def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Ground
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
body = BulletRigidBodyNode('Ground')
bodyNP = self.worldNP.attachNewNode(body)
bodyNP.node().addShape(shape)
bodyNP.setPos(0, 0, -1)
bodyNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(bodyNP.node())
# Some boxes
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
for i in range(10):
for j in range(10):
x = i - 5.0
y = 0.0
z = j - 0.5
body = BulletRigidBodyNode('Box-%i-%i' % (i, j))
bodyNP = self.worldNP.attachNewNode(body)
bodyNP.node().addShape(shape)
bodyNP.node().setMass(1.0)
bodyNP.node().setDeactivationEnabled(False)
bodyNP.setPos(x, y, z)
bodyNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(bodyNP.node())
visNP = loader.loadModel('models/box.egg')
visNP.clearModelNodes()
visNP.reparentTo(bodyNP)
def __init__(self):
ShowBase.__init__(self)
self.taskMgr.add(self.spinCameraTask, "SpinCameraTask")
self.plight = PointLight('plight')
self.pnlp = self.camera.attachNewNode(self.plight)
render.setLight(self.pnlp)
self.debugNode = BulletDebugNode('Debug')
self.debugNode.showWireframe(True)
self.debugNode.showConstraints(True)
self.debugNode.showBoundingBoxes(False)
self.debugNode.showNormals(False)
self.debugNP = render.attachNewNode(self.debugNode)
self.debugNP.show()
self.world = BulletWorld()
self.world.setDebugNode(self.debugNode)
self.planet = Planet()
self.planet.perlin_terrain(5, 0.5)
self.planet.build_node_path(render, self.world)
shape = BulletCapsuleShape(0.25, 0.5)
node = BulletRigidBodyNode('Capsule')
node.addShape(shape)
np = render.attachNewNode(node)
np.setPos(Vec3(0, 0.8, 0.8) * self.planet.get_radius())
new_up_vector = Vec3(np.getPos() -
self.planet.get_node_path().getPos())
old_up_vector = Vec3(0, 0, 1)
q = self.__quatFromTo(old_up_vector, new_up_vector)
np.setQuat(q)
self.np01 = np
self.world.attachRigidBody(node)
#node.applyCentralImpulse(Vec3(0.4, 0.6, 1.0))
self.taskMgr.add(self.physicsUpdateTask, "PhysicsUpdateTask")
self.accept('arrow_up', self.test01, ["shalala"])
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# CHÃO
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
body = BulletRigidBodyNode('Ground')
bodyNP = self.worldNP.attachNewNode(body)
bodyNP.node().addShape(shape)
bodyNP.setPos(0, 0, -1)
bodyNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(bodyNP.node())
self.criaPopulacao()
def setupPhysics(self, **kwargs):
self.debugNP = kwargs['world'].attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.debugNP.node().showNormals(True)
mesh = BulletTriangleMesh()
geomlist = self.model.findAllMatches('**/+GeomNode')
geom = geomlist[0].node().getGeom(0)
mesh.addGeom(geom)
shape = BulletPlaneShape(Vec3(0, 0, 0), 0)
node = BulletRigidBodyNode('arena')
node.addShape(shape)
triangle = BulletTriangleMeshShape(mesh, dynamic=False)
node1 = BulletRigidBodyNode('wall')
node1.addShape(triangle)
self.wallNp = kwargs['world'].attachNewNode(node1)
self.mainNp = kwargs['world'].attachNewNode(node)
self.mainNp.setCollideMask(kwargs['mask'])
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Plane
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
self.vehicles = dict()
def setup(self):
self.worldNP = render.attach_new_node('World')
# World
self.debugNP = self.worldNP.attach_new_node(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.set_gravity(LVector3(0, 0, -9.81))
self.world.set_debug_node(self.debugNP.node())
self.world.set_filter_callback(PythonCallbackObject(self.filter))
# Ground
shape = BulletPlaneShape(LVector3(0, 0, 1), -1)
np = self.worldNP.attach_new_node(BulletRigidBodyNode('Ground'))
np.node().add_shape(shape)
np.set_pos(0, 0, -1)
np.set_python_tag('foo', 2)
self.world.attach(np.node())
# Box 1
shape = BulletBoxShape(LVector3(0.5, 0.5, 0.5))
np = self.worldNP.attach_new_node(BulletRigidBodyNode('Box-1'))
np.node().set_mass(1.0)
np.node().add_shape(shape)
np.set_pos(3, 0, 4)
np.set_python_tag('foo', 0)
self.world.attach(np.node())
self.boxNP = np
# Box 2
shape = BulletBoxShape(LVector3(0.5, 0.5, 0.5))
np = self.worldNP.attach_new_node(BulletRigidBodyNode('Box-2'))
np.node().set_mass(1.0)
np.node().add_shape(shape)
np.set_pos(-3, 0, 4)
np.set_python_tag('foo', -1)
self.world.attach(np.node())
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
self.world.setPythonFilterCallback(self.filter)
# Ground
shape = BulletPlaneShape(Vec3(0, 0, 1), -1)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setPythonTag('foo', 2)
self.world.attachRigidBody(np.node())
# Box 1
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-1'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(3, 0, 4)
np.setPythonTag('foo', 0)
self.world.attachRigidBody(np.node())
self.boxNP = np
# Box 2
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-2'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(-3, 0, 4)
np.setPythonTag('foo', -1)
self.world.attachRigidBody(np.node())
def invoke(scene, data, action):
if action == 'LOAD':
scene.phys_world = BulletWorld()
scene.phys_world.setGravity(Vec3(0, 0, -data['phys_gravity']))
if 'bullet_debug' in scene.flags and scene.flags['bullet_debug']:
# --- debug ---
debugNode = BulletDebugNode('PhysDebug')
debugNode.showWireframe(True)
debugNode.showConstraints(True)
debugNode.showBoundingBoxes(False)
debugNode.showNormals(False)
debugNP = render.attachNewNode(debugNode)
debugNP.show()
scene.phys_world.setDebugNode(debugNode)
# --- debug end ---
#taskMgr.add(update, 'physics-update', extraArgs=[scene, data['phys_step_sub'], 1.0/data['phys_fps']])
taskMgr.doMethodLater(
2,
update,
'physics-update',
extraArgs=[scene, data['phys_step_sub'], 1.0 / data['phys_fps']])
def initBullet(self):
"""Initializes the Bullet physics engine, also adds the updatePhysicsTask to the task manager."""
