def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = self.delete_object()
broadcast_object = Broadcast(obj)
broadcast_object.queue()
self.kill()
...
class AfterBurner(pygame.sprite.Sprite):
containers = None
images = None
def __init__(self,
parent_,
gl_,
offset_: tuple,
timing_: int = 8,
blend_: int = 0,
layer_: int = 0,
texture_name_='EXHAUST'):
"""
Create an exhaust effect for the player's
:param parent_: Player's instance (MirroredPlayer1Class or MirroredPlayer2Class)
:param gl_: Class GL (contains all the game constants
:param offset_: tuple, offset location of the afterburner sprite (offset from the center)
:param timing_: integer; Sprite refreshing time must be > 0
:param blend_: integer; Sprite blending effect, must be > 0 or any of the following BLEND_RGBA_ADD,
BLEND_RGBA_SUB, BLEND_RGBA_MULT, BLEND_RGBA_MIN, BLEND_RGBA_MAX BLEND_RGB_ADD,
BLEND_RGB_SUB, BLEND_RGB_MULT, BLEND_RGB_MIN, BLEND_RGB_MAX
:param layer_: integer; must be <= 0 (0 is the top layer)
:param texture_name_: string corresponding to the texture used.
"""
if parent_ is None:
raise ValueError('Positional argument <parent_> cannot be None.')
if gl_ is None:
raise ValueError('Positional argument <gl_> cannot be None.')
if offset_ is None:
raise ValueError('Positional argument <offset_> cannot be None.')
assert isinstance(offset_, tuple), \
"Positional argument <offset_> is type %s , expecting tuple." % type(offset_)
assert isinstance(timing_, int), \
"Positional argument <timing_> is type %s , expecting integer." % type(timing_)
assert isinstance(blend_, int), \
"Positional argument <blend_> is type %s , expecting integer." % type(blend_)
assert isinstance(layer_, int), \
"Positional argument <layer_> is type %s , expecting integer." % type(layer_)
assert isinstance(texture_name_, str), \
"Positional argument <texture_name_> is type %s , expecting str." % type(texture_name_)
if self.containers is None:
raise ValueError(
'AfterBurner.containers is not initialised.\nMake sure to assign the containers to'
' a pygame group prior instantiation.\ne.g: AfterBurner.containers = '
'pygame.sprite.Group()')
if self.images is None:
raise ValueError(
"AfterBurner.images is not initialised.\nMake sure to assign a texture to "
"prior instantiation.\ne.g: AfterBurner.images = 'EXHAUST'")
if timing_ < 0:
raise ValueError('Positional argument timing_ cannot be < 0')
self.layer = layer_
pygame.sprite.Sprite.__init__(self, self.containers)
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
if layer_:
gl_.All.change_layer(self, layer_)
self.images = AfterBurner.images
self.image = self.images[0] if isinstance(self.images,
list) else self.images
self.parent = parent_
self.offset = offset_
x, y = self.parent.rect.centerx + self.offset[
0], self.parent.rect.centery + self.offset[1]
self.rect = self.image.get_rect(center=(x, y))
self.timing = timing_
self.dt = 0
self.index = 0
self.gl = gl_
self.blend = blend_
self.texture_name = texture_name_
self.id_ = id(self)
self.afterburner_object = Broadcast(self.make_object())
Broadcast.add_object_id(self.id_)
def delete_object(self) -> DeleteSpriteCommand:
"""
Send a command to kill an object on client side.
:return: DetectCollisionSprite object
"""
return DeleteSpriteCommand(frame_=self.gl.FRAME,
to_delete_={self.id_: self.texture_name})
def make_object(self) -> AnimatedSprite:
"""
Create a network object (AnimatedSprite)
:return: AnimatedSprite
"""
return AnimatedSprite(frame_=self.gl.FRAME,
id_=self.id_,
surface_=self.texture_name,
layer_=self.layer,
blend_=self.blend,
rect_=self.rect,
index_=self.index)
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = Broadcast(self.delete_object())
obj.queue()
self.kill()
def update(self) -> None:
"""
Update the sprite.
:return: None
"""
if self.dt > self.timing:
# checking if MirroredPlayer1Class is still alive
if self.parent.alive():
