def _update_trails(self):
if self.impulse:
radius_to_use = self.radius + 75
rads = radians(self.facing_direction)
dx, dy = (sin(rads) * radius_to_use) + self.pos.x, (cos(rads) * radius_to_use) + self.pos.y
self.current_trail.add_point((dx, dy), 1)
rads2 = radians(self.facing_direction + 30)
dx2, dy2 = (sin(rads2) * radius_to_use) + self.pos.x, (cos(rads2) * radius_to_use) + self.pos.y
self.current_trail.add_point((dx2, dy2), 2)
rads3 = radians(self.facing_direction - 30)
dx3, dy3 = (sin(rads3) * radius_to_use) + self.pos.x, (cos(rads3) * radius_to_use) + self.pos.y
self.current_trail.add_point((dx3, dy3), 3)
self.current_trail.draw(False)
elif not self.impulse and self.current_trail.length(1) > 0:
self.trails.add_trail(self.current_trail)
self.current_trail = Trail(color1=(0, 255, 230), color2=(255, 0, 230), color3=(0, 255, 0))
self.trails.draw()
def __init__(self, sprite_name, controller, pos):
BaseAnimatedObject.__init__(
self, name=sprite_name, rows=9, cols=1, pos=pos,
sprite_group=SPRITE_MANAGER.instance)
# old image is used for quicker "rotations" of images, also stops the image from
# being distorted when multiple images are rotated over and over agian.
self.old_image = self.image
self.joystick = controller
# in degrees, 0 is top, 90 is left, 180 is down, 270 is right
self.facing_direction = 0
self.moving_direction = 0
self.bullet_count = 0
self._rotate(self.facing_direction)
self.radius = self.rect.centerx - self.rect.x
self.begun_movement = False
self.play_thrust = False
# current trail could also be kicked out to trail manager, I think...
self.current_trail = Trail(color1=(0, 255, 230), color2=(255, 0, 230), color3=(0, 255, 0))
self.trails = Trail_Manager()
self.velocity = Vector(0, 0)
self.acceleration = Vector(0, 0)
self.impulse = False
self.land = False
# this isn't the proper place for cycle logic. Should kick this out somehow.
self.can_cycle = -1
# ship properties..
self.mass = MASS
self.thrust = THRUST
self.engine_thrust = Vector(0, 0)
self.first_pass = True
self.camera_center = CameraCenter("Bullet.png", self)
class TestPilot(BaseAnimatedObject):
def __init__(self, sprite_name, controller, pos):
BaseAnimatedObject.__init__(
self, name=sprite_name, rows=9, cols=1, pos=pos,
sprite_group=SPRITE_MANAGER.instance)
# old image is used for quicker "rotations" of images, also stops the image from
# being distorted when multiple images are rotated over and over agian.
self.old_image = self.image
self.joystick = controller
# in degrees, 0 is top, 90 is left, 180 is down, 270 is right
self.facing_direction = 0
self.moving_direction = 0
self.bullet_count = 0
self._rotate(self.facing_direction)
self.radius = self.rect.centerx - self.rect.x
self.begun_movement = False
self.play_thrust = False
# current trail could also be kicked out to trail manager, I think...
self.current_trail = Trail(color1=(0, 255, 230), color2=(255, 0, 230), color3=(0, 255, 0))
self.trails = Trail_Manager()
self.velocity = Vector(0, 0)
self.acceleration = Vector(0, 0)
self.impulse = False
self.land = False
# this isn't the proper place for cycle logic. Should kick this out somehow.
self.can_cycle = -1
# ship properties..
self.mass = MASS
self.thrust = THRUST
self.engine_thrust = Vector(0, 0)
self.first_pass = True
self.camera_center = CameraCenter("Bullet.png", self)
# "public functions"
def IsMoving(self):
return self.impulse
def getPlayerDirection(self):
rads = radians(self.facing_direction)
return Vector(sin(rads), cos(rads)).normal()
def getVelocity(self):
return Vector(self.velocity.x, self.velocity.y)
def getPosition(self):
return Vector(self.pos.x, self.pos.y)
# return self.pos
# "private" functions
def _rotate(self, angle):
self.image = pygame.transform.rotate(self.old_image, angle)
self.rect = self.image.get_rect() # move rect to current pos?