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, 0))
# add ground
node = BulletRigidBodyNode("Ground") # derived from PandaNode
node.addShape(BulletPlaneShape(Vec3(0, 0, 1), 0))
np = self.render.attachNewNode(node)
np.setPos(0, 0, 0)
self.world.attachRigidBody(node)
# add debug node
debugNode = BulletDebugNode("Debug")
debugNode.showWireframe(False)
debugNode.showConstraints(True)
debugNode.showBoundingBoxes(False)
debugNode.showNormals(True)
debugNP = self.render.attachNewNode(debugNode)
debugNP.show()
self.world.setDebugNode(debugNP.node())
self.taskMgr.add(self.updatePhysicsTask, "UpdatePhysics")
def __init__(self, xml):
globalClock.setMaxDt(0.1)
#init pre and post callbacks
self.prePhysics = {}
self.postPhysics = {}
#bullet debug node
debugNode = BulletDebugNode('Debug')
debugNode.showWireframe(True)
debugNode.showConstraints(True)
debugNode.showBoundingBoxes(False)
debugNode.showNormals(True)
debugNP = render.attachNewNode(debugNode)
debugNP.show()
#create bullet world
self.bulletworld = BulletWorld()
self.bulletworld.setDebugNode(debugNP.node())
self.bulletworld.setGravity(Vec3(0, 0, 0))
#start doing physics
self.physicsTask = taskMgr.add(self.simulationTask,
'Physics Loop',
sort=100)
def setup(self):
# Bullet physics world
self.worldNP = render.attach_new_node('World')
self.debugNP = self.worldNP.attach_new_node(BulletDebugNode('Debug'))
self.world = BulletWorld()
self.world.set_gravity(LVector3(0, 0, -9.81))
self.world.set_debug_node(self.debugNP.node())
# Vehicle
# Steering info
self.steering = 0.0 # degrees
self.steering_clamp = 45.0 # degrees
self.steering_increment = 120.0 # degrees per second
# How fast steering relaxes to straight ahead
self.steering_relax_factor = 2.0
# How much steering intensity decreases with higher speeds
self.steering_speed_reduction_factor = 0.003
# Chassis collision box (note: Bullet uses half-measures)
shape = BulletBoxShape(LVector3(0.6, 1.4, 0.5))
ts = TransformState.make_pos(LPoint3(0, 0, 0.5))
self.vehicleNP = self.worldNP.attach_new_node(
BulletRigidBodyNode('Vehicle'))
self.vehicleNP.node().add_shape(shape, ts)
# Set initial position
self.vehicleNP.set_pos(0, 70, -10)
self.vehicleNP.node().set_mass(800.0)
self.vehicleNP.node().set_deactivation_enabled(False)
self.world.attach(self.vehicleNP.node())
# Camera floater
self.attach_camera_floater()
# BulletVehicle
self.vehicle = BulletVehicle(self.world, self.vehicleNP.node())
self.world.attach(self.vehicle)
# Vehicle model
self.yugoNP = loader.load_model('models/yugo/yugo.egg')
self.yugoNP.reparent_to(self.vehicleNP)
# Right front wheel
np = loader.load_model('models/yugo/yugotireR.egg')
np.reparent_to(self.worldNP)
self.add_wheel(LPoint3( 0.70, 1.05, 0.3), True, np)
# Left front wheel
np = loader.load_model('models/yugo/yugotireL.egg')
np.reparent_to(self.worldNP)
self.add_wheel(LPoint3(-0.70, 1.05, 0.3), True, np)
# Right rear wheel
np = loader.load_model('models/yugo/yugotireR.egg')
np.reparent_to(self.worldNP)
self.add_wheel(LPoint3( 0.70, -1.05, 0.3), False, np)
# Left rear wheel
np = loader.load_model('models/yugo/yugotireL.egg')
np.reparent_to(self.worldNP)
self.add_wheel(LPoint3(-0.70, -1.05, 0.3), False, np)
# Load a skybox
self.skybox = self.loader.load_model(
"samples/shader-terrain/models/skybox.bam")
self.skybox.reparent_to(self.render)
self.skybox.set_scale(20000)
skybox_texture = self.loader.load_texture(
"samples/shader-terrain/textures/skybox.jpg")
skybox_texture.set_minfilter(SamplerState.FT_linear)
skybox_texture.set_magfilter(SamplerState.FT_linear)
skybox_texture.set_wrap_u(SamplerState.WM_repeat)
skybox_texture.set_wrap_v(SamplerState.WM_mirror)
skybox_texture.set_anisotropic_degree(16)
self.skybox.set_texture(skybox_texture)
skybox_shader = Shader.load(Shader.SL_GLSL,
"samples/shader-terrain/skybox.vert.glsl",
"samples/shader-terrain/skybox.frag.glsl")
self.skybox.set_shader(skybox_shader)
# Terrain
self.setup_terrain()
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.debugNP.node().showWireframe(True)
self.debugNP.node().showConstraints(True)
self.debugNP.node().showBoundingBoxes(False)
self.debugNP.node().showNormals(False)
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Ground
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
body = BulletRigidBodyNode('Ground')
bodyNP = self.worldNP.attachNewNode(body)
bodyNP.node().addShape(shape)
bodyNP.setPos(0, 0, 0)
bodyNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(bodyNP.node())
# Bowl
visNP = loader.loadModel('models/bowl.egg')
geom = visNP.findAllMatches('**/+GeomNode').getPath(0).node().getGeom(
0)
mesh = BulletTriangleMesh()
mesh.addGeom(geom)
shape = BulletTriangleMeshShape(mesh, dynamic=True)
body = BulletRigidBodyNode('Bowl')
bodyNP = self.worldNP.attachNewNode(body)
bodyNP.node().addShape(shape)
bodyNP.node().setMass(10.0)
bodyNP.setPos(0, 0, 0)
bodyNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(bodyNP.node())
visNP.reparentTo(bodyNP)
self.bowlNP = bodyNP
self.bowlNP.setScale(2)
# Eggs
self.eggNPs = []
for i in range(5):
x = random.gauss(0, 0.1)
y = random.gauss(0, 0.1)
z = random.gauss(0, 0.1) + 1
h = random.random() * 360
p = random.random() * 360
r = random.random() * 360
visNP = loader.loadModel('models/egg.egg')
geom = visNP.findAllMatches('**/+GeomNode').getPath(
0).node().getGeom(0)
shape = BulletConvexHullShape()
shape.addGeom(geom)
body = BulletRigidBodyNode('Egg-%i' % i)
bodyNP = self.worldNP.attachNewNode(body)
bodyNP.node().setMass(1.0)
bodyNP.node().addShape(shape)
bodyNP.node().setDeactivationEnabled(False)
bodyNP.setCollideMask(BitMask32.allOn())
bodyNP.setPosHpr(x, y, z, h, p, r)
#bodyNP.setScale(1.5)
self.world.attachRigidBody(bodyNP.node())
visNP.reparentTo(bodyNP)
self.eggNPs.append(bodyNP)
def __init__(self):
GameBase.__init__(self, KEY_LIST)
FSM.__init__(self, 'Game')
self.setBackgroundColor(0,0,0)
self.accept("space", self.toggleFPS)
self.accept("escape", self.taskMgr.stop)
'''
self.shape = BulletPlaneShape(Vec3(0, 0, 1), 1)
self.node = BulletRigidBodyNode('Ground')
self.node.addShape(self.shape)
self.np = self.render.attachNewNode(self.node)
self.np.setPos(0, 0, 0)
self.world.attachRigidBody(self.node)
'''
self.debugNode = BulletDebugNode('Debug')
self.debugNode.showWireframe(True)
self.debugNode.showConstraints(True)
self.debugNode.showBoundingBoxes(True)
self.debugNode.showNormals(True)
self.debugNP = self.render.attachNewNode(self.debugNode)
self.debugNP.show()
self.bulletbox = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
self.bulletboxnode = BulletRigidBodyNode('Box')
self.bulletboxnode.setMass(1.0)
self.bulletboxnode.addShape(self.bulletbox)
self.bulletboxnp = self.render.attachNewNode(self.bulletboxnode)
#self.bulletboxnp = NodePath(self.bulletboxnode)
#self.bulletboxnp.reparentTo(self.render)
self.bulletboxnp.setPos(0, 0, 15)
self.bulletboxnp.setScale(5,3,0.5)
self.world.attachRigidBody(self.bulletboxnode)
self.model = self.loader.loadModel("models/props/crate.egg")
self.model.reparentTo(self.bulletboxnp)
#---------------------------------------------------------------
# Ground (StaticTerrain)
self.ground = StaticTerrain(self, 'models/terrain.jpg', 50)
self.ground.setTexture(self.loader.loadTexture("models/ground.jpg"))
self.sky = SkyBox(self)
self.sky.set("teal1")