# display animation if self.images is a list.
if isinstance(self.images, list):
self.image = self.images[self.index % len(self.images) - 1]
x, y = self.parent.rect.centerx + self.offset[
0], self.parent.rect.centery + self.offset[1]
self.rect.center = (x, y)
if self.rect.colliderect(self.gl.SCREENRECT):
self.afterburner_object.update({
'frame': self.gl.FRAME,
'rect': self.rect,
'index': self.index
})
self.afterburner_object.queue()
self.dt = 0
self.index += 1
else:
self.quit()
return
else:
self.dt += self.gl.TIME_PASSED_SECONDS
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = Broadcast(self.delete_object())
obj.queue()
self.kill()
class Background(pygame.sprite.Sprite):
containers = None # pygame group
image = None # surface to display (can be a list of Surface or a single pygame.Surface)
def __init__(self,
vector_: pygame.math.Vector2, # background speed vector (pygame.math.Vector2)
position_: pygame.math.Vector2, # original position (tuple)
gl_, # global variables (GL class)
layer_: int = -8, # layer used default is -8 (int <= 0)
blend_: int = 0, # pygame blend effect (e.g pygame.BLEND_RGB_ADD, or int)
event_name_: str = '', # event name (str)
timing_=0
):
self.layer = layer_
pygame.sprite.Sprite.__init__(self, self.containers)
# change sprite layer
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
gl_.All.change_layer(self, layer_)
self.images_copy = Background.image.copy()
self.image = self.images_copy[0] if isinstance(Background.image, list) else self.images_copy
self.rect = self.image.get_rect(topleft=position_)
self.position = position_
self.vector = vector_
self.gl = gl_
self.blend = blend_
self.event_name = event_name_
self.id_ = id(self)
self.rotation = 0
self.timing = timing_
self.dt = 0
if self.event_name == 'STATION':
self.rotation = 0
self.background_object = Broadcast(self.make_rotation_object())
else:
self.background_object = Broadcast(self.make_object())
def make_object(self) -> StaticSprite:
return StaticSprite(frame_=self.gl.FRAME, id_=self.id_, surface_=self.event_name,
layer_=self.layer, blend_=self.blend, rect_=self.rect)
def make_rotation_object(self) -> RotateSprite:
return RotateSprite(frame_=self.gl.FRAME, id_=self.id_, surface_=self.event_name,
layer_=self.layer, blend_=self.blend, rect_=self.rect, rotation_=self.rotation)
def process(self):
if self.event_name == 'CL1':
self.rect.move_ip(self.vector)
if self.rect.y > 1023:
self.rect.y = randint(-1024, - CL1.get_height())
self.rect.x = randint(-400, 400)
self.background_object.update({'frame': self.gl.FRAME, 'rect': self.rect})
self.background_object.queue()
elif self.event_name == 'CL2':
self.rect.move_ip(self.vector)
if self.rect.y > 1023:
self.rect.y = randint(-1024, - CL2.get_height())
self.rect.x = randint(-400, 400)
self.background_object.update({'frame': self.gl.FRAME, 'rect': self.rect})
self.background_object.queue()
elif self.event_name == 'BLUE_PLANET':
self.rect.move_ip(self.vector)
if self.rect.y > 1023:
self.rect.y = randint(-1024, - BLUE_PLANET.get_height())
self.rect.x = randint(-400, 400)
self.background_object.update({'frame': self.gl.FRAME,
'rect': self.rect})
self.background_object.queue()
elif self.event_name == 'STATION':
# below 8192 frames the station is not on sight
if self.gl.FRAME < 12280:
self.rect.move_ip(self.vector)
# no need to rotate station if not on sight
if self.rect.colliderect(self.gl.SCREENRECT):
centre = self.rect.center
self.image = pygame.transform.rotate(self.images_copy.copy(), self.rotation)
self.rect = self.image.get_rect(center=centre)
self.background_object.update({'frame': self.gl.FRAME,
'rect': self.rect,
'rotation': self.rotation})
self.background_object.queue()
self.rotation += 0.2
else:
if self.event_name in ('BACK1_S', 'BACK2_S'):
self.rect.move_ip(self.vector)
if self.rect.y > 1023:
self.rect.y = -1024
self.background_object.update({'frame': self.gl.FRAME, 'rect': self.rect})
self.background_object.queue()
elif self.event_name == 'BACK3':
if self.gl.FRAME < 12288:
self.rect.move_ip(self.vector)
# if self.gl.FRAME > 12288:
# self.rect.y = 0
self.background_object.update({'frame': self.gl.FRAME, 'rect': self.rect})
self.background_object.queue()
# Any other background type
else:
self.rect.move_ip(self.vector)
if self.rect.y > 1023:
self.rect.y = -1024
self.rect.x = 0
self.background_object.update({'frame': self.gl.FRAME, 'rect': self.rect})
self.background_object.queue()
def update(self):
if self.timing != 0:
# update frequently
if self.dt > self.timing:
self.process()
self.dt = 0
else:
self.dt += self.gl.TIME_PASSED_SECONDS
# update every frames
else:
self.process()
class ShootingStar(pygame.sprite.Sprite):
image = None # sprite surface (single surface)
containers = None # sprite group to use
def __init__(
self,
gl_, # global variables
layer_=-4, # layer where the shooting sprite will be display
timing_=16, # refreshing rate, default is 16ms (60 fps)
surface_name_=''):
self.layer = layer_
pygame.sprite.Sprite.__init__(self, self.containers)
# change sprite layer
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
gl_.All.change_layer(self, layer_)
self.images_copy = ShootingStar.image.copy()
self.image = self.images_copy[0] if isinstance(
ShootingStar.image, list) else self.images_copy
self.w, self.h = pygame.display.get_surface().get_size()
self.position = pygame.math.Vector2(randint(0, self.w),
randint(-self.h, 0))
self.rect = self.image.get_rect(midbottom=self.position)
self.speed = pygame.math.Vector2(uniform(-30, 30), 60)
self.rotation = -270 - int(degrees(atan2(self.speed.y, self.speed.x)))
self.image = pygame.transform.rotozoom(self.image, self.rotation, 1)
self.blend = pygame.BLEND_RGB_ADD
self.timing = timing_
self.gl = gl_
self.dt = 0
self.surface_name = surface_name_
self.id_ = id(self)
self.shooting_star_object = Broadcast(self.make_object())
Broadcast.add_object_id(self.id_)
def delete_object(self) -> DeleteSpriteCommand:
"""
Send a command to kill an object on client side.
