def __init__(self):
ShowBase.__init__(self)
simplepbr.init()
self.accept('escape', sys.exit)
self.accept('f11', self.debug)
m = loader.load_model("pbrcube.bam")
m.reparent_to(render)
# Camera
self.cam_gimbal = NodePath('gimbal')
self.cam_gimbal.reparent_to(render)
base.cam.reparent_to(self.cam_gimbal)
base.cam.set_pos(0, -10, 0)
base.cam.look_at(0, 0, 0)
self.add_task(self.update_camera)
# Light
light = PointLight('plight')
light.set_color((10, 10, 10, 10))
light.set_attenuation((1, 0, 1))
light_np = base.cam.attach_new_node(light)
render.set_light(light_np)
light_np.set_pos(0, 0, 2)
# Debug info
render.ls()
render.analyze()
class Base(ShowBase):
def __init__(self):
ShowBase.__init__(self)
add_device_listener(
config_file='keybindings.toml',
assigner=SinglePlayerAssigner(),
)
base.disableMouse()
self.sound = SoundManager()
self.linefx = LineEffects()
self.cardmaker = CardMaker("card")
self.cardmaker.set_frame(-1,1,-1,1)
self.turn_speed = 0.3 #length of turn animation in seconds
self.sequence_player = SequencePlayer()
self.transition = Transitions(loader)
self.interface = Interface()
self.bg_color = VBase4(0, 0, 0, 1)
self.innitialize_fov()
card, scene, camera, self.buffer = self.make_render_card()
card.set_x(-0.25)
self.camera = camera
self.load_icons()
self.texts = Texts(camera)
self.pause = True
self.instruct = True
self.gameover = False
self.won = False
self.player = Player((0,0,0))
self.map = Map()
self.map.new_game()
camera.reparent_to(self.player.root)
camera.set_pos(4,-4,8)
camera.look_at(self.player.root)
camera.set_compass()
base.task_mgr.add(self.update)
card, scene, camera, buffer = self.make_render_card([3,7],[64,256],(0,100))
self.hudgun = Actor("assets/models/hand.bam")
self.hudgun.reparent_to(scene)
self.hudgun.find("**/hand_healthy").show()
self.hudgun.find("**/hand_hurt").hide()
self.hudgun.setLODAnimation(1, 0.1, 0.005)
self.player.weapon.set_hud_bullets()
camera.look_at(self.hudgun)
camera.set_pos(0.5,-1.5,10)
camera.set_p(-90)
card.set_scale(1/4,1,1)
card.set_x(1-(1/4))
self.quad = None
self.setup_post_effect()
def game_over(self):
self.pause = True
self.gameover = True
self.texts.make_gameover()
def win_game(self):
self.pause = True
self.won = True
self.texts.make_end()
def innitialize_fov(self):
render.set_shader_auto()
self.fov_point = PointLight("caster")
self.fov_point.set_shadow_caster(True, 256*2, 256*2, -1000)
self.fov_point.set_camera_mask(0b001)
self.fov_point.set_lens_active(4, False)
self.fov_point.set_lens_active(5, False)
for i in range(6):
self.fov_point.get_lens(i).set_near_far(0.5, 10)
self.fov_point_np = render.attach_new_node(self.fov_point)
self.fov_point_np.set_z(0.5)
self.fov_point.set_color(VBase4(1,1,1,1))
def make_render_card(self, ortho_size=[8,5], resolution=[256,256], nearfar=(5,40)):
scene = NodePath("Scene")
buffer = base.win.make_texture_buffer("Buffer", resolution[0], resolution[1])
texture = buffer.get_texture()
texture.set_magfilter(SamplerState.FT_nearest)
texture.set_minfilter(SamplerState.FT_nearest)
texture.set_wrap_u(SamplerState.WM_clamp)
texture.set_wrap_v(SamplerState.WM_clamp)
buffer.set_sort(-100)
buffer.set_clear_color_active(True)
buffer.set_clear_color(self.bg_color)
camera = base.make_camera(buffer)
lens = OrthographicLens()
lens.set_film_size(ortho_size[0], ortho_size[1])
