source-engine/public/disp_tesselate.h

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: 
//
// $NoKeywords: $
//=============================================================================//

#ifndef DISP_TESSELATE_H
#define DISP_TESSELATE_H
#ifdef _WIN32
#pragma once
#endif


#include "disp_powerinfo.h"


inline int InternalVertIndex( const CPowerInfo *pInfo, const CVertIndex &vert )
{
	return vert.y * pInfo->m_SideLength + vert.x;	
}


template< class TesselateHelper >
inline void InternalEndTriangle( 
	TesselateHelper *pHelper,
	CVertIndex const &nodeIndex, 
	int &iCurTriVert )
{
	// End our current triangle here.
	Assert( iCurTriVert == 2 );
	
	// Finish the triangle.
	pHelper->m_TempIndices[2] = (unsigned short)InternalVertIndex( pHelper->m_pPowerInfo, nodeIndex ); 

	pHelper->EndTriangle();

	// Add on the last vertex to join to the next triangle.
	pHelper->m_TempIndices[0] = pHelper->m_TempIndices[1];
	iCurTriVert = 1;
}


//-----------------------------------------------------------------------------
// Tesselates a single node, doesn't deal with hierarchy
//-----------------------------------------------------------------------------
template< class TesselateHelper >
inline void TesselateDisplacementNode( 
	TesselateHelper *pHelper,
	CVertIndex const &nodeIndex, 
	int iLevel, 
	int *pActiveChildren )
{
	int iPower = pHelper->m_pPowerInfo->m_Power - iLevel;
	int vertInc = 1 << (iPower - 1);

	CTesselateWinding *pWinding = &g_TWinding;

	// Starting at the bottom-left, wind clockwise picking up vertices and
	// generating triangles.
	int iCurTriVert = 0;
	for( int iVert=0; iVert < pWinding->m_nVerts; iVert++ )
	{
		CVertIndex sideVert = BuildOffsetVertIndex( nodeIndex, pWinding->m_Verts[iVert].m_Index, vertInc );
		
		int iVertNode = pWinding->m_Verts[iVert].m_iNode;
		bool bNode = (iVertNode != -1) && pActiveChildren[iVertNode];
		if( bNode )
		{
			if( iCurTriVert == 2 )
				InternalEndTriangle( pHelper, nodeIndex, iCurTriVert );
			
			iCurTriVert = 0;
		}
		else
		{
			int iVertBit = InternalVertIndex( pHelper->m_pPowerInfo, sideVert );
			if( pHelper->m_pActiveVerts[iVertBit>>5] & (1 << (iVertBit & 31)) )
			{
				// Ok, add a vert here.
				pHelper->m_TempIndices[iCurTriVert] = (unsigned short)InternalVertIndex( pHelper->m_pPowerInfo, sideVert );
				iCurTriVert++;
				if( iCurTriVert == 2 )
					InternalEndTriangle( pHelper, nodeIndex, iCurTriVert );
			}
		}
	}
}


//-----------------------------------------------------------------------------
// Tesselates in a *breadth first* fashion
//-----------------------------------------------------------------------------
template< class T >
inline void TesselateDisplacement_R( 
	T *pHelper,
	const CVertIndex &nodeIndex,
	int iNodeBitIndex,
	int iLevel
	)
{
	// Here's the node info for our current node
	Assert( iNodeBitIndex < pHelper->m_pPowerInfo->m_NodeCount );
	DispNodeInfo_t& nodeInfo = pHelper->GetNodeInfo( iNodeBitIndex );

	// Store off the current number of indices
	int oldIndexCount = pHelper->m_nIndices;

