def _load_room_elements(self, dt = None, initial = False):
self.explosions = Explosions(10)
self.puffs = Puffs(10)
self.last_t = time()
self.lasers = Lasers()
self.h_well = H_Well(position=(1.0,1.0,1.0), color=(0.0,1.0,0.0), density=100, life=1.0, fade=0.02, size=40)
self.h_well_r1 = H_Well(position=(180,-100,-160), color=(0.0,1.0,0.0), density=100, life=1.0, fade=0.02, size=40)
self.h_well_b1 = H_Well(position=(-180,100,160), color=(0.0,1.0,0.0), density=100, life=1.0, fade=0.02, size=40)
self.laser_helix = Laser_Glow()
self.rLaser = shapes.Laser(self.dimensions.x, 20)
#initial loading causes all objects to be populated
if initial:
for element, kwargs in self.elements:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
self.add_instance(spawn, **kwargs)
else:
#only objects that are alterable will be loaded
for element, kwargs in self.elements:
if element.alterable:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
if spawn.alterable:
self.add_instance(spawn, **kwargs)
def _load_room_elements(self, dt=None, initial=False):
self.explosions = Explosions(10)
self.puffs = Puffs(10)
self.last_t = time()
self.lasers = Lasers()
self.h_well = H_Well(position=(1.0, 1.0, 1.0),
color=(0.0, 1.0, 0.0),
density=100,
life=1.0,
fade=0.02,
size=40)
self.h_well_r1 = H_Well(position=(180, -100, -160),
color=(0.0, 1.0, 0.0),
density=100,
life=1.0,
fade=0.02,
size=40)
self.h_well_b1 = H_Well(position=(-180, 100, 160),
color=(0.0, 1.0, 0.0),
density=100,
life=1.0,
fade=0.02,
size=40)
self.laser_helix = Laser_Glow()
self.rLaser = shapes.Laser(self.dimensions.x, 20)
#initial loading causes all objects to be populated
if initial:
for element, kwargs in self.elements:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
self.add_instance(spawn, **kwargs)
else:
#only objects that are alterable will be loaded
for element, kwargs in self.elements:
if element.alterable:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
if spawn.alterable:
self.add_instance(spawn, **kwargs)
class Room(object):
dimensions = (1024, 1024, 1024)
elements = (
# (Element, **kwargs),
)
# last_time = 0
def __init__(self):
"""Take the list of elements in a room, and initialize them, assigning
unique ids for reference during unpacking.
"""
# used by both
self.instances = {}
self.classes = {}
self.players = {}
self.balistics = {}
self._spawn_init = False
self._next_id = 0
self._add_cache, self._remove_cache, self._persistent_cache = {}, [], {}
self._load_room_elements(initial = True)
def reset_room(self, delay = None):
print "resetting room", delay
if delay is None:
self._reset_all_elements()
else:
game.manager.unschedule(self._reset_all_elements)
game.manager.schedule(self._reset_all_elements, delay)
def _reset_all_elements(self, dt = None):
pyglet.clock.unschedule(self._reset_all_elements)
print "resetting all elements"
self._unload_room_elements()
self._load_room_elements()
def _load_room_elements(self, dt = None, initial = False):
self.explosions = Explosions(10)
self.puffs = Puffs(10)
self.last_t = time()
self.lasers = Lasers()
self.h_well = H_Well(position=(1.0,1.0,1.0), color=(0.0,1.0,0.0), density=100, life=1.0, fade=0.02, size=40)
self.h_well_r1 = H_Well(position=(180,-100,-160), color=(0.0,1.0,0.0), density=100, life=1.0, fade=0.02, size=40)
self.h_well_b1 = H_Well(position=(-180,100,160), color=(0.0,1.0,0.0), density=100, life=1.0, fade=0.02, size=40)
self.laser_helix = Laser_Glow()
self.rLaser = shapes.Laser(self.dimensions.x, 20)
#initial loading causes all objects to be populated
if initial:
for element, kwargs in self.elements:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
self.add_instance(spawn, **kwargs)
else:
#only objects that are alterable will be loaded
for element, kwargs in self.elements:
if element.alterable:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
if spawn.alterable:
self.add_instance(spawn, **kwargs)
# self.laser_helix = Laser_Glow()
def _unload_room_elements(self):
#clear manager's knowledge of the gates
for team in game.manager.teams.teams.values():
team.gates = []
for id in self.instances.keys():
if isinstance(self.instances[id], Player) is True:
self.instances[id].health = 0
else:
if self.instances[id].alterable is True:
self.remove_instance(id)
def _assign_id(self):
# used by server, will be out of sync on clients
# can't pickle generator objects
id = self._next_id
self._next_id += 1
return id
def add_instance(self, element, id=None, **kwargs):
# used by server without id argument, by client with
e = element(**kwargs)
e.id = self._assign_id() if id is None else id
copy_instance = copy.copy(self.instances)
copy_instance[e.id] = e
self.instances = copy_instance
self.classes.setdefault(element, {}).update({e.id: e})
self._add_cache[e.id] = (element.__name__, kwargs)
self._persistent_cache[e.id] = (element.__name__, kwargs)
# print e.id, e.forward, e.up
return e
