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126 lines
3.1 KiB
126 lines
3.1 KiB
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// A class for computing things with CDmeMesh data
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//
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//=============================================================================
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#ifndef DMMESHCOMP_H
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#define DMMESHCOMP_H
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#ifdef _WIN32
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#pragma once
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#endif
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// Valve includes
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#include "mathlib/mathlib.h"
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#include "tier1/utlvector.h"
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#include "tier1/utllinkedlist.h"
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// Forward declarations
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class CDmeMesh;
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class CDmeVertexData;
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//=============================================================================
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// TODO: This works in the local space of the mesh... add option to transform
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// the positions into world space
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//=============================================================================
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class CDmMeshComp
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{
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public:
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CDmMeshComp( CDmeMesh *pMesh, CDmeVertexData *pPassedBase = NULL );
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~CDmMeshComp();
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class CVert;
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class CEdge;
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class CVert
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{
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public:
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CVert( int nPositionIndex, const CUtlVector< int > *pVertexIndices, const Vector *pPosition );
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CVert( const CVert &src );
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int PositionIndex() const;
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const Vector *Position() const;
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const CUtlVector< int > *VertexIndices() const;
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bool operator==( const CVert &rhs ) const;
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protected:
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friend class CDmMeshComp;
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int m_positionIndex; // Index in the position data
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const CUtlVector< int > *m_pVertexIndices; // Pointer to a list of the vertex indices for this vertex
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const Vector *m_pPosition;
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CUtlVector< CEdge * > m_edges; // An array of pointers to the edges containing this vertex
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private:
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CVert(); // Not used
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};
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class CEdge
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{
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public:
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CEdge();
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int GetVertPositionIndex( int edgeRelativeVertexIndex ) const;
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CVert *GetVert( int edgeRelativeVertexIndex ) const;
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bool IsBorderEdge() const { return m_faceCount == 1; }
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bool ConnectedTo( const CEdge *pEdge ) const { return m_pVert0 == pEdge->m_pVert0 || m_pVert0 == pEdge->m_pVert1 || m_pVert1 == pEdge->m_pVert0 || m_pVert1 == pEdge->m_pVert1; }
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Vector EdgeVector() const;
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// Returns true if the edge starts and stops at the same point in local space
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bool operator==( const CEdge &rhs ) const;
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protected:
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friend class CDmMeshComp;
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CVert *m_pVert0;
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CVert *m_pVert1;
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int m_faceCount;
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};
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class CFace
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{
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public:
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protected:
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friend class CDmMeshComp;
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CUtlVector< CVert * > m_verts;
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CUtlVector< CEdge * > m_edges;
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CUtlVector< bool > m_edgeReverseMap;
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};
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CDmeVertexData *BaseState() { return m_pBase; }
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CEdge *FindOrCreateEdge( int vIndex0, int vIndex1, bool *pReverse = NULL );
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CEdge *FindEdge( int vIndex0, int vIndex1, bool *pReverse = NULL );
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CFace *CreateFace( const CUtlVector< CVert * > &verts, const CUtlVector< CEdge * > &edges, const CUtlVector< bool > &edgeReverseMap );
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int FindFacesWithVert( int vIndex, CUtlVector< CFace * > &faces );
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int FindNeighbouringVerts( int vIndex, CUtlVector< CVert * > &verts );
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int GetBorderEdges( CUtlVector< CUtlVector< CEdge * > > &borderEdges );
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CDmeMesh *m_pMesh;
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CDmeVertexData *m_pBase;
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CUtlVector< CVert * > m_verts;
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CUtlVector< CEdge * > m_edges;
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CUtlFixedLinkedList< CFace > m_faces;
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};
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#endif // DMEMESHCOMP_H
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