def freeze(arguments, clientid):
if arguments == [] or arguments == ['']:
myself = clientid_to_myself(clientid)
handlemsg(myself, ba.FreezeMessage())
elif arguments[0] == 'all':
handlemsg_all(ba.FreezeMessage())
else:
try:
req_player = int(arguments[0])
handlemsg(req_player, ba.FreezeMessage())
except:
return
def __init__(self,
position=(0, 5, 0),
direction=(0, 2, 0),
source_player=None,
owner=None,
color=(1, 1, 1)) -> None:
super().__init__()
self._color = color
self.node = ba.newnode('light',
delegate=self,
attrs={
'position': position,
'color': self._color
})
ba.animate(self.node, 'radius', {0: 0, 0.1: 0.5, 0.5: 0})
self.source_player = source_player
self.owner = owner
self._life_timer = ba.Timer(
0.5, ba.WeakCall(self.handlemessage, ba.DieMessage()))
pos = position
vel = tuple(i / 5 for i in ba.Vec3(direction).normalized())
for _ in range(500): # Optimization :(
ba.newnode('explosion',
owner=self.node,
attrs={
'position': pos,
'radius': 0.2,
'color': self._color
})
pos = (pos[0] + vel[0], pos[1] + vel[1], pos[2] + vel[2])
for node in _ba.getnodes():
if node and node.getnodetype() == 'spaz':
# pylint: disable=invalid-name
m3 = ba.Vec3(position)
a = ba.Vec3(direction[2], direction[1], direction[0])
m1 = ba.Vec3(node.position)
# pylint: enable=invalid-name
# distance between node and line
dist = (a * (m1 - m3)).length() / a.length()
if dist < 0.3:
if node and node != self.owner and node.getdelegate(
PlayerSpaz, True).getplayer(
ba.Player, True).team != self.owner.team:
node.handlemessage(ba.FreezeMessage())
pos = self.node.position
hit_dir = (0, 10, 0)
node.handlemessage(
ba.HitMessage(pos=pos,
magnitude=50,
velocity_magnitude=50,
radius=0,
srcnode=self.node,
source_player=self.source_player,
force_direction=hit_dir))
def handlemessage(self, msg: Any) -> Any:
if __debug__:
self._handlemessage_sanity_check()
if isinstance(msg, ba.DieMessage):
if self.node:
self.node.delete()
elif isinstance(msg, ExplodeHitMessage):
node = ba.get_collision_info('opposing_node')
if node:
assert self.node
nodepos = self.node.position
# new
mag = 2000.0
if self.blast_type == 'ice':
mag *= 0.5
elif self.blast_type == 'land_mine':
mag *= 2.5
elif self.blast_type == 'tnt':
mag *= 2.0
node.handlemessage(
ba.HitMessage(pos=nodepos,
velocity=(0, 0, 0),
magnitude=mag,
hit_type=self.hit_type,
hit_subtype=self.hit_subtype,
radius=self.radius,
source_player=ba.existing(
self.source_player)))
if self.blast_type == 'ice':
ba.playsound(get_factory().freeze_sound,
10,
position=nodepos)
node.handlemessage(ba.FreezeMessage())
else:
super().handlemessage(msg)
def handlemessage(self, msg: Any) -> Any:
assert not self.expired
if isinstance(msg, ba.DieMessage):
if self.node:
self.node.delete()
elif isinstance(msg, ExplodeHitMessage):
node = ba.getcollision().opposingnode
assert self.node
nodepos = self.node.position
mag = 2000.0
if self.blast_type == 'ice':
mag *= 0.5
elif self.blast_type == 'land_mine':
mag *= 2.5
elif self.blast_type == 'tnt':
mag *= 2.0
node.handlemessage(
ba.HitMessage(pos=nodepos,
velocity=(0, 0, 0),
magnitude=mag,
hit_type=self.hit_type,
hit_subtype=self.hit_subtype,
radius=self.radius,
source_player=ba.existing(self._source_player)))
if self.blast_type == 'ice':
ba.playsound(BombFactory.get().freeze_sound,
10,
position=nodepos)
node.handlemessage(ba.FreezeMessage())
else:
return super().handlemessage(msg)
