Danbias/Code/GamePhysics/Implementation/PhysicsAPI_Impl.cpp

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#include "PhysicsAPI_Impl.h"
#include "OysterPhysics3D.h"
#include "SimpleRigidBody.h"
#include "SphericalRigidBody.h"
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using namespace ::Oyster;
using namespace ::Oyster::Physics;
using namespace ::Oyster::Math;
using namespace ::Oyster::Collision3D;
using namespace ::Utility::DynamicMemory;
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using namespace ::Utility::Value;
API_Impl API_instance;
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API & API::Instance()
{
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return API_instance;
}
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API_Impl::API_Impl()
{
this->broadphase = NULL;
this->collisionConfiguration = NULL;
this->dispatcher = NULL;
this->solver = NULL;
this->dynamicsWorld = NULL;
this->timeStep = 1.0f/120.0f;
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}
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API_Impl::~API_Impl()
{
delete this->dynamicsWorld;
this->dynamicsWorld = NULL;
delete this->solver;
this->solver = NULL;
delete this->dispatcher;
this->dispatcher = NULL;
delete this->collisionConfiguration;
this->collisionConfiguration = NULL;
delete this->broadphase;
this->broadphase = NULL;
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for(unsigned int i = 0; i < this->customBodies.size(); i++)
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{
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delete this->customBodies[i];
this->customBodies[i] = NULL;
}
}
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// Bullet physics
ICustomBody* API_Impl::AddCollisionSphere(float radius, ::Oyster::Math::Float4 rotation, ::Oyster::Math::Float3 position, float mass, float restitution, float staticFriction, float dynamicFriction)
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{
SimpleRigidBody* body = new SimpleRigidBody;
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SimpleRigidBody::State state;
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// Add collision shape
btCollisionShape* collisionShape = new btSphereShape(radius);
body->SetCollisionShape(collisionShape);
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// Add motion state
btDefaultMotionState* motionState = new btDefaultMotionState(btTransform(btQuaternion(rotation.x, rotation.y, rotation.z, rotation.w),btVector3(position.x, position.y, position.z)));
body->SetMotionState(motionState);
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// Add rigid body
btVector3 fallInertia(0, 0, 0);
collisionShape->calculateLocalInertia(mass, fallInertia);
btRigidBody::btRigidBodyConstructionInfo rigidBodyCI(mass, motionState, collisionShape, fallInertia);
btRigidBody* rigidBody = new btRigidBody(rigidBodyCI);
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rigidBody->setFriction(staticFriction);
rigidBody->setRestitution(restitution);
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rigidBody->setUserPointer(body);
body->SetRigidBody(rigidBody);
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// Add rigid body to world
this->dynamicsWorld->addRigidBody(rigidBody);
this->customBodies.push_back(body);
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state.centerPos = position;
state.reach = Float3(radius, radius, radius);
state.dynamicFrictionCoeff = 0.5f;
state.staticFrictionCoeff = 0.5f;
state.quaternion = Quaternion(Float3(rotation.xyz), rotation.w);
state.mass = mass;
body->SetState(state);
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return body;
}
ICustomBody* API_Impl::AddCollisionBox(Float3 halfSize, ::Oyster::Math::Float4 rotation, ::Oyster::Math::Float3 position, float mass, float restitution, float staticFriction, float dynamicFriction)
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{
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SimpleRigidBody* body = new SimpleRigidBody;
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SimpleRigidBody::State state;
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// Add collision shape
btCollisionShape* collisionShape = new btBoxShape(btVector3(halfSize.x, halfSize.y, halfSize.z));
body->SetCollisionShape(collisionShape);
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// Add motion state
btDefaultMotionState* motionState = new btDefaultMotionState(btTransform(btQuaternion(rotation.x, rotation.y, rotation.z, rotation.w),btVector3(position.x, position.y, position.z)));
body->SetMotionState(motionState);
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// Add rigid body
btVector3 fallInertia(0, 0, 0);
collisionShape->calculateLocalInertia(mass, fallInertia);
btRigidBody::btRigidBodyConstructionInfo rigidBodyCI(mass, motionState, collisionShape, fallInertia);
btRigidBody* rigidBody = new btRigidBody(rigidBodyCI);
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rigidBody->setFriction(staticFriction);
rigidBody->setRestitution(restitution);
rigidBody->setUserPointer(body);
body->SetRigidBody(rigidBody);
// Add rigid body to world
this->dynamicsWorld->addRigidBody(rigidBody);
this->customBodies.push_back(body);
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state.centerPos = position;
state.reach = halfSize;
state.dynamicFrictionCoeff = 0.5f;
state.staticFrictionCoeff = 0.5f;
state.quaternion = Quaternion(Float3(rotation.xyz), rotation.w);
state.mass = mass;
body->SetState(state);
return body;
}
ICustomBody* API_Impl::AddCollisionCylinder(::Oyster::Math::Float3 halfSize, ::Oyster::Math::Float4 rotation, ::Oyster::Math::Float3 position, float mass, float restitution, float staticFriction, float dynamicFriction)
{
SimpleRigidBody* body = new SimpleRigidBody;
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SimpleRigidBody::State state;
// Add collision shape
btCollisionShape* collisionShape = new btCylinderShape(btVector3(halfSize.x, halfSize.y, halfSize.z));
