448 lines
13 KiB
C++
448 lines
13 KiB
C++
/****************************************************************************
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* VCGLib o o *
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* Visual and Computer Graphics Library o o *
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* _ O _ *
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* Copyright(C) 2004 \/)\/ *
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* Visual Computing Lab /\/| *
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* ISTI - Italian National Research Council | *
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* \ *
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* All rights reserved. *
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License as published by *
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* the Free Software Foundation; either version 2 of the License, or *
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* (at your option) any later version. *
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* *
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* This program is distributed in the hope that it will be useful, *
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* but WITHOUT ANY WARRANTY; without even the implied warranty of *
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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* GNU General Public License (http://www.gnu.org/licenses/gpl.txt) *
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* for more details. *
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* *
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****************************************************************************/
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/****************************************************************************
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History
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$Log: not supported by cvs2svn $
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Revision 1.20 2007/05/31 15:24:50 ponchio
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FIxed off-by-one error on FaceBorderFromNone.
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Revision 1.19 2007/05/22 15:19:42 cignoni
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Added VertexClear
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Revision 1.18 2007/01/30 18:49:23 tarini
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aggiunta la VertexBorderFromNone (flag bordo per vertici senza richiedere nulla)
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Revision 1.17 2006/08/31 13:11:12 marfr960
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corrected bounds of a vector scan
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Revision 1.16 2006/08/30 12:59:49 marfr960
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Added missing std:: to swap
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Revision 1.15 2006/08/30 06:50:07 cignoni
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Reverted to version 1.13. Version 1.14 was done on outdated version.
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Revision 1.13 2006/06/18 20:49:30 cignoni
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Added missing IsD tests
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Revision 1.12 2006/05/03 21:23:25 cignoni
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Corrected IsDeleted -> isD
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Revision 1.11 2005/12/02 00:09:12 cignoni
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Added assert(HasFlags) everywhere..
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Revision 1.10 2005/07/06 08:16:34 ganovelli
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set VertexBorderFromFace as static
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Revision 1.9 2005/06/10 15:07:23 cignoni
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Completed FaceBorderFromNone (and added a missing helper class)
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Revision 1.8 2005/04/01 13:04:55 fiorin
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Minor changes
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Revision 1.7 2004/09/14 19:49:43 ganovelli
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first compilation version
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Revision 1.6 2004/07/15 00:13:39 cignoni
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Better doxigen documentation
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Revision 1.5 2004/07/06 06:27:02 cignoni
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Added FaceBorderFromVF
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Revision 1.4 2004/05/13 15:58:55 ganovelli
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function Clear added
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Revision 1.3 2004/03/12 15:22:19 cignoni
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Written some documentation and added to the trimes doxygen module
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Revision 1.2 2004/03/10 00:46:10 cignoni
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changed to the face::IsBorder() style
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Revision 1.1 2004/03/05 10:59:24 cignoni
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Changed name from plural to singular (normals->normal)
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Revision 1.1 2004/03/04 00:37:56 cignoni
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First working version!
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****************************************************************************/
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#ifndef __VCG_TRI_UPDATE_FLAGS
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#define __VCG_TRI_UPDATE_FLAGS
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#include <vcg/simplex/face/pos.h>
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namespace vcg {
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namespace tri {
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/// \ingroup trimesh
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/// \headerfile flag.h vcg/complex/algorithms/update/flag.h
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/// \brief Management, updating and computation of per-vertex and per-face flags (like border flags).
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/**
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This class is used to compute or update some of the flags that can be stored in the mesh components. For now just Border flags (e.g. the flag that tells if a given edge of a face belong to a border of the mesh or not).