self.cursor = MouseCursor(self)
self.cursor.addCursor("cursor2")
self.hideCursor()
self.lightManager = LightManager(self)
self.lightManager.addAmbientLight(Vec4(.5,.5,.5,1))
self.lightManager.addPointLight(Vec4(1.0,1.0,1.0,1.0), Point3(2,-4,5))
self.taskMgr.add(self.update, "update")
print self.getAspectRatio()
self.camHandler = CamHandler(self)
self.accept(K_DRAG, self.camHandler.startDrag)
self.accept(K_DRAG+"-up", self.camHandler.stopDrag)
def setup(self):
self.targetAlt = r.randrange(100,300)
self.Valves = np.array([0.15,0.2,0.15])
self.EngObs = self.vulcain.predict_data_point(np.array(self.Valves).reshape(1,-1))
if self.VISUALIZE is True:
self.worldNP = self.render.attachNewNode('World')
else:
self.root = NodePath(PandaNode("world root"))
self.worldNP = self.root.attachNewNode('World')
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.80665))
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.node().showWireframe(True)
self.debugNP.node().showConstraints(True)
self.debugNP.node().showBoundingBoxes(False)
self.debugNP.node().showNormals(True)
self.debugNP.show()
self.world.setDebugNode(self.debugNP.node())
# self.debugNP.showTightBounds()
# self.debugNP.showBounds()
# Ground (static)
shape = BulletPlaneShape(Vec3(0, 0, 1), 1)
self.groundNP = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
self.groundNP.node().addShape(shape)
self.groundNP.setPos(0, 0, 0)
self.groundNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(self.groundNP.node())
# Rocket
shape = BulletCylinderShape(self.radius, self.length, ZUp)
self.rocketNP = self.worldNP.attachNewNode(BulletRigidBodyNode('Cylinder'))
self.rocketNP.node().setMass(27200 * self.scale)
self.rocketNP.node().addShape(shape)
#self.rocketNP.setPos(20,20,250)
self.rocketNP.setPos(20, 20, r.randrange(100, 300)+200)
#self.rocketNP.setPos(r.randrange(-self.lateralError, self.lateralError, 1), r.randrange(-self.lateralError, self.lateralError, 1), self.height)
# self.rocketNP.setPos(0, 0, self.length*10)
self.rocketNP.setCollideMask(BitMask32.allOn())
# self.rocketNP.node().setCollisionResponse(0)
self.rocketNP.node().notifyCollisions(True)
self.world.attachRigidBody(self.rocketNP.node())
for i in range(4):
leg = BulletCylinderShape(0.1 * self.radius, 0.5 * self.length, XUp)
self.rocketNP.node().addShape(leg, TransformState.makePosHpr(
Vec3(6 * self.radius * math.cos(i * math.pi / 2), 6 * self.radius * math.sin(i * math.pi / 2),
-0.6 * self.length), Vec3(i * 90, 0, 30)))
shape = BulletConeShape(0.75 * self.radius, 0.5 * self.radius, ZUp)
self.rocketNP.node().addShape(shape, TransformState.makePosHpr(Vec3(0, 0, -1 / 2 * self.length), Vec3(0, 0, 0)))
# Fuel
self.fuelRadius = 0.9 * self.radius
shape = BulletCylinderShape(self.fuelRadius, 0.01 * self.length, ZUp)
self.fuelNP = self.worldNP.attachNewNode(BulletRigidBodyNode('Cone'))
self.fuelNP.node().setMass(self.fuelMass_full * self.fuelMass_init)
self.fuelNP.node().addShape(shape)
self.fuelNP.setPos(0, 0, self.rocketNP.getPos().getZ() - self.length * 0.5 * (1 - self.fuelMass_init))
self.fuelNP.setCollideMask(BitMask32.allOn())
self.fuelNP.node().setCollisionResponse(0)
self.world.attachRigidBody(self.fuelNP.node())
frameA = TransformState.makePosHpr(Point3(0, 0, 0), Vec3(0, 0, 90))
frameB = TransformState.makePosHpr(Point3(0, 0, 0), Vec3(0, 0, 90))
self.fuelSlider = BulletSliderConstraint(self.rocketNP.node(), self.fuelNP.node(), frameA, frameB, 1)
self.fuelSlider.setTargetLinearMotorVelocity(0)
self.fuelSlider.setDebugDrawSize(2.0)
self.fuelSlider.set_lower_linear_limit(0)
self.fuelSlider.set_upper_linear_limit(0)
self.world.attachConstraint(self.fuelSlider)
self.npThrustForce = LineNodePath(self.rocketNP, 'Thrust', thickness=4, colorVec=Vec4(1, 0.5, 0, 1))
self.npDragForce = LineNodePath(self.rocketNP, 'Drag', thickness=4, colorVec=Vec4(1, 0, 0, 1))
self.npLiftForce = LineNodePath(self.rocketNP, 'Lift', thickness=4, colorVec=Vec4(0, 0, 1, 1))
self.npFuelState = LineNodePath(self.fuelNP, 'Fuel', thickness=20, colorVec=Vec4(0, 1, 0, 1))
self.rocketCSLon = self.radius ** 2 * math.pi
self.rocketCSLat = self.length * 2 * self.radius
if self.VISUALIZE is True:
self.terrain = loader.loadModel("LZGrid2.egg")
self.terrain.setScale(10)
self.terrain.reparentTo(self.render)
self.terrain.setColor(Vec4(0.1, 0.2, 0.1, 1))
self.toggleTexture()
#self.fuelNP.setPos(0, 0, self.rocketNP.getPos().getZ() - self.length * 0.4 * (1 - self.fuelMass_init))
for i in range(5):
self.world.doPhysics(self.dt, 5, 1.0 / 180.0)
self.fuelSlider.set_lower_linear_limit(-self.length * 0.5 * (1 - self.fuelMass_init))
self.fuelSlider.set_upper_linear_limit(self.length * 0.5 * (1 - self.fuelMass_init))
for i in range(100):
self.world.doPhysics(self.dt, 5, 1.0 / 180.0)
self.rocketNP.node().applyForce(Vec3(0,0,300000), Vec3(0, 0, 0))
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Plane
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
np = self.ground = self.worldNP.attachNewNode(
BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# collision
self.maze = []
for pos in [(0.0, 72.0, 0.0), (-11.0, 60.0, 0.0), (11.0, 60.0, 0.0),
(-11.0, 48.0, 0.0), (11.0, 48.0, 0.0), (-11.0, 36.0, 0.0),
(11.0, 36.0, 0.0), (-11.0, 24.0, 0.0), (11.0, 24.0, 0.0),
(-11.0, 12.0, 0.0), (11.0, 12.0, 0.0), (-11.0, 0.0, 0.0),
(11.0, 0.0, 0.0), (0.0, -12.0, 0.0), (0.5, 12.0, 1.0),
(-0.5, 12.0, 1.0)]:
translate = False
if (abs(pos[0]) == 0.5):
translate = True
visNP = loader.loadModel('../models/ball.egg')
else:
visNP = loader.loadModel('../models/maze.egg')
visNP.clearModelNodes()
visNP.reparentTo(self.ground)
visNP.setPos(pos[0], pos[1], pos[2])
bodyNPs = BulletHelper.fromCollisionSolids(visNP, True)
for bodyNP in bodyNPs:
bodyNP.reparentTo(render)
if translate:
bodyNP.setPos(pos[0], pos[1], pos[2] - 1)
else:
bodyNP.setPos(pos[0], pos[1], pos[2])
if isinstance(bodyNP.node(), BulletRigidBodyNode):
bodyNP.node().setMass(0.0)
bodyNP.node().setKinematic(True)
self.maze.append(bodyNP)
for bodyNP in self.maze:
self.world.attachRigidBody(bodyNP.node())
# Chassis
mass = rospy.get_param('~mass')
#chassis_shape = rospy.get_param('~chassis_shape')
shape = BulletBoxShape(Vec3(0.6, 1.4, 0.5))
ts = TransformState.makePos(Point3(0, 0, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Vehicle'))
np.node().addShape(shape, ts)
rand_vals = numpy.random.random(2) * 8 - 4.0
np.setPos(rand_vals[0], 0.0, -0.6)
np.node().setMass(mass)
np.node().setDeactivationEnabled(False)
first_person = rospy.get_param('~first_person')
self.camera_sensor = Panda3dCameraSensor(base,
color=True,
depth=True,
size=(160, 90))
self.camera_node = self.camera_sensor.cam
if first_person:
self.camera_node.reparentTo(np)
self.camera_node.setPos(0.0, 1.0, 1.0)
self.camera_node.lookAt(0.0, 6.0, 0.0)
else:
self.camera_node.reparentTo(np)
self.camera_node.setPos(0.0, -10.0, 5.0)
self.camera_node.lookAt(0.0, 5.0, 0.0)
base.cam.reparentTo(np)
base.cam.setPos(0.0, -10.0, 5.0)
base.cam.lookAt(0.0, 5.0, 0.0)
self.world.attachRigidBody(np.node())
np.node().setCcdSweptSphereRadius(1.0)
np.node().setCcdMotionThreshold(1e-7)
# Vehicle
self.vehicle_node = np.node()
self.vehicle = BulletVehicle(self.world, np.node())
self.vehicle.setCoordinateSystem(ZUp)
self.world.attachVehicle(self.vehicle)
self.yugoNP = loader.loadModel('../models/yugo/yugo.egg')