lens.set_near(nearfar[0])
lens.set_far(nearfar[1])
camera.node().set_lens(lens)
camera.reparent_to(scene)
card = render2d.attach_new_node(self.cardmaker.generate())
card.set_texture(texture)
return card, scene, camera, buffer
def setup_post_effect(self):
self.manager = FilterManager(base.win, base.cam2d)
tex = Texture()
#tex = loader.load_texture("assets/noise.png")
self.quad = self.manager.renderSceneInto(colortex=tex)
self.quad.setShader(Shader.load(Shader.SL_GLSL, "crt.vert","crt.frag"))
self.quad.setShaderInput("iResolution", (base.win.getXSize(), base.win.getYSize()))
self.quad.setShaderInput("pattern", base.loader.load_texture("assets/crt.png"))
self.quad.get_texture().set_wrap_u(SamplerState.WM_clamp)
self.quad.get_texture().set_wrap_v(SamplerState.WM_clamp)
base.accept("window-event", self.on_window_event)
def on_window_event(self, win):
base.windowEvent(win)
self.quad.setShaderInput("iResolution", (base.win.getXSize(), base.win.getYSize()))
def load_icons(self):
model = loader.load_model("assets/models/icons.bam")
self.icons = {}
for child in model.get_children():
child.clear_transform()
child.detach_node()
self.icons[child.name] = child
def update(self, task):
self.dt = globalClock.get_dt()
context = base.device_listener.read_context('ew')
if context["quit"]:
sys.exit()
if not self.pause:
if self.player.alive:
base.texts.deactivate()
if not self.sequence_player.parallel:
self.interface.update(context)
elif not self.sequence_player.parallel:
if self.won:
return task.cont
if context["select"]:
self.texts.deactivate()
if self.instruct:
self.instruct = False
self.texts.make_instructions()
else:
self.pause = False
if self.gameover:
base.sound.stop("die")
self.gameover = False
self.map.destroy()
self.map.new_game()
else:
base.sound.music["opening"].stop()
base.sound.music["background"].play()
return task.cont
class TheGameWindow(ShowBase):
SPEED = 50
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.set_background_color(0.2, 0.2, 0.2, 0.6)
# disables the default mouse camera control
# self.disable_mouse()
self.cam.set_pos(0, -100, 0)
# lights
self.plight = PointLight("pl")
self.plight.set_color((1, 1, 1, 1))
self.plight.set_color((1, 1, 1, 1))
self.plight.set_attenuation((1, 0, 0))
self.plnp = self.render.attach_new_node(self.plight)
self.plnp.set_pos(0, 0, 100)
self.render.set_light(self.plnp)
self.amblight = AmbientLight("ambl")
self.amblight.set_color((0.1, 0.1, 0.1, 1))
self.ambnp = self.render.attach_new_node(self.amblight)
self.render.set_light(self.ambnp)
# shadows
self.plight.set_shadow_caster(True, 2048, 2048)
self.render.set_shader_auto()
# floor
self.floor = self.loader.loadModel(str(settings.egg / "floor.egg"))
self.floor.reparent_to(self.render)
self.floor.set_name("floor")
self.sphere = self.loader.loadModel("models/misc/sphere")
self.sphere.set_pos(0, 0, 20)
self.sphere.set_name("sphere")
self.sphere.set_scale(3.0)
self.sphere.set_color((1, 1, 1, 1))
self.sphere.reparent_to(self.render)
# key assigment
self.accept("w", update_key_map, ["w", True])
self.accept("w-up", update_key_map, ["w", False])
self.accept("s", update_key_map, ["s", True])
self.accept("s-up", update_key_map, ["s", False])
self.accept("a", update_key_map, ["a", True])
self.accept("a-up", update_key_map, ["a", False])
self.accept("d", update_key_map, ["d", True])
