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IN NO EVENT SHALL THE COPYRIGHT OWNER OR // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY // OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Copyright (c) 2008-2019 NVIDIA Corporation. All rights reserved. // Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved. // Copyright (c) 2001-2004 NovodeX AG. All rights reserved. // PX_DUMMY_SYMBOL #if PX_SUPPORT_PVD #include "pvd/PxPvdTransport.h" #include "PxPhysics.h" #include "PxPvdClient.h" #include "PxPvdDataStream.h" #include "PxPvdObjectModelBaseTypes.h" #include "PvdPhysicsClient.h" #include "PvdTypeNames.h" using namespace physx; using namespace physx::Vd; PvdPhysicsClient::PvdPhysicsClient(PsPvd* pvd) : mPvd(pvd), mPvdDataStream(NULL), mIsConnected(false) { } PvdPhysicsClient::~PvdPhysicsClient() { mPvd->removeClient(this); } PvdDataStream* PvdPhysicsClient::getDataStream() { return mPvdDataStream; } PvdMetaDataBinding* PvdPhysicsClient::getMetaDataBinding() { return &mMetaDataBinding; } PvdUserRenderer* PvdPhysicsClient::getUserRender() { PX_ASSERT(0); return NULL; } bool PvdPhysicsClient::isConnected() const { return mIsConnected; } void PvdPhysicsClient::onPvdConnected() { if(mIsConnected || !mPvd) return; mIsConnected = true; mPvdDataStream = PvdDataStream::create(mPvd); sendEntireSDK(); } void PvdPhysicsClient::onPvdDisconnected() { if(!mIsConnected) return; mIsConnected = false; mPvdDataStream->release(); mPvdDataStream = NULL; } void PvdPhysicsClient::flush() { } void PvdPhysicsClient::sendEntireSDK() { PxPhysics& physics = PxGetPhysics(); mMetaDataBinding.registerSDKProperties(*mPvdDataStream); mPvdDataStream->createInstance(&physics); mPvdDataStream->setIsTopLevelUIElement(&physics, true); mMetaDataBinding.sendAllProperties(*mPvdDataStream, physics); #define SEND_BUFFER_GROUP(type, name) \ { \ physx::shdfnd::Array buffers; \ PxU32 numBuffers = physics.getNb##name(); \ buffers.resize(numBuffers); \ physics.get##name(buffers.begin(), numBuffers); \ for(PxU32 i = 0; i < numBuffers; i++) \ { \ if(mPvd->registerObject(buffers[i])) \ createPvdInstance(buffers[i]); \ } \ } SEND_BUFFER_GROUP(PxMaterial, Materials); SEND_BUFFER_GROUP(PxTriangleMesh, TriangleMeshes); SEND_BUFFER_GROUP(PxConvexMesh, ConvexMeshes); SEND_BUFFER_GROUP(PxHeightField, HeightFields); } void PvdPhysicsClient::destroyPvdInstance(const PxPhysics* physics) { if(mPvdDataStream) mPvdDataStream->destroyInstance(physics); } void PvdPhysicsClient::createPvdInstance(const PxTriangleMesh* triMesh) { mMetaDataBinding.createInstance(*mPvdDataStream, *triMesh, PxGetPhysics()); } void PvdPhysicsClient::destroyPvdInstance(const PxTriangleMesh* triMesh) { mMetaDataBinding.destroyInstance(*mPvdDataStream, *triMesh, PxGetPhysics()); } void PvdPhysicsClient::createPvdInstance(const PxConvexMesh* convexMesh) { mMetaDataBinding.createInstance(*mPvdDataStream, *convexMesh, PxGetPhysics()); } void PvdPhysicsClient::destroyPvdInstance(const PxConvexMesh* convexMesh) { mMetaDataBinding.destroyInstance(*mPvdDataStream, *convexMesh, PxGetPhysics()); } void PvdPhysicsClient::createPvdInstance(const PxHeightField* heightField) { mMetaDataBinding.createInstance(*mPvdDataStream, *heightField, PxGetPhysics()); } void PvdPhysicsClient::destroyPvdInstance(const PxHeightField* heightField) { mMetaDataBinding.destroyInstance(*mPvdDataStream, *heightField, PxGetPhysics()); } void PvdPhysicsClient::createPvdInstance(const PxMaterial* mat) { mMetaDataBinding.createInstance(*mPvdDataStream, *mat, PxGetPhysics()); } void PvdPhysicsClient::updatePvdProperties(const PxMaterial* mat) { mMetaDataBinding.sendAllProperties(*mPvdDataStream, *mat); } void PvdPhysicsClient::destroyPvdInstance(const PxMaterial* mat) { mMetaDataBinding.destroyInstance(*mPvdDataStream, *mat, PxGetPhysics()); } void PvdPhysicsClient::onGuMeshFactoryBufferRelease(const PxBase* object, PxType typeID) { if(!mIsConnected || !mPvd) return; if(mPvd->unRegisterObject(object)) { switch(typeID) { case PxConcreteType::eHEIGHTFIELD: destroyPvdInstance(static_cast(object)); break; case PxConcreteType::eCONVEX_MESH: destroyPvdInstance(static_cast(object)); break; case PxConcreteType::eTRIANGLE_MESH_BVH33: case PxConcreteType::eTRIANGLE_MESH_BVH34: destroyPvdInstance(static_cast(object)); break; default: break; } } } void PvdPhysicsClient::reportError(PxErrorCode::Enum code, const char* message, const char* file, int line) { if(mIsConnected) { mPvdDataStream->sendErrorMessage(code, message, file, PxU32(line)); } } #endif // PX_SUPPORT_PVD