self.yugoNP.reparentTo(np)
# Right front wheel
np = loader.loadModel('../models/yugo/yugotireR.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(0.70, 1.05, 0.3), True, np)
# Left front wheel
np = loader.loadModel('../models/yugo/yugotireL.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(-0.70, 1.05, 0.3), True, np)
# Right rear wheel
np = loader.loadModel('../models/yugo/yugotireR.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(0.70, -1.05, 0.3), False, np)
# Left rear wheel
np = loader.loadModel('../models/yugo/yugotireL.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(-0.70, -1.05, 0.3), False, np)
def __init__(self):
ShowBase.__init__(self)
base.set_background_color(0.1, 0.1, 0.8, 1)
base.set_frame_rate_meter(True)
base.cam.set_pos_hpr(0, 0, 25, 0, -90, 0)
base.disable_mouse()
# Input
self.accept('escape', self.exitGame)
self.accept('f1', base.toggle_wireframe)
self.accept('f2', base.toggle_texture)
self.accept('f3', self.toggle_debug)
self.accept('f5', self.do_screenshot)
# Setup scene 1: World
self.debugNP = render.attach_new_node(BulletDebugNode('Debug'))
self.debugNP.node().show_wireframe(True)
self.debugNP.node().show_constraints(True)
self.debugNP.node().show_bounding_boxes(True)
self.debugNP.node().show_normals(True)
self.debugNP.show()
self.world = BulletWorld()
self.world.set_gravity(LVector3(0, 0, -9.81))
self.world.set_debug_node(self.debugNP.node())
# Setup scene 2: Ball
#visNP = loader.load_model('models/ball.egg')
visNP = loader.load_model('samples/ball-in-maze/models/ball.egg.pz')
visNP.clear_model_nodes()
bodyNPs = BulletHelper.from_collision_solids(visNP, True)
self.ballNP = bodyNPs[0]
self.ballNP.reparent_to(render)
self.ballNP.node().set_mass(1.0)
self.ballNP.set_pos(4, -4, 1)
self.ballNP.node().set_deactivation_enabled(False)
visNP.reparent_to(self.ballNP)
# Setup scene 3: Maze
visNP = loader.load_model('models/maze.egg')
#visNP = loader.load_model('samples/ball-in-maze/models/maze.egg.pz')
visNP.clear_model_nodes()
visNP.reparent_to(render)
self.holes = []
self.maze = []
self.mazeNP = visNP
bodyNPs = BulletHelper.from_collision_solids(visNP, True);
for bodyNP in bodyNPs:
bodyNP.reparent_to(render)
if isinstance(bodyNP.node(), BulletRigidBodyNode):
bodyNP.node().set_mass(0.0)
bodyNP.node().set_kinematic(True)
self.maze.append(bodyNP)
elif isinstance(bodyNP.node(), BulletGhostNode):
self.holes.append(bodyNP)
# Lighting and material for the ball
ambientLight = AmbientLight('ambientLight')
ambientLight.set_color(LVector4(0.55, 0.55, 0.55, 1))
directionalLight = DirectionalLight('directionalLight')
directionalLight.set_direction(LVector3(0, 0, -1))
directionalLight.set_color(LVector4(0.375, 0.375, 0.375, 1))
directionalLight.set_specular_color(LVector4(1, 1, 1, 1))
self.ballNP.set_light(render.attach_new_node(ambientLight))
self.ballNP.set_light(render.attach_new_node(directionalLight))
m = Material()
m.set_specular(LVector4(1,1,1,1))
m.set_shininess(96)
self.ballNP.set_material(m, 1)
# Startup
self.start_game()
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Soft body world information
info = self.world.getWorldInfo()
info.setAirDensity(1.2)
info.setWaterDensity(0)
info.setWaterOffset(0)
info.setWaterNormal(Vec3(0, 0, 0))
# Softbody
def make(p1):
n = 8
p2 = p1 + Vec3(10, 0, 0)
bodyNode = BulletSoftBodyNode.makeRope(info, p1, p2, n, 1)
bodyNode.setTotalMass(50.0)
bodyNP = self.worldNP.attachNewNode(bodyNode)
self.world.attachSoftBody(bodyNode)
# Render option 1: Line geom
#geom = BulletSoftBodyNode.makeGeomFromLinks(bodyNode)
#bodyNode.linkGeom(geom)
#visNode = GeomNode('')
#visNode.addGeom(geom)
#visNP = bodyNP.attachNewNode(visNode)
# Render option 2: NURBS curve
curve = NurbsCurveEvaluator()
curve.reset(n + 2)
bodyNode.linkCurve(curve)
visNode = RopeNode('')
visNode.setCurve(curve)
visNode.setRenderMode(RopeNode.RMTube)
visNode.setUvMode(RopeNode.UVParametric)
visNode.setNumSubdiv(4)
visNode.setNumSlices(8)
visNode.setThickness(0.4)
visNP = self.worldNP.attachNewNode(visNode)
#visNP = bodyNP.attachNewNode(visNode) # --> renders with offset!!!
visNP.setTexture(loader.loadTexture('models/iron.jpg'))
#bodyNP.showBounds()
#visNP.showBounds()
return bodyNP
np1 = make(Point3(-2, -1, 8))
np2 = make(Point3(-2, 1, 8))
# Box
shape = BulletBoxShape(Vec3(2, 2, 6))
boxNP = self.worldNP.attachNewNode(BulletRigidBodyNode('Box'))
boxNP.node().setMass(50.0)
boxNP.node().addShape(shape)
boxNP.setPos(10, 0, 8)
boxNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(boxNP.node())
np1.node().appendAnchor(np1.node().getNumNodes() - 1, boxNP.node())
np2.node().appendAnchor(np1.node().getNumNodes() - 1, boxNP.node())
visNP = loader.loadModel('models/box.egg')
visNP.clearModelNodes()
visNP.setScale(4, 4, 12)
visNP.reparentTo(boxNP)
def __init__(self):
self.bspLoader = Py_CL_BSPLoader()
self.bspLoader.setGlobalPtr(self.bspLoader)
if metadata.USE_RENDER_PIPELINE:
from rpcore import RenderPipeline
self.pipeline = RenderPipeline()
self.pipeline.create(self)
else:
ShowBase.__init__(self)
self.loader.destroy()
self.loader = CogInvasionLoader(self)
__builtin__.loader = self.loader
self.graphicsEngine.setDefaultLoader(self.loader.loader)
self.cam.node().getDisplayRegion(0).setClearDepthActive(1)
from panda3d.core import RenderAttribRegistry
from panda3d.core import ShaderAttrib, TransparencyAttrib
from libpandabsp import BSPMaterialAttrib
attribRegistry = RenderAttribRegistry.getGlobalPtr()
attribRegistry.setSlotSort(BSPMaterialAttrib.getClassSlot(), 0)
attribRegistry.setSlotSort(ShaderAttrib.getClassSlot(), 1)
attribRegistry.setSlotSort(TransparencyAttrib.getClassSlot(), 2)
gsg = self.win.getGsg()
# Let's print out the Graphics information.
self.notify.info(
'Graphics Information:\n\tVendor: {0}\n\tRenderer: {1}\n\tVersion: {2}\n\tSupports Cube Maps: {3}\n\tSupports 3D Textures: {4}\n\tSupports Compute Shaders: {5}'
.format(gsg.getDriverVendor(), gsg.getDriverRenderer(),
gsg.getDriverVersion(), str(gsg.getSupportsCubeMap()),
str(gsg.getSupports3dTexture()),
str(gsg.getSupportsComputeShaders())))
# Enable shader generation on all of the main scenes
if gsg.getSupportsBasicShaders() and gsg.getSupportsGlsl():
render.setShaderAuto()
render2d.setShaderAuto()
render2dp.setShaderAuto()
else:
# I don't know how this could be possible
self.notify.error("GLSL shaders unsupported by graphics driver.")
return
# Let's disable fog on Intel graphics
if gsg.getDriverVendor() == "Intel":
metadata.NO_FOG = 1
self.notify.info('Applied Intel-specific graphical fix.')
self.win.disableClears()
self.camNode.setCameraMask(CIGlobals.MainCameraBitmask)
from direct.distributed.ClockDelta import globalClockDelta
__builtin__.globalClockDelta = globalClockDelta
# Any ComputeNodes should be parented to this node, not render.
# We isolate ComputeNodes to avoid traversing the same ComputeNodes
# when doing multi-pass rendering.
self.computeRoot = NodePath('computeRoot')
self.computeCam = self.makeCamera(base.win)
self.computeCam.node().setCullBounds(OmniBoundingVolume())
self.computeCam.node().setFinal(True)
self.computeCam.reparentTo(self.computeRoot)
# Initialized in initStuff()
self.shaderGenerator = None
render.hide()
self.camLens.setNearFar(0.5, 10000)
self.physicsWorld = BulletWorld()