:return: DetectCollisionSprite object
"""
return DeleteSpriteCommand(frame_=self.gl.FRAME,
to_delete_={self.id_: self.surface_name})
def make_object(self) -> RotateSprite:
return RotateSprite(frame_=self.gl.FRAME,
id_=self.id_,
surface_=self.surface_name,
layer_=self.layer,
blend_=self.blend,
rect_=self.rect,
rotation_=self.rotation)
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = Broadcast(self.delete_object())
obj.queue()
self.kill()
def update(self):
if self.dt > self.timing:
if self.rect.centery > self.h:
self.quit()
return
self.rect = self.image.get_rect(center=self.position)
self.position += self.speed
if self.rect.colliderect(self.gl.SCREENRECT):
self.shooting_star_object.update({
'frame': self.gl.FRAME,
'rect': self.rect,
'rotation': self.rotation
})
self.shooting_star_object.queue()
self.dt = 0
else:
self.dt += self.gl.TIME_PASSED_SECONDS
class Explosion(pygame.sprite.Sprite):
images = None
containers = None
def __init__(self,
parent_,
pos_,
gl_,
timing_,
layer_,
texture_name_,
mute_=False):
self.layer = layer_
pygame.sprite.Sprite.__init__(self, self.containers)
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
if layer_:
gl_.All.change_layer(self, layer_)
self.images_copy = Explosion.images.copy()
self.image = self.images_copy[0] if isinstance(
self.images_copy, list) else self.images_copy
self.timing = timing_
self.length = len(self.images) - 1
self.pos = pos_
self.gl = gl_
self.position = pygame.math.Vector2(*self.pos)
self.rect = self.image.get_rect(center=self.pos)
self.dt = 0
self.blend = pygame.BLEND_RGB_ADD
self.parent = parent_
self.index = 0
self.id_ = id(self)
self.texture_name = texture_name_
self.mute = mute_
# Create the network object
self.explosion_object = Broadcast(self.make_object())
# Create sound object
self.explosion_sound_object = Broadcast(
self.make_sound_object('EXPLOSION_SOUND'))
Broadcast.add_object_id(self.id_)
def delete_object(self) -> DeleteSpriteCommand:
"""
Send a command to kill an object on client side.
:return: DetectCollisionSprite object
"""
return DeleteSpriteCommand(frame_=self.gl.FRAME,
to_delete_={self.id_: self.texture_name})
def play_explosion_sound(self) -> None:
"""
Play the sound explosion locally and forward the sound object to the client(s).
:return: None
"""
# play the sound locally
self.gl.MIXER.play(sound_=EXPLOSION_SOUND,
loop_=False,
priority_=0,
volume_=1.0,
fade_out_ms=0,
panning_=True,
name_='EXPLOSION_SOUND',
x_=self.rect.centerx,
object_id_=id(EXPLOSION_SOUND),
screenrect_=self.gl.SCREENRECT)
# Add the sound object to the queue
self.explosion_sound_object.play()
def make_sound_object(self, sound_name_: str) -> SoundAttr:
"""
Create a network sound object
:param sound_name_: string; represent the sound name e.g 'EXPLOSION_SOUND"
:return: SoundAttr object
"""
assert isinstance(sound_name_, str), \
"Positional argument <sound_name_> is type %s , expecting string." % type(sound_name_)
if sound_name_ not in globals():
raise NameError('Sound %s is not define.' % sound_name_)
return SoundAttr(frame_=self.gl.FRAME,
id_=self.id_,
sound_name_=sound_name_,
rect_=self.rect)
def make_object(self) -> AnimatedSprite:
return AnimatedSprite(frame_=self.gl.FRAME,
id_=self.id_,
surface_=self.texture_name,
layer_=self.layer,
blend_=self.blend,
rect_=self.rect,
index_=self.index)
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = Broadcast(self.delete_object())
obj.queue()
self.kill()
def update(self):
if self.dt > self.timing:
if self.rect.colliderect(self.gl.SCREENRECT):
if self.index == 0 and not self.mute:
self.play_explosion_sound()
self.image = self.images_copy[self.index]
self.rect = self.image.get_rect(center=self.rect.center)
self.index += 1
if self.index > self.length:
self.quit()
return
self.dt = 0
self.explosion_object.update({
'frame': self.gl.FRAME,
'rect': self.rect,
'index': self.index,
'blend': self.blend
})
self.explosion_object.queue()
else:
self.quit()
return
else:
self.dt += self.gl.TIME_PASSED_SECONDS
class Debris(pygame.sprite.Sprite):
containers = None
image = None
def __init__(self,
asteroid_name_: str,
pos_: tuple,
gl_: GL,
blend_: int = 0,
timing_: int = 16,
layer_: int = -2,
particles_: bool = True):
"""
Create debris after asteroid explosion or collision
:param asteroid_name_: string; Parent name (not used)
:param pos_: tuple, representing the impact position (x, y)
:param gl_: class GL, global constants
:param blend_: integer; Sprite blend effect, must be > 0 or any of the following BLEND_RGBA_ADD,
BLEND_RGBA_SUB, BLEND_RGBA_MULT, BLEND_RGBA_MIN, BLEND_RGBA_MAX BLEND_RGB_ADD,
BLEND_RGB_SUB, BLEND_RGB_MULT, BLEND_RGB_MIN, BLEND_RGB_MAX
:param timing_: integer; Sprite refreshing time in milliseconds, must be >=0
:param layer_: integer; Sprite layer must be <=0 (0 is the top layer)
:param particles_: bool; Particles effect after asteroid desintegration
"""
assert isinstance(asteroid_name_, str), \
"Positional argument <asteroid_name_> is type %s , expecting string." % type(asteroid_name_)
assert isinstance(pos_, tuple), \
"Positional argument <pos_> is type %s , expecting tuple." % type(pos_)
assert isinstance(timing_, int), \
"Positional argument <timing_> is type %s , expecting integer." % type(timing_)
assert isinstance(blend_, int), \
"Positional argument <blend_> is type %s , expecting integer." % type(blend_)
assert isinstance(layer_, int), \
"Positional argument <layer_> is type %s , expecting integer." % type(layer_)
assert isinstance(particles_, bool), \
"Positional argument <particles_> is type %s , expecting boolean." % type(particles_)
if self.containers is None:
raise ValueError(
'Debris.containers is not initialised.\nMake sure to assign the containers to'
' a pygame group prior instantiation.\ne.g: Debris.containers = '
'pygame.sprite.Group()')
if self.image is None:
raise ValueError(
"Debris.image is not initialised.\nMake sure to assign a texture to "
"prior instantiation.\ne.g: Debris.image = 'CHOOSE_YOUR_TEXTURE'"
)
if timing_ < 0:
raise ValueError('Positional argument timing_ cannot be < 0')
if blend_ < 0:
raise ValueError('Positional argument blend_ cannot be < 0')
if layer_ > 0:
raise ValueError('Positional argument layer_ cannot be > 0')
self.layer = layer_
pygame.sprite.Sprite.__init__(self, self.containers)
# change sprite layer
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
gl_.All.change_layer(self, layer_)
self.image = Debris.image
self.rect = self.image.get_rect(center=pos_)
self.speed = pygame.math.Vector2(uniform(-10, +10), uniform(-8, +8))
self.damage = randint(5, 15)
self.timing = timing_
self.dt = 0
self.fxdt = 0
self.gl = gl_
self.asteroid_name = asteroid_name_ # not used
self.blend = blend_
self.layer = layer_
self.life = self.damage
self.points = self.life
self.rotation = 0
self.scale = 1.0
self.id_ = id(self)
self.asteroid_object = Broadcast(self.make_object())
self.vertex_array = []
