GRK/dependencies/physx-4.1/source/lowlevel/common/include/pipeline/PxcNpThreadContext.h

//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
//  * Redistributions of source code must retain the above copyright
//    notice, this list of conditions and the following disclaimer.
//  * Redistributions in binary form must reproduce the above copyright
//    notice, this list of conditions and the following disclaimer in the
//    documentation and/or other materials provided with the distribution.
//  * Neither the name of NVIDIA CORPORATION nor the names of its
//    contributors may be used to endorse or promote products derived
//    from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
// PURPOSE ARE DISCLAIMED.  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.  


#ifndef PXC_NPTHREADCONTEXT_H
#define PXC_NPTHREADCONTEXT_H

#include "geometry/PxGeometry.h"
#include "geomutils/GuContactBuffer.h"

#include "PxvConfig.h"
#include "CmScaling.h"
#include "CmRenderOutput.h"
#include "PxcNpCacheStreamPair.h"
#include "PxcConstraintBlockStream.h"
#include "PxcThreadCoherentCache.h"
#include "CmBitMap.h"
#include "../pcm/GuPersistentContactManifold.h"

namespace physx
{

class PxsTransformCache;
class PxsMaterialManager;

namespace Sc
{
	class BodySim;
}
   
/*!
Per-thread context used by contact generation routines.
*/

struct PxcDataStreamPool
{
	PxU8* mDataStream;
	PxI32 mSharedDataIndex;
	PxU32 mDataStreamSize;
	PxU32 mSharedDataIndexGPU;

	bool isOverflown()	const
	{
		//FD: my expectaton is that reading those variables is atomic, shared indices are non-decreasing, 
		//so we can only get a false overflow alert because of concurrency issues, which is not a big deal as it means 
		//it did overflow a bit later  
		return mSharedDataIndex + mSharedDataIndexGPU >= mDataStreamSize;
	}
};

struct PxcNpContext
{
	private:
												PX_NOCOPY(PxcNpContext)
	public:

												PxcNpContext() :
													mNpMemBlockPool			(mScratchAllocator),
													mMeshContactMargin		(0.0f),
													mToleranceLength		(0.0f),
													mCreateContactStream	(false),
													mContactStreamPool		(NULL),
													mPatchStreamPool		(NULL),
													mForceAndIndiceStreamPool(NULL),
													mMaterialManager		(NULL)
												{
												}

					PxcScratchAllocator			mScratchAllocator;
					PxcNpMemBlockPool			mNpMemBlockPool;
					PxReal						mMeshContactMargin;
					PxReal						mToleranceLength;
					Cm::RenderBuffer			mRenderBuffer;
					bool						mCreateContactStream; // flag to enforce that contacts are stored persistently per workunit. Used for PVD.
					PxcDataStreamPool*			mContactStreamPool;
					PxcDataStreamPool*			mPatchStreamPool;
					PxcDataStreamPool*			mForceAndIndiceStreamPool;
					PxcDataStreamPool*			mConstraintWriteBackStreamPool;
					PxsMaterialManager*			mMaterialManager;

	PX_FORCE_INLINE	PxReal						getToleranceLength()		const	{ return mToleranceLength;					}
	PX_FORCE_INLINE	void						setToleranceLength(PxReal x)		{ mToleranceLength = x;						}
	PX_FORCE_INLINE	PxReal						getMeshContactMargin()		const	{ return mMeshContactMargin;				}
	PX_FORCE_INLINE	void						setMeshContactMargin(PxReal x)		{ mMeshContactMargin = x;					}
	PX_FORCE_INLINE	bool						getCreateContactStream()			{ return mCreateContactStream;				}

