actions) > 0:
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action_direction = path_searcher.actions.pop(0)
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if len(robot_actions) > 0:
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action_direction = robot_actions.pop(0)
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# self.handle_action1(action_direction)
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self.handle_action2(action_direction)
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@ -129,6 +133,8 @@ class Main:
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self.world.vacuum.direction[1],
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-self.world.vacuum.direction[0],
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)
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elif action == "DEFAULT_ROTATION":
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self.world.vacuum.direction = (1, 0)
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def process_input(self):
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for event in pygame.event.get():
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@ -163,8 +169,14 @@ class Main:
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def generate_world(tiles_x: int, tiles_y: int) -> World:
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if config.getboolean("NEURAL_NETWORK", "is_neural_network_off"):
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world = World(tiles_x, tiles_y)
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world.vacuum = Vacuum(1, 1)
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world.doc_station = Doc_Station(9, 8)
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x, y = config.get("CONSTANT", "RobotStartPosition").split(",")
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x, y = int(x), int(y)
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world.vacuum = Vacuum(x, y)
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x, y = config.get("CONSTANT", "DockStationStartPosition").split(",")
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x, y = int(x), int(y)
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world.doc_station = Doc_Station(x, y)
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if config.getboolean("APP", "cat"):
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world.cat = Cat(7, 8)
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world.add_entity(world.cat)
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@ -176,6 +188,8 @@ def generate_world(tiles_x: int, tiles_y: int) -> World:
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world.add_entity(Entity(3, 4, "PLANT2"))
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world.add_entity(Entity(8, 8, "PLANT2"))
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world.add_entity(Entity(9, 3, "PLANT3"))
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numberOfEarrings = config.getint("CONSTANT", "NumberOfEarrings")
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world.add_entity(Earring(9, 7))
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world.add_entity(Earring(5, 5))
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world.add_entity(Earring(4, 6))
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