def room2(self):
m = MapRenderer("second room", self.engine)
m.renderBackground()
self.current_room = 2
self.player.resetx = 300
self.player.resety = 416
# set up doors
d = Door(2, 300, 432, 300, 16, "third room", self.engine)
self.engine.objects.append(d)
self.player.interactables.add(d)
self.engine.drawables.add(d)
# set up container and enemy
self.crate.createLanternContainer(2, 387, 328)
self.crate.createBeartrapContainer(2, 330, 332)
self.spawner.createEnemy(2, 386, 183)
self.spawner.createEnemy(2, 60, 71)
# door to next room
d2 = Door(2, 61, 189, 413, 65, "third room", self.engine)
print("changing room")
self.engine.drawables.add(d2)
self.engine.objects.append(d2)
self.player.interactables.add(d2)
m.renderForeGround()
# add all impassable sprites to classes which need them
for impassable in m.getAllImpassables():
self.player.blocks.add(impassable)
def main():
pi = pigpio.pi()
srv = Servo(pi)
swi = Switch(pi, srv)
door = Door(pi)
try:
while True:
logger.debug("waiting id card")
# ここでカード読み込み
if database.confirm("ここに番号"), "ここにIDm"):
srv.open_lock()
slack.send_slack("ここになまえ")
time.sleep(10)
while door.door_status() == door.OPEN:
time.sleep(0.5)
srv.close_lock()
else:
led.red_led_on()
print("Can't confirm.")
time.sleep(3)
led.red_led_off()
except:
pi.stop()
r.close()
main()
def __init__(self,
door_config: DoorConfig,
room_type: RoomType = RoomType.STANDARD):
self.north_door: Optional[Door] = Door(
Direction.NORTH) if door_config.north else None
self.south_door: Optional[Door] = Door(
Direction.SOUTH) if door_config.south else None
self.east_door: Optional[Door] = Door(
Direction.EAST) if door_config.east else None
self.west_door: Optional[Door] = Door(
Direction.WEST) if door_config.west else None
self.door_map = {
Direction.NORTH: self.north_door,
Direction.SOUTH: self.south_door,
Direction.EAST: self.east_door,
Direction.WEST: self.west_door
}
self.number_of_connections = sum(door_config.raw)
self.treasure: Optional[Treasure] = None
self.enemies: List[Enemy] = []
self.type = room_type
self.entity_type = EntityType.ROOM
self.id = generate_random_id(self.entity_type)
self.visited = False
def add_connection(self, room: 'Room', direction: Direction):
door = Door(
direction, DoorType.BARRICADE
) if self.door_map[direction] is None else self.door_map[direction]
door.connection = room
if room.door_map[direction.opposite()] is None:
door.type = DoorType.BARRICADE
def room3(self):
m = MapRenderer("third room", self.engine)
m.renderBackground()
self.current_room = 3
# set up doors
d = Door(2, 413, 65, 300, 16, "second room", self.engine)
self.engine.objects.append(d)
self.player.interactables.add(d)
self.engine.drawables.add(d)
# set up container and enemy
self.spawner.createAbbot(2, 82, 399)
self.crate.createBeartrapContainer(2, 200, 70)
d2 = Door(2, 300, 300, 52, 56, "fourth room", self.engine)
self.engine.drawables.add(d2)
self.engine.objects.append(d2)
self.player.interactables.add(d2)
m.renderForeGround()
# add all impassable sprites to classes which need them
for impassable in m.getAllImpassables():
self.player.blocks.add(impassable)
def room4(self):
m = MapRenderer("fourth room", self.engine)
m.renderBackground()
self.current_room = 4
# set up doors
d = Door(2, 52, 56, 300, 16, "third", self.engine)
self.engine.objects.append(d)
self.player.interactables.add(d)
self.engine.drawables.add(d)
# set up container and enemy
self.crate.createRancidMeatContainer(2, 234, 66)
self.spawner.createAbbot(2, 352, 376)
d2 = Door(2, 17, 195, 50, 416, "fifth room", self.engine)
self.engine.drawables.add(d2)
self.engine.objects.append(d2)
self.player.interactables.add(d2)
m.renderForeGround()
# add all impassable sprites to classes which need them
for impassable in m.getAllImpassables():
self.player.blocks.add(impassable)
def _create_door (game, data) : door = Door ( default = 'images/door_closed.png', closed='images/door_closed.png', open='images/door_open.png') door.set_pos (_get_coords (data)) return door
def __init__(self):
#
# instantiate all our classes
self.comms = Comms(config.ORIGIN_NUM, config.TARGET_NUMS)
self.light = Light(config.CITY_NAME, config.LATITUDE, config.LONGITUDE,
config.SUNRISE_DELAY, config.SUNSET_DELAY)
self.door = Door(config.REVS)
self.camera = Camera(config.MAX_HORZ, config.MAX_VERT)
class World:
def __init__(self, app):
self.app = app
self.enemy_list = []
self.width = 640
self.height = 480
self.player = Player(self, 225, 85, 15, 15)
self.background = Background(self, pygame.image.load('assets/background_image.png'))
self.door = Door(self,self.background, 0, 150)
self.door_2 = Door(self,self.background,0,50)
self.npc = None
self.protectable_item = ProtectableItem(self,app,150,150, 'assets/cake.png')
self.score_display = ScoreDisplay(self)
window_size = SCREEN_WIDTH, SCREEN_HEIGHT = 320,240
self.screen = pygame.display.set_mode(window_size,RESIZABLE)
self.surface = pygame.Surface(self.screen.get_size())
self.surface = self.surface.convert()
self.fpsClock=pygame.time.Clock()
def update(self):
self.player.update()
self.player.Interacting(self.npc)
if self.door.check_door_touching(self.player):
for enemy_number in range(0,1):
PlayerAttacker(self, 50, 50, pygame.image.load('assets/demon1.png'))
itemAttacker(self, 10, 10, pygame.image.load('assets/demon1.png'))
#self.door.check_door_touching(self.player)