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*/
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template <class UpdateMeshType>
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class UpdateFlags
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{
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public:
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typedef UpdateMeshType MeshType;
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typedef vcg::face::Pos<typename UpdateMeshType::FaceType> PosType;
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typedef typename MeshType::ScalarType ScalarType;
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typedef typename MeshType::VertexType VertexType;
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typedef typename MeshType::VertexPointer VertexPointer;
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typedef typename MeshType::VertexIterator VertexIterator;
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typedef typename MeshType::EdgeType EdgeType;
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typedef typename MeshType::EdgePointer EdgePointer;
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typedef typename MeshType::EdgeIterator EdgeIterator;
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typedef typename MeshType::FaceType FaceType;
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typedef typename MeshType::FacePointer FacePointer;
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typedef typename MeshType::FaceIterator FaceIterator;
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/// \brief Reset all the mesh flags (both vertexes and faces) setting everithing to zero (the default value for flags)
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static void Clear(MeshType &m)
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{
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assert(HasPerFaceFlags(m));
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FaceIterator fi;
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VertexIterator vi;
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for(fi=m.face.begin(); fi!=m.face.end(); ++fi)
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(*fi).Flags() = 0;
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for(vi=m.vert.begin(); vi!=m.vert.end(); ++vi)
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(*vi).Flags() = 0;
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}
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static void VertexClear(MeshType &m, unsigned int FlagMask = 0xffffffff)
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{
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VertexIterator vi;
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int andMask = ~FlagMask;
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for(vi=m.vert.begin(); vi!=m.vert.end(); ++vi)
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if(!(*vi).IsD()) (*vi).Flags() &= andMask ;
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}
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static void EdgeClear(MeshType &m, unsigned int FlagMask = 0xffffffff)
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{
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EdgeIterator ei;
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int andMask = ~FlagMask;
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for(ei=m.edge.begin(); ei!=m.edge.end(); ++ei)
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if(!(*ei).IsD()) (*ei).Flags() &= andMask ;
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}
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static void FaceClear(MeshType &m, unsigned int FlagMask = 0xffffffff)
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{
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FaceIterator fi;
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int andMask = ~FlagMask;
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for(fi=m.face.begin(); fi!=m.face.end(); ++fi)
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if(!(*fi).IsD()) (*fi).Flags() &= andMask ;
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}
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static void VertexSet(MeshType &m, unsigned int FlagMask)
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{
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VertexIterator vi;
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for(vi=m.vert.begin(); vi!=m.vert.end(); ++vi)
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if(!(*vi).IsD()) (*vi).Flags() |= FlagMask ;
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}
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static void FaceSet(MeshType &m, unsigned int FlagMask)
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{
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FaceIterator fi;
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for(fi=m.face.begin(); fi!=m.face.end(); ++fi)
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if(!(*fi).IsD()) (*fi).Flags() |= FlagMask ;
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}
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static void VertexClearV(MeshType &m) { VertexClear(m,VertexType::VISITED);}
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static void VertexClearS(MeshType &m) { VertexClear(m,VertexType::SELECTED);}
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static void VertexClearB(MeshType &m) { VertexClear(m,VertexType::BORDER);}
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static void EdgeClearV(MeshType &m) { EdgeClear(m,EdgeType::VISITED);}
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static void FaceClearV(MeshType &m) { FaceClear(m,FaceType::VISITED);}
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static void FaceClearB(MeshType &m) { FaceClear(m,FaceType::BORDER012);}
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static void FaceClearF(MeshType &m) { FaceClear(m,FaceType::FAUX012);}
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static void VertexSetV(MeshType &m) { VertexSet(m,VertexType::VISITED);}
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static void VertexSetB(MeshType &m) { VertexSet(m,VertexType::BORDER);}
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static void FaceSetV(MeshType &m) { FaceSet(m,FaceType::VISITED);}
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static void FaceSetB(MeshType &m) { FaceSet(m,FaceType::BORDER);}
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static void FaceSetF(MeshType &m) { FaceSet(m,FaceType::FAUX012);}
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/// \brief Compute the border flags for the faces using the Face-Face Topology.