# todo create instances in the vertex_array (declare in global)
# before instanciating debris.
# make a copy of the vertex_array and goes through the list changing arguments:
# position_, vector_. Assign the list to self.vertex_array
if particles_:
angle = math.radians(uniform(0, 359))
self.asteroid_particles_fx(position_=pygame.math.Vector2(
self.rect.center),
vector_=pygame.math.Vector2(
math.cos(angle) * randint(5, 10),
math.sin(angle) * randint(5, 10)),
images_=FIRE_PARTICLES.copy(),
layer_=self.layer,
blend_=pygame.BLEND_RGB_ADD)
Broadcast.add_object_id(self.id_)
def delete_object(self) -> DeleteSpriteCommand:
"""
Send a command to kill an object on client side.
:return: DetectCollisionSprite object
"""
return DeleteSpriteCommand(frame_=self.gl.FRAME,
to_delete_={self.id_: self.asteroid_name})
def make_object(self) -> DetectCollisionSprite:
"""
Create a network sprite object.
:return: DetectCollisionSprite object
"""
return DetectCollisionSprite(frame_=self.gl.FRAME,
id_=self.id_,
surface_=self.asteroid_name,
layer_=self.layer,
blend_=self.blend,
rect_=self.rect,
rotation_=self.rotation,
scale_=self.scale,
damage_=self.damage,
life_=self.life,
points_=self.points)
def remove_particle(self, p_) -> None:
"""
Remove the sprite from the group it belongs to and remove
the object from the vertex_array
:param p_: pygame.sprite.Sprite
:return: None
"""
p_.kill()
if p_ in self.vertex_array:
self.vertex_array.remove(p_)
def display_asteroid_particles_fx(self) -> None:
# Display asteroid tail debris.
if self.fxdt > self.timing - 8: # 8 ms
for p_ in self.vertex_array:
p_.image = p_.images[p_.index %
p_.length] # load the next surface
p_.rect.move_ip(p_.vector) # Move the particle
p_.vector *= 0.9999 # particle deceleration / attenuation
rect_centre = p_.rect.center # rect centre after deceleration
next_image = p_.images[(p_.index + 1) %
p_.length] # Load the next image
# Decrease image dimensions (re-scale)
try:
particle_size = pygame.math.Vector2(
p_.w - p_.index * 4, p_.h - p_.index * 4)
# transform next image (re-scale)
p_.images[(p_.index + 1) % p_.length] = \
pygame.transform.scale(next_image, (int(particle_size.x), int(particle_size.y)))
# Redefine the rectangle after transformation to avoid a collapsing movement
# to the right
p_.rect = p_.images[(p_.index + 1) %
p_.length].get_rect(center=rect_centre)
# delete the particle before exception
if particle_size.length() < 25:
self.remove_particle(p_)
except (ValueError, IndexError):
self.remove_particle(p_)
if not p_.rect.colliderect(
self.gl.SCREENRECT) or p_.vector.length() < 1:
self.remove_particle(p_)
p_.index += 1
self.fxdt = 0
else:
self.fxdt += self.gl.TIME_PASSED_SECONDS
def asteroid_particles_fx(
self,
position_, # particle starting location (tuple or pygame.math.Vector2)
vector_, # particle speed, pygame.math.Vector2
images_, # surface used for the particle, (list of pygame.Surface)
layer_=0, # Layer used to display the particles (int)
blend_=pygame.BLEND_RGB_ADD # Blend mode (int)
) -> None:
"""
Create bright debris after explosion or asteroid collision
"""
# Cap the number of particles to avoid lag
# if len(self.gl.FIRE_PARTICLES_FX) > 100:
# return
# Create fire particles when the aircraft is disintegrating
sprite_ = pygame.sprite.Sprite()
self.gl.All.add(sprite_)
# self.gl.FIRE_PARTICLES_FX.add(sprite__)
# assign the particle to a specific layer
if isinstance(self.gl.All, pygame.sprite.LayeredUpdates):
self.gl.All.change_layer(sprite_, layer_)
sprite_.layer = layer_
sprite_.blend = blend_ # use the additive mode
sprite_.images = images_
sprite_.image = images_[0]
sprite_.rect = sprite_.image.get_rect(center=position_)
sprite_.vector = vector_ # vector
sprite_.w, sprite_.h = sprite_.image.get_size()
sprite_.index = 0
sprite_.length = len(sprite_.images) - 1
# assign update method to self.display_fire_particle_fx
# (local method to display the particles)
sprite_.update = self.display_asteroid_particles_fx
self.vertex_array.append(sprite_)
def collide(self, player_=None, damage_: int = 0) -> None:
"""
:return:
"""
self.quit()
...
def hit(self, player_=None, damage_: int = 0) -> None:
"""
Check asteroid life after laser collision.