self.player.Interacting(self.npc)
for this_enemy in self.enemy_list:
this_enemy.update()
if self.npc != None:
self.npc.update()
def draw(self):
self.surface.fill((0, 0, 0)) # clear screen (Paint it all white)
self.background.draw(self.surface)
self.player.draw(self.surface)
self.protectable_item.draw(self.surface)
self.score_display.draw()
if self.npc != None:
self.npc.draw(self.surface)
for this_enemy in self.enemy_list:
this_enemy.draw(self.surface)
this_enemy.draw(self.surface)
self.door.draw(self.surface)
self.screen.blit(self.surface, (0,0)) # this might be what was missing
pygame.display.update() # Actually do all the stuff? (Not actually sure what this does... but I think it should be called at the end of the drawing step)
FPS = 30
self.fpsClock.tick(FPS)
def change_location(self, background_image):
self.background.change_image(background_image)
self.npc = NonPlayer(self, pygame.image.load('assets/npc_32x32.png'))
def __init__(self, pi, servo):
self.pi = pi
self.door = Door(pi)
self.time_old = time.time()
self.servo = servo
pi.set_mode(Switch.switch_pin, pigpio.INPUT)
pi.set_pull_up_down(Switch.switch_pin, pigpio.PUD_DOWN)
self._cb = pi.callback(Switch.switch_pin, pigpio.RISING_EDGE, self._cbf1)
class Switch:
switch_pin = 22
def __init__(self, pi, servo):
self.pi = pi
self.door = Door(pi)
self.time_old = time.time()
self.servo = servo
pi.set_mode(Switch.switch_pin, pigpio.INPUT)
pi.set_pull_up_down(Switch.switch_pin, pigpio.PUD_DOWN)
self._cb = pi.callback(Switch.switch_pin, pigpio.RISING_EDGE, self._cbf1)
def _cbf(self, gpio, level, tick):
if time.time() - self.time_old < 1:
return
else:
self.servo.open_lock()
database.button_info_insert()
slack.button()
time.sleep(5)
while self.door.door_status() == self.door.OPEN:
time.sleep(0.5)
self.servo.close_lock()
self.time_old = time.time()
def _cbf1(self, gpio, level, tick):
# 長押しでリスタートの機能追加版
if time.time() - self.time_old < 1:
return
else:
counter = 0
while True:
status = self.pi.read(Switch.switch_pin)
if status == 1:
counter += 1
if counter >= 60:
led.red_led_on()
led.green_led_on()
time.sleep(2)
led.green_led_off()
led.red_led_off()
self.time_old = time.time()
subprocess.Popen("sudo systemctl restart badegg.service", shell=True)
break
else:
self.servo.open_lock()
database.button_info_insert()
slack.button()
time.sleep(5)
while self.door.door_status() == self.door.OPEN:
time.sleep(0.5)
self.servo.close_lock()
self.time_old = time.time()
break
time.sleep(0.05)
def get_doors_for_world(world_type):
if (world_type == "japaneseVillage"):
door = Door(1, 1000, 1000, "door1")
return [door]
elif (world_type == "beach"):
door = Door(1, 10000, 10000, "door1")
return [door]
elif (world_type == "insideHouse"):
door = Door(1, 5000, 500, "door1")
return [door]
def play_game(contestant_switches):
doors = [Door(False), Door(False), Door(True)]
random.shuffle(doors)
game = Game(*doors)
game.contestant_guess = doors[0]
game.host_open_door()
if contestant_switches:
game.contestant_switch()
return game.contestant_has_won()
class DoorTests(unittest.TestCase):
def setUp(self):
self.func = Door("green", 5)
def test_color_is_evaluated_as_getter(self):
with self.assertRaises(AttributeError):
self.func.color
def test_color_is_evaluated_as_setter(self):
raised = False
try:
self.func.color = "red"
except:
raised = True
self.assertFalse(raised, 'Exception raised')
def test_size_is_evaluated_as_getter(self):
self.assertEqual(self.func.size, 5)
def test_size_is_evaluated_as_setter(self):
with self.assertRaises(AttributeError):
self.func.size = 10
def test_status_as_getter_with_default_parameter(self):
self.assertEqual(self.func.status, "Cerrado")
def test_status_is_evaluated_as_setter(self):
raised = False
try:
self.func.status = "Abierto"
except:
raised = True
self.assertFalse(raised, 'Exception raised')
def test_status_if_status_is_cerrado_then_open_returns_business_is_closed(
self):
self.func.status = "Cerrado"
self.assertEqual(self.func.open(), "Business is closed")
def test_status_if_status_is_abierto_then_open_returns_open_red_door(self):
self.func.color = "red"
self.func.status = "Abierto"
self.assertEqual(self.func.open(), "open red door")
def test_close_if_status_is_cerrado_then_close_returns_door_is_closed(
self):
self.func.status = "Cerrado"
self.assertEqual(self.func.close(), "Door is closed")
def test_close_if_status_is_abierto_then_close_returns_close_door_of_5_meters(
self):
self.func.status = "Abierto"
self.assertEqual(self.func.close(), "close door of 5 meters")
def main():
lst = [
Door("opened"),
Door(),
Door(),
Window("opened"),
Window(),
Door(),
Window("opened"),
Window("opened")
]
openclosefuncs.closeAll(lst)
openclosefuncs.openAll(lst)
def generate_doors(count=100):
door_list = []
for i in range(1, count + 1):
door_list.append(Door(i))
return door_list
def __reset(self):
self.alphabet = [False] * 26
Framework.__init__(self)
Framework.setZoom(self, 115)
Framework.setCenter(self, [0, 1.74])
self.wristAngle = math.pi / 2
self.doorOpened = False
self.recording = False
self.reset = False
self.arm_angles = [
math.pi / 2, math.pi / 2, math.pi / 2, math.pi / 2, math.pi / 2
]
lengths = [1, 1, .4, .27]
self.arm = Arm(self.world,
self.arm_angles,
lengths,
basePos=(-.1, 0.08),
motorRange=2 * math.pi)
self.arm.target_pose[0] = random.uniform(-1, 1)
self.arm.target_pose[1] = random.uniform(1.5, 2.3)