def add_player(self, client_id, **kwargs):
# used by server
p = self.add_instance(Player, **kwargs)
self.players[client_id] = p
return p
def remove_instance(self, id):
# used by both
if self.instances.has_key(id):
copy_instance = copy.copy(self.instances)
e = copy_instance.pop(id)
self.instances = copy_instance
self.classes[e.__class__].pop(e.id)
self._remove_cache.append(id)
self._persistent_cache.pop(e.id)
def update(self, dt):
# used by server
self.collision_detection()
if self._spawn_init == False:
self.init_spawns(dt)
for element in self.instances.itervalues():
element.update(dt)
def init_spawns(self, dt):
self._spawn_init = True
tmp_intances = copy.copy(self.instances)
for element in tmp_intances.itervalues():
element.update(dt)
self.instances.update(tmp_intances)
def collision_detection(self):
#this does laser collision checks
for p in self.class_set(game.model.player.Player):
if p.laser_fire and not p.maxed_laser:
laser_position = p.position + 10*p.forward.normalized()
length, obj_hit = Laser.precalc(laser_position, p.forward, [p])
if isinstance(obj_hit, Player) or isinstance(obj_hit, spawn.SpawnTarget):
game.manager.laser(position=laser_position,
forward=p.forward,
up=p.up,
length=length,
shot_by=p.id,
hits=obj_hit.id)
else:
game.manager.laser(position=laser_position,
forward=p.forward,
up=p.up,
length=length,
shot_by=p.id,
hits=None)
if obj_hit:
game.manager.explosion(p.position + (length*p.forward))
obj_hit.hit_by_laser(p)
# destructionList = []
for moveable in self.class_set(game.model.components.Movement):
# death = False
for element in self.instances.itervalues():
# vel_mag = moveable.velocity.magnitude()
# box_mag = max( (moveable.aabb.p0.magnitude(), moveable.aabb.p1.magnitude()))
# if vel_mag > box_mag:
# num_iters = int(vel_mag / box_mag )
# # original_pos
# for i in range(num_iters):
# calc_mag = (vel_mag / num_iters) * i
#
# pass
collision_result = moveable.collision_check(element)
# if collision_result == "boom":
# print "inflating the box"
# moveable.aabb.inflate_box(30)
# for el in self.instances.itervalues():
# collision_result = moveable.collision_check(el)
# destructionList.append((moveable, True))
# break
# elif collision_result == "no boom":
# death = True
if collision_result is not False:
game.manager.puff(position=moveable.position,
fire_vector=collision_result,
up_vector=moveable.up)
# if death == True:
# destructionList.append((moveable, False))
# for rocket, explode in destructionList:
# if explode:
# game.manager.explosion(rocket.position)
# self.remove_instance(rocket.id)
# for player in self.players.itervalues():
# for element in self.instances.itervalues():
# player.collision_check(element)
def collides_with_players(self, obj):
collisions = []
for player in self.players.itervalues():
if player.collision_check(obj):
collisions.append(player)
return collisions
def pack(self):
# used by server
data = {}
for id in self.instances:
d = self.instances[id].pack()
if id not in self._add_cache and d is not None:
data[id] = d
data["add_cache"] = self._add_cache
data["remove_cache"] = self._remove_cache
self._add_cache = {}
self._remove_cache = []
return data
def unpack(self, data):
# used by client
add_data = data.pop("add_cache", {})
remove_data = data.pop("remove_cache", [])
for id, e_data in data.iteritems():
e = self.instances.get(id)
if e is not None:
e.unpack(e_data)
self.unpack_add(add_data)
self.unpack_remove(remove_data)
def unpack_add(self, data):
# used by client for add and persistent cache
for id, (klass, e_data) in data.iteritems():
if id not in self.instances:
#check both elements and spawn
try:
self.add_instance(getattr(elements, klass), id=id, **e_data)
except:
self.add_instance(getattr(spawn, klass), id=id, **e_data)
def unpack_remove(self, data):
# used by client
for id in data:
self.remove_instance(id)
def render(self):
# used by client
for element in self.instances.itervalues():
element.render()
if game.manager.camera is not None:
# print "here1"
cam = game.manager.camera
self.h_well.draw(cam.position, cam.up)
self.h_well_r1.draw(cam.position, cam.up)
self.h_well_b1.draw(cam.position, cam.up)
self.explosions.draw(cam.position, cam.up)
self.puffs.draw(cam.position, cam.up)
else:
print("not drawing")
# print self.laser_helix
self.lasers.render()
def _class_set(self, cls):
result = []
try:
for id in self.classes.get(cls, []):
result.append(self.instances[id])
except:
pass
return result
def class_set(self, cls):
result = []
result.extend(self._class_set(cls))
for subclass in itersubclasses(cls):
result.extend(self._class_set(subclass))
return result
class Room(object):
dimensions = (1024, 1024, 1024)
elements = (
# (Element, **kwargs),
)
# last_time = 0
def __init__(self):
"""Take the list of elements in a room, and initialize them, assigning
unique ids for reference during unpacking.
