示例#1
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    def paint(self):
        num_bubbles = dice.d(2, 3) + 1

        blocked = set(self.region.shape.border)
        for point in self.region.connections.keys():
            blocked.add(point)
            blocked.update(geometry.neighbors(point))

        field = BubbleField(self.region, blocked, num_bubbles)
        field.expand_bubbles()

        self.terrain_fill(Wall)
        for access_point in self.region.connections.keys():
            self.board[access_point].terrain = Floor()

        rooms = []

        for bubble in field.bubbles:
            rooms.append(ClusterableRoom(bubble.rect))

        cluster = RoomCluster(rooms, self)
        cluster.connect()

        for room in rooms:
            for point in room.interior:
                self.board[point].terrain = Floor()

            for point in room.walls:
                self.board[point].terrain = Wall(artificial=True)

            for point in room.doors:
                self.board[point].terrain = ClosedDoor()
示例#2
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    def paint(self):
        num_bubbles = dice.d(2, 3) + 1

        blocked = set(self.region.shape.border)
        for point in self.region.connections.keys():
            blocked.add(point)
            blocked.update(geometry.neighbors(point))

        field = BubbleField(self.region, blocked, num_bubbles)
        field.expand_bubbles()

        self.terrain_fill(Wall)
        for access_point in self.region.connections.keys():
            self.board[access_point].terrain = Floor()

        rooms = []

        for bubble in field.bubbles:
            rooms.append(ClusterableRoom(bubble.rect))

        cluster = RoomCluster(rooms, self)
        cluster.connect()

        for room in rooms:
            for point in room.interior:
                self.board[point].terrain = Floor()

            for point in room.walls:
                self.board[point].terrain = Wall(artificial=True)

            for point in room.doors:
                self.board[point].terrain = ClosedDoor()
示例#3
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    def paint(self):
        self.terrain_fill(wall.Wall)
        border = self.region.shape.border
        connections = list(self.region.connections.keys())[:]
        costs = {}
        base_cost = 1000
        for point in self.region.shape.points:
            costs[point] = base_cost

        for point in border:
            costs[point] = 10 * base_cost

        random.shuffle(connections)

        path_endpoints = connections[0:2]
        extra_connections = connections[2:]

        inflection_candidates = list(
            set(self.region.shape.points) - set(self.region.shape.border))

        inflection_points = []
        for i in range(dice.d(2, 2)):
            p = random.choice(inflection_candidates)
            inflection_points.append(p)
            inflection_candidates.remove(p)

        path_start, path_end = path_endpoints
        path = [path_start] + inflection_points + [path_end]

        for point in path:
            costs[point] = 40 * base_cost
            for n in geometry.neighbors(point):
                costs[n] = 10 * base_cost

        segments = []

        for i, point in enumerate(path[:-1]):
            segments.append((point, path[i + 1]))

        # dig out the path
        for segment in segments:
            start, end = segment
            dug = self.smart_draw_corridor(start, end, costs=costs)
            for p in dug:
                costs[p] = 10 * base_cost
                for p in geometry.neighbors(p):
                    if p not in dug:
                        costs[p] = 10 * base_cost

        #connect any extra access points to the path
        for start in extra_connections:
            end = random.choice(inflection_points)
            dug = self.smart_draw_corridor(start, end, costs=costs)
            for p in dug:
                # try and keep adacent tunnels from being dug
                costs[p] = 10 * base_cost
                for p in geometry.neighbors(p):
                    if p not in dug:
                        costs[p] = 10 * base_cost
示例#4
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    def paint(self):
        self.terrain_fill(wall.Wall)
        border = self.region.shape.border
        connections = list(self.region.connections.keys())[:]
        costs = {}
        base_cost = 1000
        for point in self.region.shape.points:
            costs[point] = base_cost

        for point in border:
            costs[point] = 10*base_cost

        random.shuffle(connections)

        path_endpoints = connections[0:2]
        extra_connections = connections[2:]

        inflection_candidates = list(set(self.region.shape.points) - set(self.region.shape.border))

        inflection_points = []
        for i in range(dice.d(2, 2)):
            p = random.choice(inflection_candidates)
            inflection_points.append(p)
            inflection_candidates.remove(p)

        path_start, path_end = path_endpoints
        path = [path_start] + inflection_points + [path_end]

        for point in path:
            costs[point] = 40*base_cost
            for n in geometry.neighbors(point):
                costs[n] = 10*base_cost

        segments = []
        
        for i, point in enumerate(path[:-1]):
            segments.append((point, path[i+1]))

        # dig out the path
        for segment in segments:
            start, end = segment
            dug = self.smart_draw_corridor(start, end, costs=costs)
            for p in dug:
                costs[p] = 10*base_cost
                for p in geometry.neighbors(p):
                    if p not in dug:
                        costs[p] = 10*base_cost

        #connect any extra access points to the path
        for start in extra_connections:
            end = random.choice(inflection_points)
            dug = self.smart_draw_corridor(start, end, costs=costs)
            for p in dug:
                # try and keep adacent tunnels from being dug
                costs[p] = 10*base_cost
                for p in geometry.neighbors(p):
                    if p not in dug:
                        costs[p] = 10*base_cost
示例#5
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    def do_tactics(self):
        if self.actor.can_see_entity(
                self.actor.tile.board.world.player) and dice.one_chance_in(3):
            raise events.SeeHostileEvent()

        if not self.destination:
            self.choose_destination()
            self.compute_path()

        if self.actor.tile.pos == self.destination:
            if not self.should_stop():
                # let's wander somewhere else
                self.choose_destination()
                self.compute_path()

            else:
                # nah, let's ask the strategy what to do.
                raise events.TacticsCompleteEvent()