return None
def lucky_block_callback(self: stdspaz.Spaz, msg: ba.PowerupMessage):
event_number = random.randint(1, 15)
if event_number in (1, 2, 3):
powerup_type = stdpowerup.PowerupBoxFactory().get_random_powerup_type()
self.node.handlemessage(ba.PowerupMessage(poweruptype=powerup_type))
elif event_number == 4:
ba.camerashake(1)
ba.emitfx(position=(self.node.position[0], self.node.position[1] + 4,
self.node.position[2]),
velocity=(0, 0, 0),
count=700,
spread=0.7,
chunk_type='spark')
powerup_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
stdpowerup.PowerupBox(position=(self.node.position[0],
self.node.position[1] + 4,
self.node.position[2]),
poweruptype=powerup_type,
expire=True).autoretain()
powerup_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
stdpowerup.PowerupBox(position=(self.node.position[0],
self.node.position[1] + 4,
self.node.position[2]),
poweruptype=powerup_type,
expire=True).autoretain()
powerup_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
stdpowerup.PowerupBox(position=(self.node.position[0],
self.node.position[1] + 4,
self.node.position[2]),
poweruptype=powerup_type,
expire=True).autoretain()
elif event_number == 5:
stdbomb.Bomb(position=(self.node.position[0],
self.node.position[1] + 3,
self.node.position[2]),
source_player=self.source_player,
owner=self.node,
blast_radius=6).autoretain()
elif event_number == 6:
self.node.handlemessage(ba.FreezeMessage())
elif event_number == 7:
chunk_type = ('ice', 'rock', 'metal', 'spark', 'splinter', 'slime')
ba.emitfx(position=self.node.position,
velocity=(random.random() * 2, random.random() * 2,
random.random() * 2),
count=600,
spread=random.random(),
chunk_type=random.choice(chunk_type))
ba.camerashake(1)
ba.playsound(ba.getsound('corkPop')) # position=self.node.position?
elif event_number == 8:
position = self.node.position
def rain_wrapper():
p_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
new_position = (-10 + position[0] + random.random() * 20,
position[1] + 6,
-10 + position[2] + random.random() * 20)
stdpowerup.PowerupBox(poweruptype=p_type,
position=new_position).autoretain()
if random.random() > 0.04:
ba.timer(0.1, rain_wrapper)
rain_wrapper()
elif event_number == 9:
stdbomb.Blast(position=self.node.position,
velocity=self.node.velocity,
blast_radius=1.0,
blast_type='normal',
source_player=None,
hit_type='punch',
hit_subtype='normal')
elif event_number == 10:
def blast(x: int, y: int, z: int) -> None:
# add sound
ba.NodeActor(node=ba.newnode('scorch',
attrs={
'position': (x, z, y),
'size': 0.2,
'big': False,
})).autoretain()
def smoke(x: int, y: int, z: int) -> None:
ba.emitfx(position=(x, z, y),
velocity=(0, 2, 0),
count=1,
emit_type='tendrils',
tendril_type='smoke')
ba.emitfx(position=(x, z, y),
velocity=(0, 2, 0),
count=int(1.0 + random.random() * 2),
scale=0.8,
spread=1.5,
chunk_type='spark')
star_positions = [
(2, 0),
(0, 2),
(-1.2, -1.6),
(1.82, 0.83),
(-1.83, 0.82),
(1.23, -1.57),
(-1.25, 1.56),
(-0.65, 1.89),
(0.82, 1.82),
(1.27, 1.55),
(1.82, -0.84),
(0.31, -1.98),
(-0.42, -1.96),
(-1.75, -0.96),
(-2, -0.14),
(-0.69, -0.07),
(-0.39, 0.82),
(0.41, 0.82),
(0.71, -0.06),
(0.01, -0.62),
(-0.99, 0.82),
(-1.26, 0.37),
(-0.89, -0.65),
(-0.52, -1.05),
(0.59, -1.07),
(0.96, -0.8),
(1.22, 0.35),
(1.07, 0.82),
(0.21, 1.39),
(-0.17, 1.48),
# ---
(-1.94, 0.47),
(-1.51, 1.31),
(-0.95, 1.76),
(-0.38, 1.96),