self.accept("d-up", update_key_map, ["d", False])
self.accept("e", update_key_map, ["e", True])
self.accept("e-up", update_key_map, ["e", False])
self.accept("q", update_key_map, ["q", True])
self.accept("q-up", update_key_map, ["q", False])
# collision
self.cTrav = CollisionTraverser()
self.col_pusher = CollisionHandlerPusher()
# self.handler = CollisionHandlerEvent()
# self.handler.addInPattern('%fn-into-%in')
# self.accept('player-into-Floor', self.handle_collision)
sphere_collider = self.sphere.attachNewNode(CollisionNode('player'))
sphere_collider.node().addSolid(CollisionSphere(0, 0, 0, 1))
sphere_collider.show()
# floor_collider = self.floor.attachNewNode(CollisionNode('ground_zero'))
# floor_collider.node().addSolid(CollisionPlane(Plane(Vec3(0, 0, 1), Point3(0, 0, 0))))
# floor_collider.show()
self.col_pusher.addCollider(sphere_collider, self.sphere)
self.cTrav.showCollisions(self.render)
# self.cTrav.addCollider(sphere_collider, self.handler)
self.cTrav.addCollider(sphere_collider, self.col_pusher)
# uppdate
self.task_mgr.add(self.update)
def handle_collision(self, entry):
print(self.floor.get_name())
for k in KEY_MAP:
KEY_MAP[k] = False
print(entry)
def update(self, task: Task):
dt = globalClock.getDt()
if KEY_MAP["e"]:
pos = self.sphere.get_pos()
pos.z += self.SPEED * dt
self.sphere.set_pos(pos)
if KEY_MAP["q"]:
pos = self.sphere.get_pos()
pos.z -= self.SPEED * dt
self.sphere.set_pos(pos)
if KEY_MAP["a"]:
pos = self.sphere.get_pos()
pos.x -= self.SPEED * dt
self.sphere.set_pos(pos)
if KEY_MAP["d"]:
pos = self.sphere.get_pos()
pos.x += self.SPEED * dt
self.sphere.set_pos(pos)
if KEY_MAP["w"]:
pos = self.sphere.get_pos()
pos.y += self.SPEED * dt
self.sphere.set_pos(pos)
if KEY_MAP["s"]:
pos = self.sphere.get_pos()
pos.y -= self.SPEED * dt
self.sphere.set_pos(pos)
return task.cont
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.set_background_color(0.2, 0.2, 0.2, 0.6)
# self.render.setAntialias(AntialiasAttrib.MMultisample)
self.controller = Controller(self.accept)
self.cam.set_pos(0, -200, 10)
self.player = self.loader.loadModel(str(settings.egg / "a2.egg"))
self.player.set_pos(0, 0, 0)
self.player.set_scale(3.0)
self.player.set_color((0, 0, 0, 1))
self.player.reparent_to(self.render)
self.plane = self.loader.loadModel(str(settings.egg / "plane.egg"))
self.plane.reparent_to(self.render)
self.plane.set_name("plane")
self.cube_01 = self.loader.loadModel(str(settings.egg / "bd-cube.egg"))
self.cube_01.reparent_to(self.render)
self.cube_01.set_name("cube")
self.cube_01.set_scale(20)
self.cube_01.set_pos(-100, 30, 20)
self.cube_02 = self.loader.loadModel(str(settings.egg / "bd-cube.egg"))
self.cube_02.reparent_to(self.render)
self.cube_02.set_name("cube")
self.cube_02.set_scale(10)
self.cube_02.set_pos(-30, 100, 10)
# ##############################################################################################################
# player
self.light_model = self.loader.loadModel("models/misc/sphere")
self.light_model.set_pos(0, 0, 20)
self.light_model.set_scale(3.0)
self.light_model.set_color((1, 1, 1, 1))
self.light_model.reparent_to(self.render)
# lights
if True:
day_light = DirectionalLight("sun")
day_light.set_color((1, 1, 1, 1))
self.sun = self.render.attach_new_node(day_light)
self.sun.set_p(-20)
self.sun.set_h(10)