"""
# used by both
self.instances = {}
self.classes = {}
self.players = {}
self.balistics = {}
self._spawn_init = False
self._next_id = 0
self._add_cache, self._remove_cache, self._persistent_cache = {}, [], {}
self._load_room_elements(initial=True)
def reset_room(self, delay=None):
print "resetting room", delay
if delay is None:
self._reset_all_elements()
else:
game.manager.unschedule(self._reset_all_elements)
game.manager.schedule(self._reset_all_elements, delay)
def _reset_all_elements(self, dt=None):
pyglet.clock.unschedule(self._reset_all_elements)
print "resetting all elements"
self._unload_room_elements()
self._load_room_elements()
def _load_room_elements(self, dt=None, initial=False):
self.explosions = Explosions(10)
self.puffs = Puffs(10)
self.last_t = time()
self.lasers = Lasers()
self.h_well = H_Well(position=(1.0, 1.0, 1.0),
color=(0.0, 1.0, 0.0),
density=100,
life=1.0,
fade=0.02,
size=40)
self.h_well_r1 = H_Well(position=(180, -100, -160),
color=(0.0, 1.0, 0.0),
density=100,
life=1.0,
fade=0.02,
size=40)
self.h_well_b1 = H_Well(position=(-180, 100, 160),
color=(0.0, 1.0, 0.0),
density=100,
life=1.0,
fade=0.02,
size=40)
self.laser_helix = Laser_Glow()
self.rLaser = shapes.Laser(self.dimensions.x, 20)
#initial loading causes all objects to be populated
if initial:
for element, kwargs in self.elements:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
self.add_instance(spawn, **kwargs)
else:
#only objects that are alterable will be loaded
for element, kwargs in self.elements:
if element.alterable:
self.add_instance(element, **kwargs)
for spawn, kwargs in self.spawn_points:
if spawn.alterable:
self.add_instance(spawn, **kwargs)
# self.laser_helix = Laser_Glow()
def _unload_room_elements(self):
#clear manager's knowledge of the gates
for team in game.manager.teams.teams.values():
team.gates = []
for id in self.instances.keys():
if isinstance(self.instances[id], Player) is True:
self.instances[id].health = 0
else:
if self.instances[id].alterable is True:
self.remove_instance(id)
def _assign_id(self):
# used by server, will be out of sync on clients
# can't pickle generator objects
id = self._next_id
self._next_id += 1
return id
def add_instance(self, element, id=None, **kwargs):
# used by server without id argument, by client with
e = element(**kwargs)
e.id = self._assign_id() if id is None else id
copy_instance = copy.copy(self.instances)
copy_instance[e.id] = e
self.instances = copy_instance
self.classes.setdefault(element, {}).update({e.id: e})
self._add_cache[e.id] = (element.__name__, kwargs)
self._persistent_cache[e.id] = (element.__name__, kwargs)
# print e.id, e.forward, e.up
return e
def add_player(self, client_id, **kwargs):
# used by server
p = self.add_instance(Player, **kwargs)
self.players[client_id] = p
return p
def remove_instance(self, id):
# used by both
if self.instances.has_key(id):
copy_instance = copy.copy(self.instances)
e = copy_instance.pop(id)
self.instances = copy_instance
self.classes[e.__class__].pop(e.id)
self._remove_cache.append(id)
self._persistent_cache.pop(e.id)
def update(self, dt):
# used by server
self.collision_detection()
if self._spawn_init == False:
self.init_spawns(dt)
for element in self.instances.itervalues():
element.update(dt)
def init_spawns(self, dt):
self._spawn_init = True
tmp_intances = copy.copy(self.instances)
for element in tmp_intances.itervalues():
element.update(dt)
self.instances.update(tmp_intances)
def collision_detection(self):
#this does laser collision checks
for p in self.class_set(game.model.player.Player):
if p.laser_fire and not p.maxed_laser:
laser_position = p.position + 10 * p.forward.normalized()