	// Go through each quadrant. If there is an active child node, recurse down.
	int bActiveChildren[4];
	if( iLevel >= pHelper->m_pPowerInfo->m_Power - 1 )
	{
		// This node has no children.
		bActiveChildren[0] = bActiveChildren[1] = bActiveChildren[2] = bActiveChildren[3] = false;
	}
	else
	{
		int iNodeIndex = InternalVertIndex( pHelper->m_pPowerInfo, nodeIndex );

		int iChildNodeBit = iNodeBitIndex + 1;
		for( int iChild=0; iChild < 4; iChild++ )
		{
			CVertIndex const &childNode = pHelper->m_pPowerInfo->m_pChildVerts[iNodeIndex].m_Verts[iChild];

			// Make sure we really can tesselate here (a smaller neighbor displacement could
			// have inactivated certain edge verts.
			int iVertBit = InternalVertIndex( pHelper->m_pPowerInfo, childNode );
			bActiveChildren[iChild] = ( pHelper->m_pActiveVerts[iVertBit>>5] & (1 << (iVertBit & 31)) );

			if( bActiveChildren[iChild] )
			{
				TesselateDisplacement_R( pHelper, childNode, iChildNodeBit, iLevel+1 );
			}
			else
			{
				// Make sure the triangle counts are cleared on this one because it may visit this
				// node in GenerateDecalFragments_R if nodeInfo's CHILDREN_HAVE_TRIANGLES flag is set.
				DispNodeInfo_t &childInfo = pHelper->GetNodeInfo( iChildNodeBit );
				childInfo.m_Count = 0;
				childInfo.m_Flags = 0;
			}

			iChildNodeBit += pHelper->m_pPowerInfo->m_NodeIndexIncrements[iLevel];
		}
	}

	// Set the child field
	if ( pHelper->m_nIndices != oldIndexCount )
	{
		nodeInfo.m_Flags = DispNodeInfo_t::CHILDREN_HAVE_TRIANGLES;
		oldIndexCount = pHelper->m_nIndices;
	}
	else
	{
		nodeInfo.m_Flags = 0;
	}

	// Now tesselate the node itself...
	TesselateDisplacementNode( pHelper, nodeIndex, iLevel, bActiveChildren );

	// Now that we've tesselated, figure out how many indices we've added at this node
	nodeInfo.m_Count = pHelper->m_nIndices - oldIndexCount;
	nodeInfo.m_FirstTesselationIndex = oldIndexCount;
	Assert( nodeInfo.m_Count % 3 == 0 );
}


class CBaseTesselateHelper
{
public:

	// Functions your derived class must implement:
	// void EndTriangle();								// (the 3 indices are in m_TempIndices).
	// DispNodeInfo_t& GetNodeInfo( int iNodeBit );

	
	// Set these before calling TesselateDisplacement.
	uint32 *m_pActiveVerts;		// These bits control the tesselation.
	const CPowerInfo *m_pPowerInfo;								// Lots of precalculated data about a displacement this size.
	
	
	// Used internally by TesselateDisplacement.
	int m_nIndices;						// After calling TesselateDisplacement, this is set to the # of indices generated.
	unsigned short m_TempIndices[6];
};


// This interface is shared betwixt VBSP and the engine. VBSP uses it to build the 
// physics mesh and the engine uses it to render.
//
// To use this function, derive a class from CBaseTesselateHelper that supports the TesselateHelper functions.
template< class TesselateHelper >
inline void TesselateDisplacement( TesselateHelper *pHelper )
{
	pHelper->m_nIndices = 0;
	
	TesselateDisplacement_R<TesselateHelper>(
		pHelper,
		pHelper->m_pPowerInfo->m_RootNode,
		0,			// node bit indexing CDispDecal::m_NodeIntersects
		0 );
}


#endif // DISP_TESSELATE_H
1 5 years ago			`//========= Copyright Valve Corporation, All rights reserved. ============//`
			`//`
			`// Purpose:`
			`//`
			`// $NoKeywords: $`
			`//=============================================================================//`

			`#ifndef DISP_TESSELATE_H`
			`#define DISP_TESSELATE_H`
			`#ifdef _WIN32`
			`#pragma once`
			`#endif`