self.cube_01.set_light(self.sun)
self.cube_02.set_light(self.sun)
self.player.set_light(self.sun)
self.plane.set_light(self.sun)
sun_spotlight = PointLight("sun_spotlight")
sun_spotlight.set_color((1, 1, 1, 1))
self.sun_spotlight_nodepath = self.render.attach_new_node(sun_spotlight)
self.sun_spotlight_nodepath.reparent_to(self.light_model)
self.cube_01.set_light(self.sun_spotlight_nodepath)
self.cube_02.set_light(self.sun_spotlight_nodepath)
self.player.set_light(self.sun_spotlight_nodepath)
self.plane.set_light(self.sun_spotlight_nodepath)
amblight = AmbientLight("ambient_light")
amblight.set_color((0.01, 0.01, 0.01, 1))
self.ambnp = self.render.attach_new_node(amblight)
self.cube_01.set_light(self.ambnp)
self.cube_02.set_light(self.ambnp)
self.player.set_light(self.ambnp)
self.plane.set_light(self.ambnp)
sun_spotlight.set_shadow_caster(True, 2048, 2048)
self.render.set_shader_auto()
# shadows
# self.day_light.set_shadow_caster(True, 2048, 2048)
# self.render.set_shader_auto()
# uppdate
self.task_mgr.add(self.update)
def __init__(self, framework, *args, **kwargs):
self.bullets = []
self.environment = {}
self.colliders = {}
self.task_manager = []
self.bullet_colliders = []
self.remove_bullet_indices = []
super().__init__(*args, **kwargs)
self.f = framework
self.controller = Controller(self.f.accept, self)
self.f.set_background_color(0.2, 0.2, 0.2, 0.6)
if settings.ALLOW_FILTERS:
self.filter = CommonFilters(self.f.win, self.f.cam)
self.filter.set_bloom(mintrigger=0.99, size="small")
# self.filter.set_blur_sharpen(amount=0.99)
self.base_node = NodePath("base")
self.base_node.reparent_to(self.f.render)
# floor
self.plane = self.create_model(settings.egg / "plane",
self.base_node,
"ground-zero",
color=(1, 1, 1, 1))
self.create_model(settings.egg / "house_01",
self.base_node,
"house-01",
position=(20, 50, 0),
scale=1.5)
self.create_model(settings.egg / "house_02",
self.base_node,
"house-02",
position=(-50, 10, 0),
scale=1.5)
self.sun_light_model = self.create_model("models/misc/sphere",
self.base_node,
"sun",
position=(0, -150, 250),
scale=5.0,
color=(1, 1, 1, 1),
_store=False)
tank = self.create_model(settings.egg / "tank",
self.base_node,
"player",
scale=3.0,
position=(0.0, 0.0, 1e-3))
gun = self.create_model("models/misc/sphere",
tank,
"player-gun",
position=(0.0, 4.5, 1.755),
scale=0.1,
_store=False)
self.tank = Tank(tank, gun, framework=self.f)
self._tank = self.tank.tank
enemy = self.create_model(settings.egg / "enemy",
self.base_node,
"enemy",
scale=0.8,
position=(-80.0, 80.0, 1e-3))
self.enemy = EnemyTank(enemy, None, framework=self.f)
# point light for shadows
sun_light = PointLight("sun-light")
sun_light.set_color((0.4, 0.4, 0.4, 1))
self.sun_light_node = self.base_node.attach_new_node(sun_light)
self.sun_light_node.reparent_to(self.sun_light_model)
self.redistribute_light(self.sun_light_node)
self.plane.set_light(self.sun_light_node)
# daylight
if settings.ALLOW_DAYLIGHT:
day_light = DirectionalLight("day-light")
day_light.set_color((1, 1, 1, 1))
self.daylight_node = self.f.render.attach_new_node(day_light)
self.daylight_node.set_p(-20)
self.daylight_node.set_h(10)
self.daylight_node.reparent_to(self.sun_light_model)
self.redistribute_light(self.daylight_node)
# shadows
if settings.ALLOW_SHADOWS:
sun_light.set_shadow_caster(True, 2048, 2048)
