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486 lines
18 KiB
C++
486 lines
18 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//=====================================================================================//
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#include "cbase.h"
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#include "StaticCollisionPolyhedronCache.h"
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#include "engine/IEngineTrace.h"
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#include "edict.h"
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#include "tier0/memdbgon.h"
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class CPolyhedron_LumpedMemory : public CPolyhedron //we'll be allocating one big chunk of memory for all our polyhedrons. No individual will own any memory.
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{
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public:
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virtual void Release( void ) { };
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static CPolyhedron_LumpedMemory *AllocateAt( void *pMemory, int iVertices, int iLines, int iIndices, int iPolygons )
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{
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#include "tier0/memdbgoff.h" //the following placement new doesn't compile with memory debugging
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CPolyhedron_LumpedMemory *pAllocated = new ( pMemory ) CPolyhedron_LumpedMemory;
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#include "tier0/memdbgon.h"
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pAllocated->iVertexCount = iVertices;
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pAllocated->iLineCount = iLines;
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pAllocated->iIndexCount = iIndices;
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pAllocated->iPolygonCount = iPolygons;
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pAllocated->pVertices = (Vector *)(pAllocated + 1); //start vertex memory at the end of the class
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pAllocated->pLines = (Polyhedron_IndexedLine_t *)(pAllocated->pVertices + iVertices);
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pAllocated->pIndices = (Polyhedron_IndexedLineReference_t *)(pAllocated->pLines + iLines);
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pAllocated->pPolygons = (Polyhedron_IndexedPolygon_t *)(pAllocated->pIndices + iIndices);
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return pAllocated;
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}
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};
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static uint8 *s_BrushPolyhedronMemory = NULL;
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static uint8 *s_StaticPropPolyhedronMemory = NULL;
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CStaticCollisionPolyhedronCache g_StaticCollisionPolyhedronCache;
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typedef ICollideable *ICollideablePtr; //needed for key comparison function syntax
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static bool CollideablePtr_KeyCompareFunc( const ICollideablePtr &a, const ICollideablePtr &b )
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{
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return a < b;
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};
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CStaticCollisionPolyhedronCache::CStaticCollisionPolyhedronCache( void )
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: m_CollideableIndicesMap( CollideablePtr_KeyCompareFunc )
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{
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}
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CStaticCollisionPolyhedronCache::~CStaticCollisionPolyhedronCache( void )
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{
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Clear();
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}
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void CStaticCollisionPolyhedronCache::LevelInitPreEntity( void )
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{
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// FIXME: Fast updates would be nice but this method doesn't work with the recent changes to standard containers.
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// For now we're going with the quick fix of always doing a full update. -Jeep
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// if( Q_stricmp( m_CachedMap, MapName() ) != 0 )
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// {
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// // New map or the last load was a transition, fully update the cache
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// m_CachedMap.Set( MapName() );
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Update();
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// }
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// else
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// {
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// // No need for a full update, but we need to remap static prop ICollideable's in the old system to the new system
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// for( int i = m_CollideableIndicesMap.Count(); --i >= 0; )
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// {
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//#ifdef _DEBUG
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// StaticPropPolyhedronCacheInfo_t cacheInfo = m_CollideableIndicesMap.Element(i);
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//#endif
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// m_CollideableIndicesMap.Reinsert( staticpropmgr->GetStaticPropByIndex( m_CollideableIndicesMap.Element(i).iStaticPropIndex ), i );
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//
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// Assert( (m_CollideableIndicesMap.Element(i).iStartIndex == cacheInfo.iStartIndex) &&
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// (m_CollideableIndicesMap.Element(i).iNumPolyhedrons == cacheInfo.iNumPolyhedrons) &&
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// (m_CollideableIndicesMap.Element(i).iStaticPropIndex == cacheInfo.iStaticPropIndex) ); //I'm assuming this doesn't cause a reindex of the unordered list, if it does then this needs to be rewritten
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// }
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// }
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}
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void CStaticCollisionPolyhedronCache::Shutdown( void )
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{
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Clear();
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}
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void CStaticCollisionPolyhedronCache::Clear( void )
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{
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//The uses one big lump of memory to store polyhedrons. No need to Release() the polyhedrons.
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//Brushes
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{
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m_BrushPolyhedrons.RemoveAll();
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if( s_BrushPolyhedronMemory != NULL )
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{
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delete []s_BrushPolyhedronMemory;
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s_BrushPolyhedronMemory = NULL;
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}
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}
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//Static props
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{
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m_CollideableIndicesMap.RemoveAll();
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m_StaticPropPolyhedrons.RemoveAll();
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if( s_StaticPropPolyhedronMemory != NULL )
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{
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delete []s_StaticPropPolyhedronMemory;
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s_StaticPropPolyhedronMemory = NULL;
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}
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}
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}
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void CStaticCollisionPolyhedronCache::Update( void )
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{
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Clear();
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//There's no efficient way to know exactly how much memory we'll need to cache off all these polyhedrons.