ground = self.world.CreateBody(position=(0, 0))
ground.CreateEdgeChain([(-4, -2), (-4, .6), (-2, .6), (-2, 0), (2, 0),
(2, 6), (4, 6), (4, -2), (-2, -2)])
self.door = Door(self.world, (-2, .62), 1.2)
def addInternalDoor(self, r1, r2, s):
x, y = [0], [0]
r = 0
dp = [0, 0]
if self.rooms[r1].status == '0':
r = r1
x = [
self.rooms[r2].origin[0],
min(self.rooms[r1].anti_origin[0],
self.rooms[r2].anti_origin[0])
]
y = [
self.rooms[r2].origin[1],
min(self.rooms[r1].anti_origin[1],
self.rooms[r2].anti_origin[1])
]
elif self.rooms[r2].status == '0':
r = r2
x = [
self.rooms[r1].origin[0],
min(self.rooms[r1].anti_origin[0],
self.rooms[r2].anti_origin[0])
]
y = [
self.rooms[r1].origin[1],
min(self.rooms[r1].anti_origin[1],
self.rooms[r2].anti_origin[1])
]
if s == 'v': # wertykalny
dp = [choice(x), randint(y[0], y[-1] - 1)]
elif s == 'h': # horyzontalny
dp = [randint(x[0], x[-1] - 1), choice(y)]
self.doors.append(Door(*dp, *self.rooms[r].anti_origin, s))
def create_dict_map(self,
width=TESTLEVEL_WIDTH,
height=TESTLEVEL_HEIGHT,
level_array=TESTLEVEL):
dict_map = {(x, y): Tile((x, y))
for x in range(width) for y in range(height)}
for l_x in range(width):
for l_y in range(height):
if level_array[l_x][l_y] == '.':
dict_map[(l_x, l_y)].blocked = False
elif level_array[l_x][l_y] == '#':
dict_map[(l_x, l_y)].skin = 0
elif level_array[l_x][l_y] == '$':
dict_map[(l_x, l_y)].skin = 1
elif level_array[l_x][l_y] == '%':
dict_map[(l_x, l_y)].skin = 2
door_component = Door(player=self.player,
entities=self.entities)
dict_map[(l_x, l_y)].door = door_component
dict_map[(l_x, l_y)].add_door_component()
elif level_array[l_x][l_y] == '[':
dict_map[(l_x, l_y)].skin = 3
elif level_array[l_x][l_y] == '=':
dict_map[(l_x, l_y)].skin = 4
elif level_array[l_x][l_y] == ']':
dict_map[(l_x, l_y)].skin = 5
self.current_level = dict_map
def __init__(self):
self.rooms = []
self.currentRoom = 0
self.inventory = []
firstRoom = Room(
1,
"Je staat in de keuken. Er staan een aanrecht en een koelkast, en er is 1 deur.",
[Door(123, 1)],
[Key(123, "woonkamersleutel"),
Key(321, "schatkistsleutel")])
secondRoom = Room(2, "Je staat in de woonkamer, er is een deur",
[Door(123, 0)], [])
self.rooms.append(firstRoom)
self.rooms.append(secondRoom)
print(self.rooms[self.currentRoom].description)
def populate_map(self, map):
# define rooms and items
# furniture
couch = Furniture("couch")
piano = Furniture("piano")
double_bed = Furniture("double bed")
queen_bed = Furniture("queen bed")
dresser = Furniture("dresser")
dining_table = Furniture("dining table")
# doors
door_a = Door("door a")
door_b = Door("door b")
door_c = Door("door c")
door_d = Door("door d")
# keys
key_a = Key("key for door a", door_a)
key_b = Key("key for door b", door_b)
key_c = Key("key for door c", door_c)
key_d = Key("key for door d", door_d)
# rooms
game_room = Room("game room")
bedroom_1 = Room("bedroom 1")
bedroom_2 = Room("bedroom 2")
living_room = Room("living room")
outside = Room("outside")
# setting start and end rooms
map.set_start_room(game_room)
map.set_end_room(outside)
# object relations
map.add_relation("game room", [couch, piano, door_a])
map.add_relation("bedroom 1", [queen_bed, door_a, door_b, door_c])
map.add_relation("bedroom 2", [double_bed, dresser, door_b])
map.add_relation("living room", [dining_table, door_c, door_d])
map.add_relation("outside", [door_d])
map.add_relation("piano", [key_a])
map.add_relation("double bed", [key_c])
map.add_relation("dresser", [key_d])
map.add_relation("queen bed", [key_b])
map.add_relation("door a", [game_room, bedroom_1])
map.add_relation("door b", [bedroom_1, bedroom_2])
map.add_relation("door c", [bedroom_1, living_room])
map.add_relation("door d", [living_room, outside])
def main() :
e = league.Engine("Spook City")
e.init_pygame()
timer = pygame.time.set_timer(pygame.USEREVENT + 1, 1000 // league.Settings.gameTimeFactor)
count = 0
p = Player(1, 400, 300)
spawner = EnemySpawner(e,p)
crate = createInteract(e,p)
spawner.createEnemy(2,128,128)
crate.createLanternContainer(2,128,300)
crate.createBeartrapContainer(2,256,300)
mapRenderer = MapRenderer("first room", e)
world_size = mapRenderer.renderBackground()
p.world_size = world_size
mapRenderer.renderForeGround()
d = Door(2, 300, 4, 300, 416, "second room", e)
e.light_points = p.raycast_points
e.player = p
overlay = Overlay(p)
e.overlay = overlay
e.objects.append(p)
e.objects.append(overlay)
e.objects.append(d)
# any objects to be created on the fly
p.items = e.dynamic_instances
p.interactables.add(d)
# add all drawables
e.drawables.add(p)
e.drawables.add(d)
mapRenderer.renderForeGround()
p.resetx = 300
p.resety = 416
bgm = BackgroundMusic("lavender town")
bgm.start_music()
# add all impassable sprites to classes which need them
for impassable in mapRenderer.getAllImpassables():
p.blocks.add(impassable)
# create room object in engine
e.room = Room(p, e, overlay)
p.room = e.room
e.key_events[pygame.K_a] = p.move_left
e.key_events[pygame.K_d] = p.move_right
e.key_events[pygame.K_w] = p.move_up
e.key_events[pygame.K_s] = p.move_down
e.key_events[pygame.K_e] = p.interact
e.key_events[pygame.K_SPACE] = p.use_active_item
e.key_events[pygame.K_ESCAPE] = e.stop
e.events[pygame.QUIT] = e.stop
e.run()
def _build_door(self):
"""Position and build the level door"""
self.door = Door(self)
self.door.rect.y = 196