self.f.render.set_shader_auto()
# 3rd person camera lock
if settings.TRD_PERSON_CAM:
self.f.camera.reparent_to(self.tank.tank)
self.f.cam.set_pos(0, -25, 10)
self.f.cam.lookAt(self.tank.tank)
self.f.cam.setP(self.f.camera.getP() - 20)
if settings.ALLOW_AMBIENT:
amblight = AmbientLight("ambient-light")
amblight.set_color((0.2, 0.2, 0.2, 1))
self.amblight_node = self.f.render.attach_new_node(amblight)
self.redistribute_light(self.amblight_node)
# colliders
tank_collider = self.environment["player"].attachNewNode(
CollisionNode('player-collider'))
tank_collider.node().addSolid(
CollisionBox(Point3(-1.5, -3, 0), Point3(1.5, 3, 2.25)))
self.colliders['player-collider'] = tank_collider
enemy_collider = self.environment["enemy"].attachNewNode(
CollisionNode('enemy-collider'))
enemy_collider.node().addSolid(
CollisionBox(Point3(-6.5, -13.5, 0), Point3(6.5, 13, 10)))
self.colliders['enemy-collider'] = enemy_collider
house_01_collider = self.environment["house-01"].attachNewNode(
CollisionNode('house-01-collider'))
house_01_collider.node().addSolid(
CollisionBox(Point3(0, 2, 0), Point3(14.5, 16, 17)))
self.colliders['house-01'] = house_01_collider
house_02_collider = self.environment["house-02"].attachNewNode(
CollisionNode('house-02-collider'))
house_02_collider.node().addSolid(
CollisionBox(Point3(0, 0, 0), Point3(21, 27, 37)))
self.colliders['house-02'] = house_02_collider
floor_collider = self.environment["ground-zero"].attachNewNode(
CollisionNode('ground-zero-collider'))
floor_collider.node().addSolid(
CollisionPlane(Plane(Vec3(0, 0, 1), Point3(0, 0, 0))))
self.colliders['ground-zero-collider'] = floor_collider
self.f.pusher.addCollider(tank_collider, self.environment["player"])
self.f.cTrav.addCollider(tank_collider, self.f.pusher)
# show.hide all colliders
if settings.SHOW_COLLIDERS:
for key, value in self.colliders.items():
logger.info(f"collider for {key} is visible")
value.show()
self.f.cTrav.showCollisions(self.f.render)
# uppdate
self.f.cHandler.addInPattern('%fn')
self.f.accept('bullet-collider', self.handle_collision)
self.task_manager.append(self.f.task_mgr.add(self.update))
self.task_manager.append(self.f.task_mgr.add(self.update_bullets))
class TheGameWindow(ShowBase):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.set_background_color(0, 0, 0, 0.6)
# disables the default mouse camera control
# self.disable_mouse()
self.cam.set_pos(0, -100, 0)
self.sphere = self.loader.loadModel("models/misc/sphere")
self.sphere.reparent_to(self.render)
self.sphere.set_pos(10, 10, 10)
self.sphere.set_scale(0.2)
self.empty = NodePath("empty")
self.empty.reparent_to(self.render)
self.plight = PointLight("pl")
self.plight.set_color((1, 1, 1, 1))
self.plight.set_color((1, 1, 1, 1))
self.plight.set_attenuation((1, 0, 0))
self.plnp = self.render.attach_new_node(self.plight)
self.render.set_light(self.plnp)
self.plnp.reparent_to(self.sphere)
self.bc304 = self.loader.loadModel(str(settings.egg / "bc304.egg"))
# left-rigth, far-from-camera, vertical-movement
# x, y, z
self.bc304.set_pos(0, 0, 0)
self.bc304.set_scale(0.1)
self.bc304.reparent_to(self.render)
# heading, pitch,, roll
self.bc304.set_hpr(280, 10, 0)
self.x, self.y, self.z = 0.0, 0.0, 0.0
self.h, self.p = 0.0, 0.0
self.task_mgr.add(self.update)