self.rect.centerx = self.pos.x
self.rect.centery = self.pos.y
def _update_rotation(self):
if self.right.x < 0:
self.facing_direction += ANGULAR_VELOCITY
if self.facing_direction > 360:
self.facing_direction -= 360
else:
self.facing_direction -= ANGULAR_VELOCITY
if self.facing_direction < 0:
self.facing_direction += 360
self._rotate(self.facing_direction)
def _resolve_direction_vector(self):
rads = radians(self.moving_direction) # this is also the angle where the camera angle object should be
dx, dy = sin(rads) * self.thrust, cos(rads) * self.thrust
self.engine_thrust.x, self.engine_thrust.y = -dx, -dy # new directional thrust from engines
def _get_new_pos(self):
dx, dy = self.calc_new_position(self.pos)
self.pos.x, self.pos.y = dx, dy
self._update_trails()
def get_elasped(self):
return CLOCK.get_elasped()
def calc_new_position(self, cur_pos):
if self.impulse:
self._resolve_direction_vector()
else:
self.engine_thrust.x, self.engine_thrust.y = 0, 0
# calculate acceleration.x
drag_force = Vector(
-DRAG_COEFFICIENT * self.velocity.x, -DRAG_COEFFICIENT * self.velocity.y)
self.acceleration.x = (self.engine_thrust.x + drag_force.x)/self.mass
self.acceleration.y = (self.engine_thrust.y + drag_force.y)/self.mass
self.velocity.x = self.velocity.x + (self.acceleration.x * CLOCK.get_elasped())
self.velocity.y = self.velocity.y + (self.acceleration.y * CLOCK.get_elasped()) # might have to subtract this value..
dx = (0.5 * self.acceleration.x * CLOCK.get_elasped()**2) + (self.velocity.x * CLOCK.get_elasped())
dy = (0.5 * self.acceleration.y * CLOCK.get_elasped()**2) + (self.velocity.y * CLOCK.get_elasped())
return cur_pos.x + dx, cur_pos.y + dy
def _update_trails(self):
if self.impulse:
radius_to_use = self.radius + 75
rads = radians(self.facing_direction)
dx, dy = (sin(rads) * radius_to_use) + self.pos.x, (cos(rads) * radius_to_use) + self.pos.y
self.current_trail.add_point((dx, dy), 1)
rads2 = radians(self.facing_direction + 30)
dx2, dy2 = (sin(rads2) * radius_to_use) + self.pos.x, (cos(rads2) * radius_to_use) + self.pos.y
self.current_trail.add_point((dx2, dy2), 2)
rads3 = radians(self.facing_direction - 30)
dx3, dy3 = (sin(rads3) * radius_to_use) + self.pos.x, (cos(rads3) * radius_to_use) + self.pos.y
self.current_trail.add_point((dx3, dy3), 3)
self.current_trail.draw(False)
elif not self.impulse and self.current_trail.length(1) > 0:
self.trails.add_trail(self.current_trail)
self.current_trail = Trail(color1=(0, 255, 230), color2=(255, 0, 230), color3=(0, 255, 0))
self.trails.draw()
def _land(self):
closest_planet = PLANET_MANAGER.instance.get_closest(self)
if not self.land:
self.land = True
self.delete = True
objects.player_utils.create_player_on_planet(
"OnPlanetSprite1.png", self.joystick, self.pos.to_tuple(), closest_planet)
def _check_inputs(self):
self.left, self.right = self.joystick.get_axes()
if self.left.x == 0 and self.left.y == 0:
if self.right.x != 0 or self.right.y != 0:
self._update_rotation()
if self.left.x != 0 or self.left.y != 0:
self.impulse = True
self.moving_direction = self.facing_direction
self.begun_movement = True
if self.play_thrust is False:
SND_THRUST.play()
self.play_thrust = True
else:
self.impulse = False
self.play_thrust = False
if self.joystick.get_action_button():
self._land()
if self.joystick.get_shoot_button():
self.bullet_count -= 1
if self.bullet_count < 0:
radius_to_use = self.radius
rads = radians(self.facing_direction + 180)
dx, dy = (sin(rads) * radius_to_use) + self.pos.x, (cos(rads) * radius_to_use) + self.pos.y
PinkBullet(randint(self.facing_direction-13, self.facing_direction+13), (dx, dy))
SND_SHOOT.play()
self.bullet_count = 2
self.joystick.done_with_input()
def deleteMe(self):
super(TestPilot, self).delete()
# def move(self):
# self.rect.centerx = self.pos.x
# self.rect.centery = self.pos.y
# CAMERA.update(self)
# offset = CAMERA.apply(self.rect)
# self.rect.x = offset.x
# self.rect.y = offset.y
# self.dirty = 1
def update(self):
# this cycle logic should be pushed into a separate function or something...
self.can_cycle += 1
if self.can_cycle == 10:
self.cycle()
self.can_cycle = -1
# rotate logic is f****d up also due to cycles happening in animation...
self._rotate(self.facing_direction)
if not self.first_pass:
if self.delete:
self.deleteMe()
self._check_inputs()
if self.begun_movement:
self._get_new_pos()
self.first_pass = False
self.move()