self.door.rect.x = -100
self.doors = pygame.sprite.Group()
self.doors.add(self.door)
def __init__(self, app):
self.app = app
self.enemy_list = []
self.width = 640
self.height = 480
self.player = Player(self, 225, 85, 15, 15)
self.background = Background(self, pygame.image.load('assets/background_image.png'))
self.door = Door(self,self.background, 0, 150)
self.door_2 = Door(self,self.background,0,50)
self.npc = None
self.protectable_item = ProtectableItem(self,app,150,150, 'assets/cake.png')
self.score_display = ScoreDisplay(self)
window_size = SCREEN_WIDTH, SCREEN_HEIGHT = 320,240
self.screen = pygame.display.set_mode(window_size,RESIZABLE)
self.surface = pygame.Surface(self.screen.get_size())
self.surface = self.surface.convert()
self.fpsClock=pygame.time.Clock()
def __init__(self, doors: int):
self.doors = {
possible_doors[i]: Door(possible_doors[i])
for i in range(
doors
) #dict comprehension, podobnie do list comprehension tylko musi być klucz i wrtość
}
self.close_doors()
def testSpecific(self):
testHeight: float = 85.8
testWidth: float = 40
testWood: str = 'Cedar'
door1 = Door(woodType=testWood, width=testWidth, height=testHeight)
self.assertEqual(door1.woodType, testWood)
self.assertEqual(door1.height, testHeight)
self.assertEqual(door1.width, testWidth)
def load_modules():
modules = {}
# load detectors from database
from detector import Detector
Detector.load_to_dict(modules)
# load alarm from database
from alarm import Alarm
Alarm.load_to_dict(modules)
# load rfid
from rfid import Rfid
Rfid.load_to_dict(modules)
from door import Door
Door.load_to_dict(modules)
return modules
def set_tcp_info():
door = Door()
ip_info = {
'ip': '192.168.3.35',
'mask': '255.255.255.0',
'gateway': '192.168.3.1',
'dns1': '225.5.5.5',
'dns2': '225.6.6.6',
'work_type': '01',
'tcp_listen': 8000,
'udp_listen': 8101,
'remote_port': 9000,
'remote_ip': '192.168.3.155',
'dhcp': '00',
'remote_domain': ''
}
res = door.set_tcp_info(ip_info)
print(res)
def init_objects(self):
# create player object
player_pos = self.current_level.get_character_pos()
player_current_row = player_pos[0]
player_current_col = player_pos[1]
self.player = Player(player_current_row, player_current_col)
# create robots
self.robots = []
robot_positions = self.current_level.get_robot_positions()
for pos in robot_positions:
r = pos[0]
c = pos[1]
self.robots.append(Robot(r, c, self.current_level.get_matrix()))
# create apples
self.apples = []
apple_positions = self.current_level.get_apple_positions()
for pos in apple_positions:
r = pos[0]
c = pos[1]
self.apples.append(Apple(r, c))
# create doors
self.doors = []
door_positions = self.current_level.get_door_positions()
for pos in door_positions:
r = pos[0]
c = pos[1]
self.doors.append(Door(r, c))
# create keys
self.keys = []
key_positions = self.current_level.get_key_positions()
for pos in key_positions:
r = pos[0]
c = pos[1]
self.keys.append(Key(r, c))
# create lights
self.lights = []
light_positions = self.current_level.get_light_positions()
for pos in light_positions:
r = pos[0]
c = pos[1]
self.lights.append(Light(r, c))
# count number of apples
self.total_apple_count = len(self.apples)
#print("Number of apples in the level ", self.total_apple_count)
# count keys and doors
self.total_key_count = len(self.keys)
def build():
prizes = [0, 0, 1]
doors = []
for i in range(0, 3):
prize = prizes[randrange(len(prizes))]
doors.append(Door(f"Door{i + 1}", prize, 0, 0))
prizes.remove(prize)
return doors
def __init__(self, rows):
super(Map, self).__init__()
self.height = len(rows)
self.width = len(rows[0])
for y, row in enumerate(rows):
self._map[y] = {}
for x, item in enumerate(row):
if item == '#':
self._map[y][x] = Floor()
elif item == '|':
self._map[y][x] = Door()
elif item == '@':
self._map[y][x] = Player()
else:
self._map[y][x] = None
def makeDoor(self, door):
try:
d = Door("model/" + door["model"] + ".json", door["openWith"], door["permanent"])
d.setPos(self.gridToPos(door["pos"]))
d.type = "door"
d.symbol = 'd'
if door["openWith"] == "switches":
d.switches = door["switches"]
return d
except KeyError as e:
print "Error in map doors..."
exit()
if config.has_option(section, 'type'):
t = config.get(section, 'type')
if t == 'door':
name = section
txseq = int(config.get(section, 'txsequence'))
rxseq = int(config.get(section, 'rxsequence'))
address = config.get(section, 'address')
initial_unlock = config.get(section, 'inital_unlock')
if initial_unlock == 'True':
initial_unlock = True
else:
initial_unlock = False
key = config.get(section, 'key')
logger.debug('Adding door "%s"'%section)
door = Door(name, address, txseq, rxseq, key, ser, initial_unlock)
doors[address] = door
else:
logger.warning('Unknown entry type "%s"', t)
elif section == 'Master Controller':
txseq = int(config.get(section, 'txsequence'))
rxseq = int(config.get(section, 'rxsequence'))
key = config.get(section, 'key')
master = MasterController('0', txseq, rxseq, key, ser, command_queue)
if master == None:
logger.error('Please specify a master controller')
sys.exit(1)
command_queue.put('announce_closed')
from door import Door
d = Door('smart-door') # replace with your one
d.checkAvailable()
def main():
"""The main loop of the game. It handles loading the levels, key strokes, playing music and sounds; relies heavily on multiple other classes to function correctly.