			`#include "disp_powerinfo.h"`


			`inline int InternalVertIndex( const CPowerInfo *pInfo, const CVertIndex &vert )`
			`{`
			`return vert.y * pInfo->m_SideLength + vert.x;`
			`}`


			`template< class TesselateHelper >`
			`inline void InternalEndTriangle(`
			`TesselateHelper *pHelper,`
			`CVertIndex const &nodeIndex,`
			`int &iCurTriVert )`
			`{`
			`// End our current triangle here.`
			`Assert( iCurTriVert == 2 );`

			`// Finish the triangle.`
			`pHelper->m_TempIndices[2] = (unsigned short)InternalVertIndex( pHelper->m_pPowerInfo, nodeIndex );`

			`pHelper->EndTriangle();`

			`// Add on the last vertex to join to the next triangle.`
			`pHelper->m_TempIndices[0] = pHelper->m_TempIndices[1];`
			`iCurTriVert = 1;`
			`}`


			`//-----------------------------------------------------------------------------`
			`// Tesselates a single node, doesn't deal with hierarchy`
			`//-----------------------------------------------------------------------------`
			`template< class TesselateHelper >`
			`inline void TesselateDisplacementNode(`
			`TesselateHelper *pHelper,`
			`CVertIndex const &nodeIndex,`
			`int iLevel,`
			`int *pActiveChildren )`
			`{`
			`int iPower = pHelper->m_pPowerInfo->m_Power - iLevel;`
			`int vertInc = 1 << (iPower - 1);`

			`CTesselateWinding *pWinding = &g_TWinding;`

			`// Starting at the bottom-left, wind clockwise picking up vertices and`
			`// generating triangles.`
			`int iCurTriVert = 0;`
			`for( int iVert=0; iVert < pWinding->m_nVerts; iVert++ )`
			`{`
			`CVertIndex sideVert = BuildOffsetVertIndex( nodeIndex, pWinding->m_Verts[iVert].m_Index, vertInc );`

			`int iVertNode = pWinding->m_Verts[iVert].m_iNode;`
			`bool bNode = (iVertNode != -1) && pActiveChildren[iVertNode];`
			`if( bNode )`
			`{`
			`if( iCurTriVert == 2 )`
			`InternalEndTriangle( pHelper, nodeIndex, iCurTriVert );`

			`iCurTriVert = 0;`
			`}`
			`else`
			`{`
			`int iVertBit = InternalVertIndex( pHelper->m_pPowerInfo, sideVert );`
			`if( pHelper->m_pActiveVerts[iVertBit>>5] & (1 << (iVertBit & 31)) )`
			`{`
			`// Ok, add a vert here.`
			`pHelper->m_TempIndices[iCurTriVert] = (unsigned short)InternalVertIndex( pHelper->m_pPowerInfo, sideVert );`
			`iCurTriVert++;`
			`if( iCurTriVert == 2 )`
			`InternalEndTriangle( pHelper, nodeIndex, iCurTriVert );`
			`}`
			`}`
			`}`
			`}`


			`//-----------------------------------------------------------------------------`
			`// Tesselates in a breadth first fashion`
			`//-----------------------------------------------------------------------------`
			`template< class T >`
			`inline void TesselateDisplacement_R(`
			`T *pHelper,`
			`const CVertIndex &nodeIndex,`
			`int iNodeBitIndex,`
			`int iLevel`
			`)`
			`{`
			`// Here's the node info for our current node`
			`Assert( iNodeBitIndex < pHelper->m_pPowerInfo->m_NodeCount );`
			`DispNodeInfo_t& nodeInfo = pHelper->GetNodeInfo( iNodeBitIndex );`

			`// Store off the current number of indices`
			`int oldIndexCount = pHelper->m_nIndices;`

			`// Go through each quadrant. If there is an active child node, recurse down.`
			`int bActiveChildren[4];`
			`if( iLevel >= pHelper->m_pPowerInfo->m_Power - 1 )`
			`{`
			`// This node has no children.`
			`bActiveChildren[0] = bActiveChildren[1] = bActiveChildren[2] = bActiveChildren[3] = false;`
			`}`
			`else`
			`{`
			`int iNodeIndex = InternalVertIndex( pHelper->m_pPowerInfo, nodeIndex );`