:param player_: Player instance
:param damage_: integer; Damage received
:return: None
"""
self.quit()
...
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = self.delete_object()
broadcast_object = Broadcast(obj)
broadcast_object.queue()
self.kill()
...
def update(self) -> None:
"""
Update debris sprite
:return:
"""
# Inside the 60FPS Area
if self.dt > self.timing:
if self.rect.colliderect(self.gl.SCREENRECT):
self.rect.move_ip(self.speed)
else:
self.quit()
return
self.asteroid_object.update({
'frame': self.gl.FRAME,
'id_': self.id_,
'rect': self.rect,
'life': self.life
})
self.asteroid_object.queue()
self.dt = 0
else:
self.dt += self.gl.TIME_PASSED_SECONDS
class Asteroid(pygame.sprite.Sprite):
containers = None
image = None
def __init__(self,
asteroid_name_: str,
gl_,
blend_: int = 0,
rotation_: int = 0,
scale_: int = 1,
timing_: int = 8,
layer_: int = 0):
"""
:param asteroid_name_: strings, MirroredAsteroidClass name
:param gl_: class GL (contains all the game constant)
:param blend_: integer, Sprite blend effect, must be > 0
:param rotation_: integer, Object rotation in degrees
:param scale_: integer, Object scale value, default 1 -> no transformation. must be > 0
:param timing_: integer; Refreshing time in milliseconds, must be > 0
:param layer_: integer; Layer used. must be <= 0 (0 is the top layer)
"""
"""
assert isinstance(asteroid_name_, str), \
"Positional argument <asteroid_name_> is type %s , expecting string." % type(asteroid_name_)
assert isinstance(blend_, int), \
"Positional argument <blend_> is type %s , expecting integer." % type(blend_)
if blend_ < 0:
raise ValueError('Positional attribute blend_ must be > 0')
assert isinstance(rotation_, (float, int)), \
"Positional argument <rotation_> is type %s , expecting float or integer." % type(rotation_)
assert isinstance(scale_, (float, int)), \
"Positional argument <scale_> is type %s , expecting float or integer." % type(scale_)
if scale_ < 0:
raise ValueError('Positional attribute scale_ must be > 0')
assert isinstance(timing_, int), \
"Positional argument <timing_> is type %s , expecting integer." % type(timing_)
if timing_ < 0:
raise ValueError('Positional attribute timing_ must be >= 0')
assert isinstance(layer_, int), \
"Positional argument <layer_> is type %s , expecting integer." % type(layer_)
if layer_ > 0:
raise ValueError('Positional attribute layer_ must be <= 0')
"""
self.layer = layer_
pygame.sprite.Sprite.__init__(self, self.containers)
# change sprite layer
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
gl_.All.change_layer(self, layer_)
self.images_copy = Asteroid.image.copy()
self.image = self.images_copy[0] if isinstance(
Asteroid.image, list) else self.images_copy
self.w, self.h = pygame.display.get_surface().get_size()
self.appearance_frame = 0 # randint(100, 100240) # When the asteroid start moving
if asteroid_name_ == 'MAJOR_ASTEROID':
self.speed = pygame.math.Vector2(0, 1)
self.rect = self.image.get_rect(center=((self.w >> 1),
-self.image.get_height()))
# MirroredAsteroidClass life points (proportional to its size)
self.life = 5000
self.damage = self.life * 2
else:
self.rect = self.image.get_rect(center=(randint(0, self.w),
-randint(0, self.h) -
self.image.get_height()))
# self.rect = self.image.get_rect(center=(self.w // 2, - self.image.get_height()))
self.speed = pygame.math.Vector2(0, uniform(
+4, +8)) # * round(self.appearance_frame / 4000))
if self.speed.length() == 0:
self.speed = pygame.math.Vector2(0, 1)
# MirroredAsteroidClass life points (proportional to its size)
self.life = randint(self.rect.w,
max(self.rect.w, (self.rect.w >> 1) * 10))
# Collision damage, how much life point
# will be removed from players and transport in case of collision
self.damage = self.life >> 1
self.timing = timing_
self.rotation = rotation_
self.scale = scale_
self.dt = 0
self.gl = gl_
self.asteroid_name = asteroid_name_
self.blend = blend_
# No need to pre-calculate the mask as all asteroid instanciation is
# done before the main loop
self.mask = pygame.mask.from_surface(self.image)
# MirroredAsteroidClass value in case of destruction.
self.points = self.life
self.layer = layer_
self.index = 0
self.has_been_hit = False
self.id_ = id(self)
self.asteroid_object = Broadcast(self.make_object())
self.impact_sound_object = Broadcast(self.make_sound_object('IMPACT'))
Broadcast.add_object_id(self.id_)
def delete_object(self) -> DeleteSpriteCommand:
"""
Send a command to kill an object on client side.