	PX_FORCE_INLINE	PxcNpMemBlockPool&			getNpMemBlockPool()					{ return mNpMemBlockPool;					}
	PX_FORCE_INLINE	const PxcNpMemBlockPool&	getNpMemBlockPool()			const	{ return mNpMemBlockPool;					}
	PX_FORCE_INLINE void						setMaterialManager(PxsMaterialManager* m){ mMaterialManager = m;				}
	PX_FORCE_INLINE PxsMaterialManager*			getMaterialManager() const			{ return mMaterialManager;					}

					Cm::RenderOutput			getRenderOutput()					{ return Cm::RenderOutput(mRenderBuffer);	}
};

class PxcNpThreadContext : public PxcThreadCoherentCache<PxcNpThreadContext, PxcNpContext>::EntryBase
{
												PX_NOCOPY(PxcNpThreadContext)
public:
												PxcNpThreadContext(PxcNpContext* params);
												~PxcNpThreadContext();

#if PX_ENABLE_SIM_STATS
					void						clearStats();
#endif

	PX_FORCE_INLINE void						setCreateContactStream(bool to)					{ mCreateContactStream = to;				}

	PX_FORCE_INLINE void						addLocalNewTouchCount(PxU32 newTouchCMCount)	{ mLocalNewTouchCount += newTouchCMCount;	}
	PX_FORCE_INLINE void						addLocalLostTouchCount(PxU32 lostTouchCMCount)	{ mLocalLostTouchCount += lostTouchCMCount;	}
	PX_FORCE_INLINE PxU32						getLocalNewTouchCount()					const	{ return mLocalNewTouchCount;				}
	PX_FORCE_INLINE PxU32						getLocalLostTouchCount()				const	{ return mLocalLostTouchCount;				}

	PX_FORCE_INLINE void						addLocalFoundPatchCount(PxU32 foundPatchCount)	{ mLocalFoundPatchCount += foundPatchCount;	}
	PX_FORCE_INLINE void						addLocalLostPatchCount(PxU32 lostPatchCount)	{ mLocalLostPatchCount += lostPatchCount;	}
	PX_FORCE_INLINE PxU32						getLocalFoundPatchCount()				const	{ return mLocalFoundPatchCount;				}
	PX_FORCE_INLINE PxU32						getLocalLostPatchCount()				const	{ return mLocalLostPatchCount;				}

	PX_FORCE_INLINE Cm::BitMap&					getLocalChangeTouch()							{ return mLocalChangeTouch;					}

	PX_FORCE_INLINE Cm::BitMap&					getLocalPatchChangeMap()						{ return mLocalPatchCountChange;			}

	void										reset(PxU32 cmCount);
	// debugging
					Cm::RenderOutput 			mRenderOutput;

	// dsequeira: Need to think about this block pool allocation a bit more. Ideally we'd be 
	// taking blocks from a single pool, except that we want to be able to selectively reclaim
	// blocks if the user needs to defragment, depending on which artifacts they're willing
	// to tolerate, such that the blocks we don't reclaim are contiguous.
#if PX_ENABLE_SIM_STATS
					PxU32						mDiscreteContactPairs	[PxGeometryType::eGEOMETRY_COUNT][PxGeometryType::eGEOMETRY_COUNT];
					PxU32						mModifiedContactPairs	[PxGeometryType::eGEOMETRY_COUNT][PxGeometryType::eGEOMETRY_COUNT];
#endif
					PxcContactBlockStream 		mContactBlockStream;		// constraint block pool
					PxcNpCacheStreamPair		mNpCacheStreamPair;			// narrow phase pairwise data cache

	// Everything below here is scratch state. Most of it can even overlap.