# self.accept("mouse1", self.to_pegasus)
self.accept("mouse1-up", self.to_pegasus)
# self.accept("mouse2", self.to_pegasus)
self.accept("mouse2-up", self.to_pegasus)
# self.accept("mouse3", self.to_pegasus)
self.accept("mouse3-up", self.to_pegasus)
self.accept("arrow_left", update_key_map, ["left", True])
self.accept("arrow_left-up", update_key_map, ["left", False])
self.accept("arrow_right", update_key_map, ["right", True])
self.accept("arrow_right-up", update_key_map, ["right", False])
self.accept("arrow_up", update_key_map, ["up", True])
self.accept("arrow_up-up", update_key_map, ["up", False])
self.accept("arrow_down", update_key_map, ["down", True])
self.accept("arrow_down-up", update_key_map, ["down", False])
self.accept("space", update_key_map, ["space", True])
self.accept("space-up", update_key_map, ["space", False])
self.accept("w", update_key_map, ["w", True])
self.accept("w-up", update_key_map, ["w", False])
self.accept("s", update_key_map, ["s", True])
self.accept("s-up", update_key_map, ["s", False])
self.accept("a", update_key_map, ["a", True])
self.accept("a-up", update_key_map, ["a", False])
self.accept("d", update_key_map, ["d", True])
self.accept("d-up", update_key_map, ["d", False])
def to_pegasus(self):
# mouse_pos = self.mouseWatcherNode.getMouse()
# mouse_pos_3d = (mouse_pos[0], 0, mouse_pos[1])
# mouse_pos_button = self.button.getRelativePoint(render, mouse_pos_3d)
# print(mouse_pos_3d)
# pointer = self.win.get_pointer(0)
# self.z = -(pointer.get_y() - (720 / 2)) / 10
# print(self.z)
# self.bc304.set_pos(pointer.get_x(), 0, self.z)
pass
def update(self, task: Task):
dt = globalClock.getDt()
if KEY_MAP["up"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.z += 2.0 * dt
if KEY_MAP["down"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.z -= 2.0 * dt
if KEY_MAP["right"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.x += 2.0 * dt
if KEY_MAP["left"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.x -= 2.0 * dt
if KEY_MAP["w"]:
pos = self.sphere.get_pos()
pos.z += 3 * dt
self.sphere.set_pos(pos)
if KEY_MAP["s"]:
pos = self.sphere.get_pos()
pos.z -= 3 * dt
self.sphere.set_pos(pos)
if KEY_MAP["a"]:
pos = self.sphere.get_pos()
pos.x -= 3 * dt
self.sphere.set_pos(pos)
if KEY_MAP["d"]:
pos = self.sphere.get_pos()
pos.x += 3 * dt
self.sphere.set_pos(pos)
# self.z -= 0.5 * dt
# self.bc304.set_hpr(self.h, self.p, 0)
# self.h += 0.1
# self.p += 0.1
return task.cont
def __init__(self,
cad_file=None,
output_size=(512, 512),
light_on=True,
cast_shadow=True):
# acquire lock since showbase cannot be created twice
Panda3DRenderer.__lock.acquire()
# set output size and init the base
loadPrcFileData('', f'win-size {output_size[0]} {output_size[1]}')
base = ShowBase(windowType='offscreen')
# coordinate for normalized and centered object
obj_node = base.render.attach_new_node('normalized_obj')
# ambient
alight = AmbientLight('alight')
alight.set_color(VBase4(0.5, 0.5, 0.5, 1.0))
alnp = base.render.attachNewNode(alight)
base.render.setLight(alnp)
# directional light for ambient
dlight1 = DirectionalLight('dlight1')
dlight1.set_color(VBase4(0.235, 0.235, 0.235, 1.0))
dlnp1 = base.render.attach_new_node(dlight1)
dlnp1.set_pos(-2, 3, 1)
dlnp1.look_at(obj_node)
base.render.set_light(dlnp1)
# point light for ambient
plight1 = PointLight('plight1')