:return: DetectCollisionSprite object
"""
return DeleteSpriteCommand(frame_=self.gl.FRAME,
to_delete_={self.id_: self.asteroid_name})
def make_sound_object(self, sound_name_: str) -> SoundAttr:
"""
Create a network sound object
:param sound_name_: string; represent the sound name e.g 'EXPLOSION_SOUND"
:return: SoundAttr object
"""
assert isinstance(sound_name_, str), \
"Positional argument <sound_name_> is type %s , expecting string." % type(sound_name_)
if sound_name_ not in globals():
raise NameError('Sound %s is not define.' % sound_name_)
return SoundAttr(frame_=self.gl.FRAME,
id_=self.id_,
sound_name_=sound_name_,
rect_=self.rect)
def make_object(self) -> DetectCollisionSprite:
"""
Create a network sprite object
:return: DetectCollisionSprite object
"""
return DetectCollisionSprite(frame_=self.gl.FRAME,
id_=self.id_,
surface_=self.asteroid_name,
layer_=self.layer,
blend_=self.blend,
rect_=self.rect,
rotation_=self.rotation,
scale_=self.scale,
damage_=self.damage,
life_=self.life,
points_=self.points)
def create_gems(self, player_) -> None:
"""
Create collectable gems after asteroid disintegration.
:param player_: player causing asteroid explosion
:return: None
"""
if player_ is None:
raise ValueError("Argument player_ cannot be none!.")
if hasattr(player_, 'alive'):
if player_.alive():
number = randint(3, 15)
for _ in range(number):
if _ < number:
MakeGems.inventory = set()
MakeGems(gl_=self.gl,
player_=player_,
object_=self,
ratio_=1.0,
timing_=8,
offset_=pygame.Rect(self.rect.centerx,
self.rect.centery,
randint(-100, 100),
randint(-100, 20)))
def make_debris(self) -> None:
"""
Create sprite debris (different sizes 32x32, 64x64 pixels)
:return:None
"""
if not globals().__contains__('MULT_ASTEROID_64'):
raise NameError(
"Texture MULT_ASTEROID_64 is missing!"
"\nCheck file Texture.py for MULT_ASTEROID_64 assigment. ")
if not globals().__contains__('MULT_ASTEROID_32'):
raise NameError(
"Texture MULT_ASTEROID_32 is missing!"
"\nCheck file Texture.py for MULT_ASTEROID_32 assigment. ")
size_x, size_y = self.image.get_size()
if size_x > 128:
aster = MULT_ASTEROID_64
name = 'MULT_ASTEROID_64'
else:
aster = MULT_ASTEROID_32
name = 'MULT_ASTEROID_32'
length = len(aster) - 1
if self.asteroid_name != 'MAJOR_ASTEROID':
Debris.containers = self.gl.All, self.gl.ASTEROID
for _ in range(8 if size_x > 255 else 6):
element = randint(0, length)
Debris.image = aster[element]
Debris(asteroid_name_=name + '[' + str(element) + ']',
pos_=self.rect.center,
gl_=self.gl,
blend_=0,
timing_=16,
layer_=-2,
particles_=True)
else:
Debris.containers = self.gl.All, self.gl.ASTEROID
aster = MULT_ASTEROID_64
name = 'MULT_ASTEROID_64'
length = len(aster) - 1
for _ in range(10):
element = randint(0, length)
Debris.image = aster[element]
Debris(asteroid_name_=name + '[' + str(element) + ']',
pos_=(self.rect.centerx + randint(-size_x, size_y),
self.rect.centery + randint(-size_x, size_y)),
gl_=self.gl,
blend_=0,
timing_=20,
layer_=randint(-2, 0),
particles_=False)
aster = MULT_ASTEROID_32
name = 'MULT_ASTEROID_32'
length = len(aster) - 1
for _ in range(10):
element = randint(0, length)
Debris.image = aster[element]
Debris(asteroid_name_=name + '[' + str(element) + ']',
pos_=(self.rect.centerx + randint(-size_x, size_y),
self.rect.centery + randint(-size_x, size_y)),
gl_=self.gl,
blend_=0,
timing_=8,
layer_=randint(-2, 0),
particles_=False)
def explode(self, player_) -> None:
"""
Create an explosion sprite when asteroid life points < 1
:param player_: Player causing asteroid explosion
:return: None
"""
if not globals().__contains__('EXPLOSION1'):
raise NameError(
"Texture EXPLOSION1 is missing!"
"\nCheck file Texture.py for EXPLOSION1 assigment. ")
# Create queue sprite
Explosion.images = EXPLOSION1
Explosion(self,
self.rect.center,
self.gl,
8,
0,
texture_name_='EXPLOSION1') # self.layer)
if not globals().__contains__('HALO_SPRITE12'):
raise NameError(
"Texture HALO_SPRITE12 is missing!"
"\nCheck file Texture.py for HALO_SPRITE12 assigment. ")
if not globals().__contains__('HALO_SPRITE14'):
raise NameError(
"Texture HALO_SPRITE14 is missing!"
"\nCheck file Texture.py for HALO_SPRITE14 assigment. ")
# Create Halo sprite
AsteroidHalo.images = choice([HALO_SPRITE12, HALO_SPRITE14])
AsteroidHalo.containers = self.gl.All
AsteroidHalo(texture_name_='HALO_SPRITE12' if
AsteroidHalo.images is HALO_SPRITE12 else 'HALO_SPRITE14',
object_=self,
timing_=8)
self.make_debris()
if player_ is not None:
self.create_gems(player_)
self.quit()
def hit(self, player_=None, damage_: int = 0) -> None:
"""
Check asteroid life after laser collision.
