420 lines
14 KiB
C
420 lines
14 KiB
C
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions
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// are met:
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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// * Neither the name of NVIDIA CORPORATION nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
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// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
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// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
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// OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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// Copyright (c) 2008-2019 NVIDIA Corporation. All rights reserved.
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// Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved.
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// Copyright (c) 2001-2004 NovodeX AG. All rights reserved.
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#ifndef PXV_DYNAMICS_CONTEXT_H
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#define PXV_DYNAMICS_CONTEXT_H
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#include "CmPhysXCommon.h"
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#include "PxSceneDesc.h"
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#include "DyThresholdTable.h"
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#include "PxcNpThreadContext.h"
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#include "PxsSimulationController.h"
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#include "DyConstraintWriteBack.h"
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#include "PsAllocator.h"
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#define DY_MAX_VELOCITY_COUNT 4
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namespace physx
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{
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class PxsIslandManager;
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class PxcNpMemBlockPool;
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namespace Cm
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{
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class EventProfiler;
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class FlushPool;
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}
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namespace IG
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{
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class SimpleIslandManager;
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class IslandSim;
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}
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template<typename T, typename P> class PxcThreadCoherentCache;
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class PxcScratchAllocator;
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struct PxvSimStats;
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class PxTaskManager;
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class PxcNpMemBlockPool;
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struct PxgDynamicsMemoryConfig;
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class PxsContactManagerOutputIterator;
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struct PxsContactManagerOutput;
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class PxsKernelWranglerManager;
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class PxsHeapMemoryAllocator;
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class PxsMemoryManager;
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class PxsContactManager;
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namespace Dy
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{
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class Context
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{
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PX_NOCOPY(Context)
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public:
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/**
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\brief Returns the bounce threshold
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\return The bounce threshold.
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*/
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PX_FORCE_INLINE PxReal getBounceThreshold() const { return mBounceThreshold; }
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/**
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\brief Returns the friction offset threshold
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\return The friction offset threshold.
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*/
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PX_FORCE_INLINE PxReal getFrictionOffsetThreshold() const { return mFrictionOffsetThreshold; }
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/**
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\brief Returns the friction offset threshold
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\return The friction offset threshold.
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*/
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PX_FORCE_INLINE PxReal getSolverOffsetSlop() const { return mSolverOffsetSlop; }
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/**
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\brief Returns the correlation distance
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\return The correlation distance.
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*/
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PX_FORCE_INLINE PxReal getCorrelationDistance() const { return mCorrelationDistance; }
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/**
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\brief Returns the CCD separation threshold
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\return The CCD separation threshold.
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*/
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PX_FORCE_INLINE PxReal getCCDSeparationThreshold() const { return mCCDSeparationThreshold; }
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/**
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\brief Sets the bounce threshold
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\param[in] f The bounce threshold
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*/
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PX_FORCE_INLINE void setBounceThreshold(PxReal f) { mBounceThreshold = f; }
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/**
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\brief Sets the correlation distance
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\param[in] f The correlation distance
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*/
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PX_FORCE_INLINE void setCorrelationDistance(PxReal f) { mCorrelationDistance = f; }
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/**
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\brief Sets the friction offset threshold
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\param[in] offset The friction offset threshold
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*/
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PX_FORCE_INLINE void setFrictionOffsetThreshold(PxReal offset) { mFrictionOffsetThreshold = offset; }
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/**
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\brief Sets the solver offset slop
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\param[in] offset The solver offset slop
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*/
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PX_FORCE_INLINE void setSolverOffsetSlop(PxReal offset) { mSolverOffsetSlop = offset; }
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/**
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\brief Sets the friction offset threshold
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\param[in] offset The friction offset threshold
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*/
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PX_FORCE_INLINE void setCCDSeparationThreshold(PxReal offset) { mCCDSeparationThreshold = offset; }
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/**
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\brief Returns the solver batch size
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\return The solver batch size.
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*/
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PX_FORCE_INLINE PxU32 getSolverBatchSize() const { return mSolverBatchSize; }
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/**
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\brief Sets the solver batch size
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\param[in] f The solver batch size
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*/
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PX_FORCE_INLINE void setSolverBatchSize(PxU32 f) { mSolverBatchSize = f; }
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/**
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\brief Returns the solver batch size
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\return The solver batch size.
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*/
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PX_FORCE_INLINE PxU32 getSolverArticBatchSize() const { return mSolverArticBatchSize; }
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/**
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\brief Sets the solver batch size
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\param[in] f The solver batch size
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*/
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PX_FORCE_INLINE void setSolverArticBatchSize(PxU32 f) { mSolverArticBatchSize = f; }
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/**
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\brief Returns the maximum solver constraint size
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\return The maximum solver constraint size in this island in bytes.
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*/
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PX_FORCE_INLINE PxU32 getMaxSolverConstraintSize() const { return mMaxSolverConstraintSize; }
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/**
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\brief Returns the friction model being used.
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\return The friction model being used.