plight1.set_color(VBase4(1.75, 1.75, 1.75, 1.0))
plight1.setAttenuation((1, 1, 1))
plnp1 = base.render.attach_new_node(plight1)
plnp1.set_pos(0, 0, 3)
plnp1.look_at(obj_node)
base.render.set_light(plnp1)
plight2 = PointLight('plight2')
plight2.set_color(VBase4(1.5, 1.5, 1.5, 1.0))
plight2.setAttenuation((1, 0, 1))
plnp2 = base.render.attach_new_node(plight2)
plnp2.set_pos(0, -3, 0)
plnp2.look_at(obj_node)
base.render.set_light(plnp2)
dlight2 = DirectionalLight('dlight2')
dlight2.set_color(VBase4(0.325, 0.325, 0.325, 1.0))
dlnp2 = base.render.attach_new_node(dlight2)
dlnp2.set_pos(-1, 1, -1.65)
dlnp2.look_at(obj_node)
base.render.set_light(dlnp2)
dlight3 = DirectionalLight('dlight3')
dlight3.set_color(VBase4(0.15, 0.15, 0.15, 1.0))
dlnp3 = base.render.attach_new_node(dlight3)
dlnp3.set_pos(-2.5, 2.5, 2.0)
dlnp3.look_at(obj_node)
base.render.set_light(dlnp3)
if cast_shadow:
lens = PerspectiveLens()
dlight3.set_lens(lens)
dlight3.set_shadow_caster(True, 1024, 1024)
dlight4 = DirectionalLight('dlight4')
dlight4.set_color(VBase4(0.17, 0.17, 0.17, 1.0))
dlnp4 = base.render.attach_new_node(dlight4)
dlnp4.set_pos(1.2, -2.0, 2.5)
dlnp4.look_at(obj_node)
base.render.set_light(dlnp4)
if cast_shadow:
lens = PerspectiveLens()
dlight4.set_lens(lens)
dlight4.set_shadow_caster(True, 1024, 1024)
self.direct_node = direct_node = base.render.attach_new_node(
'direct_light')
dlnp2.reparent_to(direct_node)
dlnp3.reparent_to(direct_node)
dlnp4.reparent_to(direct_node)
# auto shader for shadow
if cast_shadow:
base.render.setShaderAuto()
# no culling
base.render.set_two_sided(True)
# anti-alias
base.render.setAntialias(AntialiasAttrib.MMultisample, 8)
# init camera position
self.coverage = 0.5
# the default clear color
self.clear_color = (0.0, 0.0, 0.0, 0.0)
# translate in rendered image
self.obj_translate = (0, 0)
# light rotation
self.light_hpr = (0, 0, 0)
# object rotation
self.obj_hpr = (0, 0, 0)
self.base = base
self.obj = None
self.obj_node = obj_node
self.cast_shadow = cast_shadow
self.camera = base.camera
if cad_file is not None:
self.set_obj(cad_file)
if not light_on:
base.render.set_light_off()
class TheGameWindow(ShowBase):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.speed = 50
self.set_background_color(0, 0, 0, 0.6)
# disables the default mouse camera control
# self.disable_mouse()
self.cam.set_pos(0, -100, 0)
self.floor = self.loader.loadModel(str(settings.egg / "floor.egg"))
self.bc304 = self.loader.loadModel(str(settings.egg / "bc304.egg"))
self.floor.set_color((0.5, 0.5, 0.5, 1))
self.floor.reparent_to(self.render)
self.sphere = self.loader.loadModel("models/misc/sphere")
self.sphere.reparent_to(self.render)
self.sphere.set_pos(10, 10, 10)
self.sphere.set_scale(2.0)
self.amblight = AmbientLight("ambl")
self.amblight.set_color((0.1, 0.1, 0.1, 1))
self.ambnp = self.render.attach_new_node(self.amblight)
self.plight = PointLight("pl")
self.plight.set_shadow_caster(True, 2048, 2048)
self.render.set_shader_auto()
self.plight.set_color((1, 1, 1, 1))
self.plight.set_attenuation((1, 0, 0))
self.plnp = self.sphere.attach_new_node(self.plight)
self.bc304.set_light(self.plnp)
self.floor.set_light(self.plnp)
self.bc304.set_light(self.ambnp)
self.floor.set_light(self.ambnp)
self.filter = CommonFilters(self.win, self.cam)
self.filter.set_bloom(mintrigger=0.9, size="large")