	// temporary contact buffer
					Gu::ContactBuffer			mContactBuffer;    

	PX_ALIGN(16, Gu::MultiplePersistentContactManifold		mTempManifold); 

					Gu::NarrowPhaseParams		mNarrowPhaseParams;

	// DS: this stuff got moved here from the PxcNpPairContext. As Pierre says:
	////////// PT: those members shouldn't be there in the end, it's not necessary
					Ps::Array<Sc::BodySim*>		mBodySimPool;
					PxsTransformCache*			mTransformCache;
					PxReal*						mContactDistance;
					bool						mPCM;
					bool						mContactCache;
					bool						mCreateContactStream;	// flag to enforce that contacts are stored persistently per workunit. Used for PVD.
					bool						mCreateAveragePoint;	// flag to enforce whether we create average points
#if PX_ENABLE_SIM_STATS
					PxU32						mCompressedCacheSize;
					PxU32						mNbDiscreteContactPairsWithCacheHits;
					PxU32						mNbDiscreteContactPairsWithContacts;
#endif
					PxReal						mDt; // AP: still needed for ccd
					PxU32						mCCDPass;
					PxU32						mCCDFaceIndex;

					PxU32						mMaxPatches;
					//PxU32						mTotalContactCount;
					PxU32						mTotalCompressedCacheSize;
					//PxU32						mTotalPatchCount;

					PxcDataStreamPool*			mContactStreamPool;
					PxcDataStreamPool*			mPatchStreamPool;
					PxcDataStreamPool*			mForceAndIndiceStreamPool; //this stream is used to store the force buffer and triangle index if we are performing mesh/heightfield contact gen
					PxcDataStreamPool*			mConstraintWriteBackStreamPool;
					PxsMaterialManager*			mMaterialManager;
private:
		// change touch handling.
					Cm::BitMap					mLocalChangeTouch;
					Cm::BitMap					mLocalPatchCountChange;
					PxU32						mLocalNewTouchCount;
					PxU32						mLocalLostTouchCount;
					PxU32						mLocalFoundPatchCount;
					PxU32						mLocalLostPatchCount;
};

}

#endif
master 2022-01-12 16:07:16 +01:00			`//`
			`// Redistribution and use in source and binary forms, with or without`
			`// modification, are permitted provided that the following conditions`
			`// are met:`
			`// * Redistributions of source code must retain the above copyright`
			`// notice, this list of conditions and the following disclaimer.`
			`// * Redistributions in binary form must reproduce the above copyright`
			`// notice, this list of conditions and the following disclaimer in the`
			`// documentation and/or other materials provided with the distribution.`
			`// * Neither the name of NVIDIA CORPORATION nor the names of its`
			`// contributors may be used to endorse or promote products derived`
			`// from this software without specific prior written permission.`
			`//`
			// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
			`// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE`
			`// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR`
			`// PURPOSE ARE DISCLAIMED. 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.`


			`#ifndef PXC_NPTHREADCONTEXT_H`
			`#define PXC_NPTHREADCONTEXT_H`

			`#include "geometry/PxGeometry.h"`
			`#include "geomutils/GuContactBuffer.h"`

			`#include "PxvConfig.h"`
			`#include "CmScaling.h"`
			`#include "CmRenderOutput.h"`
			`#include "PxcNpCacheStreamPair.h"`
			`#include "PxcConstraintBlockStream.h"`
			`#include "PxcThreadCoherentCache.h"`
			`#include "CmBitMap.h"`
			`#include "../pcm/GuPersistentContactManifold.h"`

			`namespace physx`
			`{`

			`class PxsTransformCache;`
			`class PxsMaterialManager;`

			`namespace Sc`
			`{`
			`class BodySim;`
			`}`

			`/*!`
			`Per-thread context used by contact generation routines.`
			`*/`

			`struct PxcDataStreamPool`
			`{`
			`PxU8* mDataStream;`
			`PxI32 mSharedDataIndex;`
			`PxU32 mDataStreamSize;`
			`PxU32 mSharedDataIndexGPU;`

			`bool isOverflown() const`
			`{`
			`//FD: my expectaton is that reading those variables is atomic, shared indices are non-decreasing,`
			`//so we can only get a false overflow alert because of concurrency issues, which is not a big deal as it means`
			`//it did overflow a bit later`
			`return mSharedDataIndex + mSharedDataIndexGPU >= mDataStreamSize;`
			`}`
			`};`