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*/
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PX_FORCE_INLINE PxFrictionType::Enum getFrictionType() const { return mFrictionType; }
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/**
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\brief Returns the threshold stream
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\return The threshold stream
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*/
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PX_FORCE_INLINE ThresholdStream& getThresholdStream() { return *mThresholdStream; }
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PX_FORCE_INLINE ThresholdStream& getForceChangedThresholdStream() { return *mForceChangedThresholdStream; }
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/**
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\brief Returns the threshold table
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\return The threshold table
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*/
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PX_FORCE_INLINE ThresholdTable& getThresholdTable() { return mThresholdTable; }
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/**
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\brief Sets the friction model to be used.
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\param[in] f The friction model to be used.
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*/
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PX_FORCE_INLINE void setFrictionType(PxFrictionType::Enum f) { mFrictionType = f; }
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/**
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\brief Destroys this dynamics context
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*/
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virtual void destroy() = 0;
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PX_FORCE_INLINE PxcDataStreamPool& getContactStreamPool() { return mContactStreamPool; }
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PX_FORCE_INLINE PxcDataStreamPool& getPatchStreamPool() { return mPatchStreamPool; }
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PX_FORCE_INLINE PxcDataStreamPool& getForceStreamPool() { return mForceStreamPool; }
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PX_FORCE_INLINE Ps::Array<Dy::ConstraintWriteback, Ps::VirtualAllocator>& getConstraintWriteBackPool() { return mConstraintWriteBackPool; }
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/**
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\brief Returns the current frame's timestep
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\return The current frame's timestep.
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*/
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PX_FORCE_INLINE PxReal getDt() const { return mDt; }
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/**
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\brief Returns 1/(current frame's timestep)
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\return 1/(current frame's timestep).
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*/
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PX_FORCE_INLINE PxReal getInvDt() const { return mInvDt; }
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PX_FORCE_INLINE PxReal getMaxBiasCoefficient() const { return mMaxBiasCoefficient; }
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PX_FORCE_INLINE PxVec3 getGravity() const { return mGravity; }
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/**
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\brief The entry point for the constraint solver.
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\param[in] dt The simulation time-step
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\param[in] continuation The continuation task for the solver
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\param[in] processLostTouchTask The task that processes lost touches
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This method is called after the island generation has completed. Its main responsibilities are:
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(1) Reserving the solver body pools
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(2) Initializing the static and kinematic solver bodies, which are shared resources between islands.
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(3) Construct the solver task chains for each island
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Each island is solved as an independent solver task chain. In addition, large islands may be solved using multiple parallel tasks.
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Island solving is asynchronous. Once all islands have been solved, the continuation task will be called.
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*/
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virtual void update(IG::SimpleIslandManager& simpleIslandManager, PxBaseTask* continuation, PxBaseTask* processLostTouchTask,
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PxsContactManager** foundPatchManagers, PxU32 nbFoundPatchManagers, PxsContactManager** lostPatchManagers, PxU32 nbLostPatchManagers, PxU32 maxPatchesPerCM,
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PxsContactManagerOutputIterator& iterator, PxsContactManagerOutput* gpuOutputs, const PxReal dt, const PxVec3& gravity, const PxU32 bitMapWordCounts) = 0;
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virtual void processLostPatches(IG::SimpleIslandManager& simpleIslandManager, PxsContactManager** lostPatchManagers, PxU32 nbLostPatchManagers, PxsContactManagerOutputIterator& iterator) = 0;
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/**
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\brief This method copy gpu solver body data to cpu body core
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*/
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virtual void updateBodyCore(PxBaseTask* continuation) = 0;
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/**
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\brief Called after update's task chain has completed. This collects the results of the solver together
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*/
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virtual void mergeResults() = 0;
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virtual void setSimulationController(PxsSimulationController* simulationController) = 0;
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virtual void getDataStreamBase(void*& contactStreamBase, void*& patchStreamBase, void*& forceAndIndiceStreamBase) = 0;
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void createThresholdStream(Ps::VirtualAllocatorCallback& callback) { PX_ASSERT(mThresholdStream == NULL); mThresholdStream = PX_PLACEMENT_NEW(PX_ALLOC(sizeof(ThresholdStream), PX_DEBUG_EXP("ThresholdStream")), ThresholdStream(callback));}
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void createForceChangeThresholdStream(Ps::VirtualAllocatorCallback& callback) { PX_ASSERT(mForceChangedThresholdStream == NULL); mForceChangedThresholdStream = PX_PLACEMENT_NEW(PX_ALLOC(sizeof(ThresholdStream), PX_DEBUG_EXP("ThresholdStream")), ThresholdStream(callback));}
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protected:
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Context(IG::IslandSim* accurateIslandSim, Ps::VirtualAllocatorCallback* allocatorCallback,
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PxvSimStats& simStats, bool enableStabilization, bool useEnhancedDeterminism, bool useAdaptiveForce,
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const PxReal maxBiasCoefficient) :
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mThresholdStream(NULL),
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mForceChangedThresholdStream(NULL),
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mAccurateIslandSim(accurateIslandSim),
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mDt (1.0f),
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mInvDt (1.0f),
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mMaxBiasCoefficient (maxBiasCoefficient),
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mEnableStabilization (enableStabilization),
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mUseEnhancedDeterminism (useEnhancedDeterminism),
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mUseAdaptiveForce (useAdaptiveForce),
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mBounceThreshold(-2.0f),
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mSolverBatchSize(32),
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mConstraintWriteBackPool(Ps::VirtualAllocator(allocatorCallback)),
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mSimStats(simStats)
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{
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}
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virtual ~Context()
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{
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if(mThresholdStream)
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{
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mThresholdStream->~ThresholdStream();
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PX_FREE(mThresholdStream);
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}
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mThresholdStream = NULL;
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if(mForceChangedThresholdStream)
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{
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mForceChangedThresholdStream->~ThresholdStream();
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PX_FREE(mForceChangedThresholdStream);
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}
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mForceChangedThresholdStream = NULL;
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}
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ThresholdStream* mThresholdStream;
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ThresholdStream* mForceChangedThresholdStream;
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ThresholdTable mThresholdTable;
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IG::IslandSim* mAccurateIslandSim;
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PxsSimulationController* mSimulationController;
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/**
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\brief Time-step.