length, obj_hit = Laser.precalc(laser_position, p.forward, [p])
if isinstance(obj_hit, Player) or isinstance(
obj_hit, spawn.SpawnTarget):
game.manager.laser(position=laser_position,
forward=p.forward,
up=p.up,
length=length,
shot_by=p.id,
hits=obj_hit.id)
else:
game.manager.laser(position=laser_position,
forward=p.forward,
up=p.up,
length=length,
shot_by=p.id,
hits=None)
if obj_hit:
game.manager.explosion(p.position + (length * p.forward))
obj_hit.hit_by_laser(p)
# destructionList = []
for moveable in self.class_set(game.model.components.Movement):
# death = False
for element in self.instances.itervalues():
# vel_mag = moveable.velocity.magnitude()
# box_mag = max( (moveable.aabb.p0.magnitude(), moveable.aabb.p1.magnitude()))
# if vel_mag > box_mag:
# num_iters = int(vel_mag / box_mag )
# # original_pos
# for i in range(num_iters):
# calc_mag = (vel_mag / num_iters) * i
#
# pass
collision_result = moveable.collision_check(element)
# if collision_result == "boom":
# print "inflating the box"
# moveable.aabb.inflate_box(30)
# for el in self.instances.itervalues():
# collision_result = moveable.collision_check(el)
# destructionList.append((moveable, True))
# break
# elif collision_result == "no boom":
# death = True
if collision_result is not False:
game.manager.puff(position=moveable.position,
fire_vector=collision_result,
up_vector=moveable.up)
# if death == True:
# destructionList.append((moveable, False))
# for rocket, explode in destructionList:
# if explode:
# game.manager.explosion(rocket.position)
# self.remove_instance(rocket.id)
# for player in self.players.itervalues():
# for element in self.instances.itervalues():
# player.collision_check(element)
def collides_with_players(self, obj):
collisions = []
for player in self.players.itervalues():
if player.collision_check(obj):
collisions.append(player)
return collisions
def pack(self):
# used by server
data = {}
for id in self.instances:
d = self.instances[id].pack()
if id not in self._add_cache and d is not None:
data[id] = d
data["add_cache"] = self._add_cache
data["remove_cache"] = self._remove_cache
self._add_cache = {}
self._remove_cache = []
return data
def unpack(self, data):
# used by client
add_data = data.pop("add_cache", {})
remove_data = data.pop("remove_cache", [])
for id, e_data in data.iteritems():
e = self.instances.get(id)
if e is not None:
e.unpack(e_data)
self.unpack_add(add_data)
self.unpack_remove(remove_data)
def unpack_add(self, data):
# used by client for add and persistent cache
for id, (klass, e_data) in data.iteritems():
if id not in self.instances:
#check both elements and spawn
try:
self.add_instance(getattr(elements, klass),
id=id,
**e_data)
except:
self.add_instance(getattr(spawn, klass), id=id, **e_data)
def unpack_remove(self, data):
# used by client
for id in data:
self.remove_instance(id)
def render(self):
# used by client
for element in self.instances.itervalues():
element.render()
if game.manager.camera is not None:
# print "here1"
cam = game.manager.camera
self.h_well.draw(cam.position, cam.up)
self.h_well_r1.draw(cam.position, cam.up)
self.h_well_b1.draw(cam.position, cam.up)
self.explosions.draw(cam.position, cam.up)
self.puffs.draw(cam.position, cam.up)
else:
print("not drawing")
# print self.laser_helix
self.lasers.render()
def _class_set(self, cls):
result = []
try:
for id in self.classes.get(cls, []):
result.append(self.instances[id])
except:
pass
return result
def class_set(self, cls):
result = []
result.extend(self._class_set(cls))
for subclass in itersubclasses(cls):
result.extend(self._class_set(subclass))
return result