			`struct PxcNpContext`
			`{`
			`private:`
			`PX_NOCOPY(PxcNpContext)`
			`public:`

			`PxcNpContext() :`
			`mNpMemBlockPool (mScratchAllocator),`
			`mMeshContactMargin (0.0f),`
			`mToleranceLength (0.0f),`
			`mCreateContactStream (false),`
			`mContactStreamPool (NULL),`
			`mPatchStreamPool (NULL),`
			`mForceAndIndiceStreamPool(NULL),`
			`mMaterialManager (NULL)`
			`{`
			`}`

			`PxcScratchAllocator mScratchAllocator;`
			`PxcNpMemBlockPool mNpMemBlockPool;`
			`PxReal mMeshContactMargin;`
			`PxReal mToleranceLength;`
			`Cm::RenderBuffer mRenderBuffer;`
			`bool mCreateContactStream; // flag to enforce that contacts are stored persistently per workunit. Used for PVD.`
			`PxcDataStreamPool* mContactStreamPool;`
			`PxcDataStreamPool* mPatchStreamPool;`
			`PxcDataStreamPool* mForceAndIndiceStreamPool;`
			`PxcDataStreamPool* mConstraintWriteBackStreamPool;`
			`PxsMaterialManager* mMaterialManager;`

			`PX_FORCE_INLINE PxReal getToleranceLength() const { return mToleranceLength; }`
			`PX_FORCE_INLINE void setToleranceLength(PxReal x) { mToleranceLength = x; }`
			`PX_FORCE_INLINE PxReal getMeshContactMargin() const { return mMeshContactMargin; }`
			`PX_FORCE_INLINE void setMeshContactMargin(PxReal x) { mMeshContactMargin = x; }`
			`PX_FORCE_INLINE bool getCreateContactStream() { return mCreateContactStream; }`

			`PX_FORCE_INLINE PxcNpMemBlockPool& getNpMemBlockPool() { return mNpMemBlockPool; }`
			`PX_FORCE_INLINE const PxcNpMemBlockPool& getNpMemBlockPool() const { return mNpMemBlockPool; }`
			`PX_FORCE_INLINE void setMaterialManager(PxsMaterialManager* m){ mMaterialManager = m; }`
			`PX_FORCE_INLINE PxsMaterialManager* getMaterialManager() const { return mMaterialManager; }`

			`Cm::RenderOutput getRenderOutput() { return Cm::RenderOutput(mRenderBuffer); }`
			`};`

			`class PxcNpThreadContext : public PxcThreadCoherentCache<PxcNpThreadContext, PxcNpContext>::EntryBase`
			`{`
			`PX_NOCOPY(PxcNpThreadContext)`
			`public:`
			`PxcNpThreadContext(PxcNpContext* params);`
			`~PxcNpThreadContext();`

			`#if PX_ENABLE_SIM_STATS`
			`void clearStats();`
			`#endif`

			`PX_FORCE_INLINE void setCreateContactStream(bool to) { mCreateContactStream = to; }`

			`PX_FORCE_INLINE void addLocalNewTouchCount(PxU32 newTouchCMCount) { mLocalNewTouchCount += newTouchCMCount; }`
			`PX_FORCE_INLINE void addLocalLostTouchCount(PxU32 lostTouchCMCount) { mLocalLostTouchCount += lostTouchCMCount; }`
			`PX_FORCE_INLINE PxU32 getLocalNewTouchCount() const { return mLocalNewTouchCount; }`
			`PX_FORCE_INLINE PxU32 getLocalLostTouchCount() const { return mLocalLostTouchCount; }`

			`PX_FORCE_INLINE void addLocalFoundPatchCount(PxU32 foundPatchCount) { mLocalFoundPatchCount += foundPatchCount; }`
			`PX_FORCE_INLINE void addLocalLostPatchCount(PxU32 lostPatchCount) { mLocalLostPatchCount += lostPatchCount; }`
			`PX_FORCE_INLINE PxU32 getLocalFoundPatchCount() const { return mLocalFoundPatchCount; }`
			`PX_FORCE_INLINE PxU32 getLocalLostPatchCount() const { return mLocalLostPatchCount; }`

