def __init__(self, pos, pitch, yaw, speed, nighttime, *groups):
super(ClayPigeon, self).__init__(*groups)
self.x, self.y = pos
self.z = 0
self.start_x, self.start_y = self.x, self.y
self.speed = speed #70 #speed of time elapsed for trajectory, lower means faster clays
self.glow = nighttime
if self.glow:
self.base_image = prepare.GFX["glow-clay"]
else:
self.base_image = prepare.GFX["clay"]
self.width, self.height = self.base_image.get_size()
self.original_width, self.original_height = self.width, self.height
self.image = self.base_image
self.rect = self.image.get_rect(center=(self.x, self.y))
firing_speed = fs = 105
pitch = radians(pitch)
y = project((0, 0), pitch, 1)[1]
x, z = project((0, 0), yaw, 1)
z *= -1
magnitude = sqrt(x**2 + y**2 + z**2)
self.z_velocity = (z / magnitude) * firing_speed
self.y_velocity = (y / magnitude) * firing_speed
self.x_velocity = (x / magnitude) * firing_speed
dist = ((fs**2)*sin(2*pitch)) / -GRAVITY
self.flight_time = (dist / (fs*cos(pitch))) * .85
self.animations = pg.sprite.Group()
self.timer = 0
self.alpha = 255
self.shattered = False
def shoot(self, bullets, turkeys, all_sprites, animations):
"""
Fire a bullet if the player has enough ammo and enough time has passed
since the last shot.
"""
if self.cooldown_timer >= self.cooldown_time:
self.stop_walking()
if self.shells <= 0:
prepare.SFX["gunclick"].play()
else:
self.shells -= 1
prepare.SFX["gunshot"].play()
pos = project(self.pos, (self.angle - .1745) % (2 * pi),
42) #end of rifle at 96x96
bullet = Bullet(pos, self.angle, bullets, all_sprites)
distance = 2000.
x, y = project(pos, self.angle, distance)
ani = Animation(centerx=x,
centery=y,
duration=distance / bullet.speed,
round_values=True)
ani.callback = bullet.kill
ani.start(bullet.rect)
animations.add(ani)
scare_rect = self.collider.inflate(1200, 1200)
scared_turkeys = [
t for t in turkeys if scare_rect.colliderect(t.collider)
]
for scared in scared_turkeys:
task = Task(scared.flee, 750, args=(self, ))
self.animations.add(task)
task = Task(self.flip_state, 120, args=("idle", ))
animations.add(task)
self.cooldown_timer = 0
self.flip_state("shoot")
def shoot(self, bullets, turkeys, all_sprites, animations):
"""
Fire a bullet if the player has enough ammo and enough time has passed
since the last shot.
"""
if self.cooldown_timer >= self.cooldown_time:
self.stop_walking()
if self.shells <= 0:
prepare.SFX["gunclick"].play()
else:
self.shells -= 1
prepare.SFX["gunshot"].play()
pos = project(self.pos, (self.angle - .1745) % (2 * pi), 42) #end of rifle at 96x96
bullet = Bullet(pos, self.angle, bullets, all_sprites)
distance = 2000.
x, y = project(pos, self.angle, distance)
ani = Animation(centerx=x, centery=y, duration=distance/bullet.speed, round_values=True)
ani.callback = bullet.kill
ani.start(bullet.rect)
animations.add(ani)
scare_rect = self.collider.inflate(1200, 1200)
scared_turkeys = [t for t in turkeys if scare_rect.colliderect(t.collider)]
for scared in scared_turkeys:
task = Task(scared.flee, 750, args=(self,))
self.animations.add(task)
task = Task(self.flip_state, 120, args=("idle",))
animations.add(task)
self.cooldown_timer = 0
self.flip_state("shoot")
def update(self, dt):
self.rotation += self.rotation_speed * dt
if self.rotation >= .25 * math.pi:
self.base_image = next(self.images)
self.rotation -= .25 * math.pi
self.image = pg.transform.rotate(self.base_image, math.degrees(-self.rotation))
self.rect = self.image.get_rect()
self.pos = angles.project(self.pos, self.angle, self.speed * dt)
self.rect.center = self.pos
def update(self, dt):
self.timer += dt
if self.timer > self.duration:
self.kill()
self.intensity = 1 - (self.timer / float(self.duration))
alpha = max(0, min(255, 255 * self.intensity))
self.image = self.base_image.copy()
self.image.fill((0, 0, 0, 255 - alpha), None, pg.BLEND_RGBA_SUB)
self.pos = angles.project(self.pos, self.angle, self.speed * dt)
self.rect.center = self.pos
def update_map(self, level):
player = level.player
self.map_surf.fill((0,0,0))
for planet in level.planets:
mapx = int(planet.pos[0] * self.xscale)
mapy = int(planet.pos[1] * self.yscale)
pg.draw.circle(self.map_surf, planet.color,
(mapx, mapy), int(planet.radius * self.xscale))
px, py = int(player.pos[0] * self.xscale), int(player.pos[1] * self.yscale)
pg.draw.circle(self.map_surf, pg.Color(0, 220, 220), (px, py), 2)
pg.draw.line(self.map_surf, pg.Color(0, 220, 220), (px, py), angles.project((px, py), player.angle, 4))
def move(self, dt, colliders):
if self.state == "shoot":
return
elif self.state != "move":
self.flip_state("move")
self.start_walking()
dist = self.speed * dt * self.hustle
pos = project(self.pos, self.angle, dist)
collider = self.collider.copy()
collider.center = pos
if not any((collider.colliderect(obj.collider) for obj in colliders)):
self.pos = pos
self.rect.center = self.pos
self.collider.center = self.pos
def move(self, dt, colliders):
if self.state == "shoot":
return
elif self.state != "move":
self.flip_state("move")
self.start_walking()
dist = self.speed * dt * self.hustle
pos = project(self.pos, self.angle, dist)
collider = self.collider.copy()
collider.center = pos
if not any((collider.colliderect(obj.collider) for obj in colliders)):
self.pos = pos
self.rect.center = self.pos
self.collider.center = self.pos
def __init__(self, image_name, pivot, radius, angle,
minute_length, *groups):
super(CelestialBody, self).__init__(*groups)
self.name = image_name
self.image = prepare.GFX[image_name]
self.rect = self.image.get_rect()
self.timer = 0
self.pivot = pivot
self.radius = radius
self.z = 50000
self.ends = [project(self.pivot, angle - (x * pi), self.radius)
for x in (0, .5, 1, 1.5)]
self.transitions = cycle([("in_sine", "out_sine"),
("out_sine", "in_sine")])
self.ends = cycle(self.ends)
self.rect.center = next(self.ends)
self.animations = pg.sprite.Group()
self.make_ani(minute_length)
def __init__(self, image_name, pivot, radius, angle, minute_length,
*groups):
super(CelestialBody, self).__init__(*groups)
self.name = image_name
self.image = prepare.GFX[image_name]
self.rect = self.image.get_rect()
self.timer = 0
self.pivot = pivot
self.radius = radius
self.z = 50000
self.ends = [
project(self.pivot, angle - (x * pi), self.radius)
for x in (0, .5, 1, 1.5)
]
self.transitions = cycle([("in_sine", "out_sine"),
("out_sine", "in_sine")])
self.ends = cycle(self.ends)
self.rect.center = next(self.ends)
self.animations = pg.sprite.Group()
self.make_ani(minute_length)
def move(self, dt):
self.pos = angles.project(self.pos, self.angle, self.speed * dt)
self.rect.center = self.pos