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//So we're going to allocated temporary workspaces as we need them and consolidate into one allocation at the end.
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const size_t workSpaceSize = 1024 * 1024; //1MB. Fairly arbitrary size for a workspace. Brushes usually use 1-3MB in the end. Static props usually use about half as much as brushes.
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uint8 *workSpaceAllocations[256];
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size_t usedSpaceInWorkspace[256];
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unsigned int workSpacesAllocated = 0;
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uint8 *pCurrentWorkSpace = new uint8 [workSpaceSize];
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size_t roomLeftInWorkSpace = workSpaceSize;
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workSpaceAllocations[workSpacesAllocated] = pCurrentWorkSpace;
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usedSpaceInWorkspace[workSpacesAllocated] = 0;
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++workSpacesAllocated;
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//brushes
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{
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int iBrush = 0;
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CUtlVector<Vector4D> Planes;
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float fStackPlanes[4 * 400]; //400 is a crapload of planes in my opinion
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while( enginetrace->GetBrushInfo( iBrush, &Planes, NULL ) )
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{
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int iPlaneCount = Planes.Count();
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AssertMsg( iPlaneCount != 0, "A brush with no planes???????" );
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const Vector4D *pReturnedPlanes = Planes.Base();
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CPolyhedron *pTempPolyhedron;
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if( iPlaneCount > 400 )
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{
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// o_O, we'll have to get more memory to transform this brush
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float *pNonstackPlanes = new float [4 * iPlaneCount];
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for( int i = 0; i != iPlaneCount; ++i )
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{
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pNonstackPlanes[(i * 4) + 0] = pReturnedPlanes[i].x;
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pNonstackPlanes[(i * 4) + 1] = pReturnedPlanes[i].y;
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pNonstackPlanes[(i * 4) + 2] = pReturnedPlanes[i].z;
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pNonstackPlanes[(i * 4) + 3] = pReturnedPlanes[i].w;
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}
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pTempPolyhedron = GeneratePolyhedronFromPlanes( pNonstackPlanes, iPlaneCount, 0.01f, true );
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delete []pNonstackPlanes;
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}
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else
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{
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for( int i = 0; i != iPlaneCount; ++i )
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{
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fStackPlanes[(i * 4) + 0] = pReturnedPlanes[i].x;
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fStackPlanes[(i * 4) + 1] = pReturnedPlanes[i].y;
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fStackPlanes[(i * 4) + 2] = pReturnedPlanes[i].z;
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fStackPlanes[(i * 4) + 3] = pReturnedPlanes[i].w;
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}
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pTempPolyhedron = GeneratePolyhedronFromPlanes( fStackPlanes, iPlaneCount, 0.01f, true );
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}
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if( pTempPolyhedron )
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{
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size_t memRequired = (sizeof( CPolyhedron_LumpedMemory )) +
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(sizeof( Vector ) * pTempPolyhedron->iVertexCount) +
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(sizeof( Polyhedron_IndexedLine_t ) * pTempPolyhedron->iLineCount) +
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(sizeof( Polyhedron_IndexedLineReference_t ) * pTempPolyhedron->iIndexCount) +
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(sizeof( Polyhedron_IndexedPolygon_t ) * pTempPolyhedron->iPolygonCount);
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Assert( memRequired < workSpaceSize );
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if( roomLeftInWorkSpace < memRequired )
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{
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usedSpaceInWorkspace[workSpacesAllocated - 1] = workSpaceSize - roomLeftInWorkSpace;
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pCurrentWorkSpace = new uint8 [workSpaceSize];
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roomLeftInWorkSpace = workSpaceSize;
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workSpaceAllocations[workSpacesAllocated] = pCurrentWorkSpace;
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usedSpaceInWorkspace[workSpacesAllocated] = 0;
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++workSpacesAllocated;
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}
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CPolyhedron *pWorkSpacePolyhedron = CPolyhedron_LumpedMemory::AllocateAt( pCurrentWorkSpace,
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pTempPolyhedron->iVertexCount,
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pTempPolyhedron->iLineCount,
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pTempPolyhedron->iIndexCount,
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pTempPolyhedron->iPolygonCount );
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pCurrentWorkSpace += memRequired;
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roomLeftInWorkSpace -= memRequired;
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memcpy( pWorkSpacePolyhedron->pVertices, pTempPolyhedron->pVertices, pTempPolyhedron->iVertexCount * sizeof( Vector ) );
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memcpy( pWorkSpacePolyhedron->pLines, pTempPolyhedron->pLines, pTempPolyhedron->iLineCount * sizeof( Polyhedron_IndexedLine_t ) );
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memcpy( pWorkSpacePolyhedron->pIndices, pTempPolyhedron->pIndices, pTempPolyhedron->iIndexCount * sizeof( Polyhedron_IndexedLineReference_t ) );
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memcpy( pWorkSpacePolyhedron->pPolygons, pTempPolyhedron->pPolygons, pTempPolyhedron->iPolygonCount * sizeof( Polyhedron_IndexedPolygon_t ) );
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m_BrushPolyhedrons.AddToTail( pWorkSpacePolyhedron );
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pTempPolyhedron->Release();
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}
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else
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{
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m_BrushPolyhedrons.AddToTail( NULL );
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}
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++iBrush;
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}
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usedSpaceInWorkspace[workSpacesAllocated - 1] = workSpaceSize - roomLeftInWorkSpace;
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if( usedSpaceInWorkspace[0] != 0 ) //At least a little bit of memory was used.