        # try to move:
        if not self.path:
            self.destination = None
            return wait.WaitAction(self.actor)
        try:
            result = self.smart_move(self.path)
            # reset our wait timer:
            if self.wait_timer == 0:
                self.wait_timer = dice.d(1, self.max_wait)

            return result

        except PathBlockedException:
            # logger.debug('path blocked')
            # wait and see if the blocker clears
            if self.wait_timer > 0:
                # logger.debug('waiting: {timer} more turns'.format(timer=self.wait_timer))
                self.wait_timer -= 1
                return wait.WaitAction(self.actor)

            else:
                # logger.debug('trying to repath')
                # ok, let's recompute the path, or go somewhere else
                path_found = self.recompute_path(ab=True, md=10)
                if not path_found:
                    # logger.debug('no path found, going somewhere else')
                    dest = self.nearby_reachable_destination()
                    if dest:
                        # logger.debug('nearby destination found!')
                        self.destination = dest
                        self.compute_path()

                return wait.WaitAction(self.actor)
示例#6
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    def do_tactics(self):
        if self.actor.can_see_entity(self.actor.tile.board.world.player) and dice.one_chance_in(3):
            raise events.SeeHostileEvent()

        if not self.destination:
            self.choose_destination()
            self.compute_path()

        if self.actor.tile.pos == self.destination:
            if not self.should_stop():
                # let's wander somewhere else
                self.choose_destination()
                self.compute_path()

            else:
                # nah, let's ask the strategy what to do.
                raise events.TacticsCompleteEvent()

        # try to move:
        if not self.path:
            self.destination = None
            return wait.WaitAction(self.actor)
        try:
            result = self.smart_move(self.path)
            # reset our wait timer:
            if self.wait_timer == 0:
                self.wait_timer = dice.d(1, self.max_wait)

            return result

        except PathBlockedException:
            # logger.debug('path blocked')
            # wait and see if the blocker clears
            if self.wait_timer > 0:
                # logger.debug('waiting: {timer} more turns'.format(timer=self.wait_timer))
                self.wait_timer -= 1
                return wait.WaitAction(self.actor)

            else:
                # logger.debug('trying to repath')
                # ok, let's recompute the path, or go somewhere else
                path_found = self.recompute_path(ab=True, md=10)
                if not path_found:
                    # logger.debug('no path found, going somewhere else')
                    dest = self.nearby_reachable_destination()
                    if dest:
                        # logger.debug('nearby destination found!')
                        self.destination = dest
                        self.compute_path()

                return wait.WaitAction(self.actor)
示例#7
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    def paint(self):
        self.terrain_fill(Wall)
        center, width, height = self.get_bounding_box()

        circle = geometry.Circle(center, min(width, height) / 2)
        room = Room(circle)

        # place 1d3 doors
        doorsteps = []
        for _ in range(dice.d(1, 3)):
            door_pos = random.choice(room.door_candidates())
            room.place_door(door_pos)
            doorsteps.append(room.doorstep(door_pos))

        # draw room
        for pos in room.interior:
            self.board[pos].terrain = Floor()

        for pos in room.walls:
            self.board[pos].terrain = Wall(artificial=True)

        for pos in room.doors:
            self.board[pos].terrain = ClosedDoor()

        # draw corridors
        connections = list(self.region.connections.keys())
        blocked = set(room.all_points()).union(set(self.region.shape.border))
        blocked -= set(connections)

        connected_doorsteps = []

        for p in connections:
            self.board[p].terrain = Floor()
            doorstep = random.choice(doorsteps)
            connected_doorsteps.append(doorstep)
            self.smart_draw_corridor(p, doorstep, blocked)

        for p in doorsteps:
            if p not in connected_doorsteps:
                self.board[p].terrain = Floor()
                border_point = random.choice(connections)
                self.smart_draw_corridor(p, border_point, blocked)
示例#8
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def fight(attacker, defender):
    to_hit = 3
    to_miss = 1

    if attacker.dex > defender.dex:
        to_hit += attacker.dex - defender.dex
    else:
        to_miss += defender.dex - attacker.dex

    hit_chance = to_hit / (to_hit + to_miss)

    logger.debug('hit_chance: {hit_chance:2}'.format(hit_chance=hit_chance))

    attack_power = attacker.str
    damage = 0

    if random.random() <= hit_chance:
        result_type = CombatResultTypes.hit
        damage = dice.d(1, attack_power)

    else:
        result_type = CombatResultTypes.miss

    return CombatEvent(attacker, defender, result_type, damage)
示例#9
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 def should_stop(self):
     return dice.d(1, 3) == 3
示例#10
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 def use_effect(self, actor):
     amount = dice.d(2, 8)
     actor.heal(amount)
     actor.inventory.remove(item=self)
     return [GainHealthEvent(actor, amount)]
示例#11
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 def __init__(self, strategy=None):
     super().__init__(strategy)
     self.turns_to_sleep = dice.d(2, 50)
示例#12
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 def should_stop(self):
     return dice.d(1, 3) == 3