(0.45, 1.95),
(1.05, 1.7),
(1.57, 1.24),
(1.94, 0.49),
(1.96, -0.42),
(1.62, -1.17),
(0.84, -1.82),
(-0.78, -1.84),
(-1.5, -1.33),
(-1.91, -0.59),
(-1.99, 0.17),
(-1, 0.17),
(-0.7, 0.82),
(-0.27, 1.19),
(0.29, 1.15),
(0.77, 0.82),
(1, 0.17),
(0.84, -0.42),
(0.31, -0.85),
(-0.8, -1.27),
(-1, -1),
(-0.56, 0.33),
(-0.47, 0.61),
(0.52, 0.51),
(-0.1, 0.82),
(0.13, 0.82),
(0.6, 0.27),
(0.46, -0.27),
(0.29, -0.4),
(-0.44, -0.27),
(-0.24, -0.42),
(-1.36, 0.82),
(-1.53, 0.59),
(1.35, 0.83),
(1.55, 0.61),
(0.85, -1.28),
(1.08, -1.13),
(0.78, -0.34),
(-0.21, -0.8),
(0.11, 1.68)
]
class Sparkling(ba.Actor):
def __init__(self, position: Sequence[float], target: ba.Node):
super().__init__()
# nah; nodes not needed
self.position = position
self.position = (self.position[0], self.position[1] + 0.5,
self.position[2])
self.target = target
ba.timer(0.001, ba.WeakCall(self._update))
def _sparkle(self):
ba.emitfx(position=self.position,
velocity=(0, 1, 0),
count=int(random.random() * 5 + 5),
scale=0.8,
spread=0.3,
chunk_type='spark')
def _blast(self):
stdbomb.Blast(position=self.position,
velocity=self.target.velocity,
blast_radius=2,
blast_type='normal',
source_player=None,
hit_type='punch',
hit_subtype='normal').autoretain()
def _update(self):
if not self.target:
del self # commit suicide because we have no goal in our existing :(
return
d = ba.Vec3(self.target.position) - ba.Vec3(self.position)
if d.length() < 0.1:
self._blast()
del self
return
d = d.normalized() * 0.04
from math import sin, cos
self.position = (self.position[0] + d.x +
sin(ba.time() * 2) * 0.03,
self.position[1] + d.y, self.position[2] +
d.z + cos(ba.time() * 2) * 0.03)
self._sparkle()
ba.timer(0.001, ba.WeakCall(self._update))
def sparkling(x, y, z):
Sparkling(position=(x, z, y), target=self.node).autoretain()
def summon_tnt(x, y, z):
stdbomb.Bomb(bomb_type='tnt',
blast_radius=3,
position=(x, z + 4, y),
velocity=(0, -10, 0)).autoretain()
scale = 1
delta = 0.02
op = self.node.position
for i, (x, y) in enumerate(star_positions):
ba.timer(
i * delta,
ba.Call(blast, self.node.position[0] + x * scale,
self.node.position[2] + y * scale,
self.node.position[1]))
for i in range(4):
ba.timer((len(star_positions)) * delta + i * 0.2,
ba.Call(summon_tnt, op[0], op[2], op[1]))
ba.timer((len(star_positions)) * delta + 1.0,
ba.Call(sparkling, self.node.position[0],
self.node.position[2], self.node.position[1]))
def last_blast():
stdbomb.Blast(position=self.node.position,
velocity=(self.node.velocity[0],
self.node.velocity[1] + 10,
self.node.velocity[2]),
blast_radius=2,
blast_type='normal',
source_player=None,
hit_type='punch',
hit_subtype='normal').autoretain()
# ba.timer(
# 2 * len(star_positions) * delta + 0.2,
# last_blast)
elif event_number == 11:
offset = -15
case = 1 if random.random() < 0.5 else -1
while offset < 15:
velocity = (case * (12 + 8 * random.random()), -0.1, 0)
stdbomb.Bomb(bomb_type='tnt',
position=(self.node.position[0] - case * 10,
self.node.position[1] + 3,
self.node.position[2] + offset),
velocity=velocity).autoretain()
offset += 1.5
elif event_number == 12:
color = {
0.0: (0, 0, 3),
0.5: (0, 3, 0),
1.0: (3, 0, 0),
1.5: (0, 0, 3)
}
# FIXME
# ba.animate_array(self.node, 'color', 3, color, True)
# self.node.handlemessage('celebrate', 100000000)
elif event_number == 13:
CompanionCube(position=(self.node.position[0],
self.node.position[1] + 1,