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{
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//consolidate workspaces into a single memory chunk
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size_t totalMemoryNeeded = 0;
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for( unsigned int i = 0; i != workSpacesAllocated; ++i )
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{
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totalMemoryNeeded += usedSpaceInWorkspace[i];
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}
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uint8 *pFinalDest = new uint8 [totalMemoryNeeded];
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s_BrushPolyhedronMemory = pFinalDest;
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DevMsg( 2, "CStaticCollisionPolyhedronCache: Used %.2f KB to cache %d brush polyhedrons.\n", ((float)totalMemoryNeeded) / 1024.0f, m_BrushPolyhedrons.Count() );
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int iCount = m_BrushPolyhedrons.Count();
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for( int i = 0; i != iCount; ++i )
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{
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CPolyhedron_LumpedMemory *pSource = (CPolyhedron_LumpedMemory *)m_BrushPolyhedrons[i];
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if( pSource == NULL )
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continue;
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size_t memRequired = (sizeof( CPolyhedron_LumpedMemory )) +
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(sizeof( Vector ) * pSource->iVertexCount) +
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(sizeof( Polyhedron_IndexedLine_t ) * pSource->iLineCount) +
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(sizeof( Polyhedron_IndexedLineReference_t ) * pSource->iIndexCount) +
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(sizeof( Polyhedron_IndexedPolygon_t ) * pSource->iPolygonCount);
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CPolyhedron_LumpedMemory *pDest = (CPolyhedron_LumpedMemory *)pFinalDest;
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m_BrushPolyhedrons[i] = pDest;
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pFinalDest += memRequired;
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int memoryOffset = ((uint8 *)pDest) - ((uint8 *)pSource);
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memcpy( pDest, pSource, memRequired );
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//move all the pointers to their new location.
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pDest->pVertices = (Vector *)(((uint8 *)(pDest->pVertices)) + memoryOffset);
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pDest->pLines = (Polyhedron_IndexedLine_t *)(((uint8 *)(pDest->pLines)) + memoryOffset);
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pDest->pIndices = (Polyhedron_IndexedLineReference_t *)(((uint8 *)(pDest->pIndices)) + memoryOffset);
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pDest->pPolygons = (Polyhedron_IndexedPolygon_t *)(((uint8 *)(pDest->pPolygons)) + memoryOffset);
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}
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}
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}
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unsigned int iBrushWorkSpaces = workSpacesAllocated;
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workSpacesAllocated = 1;
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pCurrentWorkSpace = workSpaceAllocations[0];
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usedSpaceInWorkspace[0] = 0;
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roomLeftInWorkSpace = workSpaceSize;
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//static props
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{
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CUtlVector<ICollideable *> StaticPropCollideables;
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staticpropmgr->GetAllStaticProps( &StaticPropCollideables );
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if( StaticPropCollideables.Count() != 0 )
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{
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ICollideable **pCollideables = StaticPropCollideables.Base();
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ICollideable **pStop = pCollideables + StaticPropCollideables.Count();
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int iStaticPropIndex = 0;
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do
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{
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ICollideable *pProp = *pCollideables;
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vcollide_t *pCollide = modelinfo->GetVCollide( pProp->GetCollisionModel() );
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StaticPropPolyhedronCacheInfo_t cacheInfo;
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cacheInfo.iStartIndex = m_StaticPropPolyhedrons.Count();
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if( pCollide != NULL )
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{
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VMatrix matToWorldPosition = pProp->CollisionToWorldTransform();
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for( int i = 0; i != pCollide->solidCount; ++i )
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{
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CPhysConvex *ConvexesArray[1024];
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int iConvexes = physcollision->GetConvexesUsedInCollideable( pCollide->solids[i], ConvexesArray, 1024 );
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for( int j = 0; j != iConvexes; ++j )
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{
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CPolyhedron *pTempPolyhedron = physcollision->PolyhedronFromConvex( ConvexesArray[j], true );
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if( pTempPolyhedron )
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{
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for( int iPointCounter = 0; iPointCounter != pTempPolyhedron->iVertexCount; ++iPointCounter )