			`PX_FORCE_INLINE Cm::BitMap& getLocalChangeTouch() { return mLocalChangeTouch; }`

			`PX_FORCE_INLINE Cm::BitMap& getLocalPatchChangeMap() { return mLocalPatchCountChange; }`

			`void reset(PxU32 cmCount);`
			`// debugging`
			`Cm::RenderOutput mRenderOutput;`

			`// dsequeira: Need to think about this block pool allocation a bit more. Ideally we'd be`
			`// taking blocks from a single pool, except that we want to be able to selectively reclaim`
			`// blocks if the user needs to defragment, depending on which artifacts they're willing`
			`// to tolerate, such that the blocks we don't reclaim are contiguous.`
			`#if PX_ENABLE_SIM_STATS`
			`PxU32 mDiscreteContactPairs [PxGeometryType::eGEOMETRY_COUNT][PxGeometryType::eGEOMETRY_COUNT];`
			`PxU32 mModifiedContactPairs [PxGeometryType::eGEOMETRY_COUNT][PxGeometryType::eGEOMETRY_COUNT];`
			`#endif`
			`PxcContactBlockStream mContactBlockStream; // constraint block pool`
			`PxcNpCacheStreamPair mNpCacheStreamPair; // narrow phase pairwise data cache`

			`// Everything below here is scratch state. Most of it can even overlap.`

			`// temporary contact buffer`
			`Gu::ContactBuffer mContactBuffer;`

			`PX_ALIGN(16, Gu::MultiplePersistentContactManifold mTempManifold);`

			`Gu::NarrowPhaseParams mNarrowPhaseParams;`

			`// DS: this stuff got moved here from the PxcNpPairContext. As Pierre says:`
			`////////// PT: those members shouldn't be there in the end, it's not necessary`
			`Ps::Array<Sc::BodySim*> mBodySimPool;`
			`PxsTransformCache* mTransformCache;`
			`PxReal* mContactDistance;`
			`bool mPCM;`
			`bool mContactCache;`
			`bool mCreateContactStream; // flag to enforce that contacts are stored persistently per workunit. Used for PVD.`
			`bool mCreateAveragePoint; // flag to enforce whether we create average points`
			`#if PX_ENABLE_SIM_STATS`
			`PxU32 mCompressedCacheSize;`
			`PxU32 mNbDiscreteContactPairsWithCacheHits;`
			`PxU32 mNbDiscreteContactPairsWithContacts;`
			`#endif`
			`PxReal mDt; // AP: still needed for ccd`
			`PxU32 mCCDPass;`
			`PxU32 mCCDFaceIndex;`

			`PxU32 mMaxPatches;`
			`//PxU32 mTotalContactCount;`
			`PxU32 mTotalCompressedCacheSize;`
			`//PxU32 mTotalPatchCount;`

			`PxcDataStreamPool* mContactStreamPool;`
			`PxcDataStreamPool* mPatchStreamPool;`
			`PxcDataStreamPool* mForceAndIndiceStreamPool; //this stream is used to store the force buffer and triangle index if we are performing mesh/heightfield contact gen`
			`PxcDataStreamPool* mConstraintWriteBackStreamPool;`
			`PxsMaterialManager* mMaterialManager;`
			`private:`
			`// change touch handling.`
			`Cm::BitMap mLocalChangeTouch;`
			`Cm::BitMap mLocalPatchCountChange;`
			`PxU32 mLocalNewTouchCount;`
			`PxU32 mLocalLostTouchCount;`
			`PxU32 mLocalFoundPatchCount;`
			`PxU32 mLocalLostPatchCount;`
			`};`

			`}`

			`#endif`