:param player_: Player instance
:param damage_: integer; Damage received
:return: None
"""
assert isinstance(damage_, int), \
"Positional argument <damage_> is type %s , expecting integer." % type(damage_)
if damage_ < 0:
raise ValueError('positional argument damage_ cannot be < 0')
self.life -= damage_
self.has_been_hit = True if self.asteroid_name != 'MAJOR_ASTEROID' else False
if self.life < 1:
if player_ is not None:
if hasattr(player_, 'update_score'):
player_.update_score(self.points)
self.explode(player_)
def collide(self, player_=None, damage_: int = 0) -> None:
"""
Check asteroid life after collision with players or transport
:param player_: Player instance or transport
:param damage_: integer; Damage received
:return: None
"""
assert isinstance(damage_, int), \
"Positional argument <damage_> is type %s , expecting integer." % type(damage_)
if damage_ < 0:
raise ValueError('positional argument damage_ cannot be < 0')
if not globals().__contains__('IMPACT1'):
raise NameError("Sound IMPACT1 is missing!"
"\nCheck file Sounds.py for IMPACT1 assigment. ")
if hasattr(self, 'life'):
self.life -= damage_ # transfer damage to the asteroid (decrease life)
else:
raise AttributeError('self %s, %s does not have attribute life ' %
(self, type(self)))
# play asteroid burst sound locally
self.gl.MIXER.play(sound_=IMPACT1,
loop_=False,
priority_=0,
volume_=1.0,
fade_out_ms=0,
panning_=True,
name_='IMPACT1',
x_=self.rect.centerx,
object_id_=id(IMPACT1),
screenrect_=self.gl.SCREENRECT)
# broadcast asteroid burst sound
self.impact_sound_object.play()
# check if asteroid life is still > 0
if self.life < 1:
# check who is colliding with the asteroid
# if not colliding with transport, transfer score to player.
if not type(player_).__name__ == 'Transport':
if player_ is not None:
# player has collide with asteroid, player1 or player 2 get the points
player_.update_score(self.points)
else:
# Transport does not get points
...
# Split asteroid
self.make_debris()
self.quit()
...
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = Broadcast(self.delete_object())
obj.queue()
self.kill()
def update(self) -> None:
"""
Update asteroid sprites.
:return: None
"""
if self.gl.FRAME > self.appearance_frame:
# start to move asteroid when frame number is over
# self.appearance_frame (random frame number)
self.rect.move_ip(self.speed)
# asteroid is moving but not visible yet?
# The rectangle bottom edge must be > 0 to start the code below
if self.rect.midbottom[1] > 0:
# Inside the 60 FPS Area
if self.dt > self.timing:
# self.image = self.images_copy.copy()
if self.has_been_hit:
if not globals().__contains__('LAVA'):
raise NameError("Texture LAVA not available")
self.image.blit(LAVA[self.index % len(LAVA) - 1],
(0, 0),
special_flags=pygame.BLEND_RGB_ADD)
self.index += 1
self.has_been_hit = False
# if self.rotation != 0:
# self.mask = pygame.mask.from_surface(self.image)
self.asteroid_object.update({
'frame': self.gl.FRAME,
'rect': self.rect,
'life': self.life
})
self.asteroid_object.queue()
self.dt = 0
else:
self.dt += self.gl.TIME_PASSED_SECONDS
if self.rect.midtop[1] > self.gl.SCREENRECT.h:
self.quit()
class Transport(pygame.sprite.Sprite):
containers = None
image = None
def __init__(self, gl_, timing_, pos_, surface_name_, layer_=0):
pygame.sprite.Sprite.__init__(self, self.containers)
if isinstance(gl_.All, pygame.sprite.LayeredUpdates):
if layer_:
gl_.All.change_layer(self, layer_)
self.image = Transport.image
self.image_copy = self.image.copy()
self.rect = self.image.get_rect(center=pos_)
self.timing = timing_
self.gl = gl_
self.dt = 0
self.fxdt = 0
self.layer = layer_
self.blend = 0
self.previous_pos = pygame.math.Vector2() # previous position
self.max_life = 5000
self.life = 5000 # MirroredTransportClass max hit points
self.damage = 10000 # Damage transfer after collision
self.mask = pygame.mask.from_surface(self.image) # Image have to be convert_alpha compatible
self.pos = pos_
self.index = 0
self.impact = False
self.vertex_array = []
self.engine = self.engine_on()
self.surface_name = surface_name_
self.id_ = id(self)
self.transport_object = Broadcast(self.make_object())
self.impact_sound_object = Broadcast(self.make_sound_object('IMPACT'))
half = self.gl.SCREENRECT.w >> 1
self.safe_zone = pygame.Rect(half - 200, half, 400, self.gl.SCREENRECT.bottom - half)
self.half_life = (self.max_life >> 1)
Broadcast.add_object_id(self.id_) # this is now obsolete since it is done from main loop
def delete_object(self) -> DeleteSpriteCommand:
"""
Send a command to kill an object on client side.