These include the camera, coins, door, entities, platform, player, sounds, spike, themes, and trophies classes."""
gc.enable() # Garbage collector
global cameraX, cameraY, key_count, delete_door, current_level, deaths, deaths_total, volume # Load in the global variables
pygame.mixer.pre_init(44100, -16, 2, 2048) # Initilize the music
screen = pygame.display.set_mode(DISPLAY, FLAGS, DEPTH) # Set the screen information
screen_rect = screen.get_rect()
timer = pygame.time.Clock()
# We don't want to see the normal mouse cursor while playing.
pygame.mouse.set_visible(False)
sounds = Sounds() # Allows us to call sounds by doing sounds.name
font = pygame.font.SysFont("arial", 25) # Font for the game
loading_bar = pygame.transform.scale(pygame.image.load("images/button.png"), (WIN_WIDTH, 35)) # Loading bar image (so that the "Loading Level (level)..." text is visible)
up = down = left = right = running = False # Set all key strokes (directions) to False
# Load in the first level by assigning sprites into groups and into the platforms and coin_list lists
# Read about what each thing does in the respective class
# !!! WARNING !!! The game will break if the level does not contain the player ("C") within; the game may break if the door Top and Bottom is not found as well.
"""KEY FOR LEVELS
P = Platform
C = player starting position
A = Spike (Up)
V = Spike (Down)
> = Spike (Right)
< = Spike (Left)
K = Key
X = Trophy
T = Door Top
B = Door Bottom"""
platforms = []
coin_list = []
entities = pygame.sprite.Group()
coinA = pygame.sprite.Group()
spikes = pygame.sprite.Group()
trophies = pygame.sprite.Group()
monsters = pygame.sprite.Group()
x = 0
y = 0
level = open('levels/level' + str(current_level) + '.txt', 'r')
for row in level:
for col in row:
if col == "P":
p = Platform(x, y) # Place a platform at the given x,y
platforms.insert(0, p) # Insert it into the platforms list
entities.add(p) # Add to entities so it appears on screen
if col == "C":
charX = x # The character x found from file loading
charY = y # The character y found from file loading
player = Player(charX, charY) # Set the player along with the x,y of the starting position
if col == "A":
spike = Spike(x, y, 1) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "V":
spike = Spike(x, y, 2) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == ">":
spike = Spike(x, y, 3) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "<":
spike = Spike(x, y, 4) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "M":
monster = Monster(x, y) # Load a spike at the x,y found
entities.add(monster) # Add the spike to the entities
monsters.add(monster) # Add the spike to the spike sprite group for collison purposes
if col == "K":
c1 = Coins(x, y) # Load a coin image at the given x,y
entities.add(c1) # Coin 1 to the entities
coinA.add(c1) # add coin 1 to the coinA sprite group
if col == "X":
win_object = Trophy(x, y) # Load the proper trophy by passing the current_level to the trophy class and load at the given x,y from file loading
entities.add(win_object) # Add the trophy to the entities so it appears
trophies.add(win_object) # Also make it a trophy sprite for collision detection purposes
if col == "T":
doorA = Door(x, y, pygame.transform.scale(pygame.image.load("images/door_locked1.png"), (60,100)))
platforms.append(doorA) # Make the door top a platform so the player cannot walk through it
entities.add(doorA) # Add the door bottom to the entities
if col == "B":
doorB = Door(x, y, pygame.transform.scale(pygame.image.load("images/door_locked2.png"), (60,32)))
platforms.append(doorB) # Make the door bottom a platform so the player cannot walk through it
entities.add(doorB) # Add the door bottom to entities
x += 32
y += 32
x = 0
# Try loading in the level image and theme; if it fails, use level 0 theme and background
background = pygame.image.load('images/backgrounds/background.png').convert_alpha()
background_rect = background.get_rect()
total_level_width = len('level'[0])*32
total_level_height = len('level')*32
camera = Camera(complex_camera, total_level_width, total_level_height)
entities.add(player) # Finally, add player to entities so it appears
missiles = pygame.sprite.RenderUpdates()
# The main loop of the game which runs it until we're done.
while 1:
pygame.display.set_caption("Asylum | Deaths (level): " + str(deaths) + " | Deaths (Total): " + str(deaths_total) + " | FPS: " + str(int(timer.get_fps())))
asize = ((screen_rect.w // background_rect.w + 1) * background_rect.w, (screen_rect.h // background_rect.h + 1) * background_rect.h)
bg = pygame.Surface(asize)
# Create the background
for x in range(0, asize[0], background_rect.w):
for y in range(0, asize[1], background_rect.h):
screen.blit(background, (x, y))
timer.tick(38) # The maximum framerate; the game is designed to run at an FPS of 30-40 (38 being best)
# All the keystroke events; the game can run using the UP-RIGHT-LEFT arrow keys, Space Bar, and the AWD keys (down is never needed)
# ENTER will kill the player (used if the player glitch spawns outside the level or glitch out (reloads the level as if they died))
for e in pygame.event.get():
if e.type == QUIT:
exit()
if e.type == KEYDOWN and e.key == K_ESCAPE:
exit()
if e.type == KEYDOWN and e.key == K_UP:
player.direction = 'up'
up = True
down = left = right = False
if e.type == KEYDOWN and e.key == K_DOWN:
player.direction = 'down'
down = True
up = left = right = False
if e.type == KEYDOWN and e.key == K_LEFT:
player.direction = 'left'
left = True
right = up = down = False
if e.type == KEYDOWN and e.key == K_RIGHT:
player.direction = 'right'
right = True
left = up = down = False
if e.type == KEYDOWN and e.key == K_w:
player.direction = 'up'
up = True
down = left = right = False
if e.type == KEYDOWN and e.key == K_s:
player.direction = 'down'
down = True
up = left = right = False
if e.type == KEYDOWN and e.key == K_a:
player.direction = 'left'
left = True
right = up = down = False
if e.type == KEYDOWN and e.key == K_d:
player.direction = 'right'
right = True
left = up = down = False
"""
if e.type == KEYDOWN and e.key == K_RSHIFT and player.attacking == False and pygame.sprite.spritecollide(player, monster, True):
print "Space bar clicked, attacking!"