self.node.position[2]),
velocity=(0, 10, 0)).autoretain()
elif event_number == 14:
ba.emitfx(position=self.node.position,
count=100,
emit_type='tendrils',
tendril_type='smoke')
elif event_number == 15:
def drop_man():
botset: stdbot.SpazBotSet
activity = ba.getactivity()
if not hasattr(activity, 'botset'):
activity.botset = botset = stdbot.SpazBotSet()
botset = activity.botset
aoi_bounds = self.activity.globalsnode.area_of_interest_bounds
botset.spawn_bot(
stdbot.BrawlerBotLite,
(random.randrange(int(aoi_bounds[0]),
int(aoi_bounds[3]) + 1), aoi_bounds[4] - 1,
random.randrange(int(aoi_bounds[2]),
int(aoi_bounds[5]) + 1)),
spawn_time=0.001)
def lightning_bolt(position, radius=1):
ba.camerashake(4)
vignette_outer = self.activity.globalsnode.vignette_outer
# if ba.getactivity().tint is None:
# ba.getactivity().std_tint = ba.sharedobj('globals').vignette_outer
# vignette_outer = ba.sharedobj('globals').vignette_outer
# else:
# vignette_outer = ba.getactivity().tint
light = ba.newnode('light',
attrs={
'position': position,
'color': (0.4, 0.4, 0.8),
'volume_intensity_scale': 1.0,
'radius': radius
})
ba.animate(light,
'intensity', {
0: 1,
50: radius,
150: radius / 2,
250: 0,
260: radius,
410: radius / 2,
510: 0
},
timeformat=ba.TimeFormat.MILLISECONDS,
suppress_format_warning=True)
ba.animate_array(self.activity.globalsnode, 'vignette_outer', 3, {
0: vignette_outer,
0.2: (0.2, 0.2, 0.2),
0.51: vignette_outer
})
# ba.playsound(
# ba.getsound('grom'),
# volume=10,
# position=(0, 10, 0))
lightning_bolt(self.node.position)
for time in range(15):
ba.timer(time, drop_man)
def lucky_block_callback(self: stdspaz.Spaz, msg: ba.PowerupMessage):
event_number = random.randint(1, 15)
if event_number in (1, 2, 3):
powerup_type = stdpowerup.PowerupBoxFactory().get_random_powerup_type()
self.node.handlemessage(ba.PowerupMessage(poweruptype=powerup_type))
elif event_number == 4:
ba.camerashake(1)
ba.emitfx(position=(self.node.position[0], self.node.position[1] + 4,
self.node.position[2]),
velocity=(0, 0, 0),
count=700,
spread=0.7,
chunk_type='spark')
powerup_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
stdpowerup.PowerupBox(position=(self.node.position[0],
self.node.position[1] + 4,
self.node.position[2]),
poweruptype=powerup_type,
expire=True).autoretain()
powerup_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
stdpowerup.PowerupBox(position=(self.node.position[0],
self.node.position[1] + 4,
self.node.position[2]),
poweruptype=powerup_type,
expire=True).autoretain()
powerup_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
stdpowerup.PowerupBox(position=(self.node.position[0],
self.node.position[1] + 4,
self.node.position[2]),
poweruptype=powerup_type,
expire=True).autoretain()
elif event_number == 5:
stdbomb.Bomb(position=(self.node.position[0],
self.node.position[1] + 3,
self.node.position[2]),
source_player=self.source_player,
owner=self.node,
blast_radius=6).autoretain()
elif event_number == 6:
self.node.handlemessage(ba.FreezeMessage())
elif event_number == 7:
chunk_type = ('ice', 'rock', 'metal', 'spark', 'splinter', 'slime')
ba.emitfx(position=self.node.position,
velocity=(random.random() * 2, random.random() * 2,
random.random() * 2),
count=600,
spread=random.random(),
chunk_type=random.choice(chunk_type))
ba.camerashake(1)
ba.playsound(ba.getsound('corkPop')) # position=self.node.position?