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/**
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\warning Obviously it assumes that the topology has been correctly computed (see: UpdateTopology::FaceFace )
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*/
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static void FaceBorderFromFF(MeshType &m)
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{
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assert(HasPerFaceFlags(m));
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// const int BORDERFLAG[3]={FaceType::BORDER0,FaceType::BORDER1,FaceType::BORDER2};
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FaceIterator fi;
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for(fi=m.face.begin();fi!=m.face.end();++fi)if(!(*fi).IsD())
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for(int j=0;j<3;++j)
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{
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//if(!(*fi).IsManifold(j)) (*fi).SetCF(j);
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//else
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if(face::IsBorder(*fi,j)) (*fi).SetB(j);
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else (*fi).ClearB(j);
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}
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}
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static void FaceBorderFromVF(MeshType &m)
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{
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assert(HasPerFaceFlags(m));
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assert(HasPerVertexVFAdjacency(m));
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assert(HasPerFaceVFAdjacency(m));
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FaceClearB(m);
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int visitedBit=VertexType::NewBitFlag();
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// Calcolo dei bordi
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// per ogni vertice vi si cercano i vertici adiacenti che sono toccati da una faccia sola
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// (o meglio da un numero dispari di facce)
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const int BORDERFLAG[3]={FaceType::BORDER0, FaceType::BORDER1, FaceType::BORDER2};
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for(VertexIterator vi=m.vert.begin();vi!=m.vert.end();++vi)
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if(!(*vi).IsD())
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{
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for(face::VFIterator<FaceType> vfi(&*vi) ; !vfi.End(); ++vfi )
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{
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vfi.f->V1(vfi.z)->ClearUserBit(visitedBit);
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vfi.f->V2(vfi.z)->ClearUserBit(visitedBit);
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}
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for(face::VFIterator<FaceType> vfi(&*vi) ; !vfi.End(); ++vfi )
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{
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if(vfi.f->V1(vfi.z)->IsUserBit(visitedBit)) vfi.f->V1(vfi.z)->ClearUserBit(visitedBit);
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else vfi.f->V1(vfi.z)->SetUserBit(visitedBit);
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if(vfi.f->V2(vfi.z)->IsUserBit(visitedBit)) vfi.f->V2(vfi.z)->ClearUserBit(visitedBit);
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else vfi.f->V2(vfi.z)->SetUserBit(visitedBit);
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}
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for(face::VFIterator<FaceType> vfi(&*vi) ; !vfi.End(); ++vfi )
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{
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if(vfi.f->V(vfi.z)< vfi.f->V1(vfi.z) && vfi.f->V1(vfi.z)->IsUserBit(visitedBit))
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vfi.f->Flags() |= BORDERFLAG[vfi.z];
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if(vfi.f->V(vfi.z)< vfi.f->V2(vfi.z) && vfi.f->V2(vfi.z)->IsUserBit(visitedBit))
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vfi.f->Flags() |= BORDERFLAG[(vfi.z+2)%3];
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}
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}
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VertexType::DeleteBitFlag(VertexType::LastBitFlag());
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}
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class EdgeSorter
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{
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public:
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VertexPointer v[2]; // Puntatore ai due vertici (Ordinati)
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FacePointer f; // Puntatore alla faccia generatrice
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int z; // Indice dell'edge nella faccia
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EdgeSorter() {} // Nothing to do
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void Set( const FacePointer pf, const int nz )
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{
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assert(pf!=0);
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assert(nz>=0);
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assert(nz<3);
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v[0] = pf->V(nz);
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v[1] = pf->V((nz+1)%3);
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assert(v[0] != v[1]);
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if( v[0] > v[1] ) std::swap(v[0],v[1]);
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f = pf;
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z = nz;
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}
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inline bool operator < ( const EdgeSorter & pe ) const {
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if( v[0]<pe.v[0] ) return true;
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else if( v[0]>pe.v[0] ) return false;
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else return v[1] < pe.v[1];
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}
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inline bool operator == ( const EdgeSorter & pe ) const
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{
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return v[0]==pe.v[0] && v[1]==pe.v[1];
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}
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inline bool operator != ( const EdgeSorter & pe ) const
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{
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return v[0]!=pe.v[0] || v[1]!=pe.v[1];
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}
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};
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// versione minimale che non calcola i complex flag.