# Panda units are in feet, so the gravity is 32 feet per second,
# not 9.8 meters per second.
self.physicsWorld.setGravity(Vec3(0, 0, -32.1740))
self.physicsWorld.setGroupCollisionFlag(7, 1, True)
self.physicsWorld.setGroupCollisionFlag(7, 2, True)
self.physicsWorld.setGroupCollisionFlag(7, 3, False)
self.physicsWorld.setGroupCollisionFlag(7, 4, False)
self.physicsWorld.setGroupCollisionFlag(7, 8, True)
self.taskMgr.add(self.__physicsUpdate, "physicsUpdate", sort=30)
debugNode = BulletDebugNode('Debug')
self.debugNP = render.attachNewNode(debugNode)
self.physicsWorld.setDebugNode(self.debugNP.node())
self.physicsDbgFlag = False
self.setPhysicsDebug(self.config.GetBool('physics-debug', False))
#self.shadowCaster = ShadowCaster(Vec3(163, -67, 0))
#self.shadowCaster.enable()
self.bspLoader.setGamma(2.2)
self.bspLoader.setWin(self.win)
self.bspLoader.setCamera(self.camera)
self.bspLoader.setRender(self.render)
self.bspLoader.setMaterialsFile("phase_14/etc/materials.txt")
#self.bspLoader.setTextureContentsFile("phase_14/etc/texturecontents.txt")
self.bspLoader.setWantVisibility(True)
self.bspLoader.setVisualizeLeafs(False)
self.bspLoader.setWantLightmaps(True)
#self.bspLoader.setShadowCamPos(Point3(-15, 5, 40))
#self.bspLoader.setShadowResolution(60 * 2, 1024 * 1)
self.bspLoader.setPhysicsWorld(self.physicsWorld)
self.bspLevel = None
self.materialData = {}
self.skyBox = None
self.skyBoxUtil = None
#self.nmMgr = RNNavMeshManager.get_global_ptr()
#self.nmMgr.set_root_node_path(self.render)
#self.nmMgr.get_reference_node_path().reparentTo(self.render)
#self.nmMgr.start_default_update()
#self.nmMgr.get_reference_node_path_debug().reparentTo(self.render)
self.navMeshNp = None
# Setup 3d audio run before igLoop so 3d positioning doesn't lag behind
base.audio3d = Audio3DManager(base.sfxManagerList[0], camera, render)
base.audio3d.setDropOffFactor(0.15)
base.audio3d.setDopplerFactor(0.15)
# Setup collision handlers
base.cTrav = CollisionTraverser()
base.lifter = CollisionHandlerFloor()
base.pusher = CollisionHandlerPusher()
base.queue = CollisionHandlerQueue()
base.lightingCfg = None
self.cl_attackMgr = None
#self.accept('/', self.projectShadows)
# Let's setup the user input storage system
uis = UserInputStorage()
self.inputStore = uis
self.userInputStorage = uis
__builtin__.inputStore = uis
__builtin__.userInputStorage = uis
self.credits2d = self.render2d.attachNewNode(PGTop("credits2d"))
self.credits2d.setScale(1.0 / self.getAspectRatio(), 1.0, 1.0)
self.wakeWaterHeight = -30.0
self.bloomToggle = False
self.hdrToggle = False
self.fxaaToggle = CIGlobals.getSettingsMgr().getSetting(
"aa").getValue() == "FXAA"
self.aoToggle = False
self.music = None
self.currSongName = None
render.show(CIGlobals.ShadowCameraBitmask)
self.avatars = []
wrm = WaterReflectionManager()
self.waterReflectionMgr = wrm
__builtin__.waterReflectionMgr = wrm
# Let's setup our margins
base.marginManager = MarginManager()
base.margins = aspect2d.attachNewNode(
base.marginManager, DirectGuiGlobals.MIDGROUND_SORT_INDEX + 1)
base.leftCells = [
base.marginManager.addCell(0.1, -0.6, base.a2dTopLeft),
base.marginManager.addCell(0.1, -1.0, base.a2dTopLeft),
base.marginManager.addCell(0.1, -1.4, base.a2dTopLeft)
]
base.bottomCells = [
base.marginManager.addCell(0.4, 0.1, base.a2dBottomCenter),
base.marginManager.addCell(-0.4, 0.1, base.a2dBottomCenter),
base.marginManager.addCell(-1.0, 0.1, base.a2dBottomCenter),
base.marginManager.addCell(1.0, 0.1, base.a2dBottomCenter)
]
base.rightCells = [
base.marginManager.addCell(-0.1, -0.6, base.a2dTopRight),
base.marginManager.addCell(-0.1, -1.0, base.a2dTopRight),
base.marginManager.addCell(-0.1, -1.4, base.a2dTopRight)
]
base.mouseWatcherNode.setEnterPattern('mouse-enter-%r')
base.mouseWatcherNode.setLeavePattern('mouse-leave-%r')
base.mouseWatcherNode.setButtonDownPattern('button-down-%r')
base.mouseWatcherNode.setButtonUpPattern('button-up-%r')
cbm = CullBinManager.getGlobalPtr()
cbm.addBin('ground', CullBinManager.BTUnsorted, 18)
# The portal uses the shadow bin by default,
# but we still want to see it with real shadows.
cbm.addBin('portal', CullBinManager.BTBackToFront, 19)
if not metadata.USE_REAL_SHADOWS:
cbm.addBin('shadow', CullBinManager.BTBackToFront, 19)
else:
cbm.addBin('shadow', CullBinManager.BTFixed, -100)
cbm.addBin('gui-popup', CullBinManager.BTUnsorted, 60)
cbm.addBin('gsg-popup', CullBinManager.BTFixed, 70)
self.setBackgroundColor(CIGlobals.DefaultBackgroundColor)
self.disableMouse()
self.enableParticles()
base.camLens.setNearFar(CIGlobals.DefaultCameraNear,
CIGlobals.DefaultCameraFar)
base.transitions = CITransitions(loader)
base.transitions.IrisModelName = "phase_3/models/misc/iris.bam"
base.transitions.FadeModelName = "phase_3/models/misc/fade.bam"
self.accept(self.inputStore.TakeScreenshot,
ScreenshotHandler.takeScreenshot)
#self.accept('u', render.setShaderOff)
#self.accept('i', render.setShaderOff, [1])
#self.accept('o', render.setShaderOff, [2])
# Disabled oobe culling
#self.accept('o', self.oobeCull)
#self.accept('c', self.reportCam)
self.taskMgr.add(self.__updateShadersAndPostProcess,
'CIBase.updateShadersAndPostProcess', 47)
self.taskMgr.add(self.__update3DAudio, 'CIBase.update3DAudio', 59)
def setup(self):
self.worldNP = render.attach_new_node('World')
# World
self.debugNP = self.worldNP.attach_new_node(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.set_gravity(LVector3(0, 0, -9.81))
self.world.set_debug_node(self.debugNP.node())
# Ground
p0 = LPoint3(-20, -20, 0)
p1 = LPoint3(-20, 20, 0)
p2 = LPoint3(20, -20, 0)
p3 = LPoint3(20, 20, 0)
mesh = BulletTriangleMesh()
mesh.add_triangle(p0, p1, p2)
mesh.add_triangle(p1, p2, p3)
shape = BulletTriangleMeshShape(mesh, dynamic=False)
np = self.worldNP.attach_new_node(BulletRigidBodyNode('Mesh'))
np.node().add_shape(shape)
np.set_pos(0, 0, -2)
np.set_collide_mask(BitMask32.all_on())
self.world.attach(np.node())
# Soft body world information
info = self.world.get_world_info()
info.set_air_density(1.2)
info.set_water_density(0)
info.set_water_offset(0)
info.set_water_normal(LVector3(0, 0, 0))
# Softbody
def make_SB(pos, hpr):
#use this to construct a torus geom.