elif event_number == 8:
position = self.node.position
def rain_wrapper():
p_type = stdpowerup.PowerupBoxFactory.get(
).get_random_powerup_type()
new_position = (-10 + position[0] + random.random() * 20,
position[1] + 6,
-10 + position[2] + random.random() * 20)
stdpowerup.PowerupBox(poweruptype=p_type,
position=new_position).autoretain()
if random.random() > 0.04:
ba.timer(0.1, rain_wrapper)
rain_wrapper()
elif event_number == 9:
stdbomb.Blast(position=self.node.position,
velocity=self.node.velocity,
blast_radius=1.0,
blast_type='normal',
source_player=None,
hit_type='punch',
hit_subtype='normal')
elif event_number == 10: # Blast-square under spaz
x = self.node.position[0] - 2
while x < self.node.position[0] + 2:
y = self.node.position[2] - 2
while y < self.node.position[2] + 2:
stdbomb.Blast(position=(x, self.node.position[1], y),
velocity=(self.node.velocity[0],
self.node.velocity[1] + 10,
self.node.velocity[2]),
blast_radius=0.5,
blast_type='normal',
source_player=None,
hit_type='punch',
hit_subtype='normal')
y += 1
x += 1
elif event_number == 11:
offset = -15
case = 1 if random.random() < 0.5 else -1
while offset < 15:
velocity = (case * (12 + 8 * random.random()), -0.1, 0)
stdbomb.Bomb(bomb_type='tnt',
position=(self.node.position[0] - case * 10,
self.node.position[1] + 3,
self.node.position[2] + offset),
velocity=velocity).autoretain()
offset += 1.5
elif event_number == 12:
color = {
0.0: (0, 0, 3),
0.5: (0, 3, 0),
1.0: (3, 0, 0),
1.5: (0, 0, 3)
}
# FIXME
# ba.animate_array(self.node, 'color', 3, color, True)
# self.node.handlemessage('celebrate', 100000000)
elif event_number == 13:
CompanionCube(position=(self.node.position[0],
self.node.position[1] + 1,
self.node.position[2]),
velocity=(0, 10, 0)).autoretain()
elif event_number == 14:
ba.emitfx(position=self.node.position,
count=100,
emit_type='tendrils',
tendril_type='smoke')
elif event_number == 15:
def drop_man():
botset: stdbot.SpazBotSet
activity = ba.getactivity()
if not hasattr(activity, 'botset'):
activity.botset = botset = stdbot.SpazBotSet()
botset = activity.botset
aoi_bounds = self.activity.globalsnode.area_of_interest_bounds
botset.spawn_bot(
stdbot.BrawlerBotLite,
(random.randrange(int(aoi_bounds[0]),
int(aoi_bounds[3]) + 1), aoi_bounds[4] - 1,
random.randrange(int(aoi_bounds[2]),
int(aoi_bounds[5]) + 1)),
spawn_time=0.001)
def lightning_bolt(position, radius=1):
ba.camerashake(4)
vignette_outer = self.activity.globalsnode.vignette_outer
# if ba.getactivity().tint is None:
# ba.getactivity().std_tint = ba.sharedobj('globals').vignette_outer
# vignette_outer = ba.sharedobj('globals').vignette_outer
# else:
# vignette_outer = ba.getactivity().tint
light = ba.newnode('light',
attrs={
'position': position,
'color': (0.4, 0.4, 0.8),
'volume_intensity_scale': 1.0,
'radius': radius
})
ba.animate(light,
'intensity', {
0: 1,
50: radius,
150: radius / 2,
250: 0,
260: radius,
410: radius / 2,
510: 0
},
timeformat=ba.TimeFormat.MILLISECONDS,
suppress_format_warning=True)
ba.animate_array(self.activity.globalsnode, 'vignette_outer', 3, {
0: vignette_outer,
0.2: (0.2, 0.2, 0.2),
0.51: vignette_outer
})
# ba.playsound(
# ba.getsound('grom'),
# volume=10,
# position=(0, 10, 0))
lightning_bolt(self.node.position)
for time in range(15):
ba.timer(time, drop_man)