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pTempPolyhedron->pVertices[iPointCounter] = matToWorldPosition * pTempPolyhedron->pVertices[iPointCounter];
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for( int iPolyCounter = 0; iPolyCounter != pTempPolyhedron->iPolygonCount; ++iPolyCounter )
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pTempPolyhedron->pPolygons[iPolyCounter].polyNormal = matToWorldPosition.ApplyRotation( pTempPolyhedron->pPolygons[iPolyCounter].polyNormal );
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size_t memRequired = (sizeof( CPolyhedron_LumpedMemory )) +
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(sizeof( Vector ) * pTempPolyhedron->iVertexCount) +
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(sizeof( Polyhedron_IndexedLine_t ) * pTempPolyhedron->iLineCount) +
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(sizeof( Polyhedron_IndexedLineReference_t ) * pTempPolyhedron->iIndexCount) +
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(sizeof( Polyhedron_IndexedPolygon_t ) * pTempPolyhedron->iPolygonCount);
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Assert( memRequired < workSpaceSize );
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if( roomLeftInWorkSpace < memRequired )
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{
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usedSpaceInWorkspace[workSpacesAllocated - 1] = workSpaceSize - roomLeftInWorkSpace;
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if( workSpacesAllocated < iBrushWorkSpaces )
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{
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//re-use a workspace already allocated during brush polyhedron conversion
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pCurrentWorkSpace = workSpaceAllocations[workSpacesAllocated];
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usedSpaceInWorkspace[workSpacesAllocated] = 0;
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}
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else
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{
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//allocate a new workspace
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pCurrentWorkSpace = new uint8 [workSpaceSize];
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workSpaceAllocations[workSpacesAllocated] = pCurrentWorkSpace;
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usedSpaceInWorkspace[workSpacesAllocated] = 0;
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}
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roomLeftInWorkSpace = workSpaceSize;
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++workSpacesAllocated;
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}
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CPolyhedron *pWorkSpacePolyhedron = CPolyhedron_LumpedMemory::AllocateAt( pCurrentWorkSpace,
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pTempPolyhedron->iVertexCount,
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pTempPolyhedron->iLineCount,
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pTempPolyhedron->iIndexCount,
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pTempPolyhedron->iPolygonCount );
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pCurrentWorkSpace += memRequired;
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roomLeftInWorkSpace -= memRequired;
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memcpy( pWorkSpacePolyhedron->pVertices, pTempPolyhedron->pVertices, pTempPolyhedron->iVertexCount * sizeof( Vector ) );
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memcpy( pWorkSpacePolyhedron->pLines, pTempPolyhedron->pLines, pTempPolyhedron->iLineCount * sizeof( Polyhedron_IndexedLine_t ) );
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memcpy( pWorkSpacePolyhedron->pIndices, pTempPolyhedron->pIndices, pTempPolyhedron->iIndexCount * sizeof( Polyhedron_IndexedLineReference_t ) );
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memcpy( pWorkSpacePolyhedron->pPolygons, pTempPolyhedron->pPolygons, pTempPolyhedron->iPolygonCount * sizeof( Polyhedron_IndexedPolygon_t ) );
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m_StaticPropPolyhedrons.AddToTail( pWorkSpacePolyhedron );
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#ifdef _DEBUG
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CPhysConvex *pConvex = physcollision->ConvexFromConvexPolyhedron( *pTempPolyhedron );
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AssertMsg( pConvex != NULL, "Conversion from Convex to Polyhedron was unreversable" );
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if( pConvex )
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{
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physcollision->ConvexFree( pConvex );
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}
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#endif
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pTempPolyhedron->Release();
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}
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}
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}
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cacheInfo.iNumPolyhedrons = m_StaticPropPolyhedrons.Count() - cacheInfo.iStartIndex;
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cacheInfo.iStaticPropIndex = iStaticPropIndex;
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Assert( staticpropmgr->GetStaticPropByIndex( iStaticPropIndex ) == pProp );
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m_CollideableIndicesMap.InsertOrReplace( pProp, cacheInfo );
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}
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++iStaticPropIndex;
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++pCollideables;
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} while( pCollideables != pStop );
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usedSpaceInWorkspace[workSpacesAllocated - 1] = workSpaceSize - roomLeftInWorkSpace;
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if( usedSpaceInWorkspace[0] != 0 ) //At least a little bit of memory was used.