#import torus
#geom = torus.make_geom()
geom = (loader.load_model('models/torus.egg').find_all_matches(
'**/+GeomNode').get_path(0).node().modify_geom(0))
geomNode = GeomNode('')
geomNode.add_geom(geom)
node = BulletSoftBodyNode.make_tri_mesh(info, geom)
node.link_geom(geomNode.modify_geom(0))
node.generate_bending_constraints(2)
node.get_cfg().set_positions_solver_iterations(2)
node.get_cfg().set_collision_flag(
BulletSoftBodyConfig.CF_vertex_face_soft_soft, True)
node.randomize_constraints()
node.set_total_mass(50, True)
softNP = self.worldNP.attach_new_node(node)
softNP.set_pos(pos)
softNP.set_hpr(hpr)
self.world.attach(node)
geomNP = softNP.attach_new_node(geomNode)
make_SB(LPoint3(-3, 0, 4), (0, 0, 0))
make_SB(LPoint3(0, 0, 4), (0, 90, 90))
make_SB(LPoint3(3, 0, 4), (0, 0, 0))
# robotplot = nxtplot
# robot.goinitpose()
# robot.movearmfk([0.0,-20.0,-60.0,-70.0,-100.0,-30.0,0.0,0.0,0.0])
# robot.movearmfk([0.0,-20.0,60.0,70.0,-100.0,30.0,0.0,0.0,0.0], armid = 'lft')
# robotmnp = robotmesh.genmnp(robot)
# robotmnp.reparentTo(base.render)
# ur5dualmnp = ur5dualplot.genUr5dualmnp(robot, handpkg)
# ur5dualmnp.reparentTo(base.render)
pg.plotAxisSelf(base.render, Vec3(0,0,0))
cdchecker = CollisionChecker(robotmesh)
print cdchecker.isSelfCollided(robot)
bullcldrnp = base.render.attachNewNode("bulletcollider")
debugNode = BulletDebugNode('Debug')
debugNode.showWireframe(True)
debugNode.showConstraints(True)
debugNode.showBoundingBoxes(False)
debugNode.showNormals(False)
debugNP = bullcldrnp.attachNewNode(debugNode)
debugNP.show()
cdchecker.bulletworld.setDebugNode(debugNP.node())
def updateworld(world, task):
world.doPhysics(globalClock.getDt())
return task.cont
base.taskMgr.add(updateworld, "updateworld", extraArgs=[cdchecker.bulletworld], appendTask=True)
base.run()
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.debugNP.node().showWireframe(True)
self.debugNP.node().showConstraints(True)
self.debugNP.node().showBoundingBoxes(False)
self.debugNP.node().showNormals(True)
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Plane (static)
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Box (dynamic)
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(0, 0, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
self.boxNP = np # For applying force & torque
#np.node().notifyCollisions(True)
#self.accept('bullet-contact-added', self.doAdded)
#self.accept('bullet-contact-destroyed', self.doRemoved)
# Sphere (dynamic)
shape = BulletSphereShape(0.6)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Sphere'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(-4, 0, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Cone (dynamic)
shape = BulletConeShape(0.6, 1.2, ZUp)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Cone'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(4, 0, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Capsule (dynamic)
shape = BulletCapsuleShape(0.5, 1.0, ZUp)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Capsule'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(0, 4, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Cyliner (dynamic)
shape = BulletCylinderShape(0.7, 1.5, ZUp)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Cylinder'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(4, 4, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Convex (dynamic)
shape = BulletConvexHullShape()
shape.addPoint(Point3(1, 1, 2))
shape.addPoint(Point3(0, 0, 0))
shape.addPoint(Point3(2, 0, 0))
shape.addPoint(Point3(0, 2, 0))
shape.addPoint(Point3(2, 2, 0))
# Another way to create the convex hull shape:
#shape = BulletConvexHullShape()
#shape.addArray([
# Point3(1, 1, 2),
# Point3(0, 0, 0),
# Point3(2, 0, 0),
# Point3(0, 2, 0),
# Point3(2, 2, 0),
#])
# Yet another way to create the convex hull shape:
#geom = loader.loadModel('models/box.egg')\
# .findAllMatches('**/+GeomNode')\
# .getPath(0)\
# .node()\
# .getGeom(0)
#shape = BulletConvexHullShape()
#shape.addGeom(geom)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Convex'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(-4, 4, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Mesh (static)
p0 = Point3(-10, -10, 0)
p1 = Point3(-10, 10, 0)
p2 = Point3(10, -10, 0)
p3 = Point3(10, 10, 0)
mesh = BulletTriangleMesh()
mesh.addTriangle(p0, p1, p2)
mesh.addTriangle(p1, p2, p3)
shape = BulletTriangleMeshShape(mesh, dynamic=False)
# Another way to create the triangle mesh shape:
#geom = loader.loadModel('models/box.egg')\
# .findAllMatches('**/+GeomNode')\
# .getPath(0)\
# .node()\
# .getGeom(0)
#mesh = BulletTriangleMesh()
#mesh.addGeom(geom)
#shape = BulletTriangleMeshShape(mesh, dynamic=False)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Mesh'))
np.node().addShape(shape)
np.setPos(0, 0, 0.1)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# MutiSphere
points = [Point3(-1, 0, 0), Point3(0, 0, 0), Point3(1, 0, 0)]
radii = [.4, .8, .6]
shape = BulletMultiSphereShape(points, radii)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('MultiSphere'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(8, 0, 4)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Ground
shape = BulletPlaneShape(Vec3(0, 0, 1), -1)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(BitMask32.bit(0))
self.world.attachRigidBody(np.node())
# Boxes
self.boxes = [
None,
] * 6
for i in range(6):
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-1'))
np.node().setMass(1.0)
np.node().addShape(shape)
self.world.attachRigidBody(np.node())
self.boxes[i] = np
visualNP = loader.loadModel('models/box.egg')
visualNP.reparentTo(np)
self.boxes[0].setPos(-3, -3, 0)
self.boxes[1].setPos(0, -3, 0)
self.boxes[2].setPos(3, -3, 0)
self.boxes[3].setPos(-3, 3, 0)
self.boxes[4].setPos(0, 3, 0)
self.boxes[5].setPos(3, 3, 0)
self.boxes[0].setCollideMask(BitMask32.bit(1))
self.boxes[1].setCollideMask(BitMask32.bit(2))
self.boxes[2].setCollideMask(BitMask32.bit(3))
self.boxes[3].setCollideMask(BitMask32.bit(1))
self.boxes[4].setCollideMask(BitMask32.bit(2))
self.boxes[5].setCollideMask(BitMask32.bit(3))
self.boxNP = self.boxes[0]
self.world.setGroupCollisionFlag(0, 1, True)
self.world.setGroupCollisionFlag(0, 2, True)
self.world.setGroupCollisionFlag(0, 3, True)
self.world.setGroupCollisionFlag(1, 1, False)
self.world.setGroupCollisionFlag(1, 2, True)
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Ground
shape = BulletPlaneShape(Vec3(0, 0, 1), -1)
mask = BitMask32(0x0f)
print('ground: ', mask)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(mask)
self.world.attachRigidBody(np.node())
## Box 1
#shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
#mask = BitMask32.allOff()
#print 'box-1: ', mask
#np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-1'))
#np.node().setMass(1.0)
#np.node().addShape(shape)
#np.setPos(-6, 0, 4)
#np.setCollideMask(mask)
#self.world.attachRigidBody(np.node())
## Box 2
#shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
#mask = BitMask32.bit(0)
#print 'box-2: ', mask
#np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-2'))
#np.node().setMass(1.0)
#np.node().addShape(shape)
#np.setPos(-2, 0, 4)
#np.setCollideMask(mask)
#self.world.attachRigidBody(np.node())
## Box 3
#shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
#mask = BitMask32.bit(2)
#print 'box-3: ', mask
#np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-3'))
#np.node().setMass(1.0)
#np.node().addShape(shape)
#np.setPos(2, 0, 4)
#np.setCollideMask(mask)
#self.world.attachRigidBody(np.node())
# Box 4
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
mask = BitMask32(0x3)
print('box-4: ', mask)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box-4'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(6, 0, 4)
np.setCollideMask(mask)
self.world.attachRigidBody(np.node())
self.boxNP = np
visualNP = loader.loadModel('models/box.egg')
visualNP.reparentTo(self.boxNP)
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Box
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5) * 2.0)
boxNP = self.worldNP.attachNewNode(BulletRigidBodyNode('Box'))
boxNP.node().setMass(150.0)
boxNP.node().addShape(shape)
boxNP.setPos(0, 0, 2)
boxNP.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(boxNP.node())
visualNP = loader.loadModel('models/box.egg')
visualNP.clearModelNodes()
visualNP.setScale(2.0)
visualNP.reparentTo(boxNP)
# Soft body world information
info = self.world.getWorldInfo()
info.setAirDensity(1.2)
info.setWaterDensity(0)
info.setWaterOffset(0)
info.setWaterNormal(Vec3(0, 0, 0))
# Softbody
nx = 31
ny = 31
p00 = Point3(-8, -8, 0)
p10 = Point3(8, -8, 0)
p01 = Point3(-8, 8, 0)
p11 = Point3(8, 8, 0)
bodyNode = BulletSoftBodyNode.makePatch(info, p00, p10, p01, p11, nx,
ny, 1 + 2 + 4 + 8, True)
material = bodyNode.appendMaterial()
material.setLinearStiffness(0.4)
bodyNode.generateBendingConstraints(2, material)
bodyNode.setTotalMass(50.0)
bodyNode.getShape(0).setMargin(0.5)
bodyNP = self.worldNP.attachNewNode(bodyNode)
self.world.attachSoftBody(bodyNode)
# Rendering with Geom:
fmt = GeomVertexFormat.getV3n3t2()
geom = BulletHelper.makeGeomFromFaces(bodyNode, fmt, True)
bodyNode.linkGeom(geom)
visNode = GeomNode('')
visNode.addGeom(geom)
visNP = bodyNP.attachNewNode(visNode)
# Now we want to have a texture and texture coordinates.
# The geom's format has already a column for texcoords, so we just need
# to write texcoords using a GeomVertexRewriter.
tex = loader.loadTexture('models/panda.jpg')
visNP.setTexture(tex)
BulletHelper.makeTexcoordsForPatch(geom, nx, ny)
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
#self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(np.random.randn()*3, np.random.randn()*3, 0))
self.world.setDebugNode(self.debugNP.node())
# Ground
p0 = Point3(-20, -20, 0)
p1 = Point3(-20, 20, 0)
p2 = Point3(20, -20, 0)
p3 = Point3(20, 20, 0)
mesh = BulletTriangleMesh()
mesh.addTriangle(p0, p1, p2)
mesh.addTriangle(p1, p2, p3)
shape = BulletTriangleMeshShape(mesh, dynamic=False)
npp = self.worldNP.attachNewNode(BulletRigidBodyNode('Mesh'))
npp.node().addShape(shape)
npp.setPos(0, 0, -2)
npp.setCollideMask(BitMask32.allOn())
self.ground = npp
self.world.attachRigidBody(npp.node())
# Soft body world information
info = self.world.getWorldInfo()
info.setAirDensity(1.2)
info.setWaterDensity(0)
info.setWaterOffset(0)
info.setWaterNormal(Vec3(0, 0, 0))
# Softbody
def makeSB(pos, hpr):
model = loader.loadModel('moleculemesh/smoothed/clathrinfixsmth%02d.obj' % np.random.randint(1,21))
geom = model.findAllMatches('**/+GeomNode').getPath(0).node().modifyGeom(0)
geomNode = GeomNode('')
geomNode.addGeom(geom)
node = BulletSoftBodyNode.makeTriMesh(info, geom)
node.linkGeom(geomNode.modifyGeom(0))
node.generateBendingConstraints(2)
node.getCfg().setPositionsSolverIterations(6)
node.getCfg().setCollisionFlag(BulletSoftBodyConfig.CFVertexFaceSoftSoft, True)
node.randomizeConstraints()
node.setTotalMass(50, True)
node.getMaterial(0).setLinearStiffness(0.2)
#node.getCfg().setDynamicFrictionCoefficient(1)
#node.getCfg().setDampingCoefficient(0.001)
node.getCfg().setPressureCoefficient(1500)
softNP = self.worldNP.attachNewNode(node)
softNP.setPos(pos)
softNP.setHpr(hpr)
self.world.attachSoftBody(node)
geomNP = softNP.attachNewNode(geomNode)
#softNP.node().appendAnchor(1, self.ground.node())
softNP.node().appendAnchor(1217, self.ground.node())
softNP.node().appendAnchor(1157, self.ground.node())
softNP.node().appendAnchor(2052, self.ground.node())
#softNP.node().appendAnchor(1800, self.ground.node())
softNP.reparentTo(self.mybase)
#makeSB(Point3(-3, 0, 4), (0, 0, 0))
#makeSB(Point3(0, 0, 4), (0, 90, 90))
makeSB(Point3(4+np.random.randn(), 2+np.random.randn(), 4), (0, 0, 0))
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
#terrain = GeoMipTerrain("mySimpleTerrain")
#terrain.setHeightfield("./models/heightfield_2.png")
#terrain.getRoot().reparentTo(self.worldNP)#render)
#terrain.generate()
# Plane
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Track'))
np.node().setMass(5000.0)
np.setPos(3, 0, 10)
np.setCollideMask(BitMask32.allOn()) #(0x0f))
#self.track = BulletVehicle(self.world, np.node())
#self.track.setCoordinateSystem(ZUp)
self.track_np = loader.loadModel('models/race_track.egg')
self.track_np.setScale(100)
self.track_np.reparentTo(np)
self.track_np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
self.track_np = np
#self.track_np.show()
# Chassis
shape = BulletBoxShape(Vec3(0.6, 1.4, 0.5))
ts = TransformState.makePos(Point3(0, 0, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Vehicle'))
np.node().addShape(shape, ts)
np.setPos(0, 0, 1)
np.node().setMass(800.0)
np.node().setDeactivationEnabled(False)
self.world.attachRigidBody(np.node())
#np.node().setCcdSweptSphereRadius(1.0)
#np.node().setCcdMotionThreshold(1e-7)
self.cTrav = CollisionTraverser()
# Vehicle
self.vehicle = BulletVehicle(self.world, np.node())
self.vehicle.setCoordinateSystem(ZUp)
self.yugoNP = loader.loadModel('models/yugo/yugo.egg')
self.yugoNP.reparentTo(np)
self.colHandler = CollisionHandlerQueue()
self.ray_col_np = {}
self.ray_col_vec_dict = {}
for ray_dir in range(-1, 2): # populate collision rays
self.ray = CollisionRay()
self.ray.setOrigin(ray_dir, 0.5, 0.5)
self.ray.setDirection(ray_dir, 1, 0)
self.ray_col = CollisionNode('ray%d' % (ray_dir + 1))
self.ray_col.addSolid(self.ray)
self.ray_col.setFromCollideMask(
BitMask32.allOn()) #(0x0f))#CollideMask.bit(0)
#self.ray_col.setIntoCollideMask(CollideMask.allOff())
self.ray_col_np['ray%d' %
(ray_dir + 1)] = self.yugoNP.attachNewNode(
self.ray_col)
self.cTrav.addCollider(self.ray_col_np['ray%d' % (ray_dir + 1)],
self.colHandler)
self.ray_col_np['ray%d' % (ray_dir + 1)].show()
self.ray_col_vec_dict['ray%d' % (ray_dir + 1)] = []
self.world.attachVehicle(self.vehicle)
self.cTrav.showCollisions(render)
# FIXME
base.camera.reparentTo(self.yugoNP)
# Right front wheel
np = loader.loadModel('models/yugo/yugotireR.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(0.70, 1.05, 0.3), True, np)
# Left front wheel
np = loader.loadModel('models/yugo/yugotireL.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(-0.70, 1.05, 0.3), True, np)
# Right rear wheel
np = loader.loadModel('models/yugo/yugotireR.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(0.70, -1.05, 0.3), False, np)
# Left rear wheel
np = loader.loadModel('models/yugo/yugotireL.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(-0.70, -1.05, 0.3), False, np)
# Steering info
self.steering = 0.0 # degree
self.steeringClamp = 45.0 # degree
self.steeringIncrement = 120.0 # degree per second
# Box
for i, j in [(0, 8), (-3, 5), (6, -5), (8, 3), (-4, -4)]:
shape = BulletBoxShape(Vec3(0.5, 0.5, 0.5))
# https://discourse.panda3d.org/t/wall-collision-help/23606
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Box'))
np.node().setMass(1.0)
np.node().addShape(shape)
np.setPos(i, j, 2)
np.setCollideMask(BitMask32.allOn()) #(0x0f))
self.world.attachRigidBody(np.node())
self.boxNP = np
#self.colHandler2 = CollisionHandlerQueue()
visualNP = loader.loadModel('models/box.egg')
visualNP.reparentTo(self.boxNP)
#self.cTrav.addCollider(self.boxNP,self.colHandler)
"""
aNode = CollisionNode("TheRay")
self.ray = CollisionRay()
self.ray.setOrigin( self.yugoNP.getPos() )
self.ray.setDirection( Vec3(0, 10, 0) )
#self.ray.show()
aNodePath = self.yugoNP.attachNewNode( CollisionNode("TheRay") )
aNodePath.node().addSolid(self.ray)
aNodePath.show()
"""
#aNode.addSolid(self.ray)
#self.ray = CollisionRay(0,0,0,10,0,0)
#self.ray.reparentTo(self.yugoNP)
#self.rayColl = CollisionNode('PlayerRay')
#self.rayColl.addSolid(self.ray)
#self.playerRayNode = self.yugoNP.attachNewNode( self.rayColl )
#self.playerRayNode.show()
#base.myTraverser.addCollider (self.playerRayNode, base.floor)
#base.floor.addCollider( self.playerRayNode, self.yugoNP)
"""
def setup(self):
self.worldNP = render.attach_new_node('World')
# World
self.debugNP = self.worldNP.attach_new_node(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.set_gravity(LVector3(0, 0, -9.81))
self.world.set_debug_node(self.debugNP.node())
# Ground
p0 = LPoint3(-20, -20, 0)
p1 = LPoint3(-20, 20, 0)
p2 = LPoint3(20, -20, 0)
p3 = LPoint3(20, 20, 0)
mesh = BulletTriangleMesh()
mesh.add_triangle(p0, p1, p2)
mesh.add_triangle(p1, p2, p3)
shape = BulletTriangleMeshShape(mesh, dynamic=False)
np = self.worldNP.attach_new_node(BulletRigidBodyNode('Mesh'))
np.node().add_shape(shape)
np.set_pos(0, 0, -4)
np.set_collide_mask(BitMask32.all_on())
self.world.attach(np.node())
# Soft body world information
info = self.world.get_world_info()
info.set_air_density(1.2)
info.set_water_density(0)
info.set_water_offset(0)
info.set_water_normal(LVector3(0, 0, 0))
## Softbody - From points/indices
#import cube
#points = [LPoint3(x,y,z) * 3 for x,y,z in cube.nodes]
#indices = sum([list(x) for x in cube.elements], [])
#node = BulletSoftBodyNode.make_tet_mesh(info, points, indices, True)
#node.set_volume_mass(300);
#node.get_shape(0).set_margin(0.01)
#node.get_material(0).set_linear_stiffness(0.8)
#node.get_cfg().set_positions_solver_iterations(1)
#node.get_cfg().clear_all_collision_flags()
#node.get_cfg().set_collision_flag(
#BulletSoftBodyConfig.CF_cluster_soft_soft, True)
#node.get_cfg().set_collision_flag(
#BulletSoftBodyConfig.CF_cluster_rigid_soft, True)
#node.generate_clusters(16)
#softNP = self.worldNP.attach_new_node(node)
#softNP.set_pos(0, 0, 8)
#softNP.set_hpr(0, 0, 45)
#self.world.attach(node)
# Softbody - From tetgen data
ele = open('models/cube/cube.1.ele', 'r').read()
face = open('models/cube/cube.1.face', 'r').read()
node = open('models/cube/cube.1.node', 'r').read()
node = BulletSoftBodyNode.make_tet_mesh(info, ele, face, node)
node.set_name('Tetra')
node.set_volume_mass(300)
node.get_shape(0).set_margin(0.01)
node.get_material(0).set_linear_stiffness(0.1)
node.get_cfg().set_positions_solver_iterations(1)
node.get_cfg().clear_all_collision_flags()
node.get_cfg().set_collision_flag(
BulletSoftBodyConfig.CF_cluster_soft_soft, True)
node.get_cfg().setCollisionFlag(
BulletSoftBodyConfig.CF_cluster_rigid_soft, True)
node.generate_clusters(6)
softNP = self.worldNP.attach_new_node(node)
softNP.set_pos(0, 0, 8)
softNP.set_hpr(45, 0, 0)
self.world.attach(node)
# Option 1:
visNP = loader.load_model('models/cube/cube.egg')
visNP.reparent_to(softNP)
geom = (visNP.findAllMatches('**/+GeomNode').getPath(
0).node().modifyGeom(0))
node.link_geom(geom)
def setup(self):
self.worldNP = render.attach_new_node('World')
# World
self.debugNP = self.worldNP.attach_new_node(BulletDebugNode('Debug'))
self.debugNP.show()
self.debugNP.node().show_wireframe(True)
self.debugNP.node().show_constraints(True)
self.debugNP.node().show_bounding_boxes(False)
self.debugNP.node().show_normals(False)
self.world = BulletWorld()
self.world.set_gravity(LVector3(0, 0, -9.81))
self.world.set_debug_node(self.debugNP.node())
# Box A
shape = BulletBoxShape(LVector3(0.5, 0.5, 0.5))
bodyA = BulletRigidBodyNode('Box A')
bodyNP = self.worldNP.attach_new_node(bodyA)
bodyNP.node().add_shape(shape)
bodyNP.set_collide_mask(BitMask32.all_on())
bodyNP.set_pos(-4, 0, 4)
visNP = loader.load_model('models/box.egg')
visNP.clear_model_nodes()
visNP.reparent_to(bodyNP)
self.world.attach(bodyA)
# Box B
shape = BulletBoxShape(LVector3(0.5, 0.5, 0.5))
bodyB = BulletRigidBodyNode('Box B')
bodyNP = self.worldNP.attach_new_node(bodyB)
bodyNP.node().add_shape(shape)
bodyNP.node().set_mass(1.0)
bodyNP.node().set_deactivation_enabled(False)
bodyNP.set_collide_mask(BitMask32.all_on())
bodyNP.set_pos(1, 0, 0)
visNP = loader.load_model('models/box.egg')
visNP.clear_model_nodes()
visNP.reparent_to(bodyNP)
self.world.attach(bodyB)
# Generic
frameA = TransformState.make_pos_hpr(LPoint3(4, 0, 0),
LVector3(0, 0, 0))
frameB = TransformState.make_pos_hpr(LPoint3(2, 0, 0),
LVector3(0, 0, 0))
generic = BulletGenericConstraint(bodyA, bodyB, frameA, frameB, True)
generic.set_debug_draw_size(2.0)
generic.set_linear_limit(0, 0, 0)
generic.set_linear_limit(1, 0, 3)
generic.set_linear_limit(2, 0, 1)
generic.set_angular_limit(0, -60, 60)
generic.set_angular_limit(1, -30, 30)
generic.set_angular_limit(2, -120, 120)
self.world.attach(generic)
def setup(self):
self.worldNP = render.attachNewNode('World')
# World
self.debugNP = self.worldNP.attachNewNode(BulletDebugNode('Debug'))
self.debugNP.show()
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
self.world.setDebugNode(self.debugNP.node())
# Plane
shape = BulletPlaneShape(Vec3(0, 0, 1), 0)
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Ground'))
np.node().addShape(shape)
np.setPos(0, 0, -1)
np.setCollideMask(BitMask32.allOn())
self.world.attachRigidBody(np.node())
# Chassis
shape = BulletBoxShape(Vec3(0.6, 1.4, 0.5))
ts = TransformState.makePos(Point3(0, 0, 0.5))
np = self.worldNP.attachNewNode(BulletRigidBodyNode('Vehicle'))
np.node().addShape(shape, ts)
np.setPos(0, 0, 1)
np.node().setMass(800.0)
np.node().setDeactivationEnabled(False)
self.world.attachRigidBody(np.node())
#np.node().setCcdSweptSphereRadius(1.0)
#np.node().setCcdMotionThreshold(1e-7)
# Vehicle
self.vehicle = BulletVehicle(self.world, np.node())
self.vehicle.setCoordinateSystem(ZUp)
self.world.attachVehicle(self.vehicle)
self.yugoNP = loader.loadModel('car/yugo.egg')
self.yugoNP.reparentTo(np)
# Right front wheel
np = loader.loadModel('car/yugotireR.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(0.70, 1.05, 0.3), True, np)
# Left front wheel
np = loader.loadModel('car/yugotireL.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(-0.70, 1.05, 0.3), True, np)
# Right rear wheel
np = loader.loadModel('car/yugotireR.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(0.70, -1.05, 0.3), False, np)
# Left rear wheel
np = loader.loadModel('car/yugotireL.egg')
np.reparentTo(self.worldNP)
self.addWheel(Point3(-0.70, -1.05, 0.3), False, np)
# Steering info
self.steering = 0.0 # degree
self.steeringClamp = 45.0 # degree
self.steeringIncrement = 120.0 # degree per second
def __init__(self, screen_size=84, DEBUGGING=False, human_playable=False):
ShowBase.__init__(self)
self.forward_button = KeyboardButton.ascii_key(b'w')
self.backward_button = KeyboardButton.ascii_key(b's')
self.fps = 20
self.human_playable = human_playable
self.actions = 3
self.last_frame_start_time = time.time()
self.action_buffer = [1, 1, 1]
self.last_teleport_time = 0.0
self.time_to_teleport = False
if self.human_playable is False:
winprops = WindowProperties.size(screen_size, screen_size)
fbprops = FrameBufferProperties()
fbprops.set_rgba_bits(8, 8, 8, 0)
fbprops.set_depth_bits(24)
self.pipe = GraphicsPipeSelection.get_global_ptr().make_module_pipe('pandagl')
self.imageBuffer = self.graphicsEngine.makeOutput(
self.pipe,
"image buffer",
1,
fbprops,
winprops,
GraphicsPipe.BFRefuseWindow)
self.camera = Camera('cam')
self.cam = NodePath(self.camera)
self.cam.reparentTo(self.render)
self.dr = self.imageBuffer.makeDisplayRegion()
self.dr.setCamera(self.cam)
self.render.setShaderAuto()
self.cam.setPos(0.5, 0, 6)
self.cam.lookAt(0.5, 0, 0)
# Create Ambient Light
self.ambientLight = AmbientLight('ambientLight')
self.ambientLight.setColor((0.2, 0.2, 0.2, 1))
self.ambientLightNP = self.render.attachNewNode(self.ambientLight)
self.render.setLight(self.ambientLightNP)
# Spotlight
self.light = Spotlight('light')
self.light.setColor((0.9, 0.9, 0.9, 1))
self.lightNP = self.render.attachNewNode(self.light)
self.lightNP.setPos(0, 10, 10)
self.lightNP.lookAt(0, 0, 0)
self.lightNP.node().getLens().setFov(40)
self.lightNP.node().getLens().setNearFar(10, 100)
self.lightNP.node().setShadowCaster(True, 1024, 1024)
self.render.setLight(self.lightNP)
self.world = BulletWorld()
self.world.setGravity(Vec3(0, 0, -9.81))
if DEBUGGING is True:
debugNode = BulletDebugNode('Debug')
debugNode.showWireframe(True)
debugNode.showConstraints(True)
debugNode.showBoundingBoxes(False)
debugNode.showNormals(False)
debugNP = render.attachNewNode(debugNode)
debugNP.show()
self.world.setDebugNode(debugNP.node())
self.finger_speed_mps = 0.0
self.penalty_applied = False
self.teleport_cooled_down = True
self.fps = 20
self.framecount = 0
self.reset()
