/* * Copyright (c) 2008-2017, NVIDIA CORPORATION. All rights reserved. * * NVIDIA CORPORATION and its licensors retain all intellectual property * and proprietary rights in and to this software, related documentation * and any modifications thereto. Any use, reproduction, disclosure or * distribution of this software and related documentation without an express * license agreement from NVIDIA CORPORATION is strictly prohibited. */ // Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved. // Copyright (c) 2001-2004 NovodeX AG. All rights reserved. #include "ExtClothConfig.h" #if APEX_USE_CLOTH_API #include "ExtClothTetherCooker.h" #include "PxStrideIterator.h" #include "PxVec4.h" #include "PsIntrinsics.h" #include "PsArray.h" using namespace nvidia; using namespace physx; struct nvidia::PxClothSimpleTetherCookerImpl { PxClothSimpleTetherCookerImpl(const PxClothMeshDesc& desc); uint32_t getCookerStatus() const; void getTetherData(uint32_t* userTetherAnchors, float* userTetherLengths) const; public: // output shdfnd::Array mTetherAnchors; shdfnd::Array mTetherLengths; protected: void createTetherData(const PxClothMeshDesc &desc); uint32_t mCookerStatus; }; PxClothSimpleTetherCooker::PxClothSimpleTetherCooker(const PxClothMeshDesc& desc) : mImpl(new PxClothSimpleTetherCookerImpl(desc)) { } PxClothSimpleTetherCooker::~PxClothSimpleTetherCooker() { delete mImpl; } uint32_t PxClothSimpleTetherCooker::getCookerStatus() const { return mImpl->getCookerStatus(); } void PxClothSimpleTetherCooker::getTetherData(uint32_t* userTetherAnchors, float* userTetherLengths) const { mImpl->getTetherData(userTetherAnchors, userTetherLengths); } /////////////////////////////////////////////////////////////////////////////// PxClothSimpleTetherCookerImpl::PxClothSimpleTetherCookerImpl(const PxClothMeshDesc &desc) : mCookerStatus(1) { createTetherData(desc); } /////////////////////////////////////////////////////////////////////////////// void PxClothSimpleTetherCookerImpl::createTetherData(const PxClothMeshDesc &desc) { uint32_t numParticles = desc.points.count; if (!desc.invMasses.data) return; // assemble points shdfnd::Array particles; particles.reserve(numParticles); PxStrideIterator pIt((const PxVec3*)desc.points.data, desc.points.stride); PxStrideIterator wIt((const float*)desc.invMasses.data, desc.invMasses.stride); for(uint32_t i=0; i attachedIndices; for(uint32_t i=0; i < numParticles; ++i) if(particles[i].w == 0.0f) attachedIndices.pushBack(i); uint32_t n = attachedIndices.empty() ? 0 : numParticles; for(uint32_t i=0; i < n; ++i) { mTetherAnchors.reserve(numParticles); mTetherLengths.reserve(numParticles); PxVec3 position = reinterpret_cast(particles[i]); float minSqrDist = FLT_MAX; uint32_t minIndex = numParticles; const uint32_t *aIt, *aEnd = attachedIndices.end(); for(aIt = attachedIndices.begin(); aIt != aEnd; ++aIt) { float sqrDist = (reinterpret_cast( particles[*aIt]) - position).magnitudeSquared(); if(minSqrDist > sqrDist) minSqrDist = sqrDist, minIndex = *aIt; } mTetherAnchors.pushBack(minIndex); mTetherLengths.pushBack(PxSqrt(minSqrDist)); } PX_ASSERT(mTetherAnchors.size() == mTetherLengths.size()); if (numParticles == mTetherAnchors.size() && numParticles == mTetherLengths.size()) { mCookerStatus = 0; } } /////////////////////////////////////////////////////////////////////////////// uint32_t PxClothSimpleTetherCookerImpl::getCookerStatus() const { return mCookerStatus; } /////////////////////////////////////////////////////////////////////////////// void PxClothSimpleTetherCookerImpl::getTetherData(uint32_t* userTetherAnchors, float* userTetherLengths) const { intrinsics::memCopy(userTetherAnchors, mTetherAnchors.begin(), mTetherAnchors.size() * sizeof(uint32_t)); intrinsics::memCopy(userTetherLengths, mTetherLengths.begin(), mTetherLengths.size() * sizeof(float)); } #endif //APEX_USE_CLOTH_API