body->SetCollisionShape(collisionShape);
// Add motion state
btDefaultMotionState* motionState = new btDefaultMotionState(btTransform(btQuaternion(rotation.x, rotation.y, rotation.z, rotation.w),btVector3(position.x, position.y, position.z)));
body->SetMotionState(motionState);
// Add rigid body
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btVector3 fallInertia(0, 0, 0);
collisionShape->calculateLocalInertia(mass, fallInertia);
btRigidBody::btRigidBodyConstructionInfo rigidBodyCI(mass, motionState, collisionShape, fallInertia);
btRigidBody* rigidBody = new btRigidBody(rigidBodyCI);
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rigidBody->setFriction(staticFriction);
rigidBody->setRestitution(restitution);
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rigidBody->setUserPointer(body);
body->SetRigidBody(rigidBody);
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// Add rigid body to world
this->dynamicsWorld->addRigidBody(rigidBody);
this->customBodies.push_back(body);
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state.centerPos = position;
state.reach = halfSize;
state.dynamicFrictionCoeff = 0.5f;
state.staticFrictionCoeff = 0.5f;
state.quaternion = Quaternion(Float3(rotation.xyz), rotation.w);
state.mass = mass;
body->SetState(state);
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return body;
}
void API_Impl::SetTimeStep(float timeStep)
{
this->timeStep = timeStep;
}
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void API_Impl::UpdateWorld()
{
this->dynamicsWorld->stepSimulation(this->timeStep, 1, this->timeStep);
ICustomBody::State state;
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for(unsigned int i = 0; i < this->customBodies.size(); i++ )
{
SimpleRigidBody* simpleBody = dynamic_cast<SimpleRigidBody*>(this->customBodies[i]);
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btTransform trans;
simpleBody->GetMotionState()->getWorldTransform(trans);
this->customBodies[i]->SetPosition(Float3(trans.getOrigin().x(), trans.getOrigin().y(), trans.getOrigin().z()));
this->customBodies[i]->SetRotation(Quaternion(Float3(trans.getRotation().x(), trans.getRotation().y(), trans.getRotation().z()), trans.getRotation().w()));
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if(simpleBody->GetRigidBody()->getActivationState() == ACTIVE_TAG)
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{
simpleBody->CallSubscription_Move();
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}
}
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int numManifolds = this->dynamicsWorld->getDispatcher()->getNumManifolds();
for (int i = 0; i < numManifolds; i++)
{
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btPersistentManifold* contactManifold = this->dynamicsWorld->getDispatcher()->getManifoldByIndexInternal(i);
const btCollisionObject* obA = contactManifold->getBody0();
const btCollisionObject* obB = contactManifold->getBody1();
ICustomBody* bodyA = (ICustomBody*)obA->getUserPointer();
ICustomBody* bodyB = (ICustomBody*)obB->getUserPointer();
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dynamic_cast<SimpleRigidBody*>(bodyA)->CallSubscription_AfterCollisionResponse(bodyA, bodyB, 0.0f);
dynamic_cast<SimpleRigidBody*>(bodyB)->CallSubscription_AfterCollisionResponse(bodyB, bodyA, 0.0f);
}
}
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void API_Impl::Init()
{
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this->broadphase = new btDbvtBroadphase();
this->collisionConfiguration = new btDefaultCollisionConfiguration();
this->dispatcher = new btCollisionDispatcher(this->collisionConfiguration);
this->solver = new btSequentialImpulseConstraintSolver;
this->dynamicsWorld = new btDiscreteDynamicsWorld(this->dispatcher,this->broadphase,this->solver,this->collisionConfiguration);
this->dynamicsWorld->setGravity(btVector3(0,-10,0));
}
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bool API_Impl::IsInLimbo( const ICustomBody* objRef )
{
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return true;
}
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void API_Impl::MoveToLimbo( const ICustomBody* objRef )
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{
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}
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void API_Impl::ReleaseFromLimbo( const ICustomBody* objRef )
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{
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}
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void API_Impl::ApplyEffect( const Oyster::Collision3D::ICollideable& collideable, void* args, void(hitAction)(ICustomBody*, void*) )
{
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}
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namespace Oyster
{
namespace Physics
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{
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namespace Default
{
void EventAction_Destruction( ::Utility::DynamicMemory::UniquePointer<::Oyster::Physics::ICustomBody> proto )
{ /* Do nothing except allowing the proto uniquePointer destroy itself. */ }
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::Oyster::Physics::ICustomBody::SubscriptMessage EventAction_BeforeCollisionResponse( const ::Oyster::Physics::ICustomBody *proto, const ::Oyster::Physics::ICustomBody *deuter )
{ /* Do nothing except returning business as usual. */
return ::Oyster::Physics::ICustomBody::SubscriptMessage_none;
}
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void EventAction_AfterCollisionResponse( const ::Oyster::Physics::ICustomBody *proto, const ::Oyster::Physics::ICustomBody *deuter, ::Oyster::Math::Float kineticEnergyLoss )
{ /* Do nothing except returning business as usual. */ }
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void EventAction_Move( const ::Oyster::Physics::ICustomBody *object )
{ /* Do nothing. */ }
}
}
}