:return: DetectCollisionSprite object
"""
return DeleteSpriteCommand(frame_=self.gl.FRAME, to_delete_={self.id_: self.surface_name})
def make_sound_object(self, sound_name_: str) -> SoundAttr:
return SoundAttr(frame_=self.gl.FRAME, id_=self.id_, sound_name_=sound_name_, rect_=self.rect)
def make_object(self) -> StaticSprite:
return StaticSprite(frame_=self.gl.FRAME, id_=self.id_, surface_=self.surface_name,
layer_=self.layer, blend_=self.blend, rect_=self.rect,
damage=self.damage, life=self.life, impact=self.impact)
def engine_on(self) -> AfterBurner:
AfterBurner.images = EXHAUST2
calc_pos = (self.pos[0] - 400, self.pos[1] - 205) # Top left corner position
return AfterBurner(self, self.gl,
calc_pos, 8, pygame.BLEND_RGB_ADD,
self.layer - 1, texture_name_='EXHAUST2')
def player_lost(self) -> None:
PlayerLost.containers = self.gl.All
PlayerLost.DIALOGBOX_READOUT_RED = DIALOGBOX_READOUT_RED
PlayerLost.SKULL = SKULL
font = freetype.Font('Assets\\Fonts\\Gtek Technology.ttf', size=14)
PlayerLost(gl_=self.gl, font_=font, image_=FINAL_MISSION, layer_=0)
# todo kill player 1 and 2 game is over
def explode(self):
Explosion.images = EXPLOSION2
for i in range(10):
Explosion(self, (self.rect.centerx + randint(-400, 400),
self.rect.centery + randint(-400, 400)),
self.gl, 8, self.layer,
texture_name_='EXPLOSION2', mute_=False if i > 0 else True)
PlayerHalo.images = HALO_SPRITE13
PlayerHalo.containers = self.gl.All
PlayerHalo(texture_name_='HALO_SPRITE13', object_=self, timing_=8)
self.quit()
def collide(self, damage_: int)-> None:
"""
Asteroid collide with object (e.g Asteroids)
:param damage_: int; damage transfer to the transport (damage must be positive)
:return: None
"""
assert isinstance(damage_, int), \
'Positional arguement damage_, expecting int type got %s ' % type(damage_)
if self.alive():
if damage_ is None or damage_ < 0:
raise ValueError('positional arguement damage_ cannot be None or < 0.')
self.impact = True # variable used for blending, (electric effect on the transport's hull )
self.index = 0
self.life -= damage_ # Transport life decrease
# Play an impact sound locally
self.gl.MIXER.play(sound_=IMPACT1, loop_=False, priority_=0,
volume_=1.0, fade_out_ms=0, panning_=True,
name_='IMPACT1', x_=self.rect.centerx,
object_id_=id(IMPACT1),
screenrect_=self.gl.SCREENRECT)
# Play impact sound on client computer.
self.impact_sound_object.play()
else:
self.quit()
def hit(self, damage_):
if self.alive():
self.life -= damage_
else:
self.quit()
def get_centre(self) -> tuple:
return self.rect.center
def display_fire_particle_fx(self) -> None:
# Display fire particles when the player has taken bad hits
# Use the additive blend mode.
if self.fxdt > self.timing:
for p_ in self.vertex_array:
# queue the particle in the vector direction
p_.rect.move_ip(p_.vector)
p_.image = p_.images[p_.index]
if p_.index > len(p_.images) - 2:
p_.kill()
self.vertex_array.remove(p_)
p_.index += 1
self.fxdt = 0
else:
self.fxdt += self.gl.TIME_PASSED_SECONDS
def fire_particles_fx(self,
position_, # particle starting location (tuple or pygame.math.Vector2)
vector_, # particle speed, pygame.math.Vector2
images_, # surface used for the particle, (list of pygame.Surface)
layer_=0, # Layer used to display the particles (int)
blend_=pygame.BLEND_RGB_ADD # Blend mode (int)
) -> None:
# Create fire particles around the aircraft hull when player is taking serious damages
# Cap the number of particles to avoid lag
# if len(self.gl.FIRE_PARTICLES_FX) > 100:
# return
# Create fire particles when the aircraft is disintegrating
sprite_ = pygame.sprite.Sprite()
self.gl.All.add(sprite_)
# self.gl.FIRE_PARTICLES_FX.add(sprite__)
# assign the particle to a specific layer
if isinstance(self.gl.All, pygame.sprite.LayeredUpdates):
self.gl.All.change_layer(sprite_, layer_)
sprite_.layer = layer_
sprite_.blend = blend_ # use the additive mode
sprite_.images = images_
sprite_.image = images_[0]
sprite_.rect = sprite_.image.get_rect(center=position_)
sprite_.vector = vector_ # vector
sprite_.index = 0
# assign update method to self.display_fire_particle_fx
# (local method to display the particles)
sprite_.update = self.display_fire_particle_fx
self.vertex_array.append(sprite_)
def quit(self) -> None:
Broadcast.remove_object_id(self.id_)
obj = Broadcast(self.delete_object())
obj.queue()
self.kill()
def update(self):
self.rect.clamp_ip(self.safe_zone)
self.image = self.image_copy.copy()
# in the 16ms area (60 FPS)
if self.dt > self.timing:
if self.life < self.half_life:
position = pygame.math.Vector2(randint(-50, 50), randint(-100, 100))
self.fire_particles_fx(position_=position + pygame.math.Vector2(self.rect.center),
vector_=pygame.math.Vector2(uniform(-1, 1), uniform(+1, +3)),
images_=FIRE_PARTICLES,
layer_=0, blend_=pygame.BLEND_RGB_ADD)
if self.life < 1:
self.explode()
return
if self.previous_pos == self.rect.center:
self.rect.centerx += randint(-1, 1)
self.rect.centery += randint(-1, 1)
if self.gl.FRAME < 100:
self.rect.centery -= 3
self.previous_pos = self.rect.center
self.engine.update()
self.transport_object.update(
{'frame': self.gl.FRAME, 'rect': self.rect,
'damage': self.damage, 'life': self.life, 'impact': self.impact})
# Broadcast the spaceship position
self.transport_object.queue()
self.dt = 0
else:
self.dt += self.gl.TIME_PASSED_SECONDS
# outside the 60 FPS area.
# Below code processed every frames.
if self.impact:
self.image.blit(DISRUPTION_ORG[self.index % len(DISRUPTION_ORG) - 1],
(0, 0), special_flags=pygame.BLEND_RGB_ADD)
self.index += 1
if self.index > len(DISRUPTION_ORG) - 2:
self.impact = False
self.index = 0