Ejemplo n.º 1
0
def traverse():
    graph = Graph()
    visited = set()
    test_path = list()
    mapped_rooms = graph.dft(
        player.current_room
    )  # maps out the graph connecting each room with its neighbors
    rooms = [
        room for room in mapped_rooms
    ]  # a list of all rooms in the order in which they were added to the stack

    while len(visited) < len(room_graph) - 1:
        path = graph.bfs(
            rooms[0], rooms[1]
        )  # As long as there's rooms to visit, we take the shortest path between the first two rooms

        while len(
                path
        ) > 1:  # While there is at least two rooms in the shortest path we check if the adjacent_room is a neighbor of the current_room and if it is we append the direction value to the adjacent_room
            current_room = path[0]
            adjacent_room = path[1]

            if adjacent_room in mapped_rooms[current_room]:
                test_path.append(mapped_rooms[current_room][adjacent_room])
            path.remove(current_room)
        rooms.remove(
            rooms[0]
        )  # Removes the room you checked and ads it to the visited so that you can keep checking each room through the list
        visited.add(rooms[0])

    return test_path
Ejemplo n.º 2
0
def play():
    # create an array of visited rooms to keep track of
    visited = set()
    graph = Graph()
    # the path we take in that one run of the game
    trav_path = []
    # using dfs to find the rooms - find all rooms on possible branch
    d_rooms = graph.dfs(player.current_room)
    # returns and array of the rooms in d_rooms
    rooms = [d_room for d_room in d_rooms]
    # while total visited is less than the total rooms in graph of world - 1
    while (len(visited) < len(room_graph) - 1):
        # current room is the first room in the rooms array
        curr_room = rooms[0]
        # the next traverse will be to the next item in the rooms array
        next_room = rooms[1]

        # use a bfs to find the shortest path to destination - explores all the neighbour nodes
        shortest = graph.bfs(curr_room, next_room)
        # loop through shortest until nothing left
        while len(shortest) > 1:
            # find the neighbours
            curr_room_nays = d_rooms[shortest[0]]
            # next traverse will be to the next item in shortest array
            next_room = shortest[1]
            # if the next room (in the shortest path) exists in the current neighbours of curr room
            if next_room in curr_room_nays:
                trav_path.append(curr_room_nays[next_room])
            # remove the first room from the queue
            shortest.remove(shortest[0])

        # remove the current room from the total rooms
        rooms.remove(curr_room)
        # pop it on to the visited rooms array
        visited.add(curr_room)

    return trav_path
Ejemplo n.º 3
0
                    direction = random.choice(exits)
                else:
                    direction = exits[0]
            else:
                # If we backtracked from a dead end, take next avail clockwise turn
                direction = exits[0]
                backtracked = False
            player.travel(direction)
            traversal_path.append(direction)
            visited_rooms.add(player.current_room)
            graph.add_room(player.current_room.id,
                           player.current_room.get_exits())
            graph.connect_rooms(current_room.id, player.current_room.id,
                                direction)
        else:
            route = graph.bfs(player.current_room.id)
            for direction in route:
                player.travel(direction)
                traversal_path.append(direction)
            backtracked = True

    if len(traversal_path) < shortest_traversal:
        print(f"NEW RECORD FOUND WITH SEED {seed}")
        shortest_traversal = len(traversal_path)

        # TRAVERSAL TEST
        visited_rooms = set()
        player.current_room = world.starting_room
        visited_rooms.add(player.current_room)

        for move in traversal_path: