@Override
protected void onRender(long ellapsedRealtime, double deltaTime) {
// -- no proper physics here, just a bad approximation to keep
// this example as short as possible ;-)
mRaptor.setZ(mRaptor.getZ() + 2.0);
mRaptor.setX(Math.sin(mTime) * 20.0);
// mRaptor.setRotZ(Math.sin(mTime + 8.0) * -30.0);
// mRaptor.setRotY(180 + (mRaptor.getRotZ() * 0.1));
// mRaptor.setRotY(180);
mRaptor.setY(Math.cos(mTime) * 10.0);
mRaptor.setRotX(Math.cos(mTime + 1.0) * -20.0);
mSphere.setZ(mRaptor.getZ());
mTime += 0.01;
if (mRootCube.getZ() - mRaptor.getZ() <= (30 * -6)) {
mRootCube.setZ(mRaptor.getZ());
}
mPointLight.setPosition(getCurrentCamera().getPosition());
mPointLight.setLookAt(mRaptor.getWorldPosition());
super.onRender(ellapsedRealtime, deltaTime);
}
@Override
protected void onRender(long ellapsedRealtime, double deltaTime) {
super.onRender(ellapsedRealtime, deltaTime);
getCurrentCamera().rotate(Vector3.Axis.Y, -0.2);
}