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*/
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PxReal mDt;
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/**
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\brief 1/time-step.
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*/
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PxReal mInvDt;
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PxReal mMaxBiasCoefficient;
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const bool mEnableStabilization;
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const bool mUseEnhancedDeterminism;
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const bool mUseAdaptiveForce;
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PxVec3 mGravity;
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/**
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\brief max solver constraint size
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*/
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PxU32 mMaxSolverConstraintSize;
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/**
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\brief Threshold controlling the relative velocity at which the solver transitions between restitution and bias for solving normal contact constraint.
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*/
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PxReal mBounceThreshold;
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/**
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\brief Threshold controlling whether friction anchors are constructed or not. If the separation is above mFrictionOffsetThreshold, the contact will not be considered to become a friction anchor
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*/
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PxReal mFrictionOffsetThreshold;
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/**
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\brief Tolerance used to zero offsets along an axis if it is below this threshold. Used to compensate for small numerical divergence inside contact gen.
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*/
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PxReal mSolverOffsetSlop;
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/**
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\brief Threshold controlling whether distant contacts are processed using bias, restitution or a combination of the two. This only has effect on pairs involving bodies that have enabled speculative CCD simulation mode.
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*/
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PxReal mCCDSeparationThreshold;
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/**
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\brief Threshold for controlling friction correlation
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*/
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PxReal mCorrelationDistance;
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/**
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\brief The minimum size of an island to generate a solver task chain.
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*/
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PxU32 mSolverBatchSize;
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/**
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\brief The minimum number of articulations required to generate a solver task chain.
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*/
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PxU32 mSolverArticBatchSize;
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/**
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\brief The current friction model being used
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*/
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PxFrictionType::Enum mFrictionType;
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/**
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\brief Structure to encapsulate contact stream allocations. Used by GPU solver to reference pre-allocated pinned host memory
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*/
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PxcDataStreamPool mContactStreamPool;
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/**
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\brief Struct to encapsulate the contact patch stream allocations. Used by GPU solver to reference pre-allocated pinned host memory
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*/
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PxcDataStreamPool mPatchStreamPool;
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/**
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\brief Structure to encapsulate force stream allocations. Used by GPU solver to reference pre-allocated pinned host memory for force reports.
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*/
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PxcDataStreamPool mForceStreamPool;
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/**
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\brief Structure to encapsulate constraint write back allocations. Used by GPU/CPU solver to reference pre-allocated pinned host memory for breakable joint reports.
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*/
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Ps::Array<Dy::ConstraintWriteback, Ps::VirtualAllocator> mConstraintWriteBackPool;
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PxvSimStats& mSimStats;
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};
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Context* createDynamicsContext( PxcNpMemBlockPool* memBlockPool,
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PxcScratchAllocator& scratchAllocator, Cm::FlushPool& taskPool,
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PxvSimStats& simStats, PxTaskManager* taskManager, Ps::VirtualAllocatorCallback* allocatorCallback, PxsMaterialManager* materialManager,
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IG::IslandSim* accurateIslandSim, PxU64 contextID,
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const bool enableStabilization, const bool useEnhancedDeterminism, const bool useAdaptiveForce, const PxReal maxBiasCoefficient,
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const bool frictionEveryIteration
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);
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Context* createTGSDynamicsContext(PxcNpMemBlockPool* memBlockPool,
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PxcScratchAllocator& scratchAllocator, Cm::FlushPool& taskPool,
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PxvSimStats& simStats, PxTaskManager* taskManager, Ps::VirtualAllocatorCallback* allocatorCallback, PxsMaterialManager* materialManager,
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IG::IslandSim* accurateIslandSim, PxU64 contextID,
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const bool enableStabilization, const bool useEnhancedDeterminism, const bool useAdaptiveForce, const PxReal lengthScale
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);
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}
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}
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#endif
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