player.attacking = True
sounds.shot.play()
sounds.shot.set_volume(volume)
if player.direction == 'down':
player.image = pygame.transform.scale(player.attackList[0], (50, 50))
if player.direction == 'left':
player.image = pygame.transform.scale(player.attackList[1], (50, 50))
if player.direction == 'up':
player.image = pygame.transform.scale(player.attackList[2], (50, 50))
if player.direction == 'right':
player.image = pygame.transform.scale(player.attackList[3], (50, 50))
"""
if e.type == KEYUP and e.key == K_UP:
player.direction = 'up'
up = False
if e.type == KEYUP and e.key == K_DOWN:
player.direction = 'down'
down = False
if e.type == KEYUP and e.key == K_RIGHT:
player.direction = 'right'
right = False
if e.type == KEYUP and e.key == K_LEFT:
player.direction = 'left'
left = False
if e.type == KEYUP and e.key == K_w:
player.direction = 'up'
up = False
if e.type == KEYUP and e.key == K_s:
player.direction = 'down'
down = False
if e.type == KEYUP and e.key == K_d:
player.direction = 'right'
right = False
if e.type == KEYUP and e.key == K_a:
player.direction = 'left'
left = False
"""
if e.type == KEYUP and e.key == K_RSHIFT:
player.attacking = False
print "reset attack"
"""
# All of the coin collision detection; when it occurs, the coin is removed and a sound plays while adding one to the coin_count (4 opens the door)
# the True in each IF statement means that when the collision occurs the coin is removed from it's group, thus removing it from appearing on screen
if pygame.sprite.spritecollide(player, coinA, True, pygame.sprite.collide_mask):
sounds.coin_sound.play()
sounds.coin_sound.set_volume(volume)
key_count += 1
# If the player manages to reach the trophy, reset the level deaths, add one to the current_level, kill the theme (music), add the loading bar, print out loading level
# kill all key-presses (directions) empty all sprites and lists and load in the next level
if pygame.sprite.spritecollide(player, trophies, True, pygame.sprite.collide_mask):
sounds.footsteps.play()
deaths = 0
current_level += 1
platforms = None
level = None
up = False
right = False
left = False
key_count = 0
doorA.kill()
doorB.kill()
entities.empty()
trophies.empty()
spikes.empty()
coinA.empty()
monsters.empty()
screen.blit(loading_bar, (0,0)) # Blit the loading bar image to the screen (so text shows up on all background colors)
load_text = font.render("Loading Level " + str(current_level) + "...", True, (255, 255, 255)) # Blit loading text to the loading_bar
screen.blit(load_text, (1,0))
pygame.display.update()
gc.collect()
x = 0
y = 0
platforms = []
pause.sleep(3) # Sleep for 5 seconds ('loading'...might have an effect on lag by allowing it to pause for a few seconds)
try:
level = open('levels/level' + str(current_level) + '.txt', 'r') # Try loading the next level; if it fails, we assume they finished the game and reload the title screen
except:
screen.blit(loading_bar, (0,0))
congrats = font.render("Congratulations! You've conquered your fears and escaped Asylum!", True, (255, 255, 255))
screen.blit(congrats, (0,0))
print "blitted congrats"
pygame.display.update()
pause.sleep(5)
False
current_level = 0 # Reset the level counter so clicking play again doesn't crash the game
coin_count = 0 # Reset coin count
delete_door = True # Reset the door deletion status (True means the door can be removed)
# Since we're heading back to the title menu, let's bring back the title screen music.
pygame.mixer.pre_init(44100, -16, 2, 2048)
sounds = Sounds()
titleScreen()
for row in level:
for col in row:
if col == "P":
p = Platform(x, y)
platforms.insert(0, p)
entities.add(p)
if col == "C":
charX = x
charY = y
player = Player(charX, charY)
if col == "A":
spike = Spike(x, y, 1)
entities.add(spike)
spikes.add(spike)
if col == "V":
spike = Spike(x, y, 2) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == ">":
spike = Spike(x, y, 3) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "<":
spike = Spike(x, y, 4) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "M":
monster = Monster(x, y) # Load a spike at the x,y found
entities.add(monster) # Add the spike to the entities
monsters.add(monster) # Add the spike to the spike sprite group for collison purposes
if col == "K":
c1 = Coins(x, y)
entities.add(c1)
coin_list.append(c1)
coinA.add(c1)
if col == "X":
win_object = Trophy(x, y)
entities.add(win_object)
trophies.add(win_object)
if col == "T":
doorA = Door(x, y, pygame.transform.scale(pygame.image.load("images/door_locked1.png"), (60,100)))
platforms.append(doorA) # Make the door top a platform so the player cannot walk through it
entities.add(doorA) # Add the door bottom to the entities
if col == "B":
doorB = Door(x, y, pygame.transform.scale(pygame.image.load("images/door_locked2.png"), (60,32)))
platforms.append(doorB) # Make the door bottom a platform so the player cannot walk through it
entities.add(doorB) # Add the door bottom to entities
x += 32
y += 32
x = 0
"""
player.update(up, down, left, right, running, platforms)
for e in entities:
screen.blit(e.image, camera.apply(e))
"""
pygame.display.update()
delete_door = True # reset door status
player.dead = False # ensure the player isn't dead
entities.add(player)
# Player collision with spike; if true, kill the player
if pygame.sprite.spritecollide(player, spikes, False, pygame.sprite.collide_mask):
player.dead = True
if pygame.sprite.spritecollide(player, monsters, False, pygame.sprite.collide_mask):
player.dead = True
for m in monsters:
m.sensePlayers(player, platforms)
# If the player is dead, reset all key strokes to False, play the death sound, empty all groups and lists and reload the level, add one to both total and level deaths
if player.dead == True:
up = False
right = False
left = False
sounds.death_sound.play()
sounds.death_sound.set_volume(volume)
player = Player(charX, charY)
platforms = None
level = None
x = 0
y = 0
doorA.kill()
doorB.kill()
entities.empty()
trophies.empty()
spikes.empty()
coinA.empty()
monsters.empty()
gc.collect()
pause.sleep(1)
key_count = 0
platforms = []
level = open('levels/level' + str(current_level) + '.txt', 'r')
deaths += 1
deaths_total += 1
for row in level:
