Bullet3之封装PhysicsWorld3D
根据bullet3HelloWorld程序去封装一个PhysicsWorld3D,
首先应该去创建一个物理世界,而对于一个物理世界,默认都有重力,提供一个创建
世界的静态方法(重力默认为(0,-10,0))
static PhysicsWorld3D* create(const btVector3& gravity = btVector3(0,0));
负责创建世界,同时对世界初始化
这里创建一个btDiscreteDynamicsWorld
直接复制bullet3HelloWorld对世界的初始化,并修改
_collisionConfiguration,_dispatcher,_solver,_overlappingPairCache,_drawer均为成员变量,
具体使用参照Bullet的文档
PhysicsWorld3D* PhysicsWorld3D::create(const btVector3& gravity)
{
auto world = new PhysicsWorld3D;
if (world && world->initWorld(gravity))
{
return world;
}
delete world;
return nullptr;
}
bool PhysicsWorld3D::initWorld(const btVector3& gravity)
{
_collisionConfiguration = new btDefaultCollisionConfiguration();
_dispatcher = new btCollisionDispatcher(_collisionConfiguration);
_overlappingPairCache = new btDbvtBroadphase();
_solver = new btSequentialImpulseConstraintSolver;
_world = new btDiscreteDynamicsWorld(_dispatcher,_collisionConfiguration);
if (_world == nullptr)
{
return false;
}
_world->setGravity(gravity);
return true;
}
销毁一个物理世界
void PhysicsWorld3D::destroy()
{
this->clear();
delete _collisionConfiguration;
delete _dispatcher;
delete _solver;
delete _overlappingPairCache;
delete _world;
delete this;
}
void PhysicsWorld3D::clear()
{
int i;
//remove the rigidbodies from the dynamics world and delete them
for (i = _world->getNumCollisionObjects() - 1; i >= 0; i--)
{
btCollisionObject* obj = _world->getCollisionObjectArray()[i];
btRigidBody* body = btRigidBody::upcast(obj);
if (body && body->getMotionState())
{
delete body->getMotionState();
delete body->getCollisionShape();
}
_world->removeCollisionObject(body);
delete obj;
}
}
创建一些简单的body
由于每种body都有自己的材质信息
btRigidBodyConstructionInfo是构造一个刚体信息的结构体,
我们只需关心几个参数,
friction; //摩擦系数
rollingFriction;//滚动摩擦系数
restitution;//恢复系数(弹性系数)
mass;//质量
自己去实现一个简单的材质结构体
struct PhysicsMaterial3D
{
btScalar friction;
btScalar rollingFriction;
btScalar restitution;
btScalar mass;
PhysicsMaterial3D() :
friction(0.0f),rollingFriction(0.f),restitution(0.f),mass(0.f)
{}
PhysicsMaterial3D(btScalar aMass,btScalar aFriction,btScalar aRestitution,btScalar aRollingFriction) :
friction(aFriction),rollingFriction(aRollingFriction),restitution(aRestitution),mass(aMass)
{}
};
并提供一个默认的材质信息
const PhysicsMaterial3D PHYSICS_MATERIAL3D_DEFAULT(1.f,0.5f,0.0f);
实现构造3个基本物体,如下声明
btRigidBody* addPlane(const btVector3& normal,const btVector3& position,const PhysicsMaterial3D& material = PHYSICS_MATERIAL3D_DEFAULT); btRigidBody* addSphere(btScalar radius,const PhysicsMaterial3D& material = PHYSICS_MATERIAL3D_DEFAULT); btRigidBody* addBox(const btVector3& halfSize,const PhysicsMaterial3D& material = PHYSICS_MATERIAL3D_DEFAULT);
对于一个无限的平面,需要一个法向量决定Plane的朝向,同时position决定plane的位置,当然还有材质,但是mass必须为0
对于一个球体(Sphere)半径,位置,材质
对于一个盒子(Box)尺寸,位置,材质
btRigidBody* PhysicsWorld3D::addPlane(const btVector3& normal,const PhysicsMaterial3D& material)
{
CCAssert(material.mass == 0.f,"plane's mass must be 0."); // 特殊处理,保证mass为0
btCollisionShape* groundShape = new btStaticPlaneShape(normal,0.f);
auto body = getBody(groundShape,position,material);
_world->addRigidBody(body);
return body;
}
btRigidBody* PhysicsWorld3D::addSphere(btScalar radius,const PhysicsMaterial3D& material)
{
btCollisionShape* colShape = new btSphereShape(radius);
auto body = getBody(colShape,material);
_world->addRigidBody(body);
return body;
}
btRigidBody* PhysicsWorld3D::addBox(const btVector3& size,const PhysicsMaterial3D& material)
{
btCollisionShape* colShape = new btBoxShape(size * 0.5f); // halfSize
auto body = getBody(colShape,material);
_world->addRigidBody(body);
return body;
}
构造一个刚体包含一些共同的步骤collisionShape,material
由于Plane,Sphere,BoxcollisionShape类型不同,所以单独实现,
其他的公共步骤可以抽离出来
btRigidBody* getBody(btCollisionShape* colShape,const PhysicsMaterial3D& material);
仿照HelloWorld构造body的方法
btRigidBody* PhysicsWorld3D::getBody(btCollisionShape* colShape,const PhysicsMaterial3D& material)
{
/// Create Dynamic Objects
btTransform startTransform;
startTransform.setIdentity();
//rigidbody is dynamic if and only if mass is non zero,otherwise static
bool isDynamic = (material.mass != 0.f);
btVector3 localInertia(0,0);
if (isDynamic)
colShape->calculateLocalInertia(material.mass,localInertia); // 计算物体惯性
startTransform.setOrigin(position); // 设置物体位置
//using motionstate is recommended,it provides interpolation capabilities,and only synchronizes 'active' objects
btDefaultMotionState* myMotionState = new btDefaultMotionState(startTransform);
btRigidBody::btRigidBodyConstructionInfo rbInfo(material.mass,myMotionState,colShape,localInertia);
// 使用自定义的材质
rbInfo.m_restitution = material.restitution;
rbInfo.m_friction = material.friction;
rbInfo.m_rollingFriction = material.rollingFriction;
// 创建body
btRigidBody* body = new btRigidBody(rbInfo);
return body;
}
不要忘了物理世界的更新
void PhysicsWorld3D::update(float dt)
{
_world->stepSimulation(dt);
}
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