# left-rigth, far-from-camera, vertical-movement
# x, y, z
self.bc304.set_pos(0, 0, 50)
self.bc304.set_scale(0.1)
self.bc304.reparent_to(self.render)
# heading, pitch,, roll
self.bc304.set_hpr(280, 10, 0)
self.x, self.y, self.z = 0.0, 0.0, 0.0
self.h, self.p = 0.0, 0.0
self.task_mgr.add(self.update)
# self.accept("mouse1", self.to_pegasus)
self.accept("mouse1-up", self.to_pegasus)
# self.accept("mouse2", self.to_pegasus)
self.accept("mouse2-up", self.to_pegasus)
# self.accept("mouse3", self.to_pegasus)
self.accept("mouse3-up", self.to_pegasus)
self.accept("arrow_left", update_key_map, ["left", True])
self.accept("arrow_left-up", update_key_map, ["left", False])
self.accept("arrow_right", update_key_map, ["right", True])
self.accept("arrow_right-up", update_key_map, ["right", False])
self.accept("arrow_up", update_key_map, ["up", True])
self.accept("arrow_up-up", update_key_map, ["up", False])
self.accept("arrow_down", update_key_map, ["down", True])
self.accept("arrow_down-up", update_key_map, ["down", False])
self.accept("space", update_key_map, ["space", True])
self.accept("space-up", update_key_map, ["space", False])
self.accept("w", update_key_map, ["w", True])
self.accept("w-up", update_key_map, ["w", False])
self.accept("s", update_key_map, ["s", True])
self.accept("s-up", update_key_map, ["s", False])
self.accept("a", update_key_map, ["a", True])
self.accept("a-up", update_key_map, ["a", False])
self.accept("d", update_key_map, ["d", True])
self.accept("d-up", update_key_map, ["d", False])
self.accept("e", update_key_map, ["e", True])
self.accept("e-up", update_key_map, ["e", False])
self.accept("q", update_key_map, ["q", True])
self.accept("q-up", update_key_map, ["q", False])
def to_pegasus(self):
# mouse_pos = self.mouseWatcherNode.getMouse()
# mouse_pos_3d = (mouse_pos[0], 0, mouse_pos[1])
# mouse_pos_button = self.button.getRelativePoint(render, mouse_pos_3d)
# print(mouse_pos_3d)
# pointer = self.win.get_pointer(0)
# self.z = -(pointer.get_y() - (720 / 2)) / 10
# print(self.z)
# self.bc304.set_pos(pointer.get_x(), 0, self.z)
pass
def update(self, task: Task):
dt, ft = globalClock.getDt(), globalClock.getFrameTime()
if KEY_MAP["up"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.z += self.speed * dt
if KEY_MAP["down"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.z -= self.speed * dt
if KEY_MAP["right"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.x += self.speed * dt
if KEY_MAP["left"]:
self.bc304.set_pos(self.x, self.y, self.z)
self.x -= self.speed * dt
if KEY_MAP["e"]:
pos = self.sphere.get_pos()
pos.z += self.speed * dt
self.sphere.set_pos(pos)
if KEY_MAP["q"]:
pos = self.sphere.get_pos()
pos.z -= self.speed * dt
self.sphere.set_pos(pos)
if KEY_MAP["a"]:
pos = self.sphere.get_pos()
pos.x -= self.speed * dt
self.sphere.set_pos(pos)
if KEY_MAP["d"]:
pos = self.sphere.get_pos()
pos.x += self.speed * dt
self.sphere.set_pos(pos)
if KEY_MAP["w"]:
pos = self.sphere.get_pos()
pos.y += self.speed * dt
self.sphere.set_pos(pos)
if KEY_MAP["s"]:
pos = self.sphere.get_pos()
pos.y -= self.speed * dt
self.sphere.set_pos(pos)
# self.sphere.set_pos(float(np.cos(ft) * 4), float(np.sin(ft) * 4), float(np.sin(ft) * 10))
# self.z -= 0.5 * dt
# self.bc304.set_hpr(self.h, self.p, 0)
# self.h += 0.1
# self.p += 0.1
return task.cont