for col in row:
if col == "P":
p = Platform(x, y)
platforms.insert(0, p)
entities.add(p)
if col == "C":
charX = x
charY = y
player = Player(charX, charY)
if col == "A":
spike = Spike(x, y, 1)
entities.add(spike)
spikes.add(spike)
if col == "V":
spike = Spike(x, y, 2) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == ">":
spike = Spike(x, y, 3) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "<":
spike = Spike(x, y, 4) # Load a spike at the x,y found
entities.add(spike) # Add the spike to the entities
spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "M":
monster = Monster(x, y) # Load a spike at the x,y found
entities.add(monster) # Add the spike to the entities
monsters.add(monster) # Add the spike to the spike sprite group for collison purposes
if col == "K":
c1 = Coins(x, y)
entities.add(c1)
coin_list.append(c1)
coinA.add(c1)
if col == "X":
win_object = Trophy(x, y)
entities.add(win_object)
trophies.add(win_object)
if col == "T":
doorA = Door(x, y, pygame.transform.scale(pygame.image.load("images/door_locked1.png"), (60,100)))
platforms.append(doorA) # Make the door top a platform so the player cannot walk through it
entities.add(doorA) # Add the door bottom to the entities
if col == "B":
doorB = Door(x, y, pygame.transform.scale(pygame.image.load("images/door_locked2.png"), (60,32)))
platforms.append(doorB) # Make the door bottom a platform so the player cannot walk through it
entities.add(doorB) # Add the door bottom to entities
x += 32
y += 32
x = 0
delete_door = True
player.dead = False
entities.add(player) # Readd the player to the entities
# If the coin count is four, then set the door status to False, kill the door sprites and remove from the platforms list
# When delete_door is True it means the door can be removed when the coins are all collected; False means it's been opened. This check was added to prevent it from continually playing the sounds.
if key_count >= 1 and delete_door == True:
sounds.door.play()
sounds.door.set_volume(volume)
for x in xrange(2): # Since we ensure doors are added to the end of the list, we can just remove the last two items in the platforms list safely
del platforms[-1]
delete_door = False # now the door status is False
doorA.kill() # Kill doorA and doorB (makes it disappear (the door has "opened"))
doorB.kill()
camera.update(player)
# Update the player and everything else
missiles.update()
pygame.sprite.groupcollide(missiles, platforms, True, False)
missiles.draw(screen)
player.update(up, down, left, right, running, platforms)
for e in entities:
screen.blit(e.image, camera.apply(e))
pygame.display.update() # Update the display
class levelLoader(object):
"""
This class actually handles a lot of things; while also handling the level loading, it also must be used to call from another class in the game
class itself. For example, to use anything from the Player class, the user must have levelLoader.getPlayer().functionHere.
In all honesty, this class handles pretty much everything that has anything to do with levels.
"""
def __init__(self):
self.level = 0
self.platforms = []
self.doorsClosed = True
self.entities = pygame.sprite.Group()
self.coin = pygame.sprite.Group()
self.spikes = pygame.sprite.Group()
self.trophies = pygame.sprite.Group()
self.x = 0
self.y = 0
self.levelCoins = 0
self.loadedCoins = False
self.showDebug = False
def buildLevel(self):
"""
KEY FOR LEVELS
P = Platform
C = player starting position
A = Spike (Up) - 1
V = Spike (Down) - 2
> = Spike (Right) - 3
< = Spike (Left) - 4
K = Key
X = Trophy
T = Door Top
B = Door Bottom
O = Coin
"""
level = open(Directory.getDirectory() + '/levels/level' + str(self.level) + '.txt', 'r')
for row in level:
for col in row:
if col.isdigit() and self.loadedCoins == False:
if int(col) > 0:
self.loadedCoins = True
self.levelCoins = int(col)
else:
self.loadedCoins = True
self.levelCoins = 1
if col == "P":
p = Platform(self.x, self.y) # Place a platform at the given x,y
self.platforms.insert(0, p) # Insert it into the platforms list
self.entities.add(p) # Add to entities so it appears on screen
if col == "C":
self.charX = self.x # The character x found from file loading
self.charY = self.y # The character y found from file loading
self.player = Player(self.charX, self.charY) # Set the player along with the x,y of the starting position
if col == "A":
spike = Spike(self.x, self.y, 1) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "V":
spike = Spike(self.x, self.y, 2) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == ">":
spike = Spike(self.x, self.y, 3) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "<":
spike = Spike(self.x, self.y, 4) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "O":
coin = Coins(self.x, self.y) # Load a coin image at the given x,y
self.entities.add(coin) # Coin 1 to the entities
self.coin.add(coin) # add coin 1 to the coinA sprite group
if col == "X":
try:
win_object = Trophy(self.x, self.y, self.level) # Load the proper trophy by passing the level to the trophy class and load at the given x,y from file loading
self.entities.add(win_object) # Add the trophy to the entities so it appears
self.trophies.add(win_object) # Also make it a trophy sprite for collision detection purposes
except:
win_object = Trophy(self.x, self.y, 0)
self.entities.add(win_object) # Add the trophy to the entities so it appears
self.trophies.add(win_object) # Also make it a trophy sprite for collision detection purposes
if col == "T":
self.doorA = Door(self.x, self.y)
self.platforms.append(self.doorA) # Make the door top a platform so the player cannot walk through it
self.entities.add(self.doorA) # Add the door bottom to the entities
if col == "B":
self.doorB = Door(self.x, self.y)
self.platforms.append(self.doorB) # Make the door bottom a platform so the player cannot walk through it
self.entities.add(self.doorB) # Add the door bottom to entities
self.x += 32
self.y += 32
self.x = 0
# Try loading in the level image and theme; if it fails, use level 0 theme and background
try:
self.background = pygame.image.load(Directory.getDirectory() + '/images/backgrounds/background' + str(self.level) + '.png').convert_alpha()