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{
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//consolidate workspaces into a single memory chunk
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size_t totalMemoryNeeded = 0;
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for( unsigned int i = 0; i != workSpacesAllocated; ++i )
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{
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totalMemoryNeeded += usedSpaceInWorkspace[i];
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}
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uint8 *pFinalDest = new uint8 [totalMemoryNeeded];
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s_StaticPropPolyhedronMemory = pFinalDest;
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DevMsg( 2, "CStaticCollisionPolyhedronCache: Used %.2f KB to cache %d static prop polyhedrons.\n", ((float)totalMemoryNeeded) / 1024.0f, m_StaticPropPolyhedrons.Count() );
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int iCount = m_StaticPropPolyhedrons.Count();
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for( int i = 0; i != iCount; ++i )
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{
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CPolyhedron_LumpedMemory *pSource = (CPolyhedron_LumpedMemory *)m_StaticPropPolyhedrons[i];
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size_t memRequired = (sizeof( CPolyhedron_LumpedMemory )) +
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(sizeof( Vector ) * pSource->iVertexCount) +
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(sizeof( Polyhedron_IndexedLine_t ) * pSource->iLineCount) +
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(sizeof( Polyhedron_IndexedLineReference_t ) * pSource->iIndexCount) +
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(sizeof( Polyhedron_IndexedPolygon_t ) * pSource->iPolygonCount);
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CPolyhedron_LumpedMemory *pDest = (CPolyhedron_LumpedMemory *)pFinalDest;
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m_StaticPropPolyhedrons[i] = pDest;
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pFinalDest += memRequired;
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int memoryOffset = ((uint8 *)pDest) - ((uint8 *)pSource);
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memcpy( pDest, pSource, memRequired );
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//move all the pointers to their new location.
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pDest->pVertices = (Vector *)(((uint8 *)(pDest->pVertices)) + memoryOffset);
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pDest->pLines = (Polyhedron_IndexedLine_t *)(((uint8 *)(pDest->pLines)) + memoryOffset);
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pDest->pIndices = (Polyhedron_IndexedLineReference_t *)(((uint8 *)(pDest->pIndices)) + memoryOffset);
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pDest->pPolygons = (Polyhedron_IndexedPolygon_t *)(((uint8 *)(pDest->pPolygons)) + memoryOffset);
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}
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}
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}
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}
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if( iBrushWorkSpaces > workSpacesAllocated )
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workSpacesAllocated = iBrushWorkSpaces;
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for( unsigned int i = 0; i != workSpacesAllocated; ++i )
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{
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delete []workSpaceAllocations[i];
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}
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}
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const CPolyhedron *CStaticCollisionPolyhedronCache::GetBrushPolyhedron( int iBrushNumber )
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{
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Assert( iBrushNumber < m_BrushPolyhedrons.Count() );
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if( (iBrushNumber < 0) || (iBrushNumber >= m_BrushPolyhedrons.Count()) )
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return NULL;
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return m_BrushPolyhedrons[iBrushNumber];
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}
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int CStaticCollisionPolyhedronCache::GetStaticPropPolyhedrons( ICollideable *pStaticProp, CPolyhedron **pOutputPolyhedronArray, int iOutputArraySize )
|
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{
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unsigned short iPropIndex = m_CollideableIndicesMap.Find( pStaticProp );
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if( !m_CollideableIndicesMap.IsValidIndex( iPropIndex ) ) //static prop never made it into the cache for some reason (specifically no collision data when this workaround was written)
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return 0;
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|
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StaticPropPolyhedronCacheInfo_t cacheInfo = m_CollideableIndicesMap.Element( iPropIndex );
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if( cacheInfo.iNumPolyhedrons < iOutputArraySize )
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|
iOutputArraySize = cacheInfo.iNumPolyhedrons;
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for( int i = cacheInfo.iStartIndex, iWriteIndex = 0; iWriteIndex != iOutputArraySize; ++i, ++iWriteIndex )
|
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{
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|
pOutputPolyhedronArray[iWriteIndex] = m_StaticPropPolyhedrons[i];
|
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}
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|
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return iOutputArraySize;
|
|
}
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