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static void VertexBorderFromNone(MeshType &m)
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{
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assert(HasPerVertexFlags(m));
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std::vector<EdgeSorter> e;
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typename UpdateMeshType::FaceIterator pf;
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typename std::vector<EdgeSorter>::iterator p;
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if( m.fn == 0 )
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return;
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e.resize(m.fn*3); // Alloco il vettore ausiliario
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p = e.begin();
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for(pf=m.face.begin();pf!=m.face.end();++pf) // Lo riempio con i dati delle facce
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if( ! (*pf).IsD() )
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for(int j=0;j<3;++j)
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{
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(*p).Set(&(*pf),j);
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(*pf).ClearB(j);
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++p;
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}
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assert(p==e.end());
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sort(e.begin(), e.end()); // Lo ordino per vertici
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typename std::vector<EdgeSorter>::iterator pe,ps;
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for(ps = e.begin(), pe = e.begin(); pe < e.end(); ++pe) // Scansione vettore ausiliario
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{
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if( pe==e.end() || *pe != *ps ) // Trovo blocco di edge uguali
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{
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if(pe-ps==1) {
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ps->v[0]->SetB();
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ps->v[1]->SetB();
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} else
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if(pe-ps!=2) { // not twomanyfold!
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for(;ps!=pe;++ps) {
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ps->v[0]->SetB(); // Si settano border anche i complex.
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ps->v[1]->SetB();
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}
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}
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ps = pe;
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}
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}
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}
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/// Computes per-face border flags without requiring any kind of topology
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/// It has a O(fn log fn) complexity.
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static void FaceBorderFromNone(MeshType &m)
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{
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assert(HasPerFaceFlags(m));
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std::vector<EdgeSorter> e;
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typename UpdateMeshType::FaceIterator pf;
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typename std::vector<EdgeSorter>::iterator p;
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for(VertexIterator v=m.vert.begin();v!=m.vert.end();++v)
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(*v).ClearB();
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if( m.fn == 0 )
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return;
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FaceIterator fi;
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int n_edges = 0;
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for(fi = m.face.begin(); fi != m.face.end(); ++fi) if(! (*fi).IsD()) n_edges+=(*fi).VN();
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e.resize(n_edges);
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p = e.begin();
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for(pf=m.face.begin();pf!=m.face.end();++pf) // Lo riempio con i dati delle facce
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if( ! (*pf).IsD() )
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for(int j=0;j<(*pf).VN();++j)
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{
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(*p).Set(&(*pf),j);
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(*pf).ClearB(j);
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++p;
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}
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assert(p==e.end());
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sort(e.begin(), e.end()); // Lo ordino per vertici
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typename std::vector<EdgeSorter>::iterator pe,ps;
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ps = e.begin();pe=e.begin();
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do
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{
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if( pe==e.end() || *pe != *ps ) // Trovo blocco di edge uguali
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{
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if(pe-ps==1) {
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ps->f->SetB(ps->z);
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} else
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if(pe-ps!=2) { // Caso complex!!
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for(;ps!=pe;++ps)
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ps->f->SetB(ps->z); // Si settano border anche i complex.
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}
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ps = pe;
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}
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if(pe==e.end()) break;
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++pe;
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} while(true);
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// TRACE("found %i border (%i complex) on %i edges\n",nborder,ncomplex,ne);
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}
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/// Compute the PerVertex Border flag deriving it from the faces
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static void VertexBorderFromFace(MeshType &m)
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{
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assert(HasPerFaceFlags(m));
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typename MeshType::VertexIterator v;
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typename MeshType::FaceIterator f;
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for(v=m.vert.begin();v!=m.vert.end();++v)
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(*v).ClearB();
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for(f=m.face.begin();f!=m.face.end();++f)
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if(!(*f).IsD())
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{
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for(int z=0;z<(*f).VN();++z)
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if( (*f).IsB(z) )
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{
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(*f).V(z)->SetB();
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(*f).V((*f).Next(z))->SetB();
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}
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}
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}
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//
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static void FaceFauxCrease(MeshType &m,float AngleRad)
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{
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assert(HasPerFaceFlags(m));
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assert(HasFFAdjacency(m));
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typename MeshType::FaceIterator f;
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//initially everything is faux (e.g all internal)
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FaceSetF(m);
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for(f=m.face.begin();f!=m.face.end();++f)
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{
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if(!(*f).IsD())
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{
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for(int z=0;z<(*f).VN();++z)
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{
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if( face::IsBorder(*f,z) ) (*f).ClearF(z);
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else
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{
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if(Angle((*f).N(), (*f).FFp(z)->N()) > AngleRad)
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(*f).ClearF(z);
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}
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}
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}
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}
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}
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}; // end class
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} // End namespace tri
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} // End namespace vcg
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#endif
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