			`int iChildNodeBit = iNodeBitIndex + 1;`
			`for( int iChild=0; iChild < 4; iChild++ )`
			`{`
			`CVertIndex const &childNode = pHelper->m_pPowerInfo->m_pChildVerts[iNodeIndex].m_Verts[iChild];`

			`// Make sure we really can tesselate here (a smaller neighbor displacement could`
			`// have inactivated certain edge verts.`
			`int iVertBit = InternalVertIndex( pHelper->m_pPowerInfo, childNode );`
			`bActiveChildren[iChild] = ( pHelper->m_pActiveVerts[iVertBit>>5] & (1 << (iVertBit & 31)) );`

			`if( bActiveChildren[iChild] )`
			`{`
			`TesselateDisplacement_R( pHelper, childNode, iChildNodeBit, iLevel+1 );`
			`}`
			`else`
			`{`
			`// Make sure the triangle counts are cleared on this one because it may visit this`
			`// node in GenerateDecalFragments_R if nodeInfo's CHILDREN_HAVE_TRIANGLES flag is set.`
			`DispNodeInfo_t &childInfo = pHelper->GetNodeInfo( iChildNodeBit );`
			`childInfo.m_Count = 0;`
			`childInfo.m_Flags = 0;`
			`}`

			`iChildNodeBit += pHelper->m_pPowerInfo->m_NodeIndexIncrements[iLevel];`
			`}`
			`}`

			`// Set the child field`
			`if ( pHelper->m_nIndices != oldIndexCount )`
			`{`
			`nodeInfo.m_Flags = DispNodeInfo_t::CHILDREN_HAVE_TRIANGLES;`
			`oldIndexCount = pHelper->m_nIndices;`
			`}`
			`else`
			`{`
			`nodeInfo.m_Flags = 0;`
			`}`

			`// Now tesselate the node itself...`
			`TesselateDisplacementNode( pHelper, nodeIndex, iLevel, bActiveChildren );`

			`// Now that we've tesselated, figure out how many indices we've added at this node`
			`nodeInfo.m_Count = pHelper->m_nIndices - oldIndexCount;`
			`nodeInfo.m_FirstTesselationIndex = oldIndexCount;`
			`Assert( nodeInfo.m_Count % 3 == 0 );`
			`}`


			`class CBaseTesselateHelper`
			`{`
			`public:`

			`// Functions your derived class must implement:`
			`// void EndTriangle(); // (the 3 indices are in m_TempIndices).`
			`// DispNodeInfo_t& GetNodeInfo( int iNodeBit );`


			`// Set these before calling TesselateDisplacement.`
			`uint32 *m_pActiveVerts; // These bits control the tesselation.`
			`const CPowerInfo *m_pPowerInfo; // Lots of precalculated data about a displacement this size.`


			`// Used internally by TesselateDisplacement.`
			`int m_nIndices; // After calling TesselateDisplacement, this is set to the # of indices generated.`
			`unsigned short m_TempIndices[6];`
			`};`



			`// This interface is shared betwixt VBSP and the engine. VBSP uses it to build the`
			`// physics mesh and the engine uses it to render.`
			`//`
			`// To use this function, derive a class from CBaseTesselateHelper that supports the TesselateHelper functions.`
			`template< class TesselateHelper >`
			`inline void TesselateDisplacement( TesselateHelper *pHelper )`
			`{`
			`pHelper->m_nIndices = 0;`

			`TesselateDisplacement_R<TesselateHelper>(`
			`pHelper,`
			`pHelper->m_pPowerInfo->m_RootNode,`
			`0, // node bit indexing CDispDecal::m_NodeIntersects`
			`0 );`
			`}`


			`#endif // DISP_TESSELATE_H`