from plomrogue.errors import GameError, PlayError
-from plomrogue.mapping import YX
+from plomrogue.mapping import YX, FovMap
from plomrogue.misc import quote
import random
largest_audible_distance = 20
obstacles = [t.position for t in self.game.things if t.blocks_sound]
+ targets = [t.position for t in self.game.things if t.type_ == 'Player']
sound_blockers = self.game.get_sound_blockers()
- dijkstra_map = DijkstraMap(sound_blockers, obstacles, self.game.maps,
- self.position, largest_audible_distance,
- self.game.get_map)
+ dijkstra_map = DijkstraMap(targets, sound_blockers, obstacles,
+ self.game.maps, self.position,
+ largest_audible_distance, self.game.get_map)
url_limits = []
for m in re.finditer('https?://[^\s]+', msg):
url_limits += [m.start(), m.end()]
lowered_nick = lower_msg_by_volume(name, volume,
largest_audible_distance)
symbol = ''
- if listener.fov_test(self.position[0], self.position[1]):
+ # if listener.fov_test(self.position[0], self.position[1]):
+ # TODO: We might want to only show chat faces of players that are
+ # in the listener's FOV. However, if we do a fov_test here,
+ # this might set up a listener._fov where previously there was None,
+ # with ._fov = None serving to Game.send_gamestate() as an indicator
+ # that map view data for listener might be subject to change and
+ # therefore needs to be re-sent. If we generate an un-set ._fov
+ # here, this inhibits send_gamestate() from sending new map view
+ # data to listener. We need to re-structure this whole process
+ # if we want to use a FOV test on listener here.
+ if listener_distance < largest_audible_distance / 2:
self.game.io.send('CHATFACE %s' % self.id_, c_id)
if self.type_ == 'Player' and hasattr(self, 'thing_char'):
symbol = '/@' + self.thing_char
all_players = [t for t in self.game.things if t.type_ == 'Player']
# TODO: refactor with ThingPlayer.prepare_multiprocessible_fov_stencil
# and ThingPlayer.fov_test
- fov_map_class = self.game.map_geometry.fov_map_class
fov_radius = 12
light_blockers = self.game.get_light_blockers()
obstacles = [t.position for t in self.game.things if t.blocks_light]
- fov = fov_map_class(light_blockers, obstacles, self.game.maps,
- self.position, fov_radius, self.game.get_map)
+ fov = FovMap(light_blockers, obstacles, self.game.maps,
+ self.position, fov_radius, self.game.get_map)
fov.init_terrain()
visible_players = []
for p in all_players:
self.task = self.get_next_task()
def prepare_multiprocessible_fov_stencil(self):
- fov_map_class = self.game.map_geometry.fov_map_class
fov_radius = 3 if self.drunk > 0 else 12
light_blockers = self.game.get_light_blockers()
obstacles = [t.position for t in self.game.things if t.blocks_light]
- self._fov = fov_map_class(light_blockers, obstacles, self.game.maps,
- self.position, fov_radius, self.game.get_map)
+ self._fov = FovMap(light_blockers, obstacles, self.game.maps,
+ self.position, fov_radius, self.game.get_map)
def multiprocessible_fov_stencil(self):
self._fov.init_terrain()
self.multiprocessible_fov_stencil()
return self._fov
- def fov_stencil_make(self):
- self._fov.make()
-
def fov_test(self, big_yx, little_yx):
test_position = self.fov_stencil.target_yx(big_yx, little_yx)
if self.fov_stencil.inside(test_position):
drunk = 0
tripping = 0
need_for_toilet = 0
+ standing = True
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.send_msg('CHAT "You use the toilet. What a relief!"')
self.need_for_toilet = 0
if 10000 * random.random() < self.need_for_toilet / 100000:
- self.send_msg('CHAT "You need to use a toilet."')
+ self.send_msg('CHAT "You need to go to a toilet."')
+ if self.need_for_toilet > 1000000:
+ self.send_msg('CHAT "You pee into your pants. Eww!"')
+ self.need_for_toilet = 0
if self.drunk == 0:
self.send_msg('CHAT "You sober up."')
self.invalidate('fov')
self.game.changed = True
- self.need_for_toilet *= 2
- self.need_for_toilet += 1
if self.tripping == 0:
self.send_msg('DEFAULT_COLORS')
self.send_msg('CHAT "You sober up."')
self.game.players_hat_chars[self.name] += c
def get_cookie_chars(self):
+ chars = ' #' # default
if self.name in self.game.players_hat_chars:
- return self.game.players_hat_chars[self.name]
- return ' #' # default
+ chars = self.game.players_hat_chars[self.name]
+ chars_split = list(chars)
+ chars_split.sort()
+ return ''.join(chars_split)