self.background_rect = self.background.get_rect()
except:
self.background = pygame.image.load(Directory.getDirectory() + '/images/backgrounds/background0.png').convert_alpha()
self.background_rect = self.background.get_rect()
def getPlayer(self):
return self.player
def getPlatforms(self):
return self.platforms
def getEntities(self):
return self.entities
def getCoins(self):
return self.coin
def getTrophy(self):
return self.trophies
def getSpikes(self):
return self.spikes
def getBGWidth(self):
return self.background_rect.w
def getBGHeight(self):
return self.background_rect.h
def getBackground(self):
return self.background
def delPlatforms(self):
del self.platforms[-1]
def delDoors(self):
self.doorsClosed = False
self.doorA.kill()
self.doorB.kill()
def rebuildDoors(self):
self.doorsClosed = True
def doorStatus(self):
return self.doorsClosed
def clearScreen(self):
self.player.onGround = True
self.x = 0
self.y = 0
self.loadedCoins = False
level = self.level
self.platforms = None
self.doorA.kill()
self.doorB.kill()
self.entities.empty()
self.trophies.empty()
self.spikes.empty()
self.coin.empty()
def rebuildObjects(self):
self.level = self.level
self.platforms = []
self.doorsClosed = True
self.player = Player(self.charX, self.charY)
self.entities = pygame.sprite.Group()
self.coin = pygame.sprite.Group()
self.spikes = pygame.sprite.Group()
self.trophies = pygame.sprite.Group()
self.x = 0
self.y = 0
self.player.dead = False
self.player.up = False
self.player.right = False
self.player.left = False
self.player.running = False
def addLevel(self):
self.level += 1
def resetLevel(self):
self.level = 0
def getLevel(self):
return self.level
def loadingBar(self):
return self.loadingBar
def getLevelCoins(self):
return self.levelCoins
def infoScreen(self):
self.debug = Display.font.render("Information Window", True, (255,255,255))
self.death_status = Display.font.render("player.canDie: " + str(self.getPlayer().canDie), True, (255,255,255))
self.door_status = Display.font.render("door_closed: " + str(self.doorsClosed), True, (255,255,255))
self.coin_debug = Display.font.render("coin_count: " + str(self.getPlayer().getCoins()), True, (255,255,255))
Display.screen.blit(self.debug, (0,0))
Display.screen.blit(self.death_status, (0,25))
Display.screen.blit(self.door_status, (0,50))
Display.screen.blit(self.coin_debug, (0,75))
def test_door_toggle_from_True_to_False(self):
result = Door(0)
result.toggle()
result.toggle()
self.assertEqual(result.is_open, False)
def buildLevel(self):
"""
KEY FOR LEVELS
P = Platform
C = player starting position
A = Spike (Up) - 1
V = Spike (Down) - 2
> = Spike (Right) - 3
< = Spike (Left) - 4
K = Key
X = Trophy
T = Door Top
B = Door Bottom
O = Coin
"""
level = open(Directory.getDirectory() + '/levels/level' + str(self.level) + '.txt', 'r')
for row in level:
for col in row:
if col.isdigit() and self.loadedCoins == False:
if int(col) > 0:
self.loadedCoins = True
self.levelCoins = int(col)
else:
self.loadedCoins = True
self.levelCoins = 1
if col == "P":
p = Platform(self.x, self.y) # Place a platform at the given x,y
self.platforms.insert(0, p) # Insert it into the platforms list
self.entities.add(p) # Add to entities so it appears on screen
if col == "C":
self.charX = self.x # The character x found from file loading
self.charY = self.y # The character y found from file loading
self.player = Player(self.charX, self.charY) # Set the player along with the x,y of the starting position
if col == "A":
spike = Spike(self.x, self.y, 1) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "V":
spike = Spike(self.x, self.y, 2) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == ">":
spike = Spike(self.x, self.y, 3) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "<":
spike = Spike(self.x, self.y, 4) # Load a spike at the x,y found
self.entities.add(spike) # Add the spike to the entities
self.spikes.add(spike) # Add the spike to the spike sprite group for collison purposes
if col == "O":
coin = Coins(self.x, self.y) # Load a coin image at the given x,y
self.entities.add(coin) # Coin 1 to the entities
self.coin.add(coin) # add coin 1 to the coinA sprite group
if col == "X":
try:
win_object = Trophy(self.x, self.y, self.level) # Load the proper trophy by passing the level to the trophy class and load at the given x,y from file loading
self.entities.add(win_object) # Add the trophy to the entities so it appears
self.trophies.add(win_object) # Also make it a trophy sprite for collision detection purposes
except:
win_object = Trophy(self.x, self.y, 0)
self.entities.add(win_object) # Add the trophy to the entities so it appears
self.trophies.add(win_object) # Also make it a trophy sprite for collision detection purposes
if col == "T":
self.doorA = Door(self.x, self.y)
self.platforms.append(self.doorA) # Make the door top a platform so the player cannot walk through it
self.entities.add(self.doorA) # Add the door bottom to the entities
if col == "B":
self.doorB = Door(self.x, self.y)
self.platforms.append(self.doorB) # Make the door bottom a platform so the player cannot walk through it
self.entities.add(self.doorB) # Add the door bottom to entities
self.x += 32
self.y += 32
self.x = 0
# Try loading in the level image and theme; if it fails, use level 0 theme and background
try:
self.background = pygame.image.load(Directory.getDirectory() + '/images/backgrounds/background' + str(self.level) + '.png').convert_alpha()
self.background_rect = self.background.get_rect()
except:
self.background = pygame.image.load(Directory.getDirectory() + '/images/backgrounds/background0.png').convert_alpha()
self.background_rect = self.background.get_rect()
doneplaying.wait()
doneplaying.clear()
openevent.wait(10)
if openevent.is_set():
closedevent.wait()
# let em clear out
light.turnon()
eyes.turnoff()
threading.Timer(5, lambda: scaring.clear()).start()
door = Door(args=(open_callback, close_callback, closedevent), kwargs={'gpio_door': 11})
dist = Distance(args=(distance_callback, 190),
kwargs={'gpio_trigger': 16,
'gpio_echo': 18})
def stopthreads():
light.fullon()
spk.stop()
dist.stop()
light.stop()
eyes.stop()
door.stop()
eyes.join(1)
