155 lines
4.3 KiB
C
155 lines
4.3 KiB
C
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#ifndef NORMAL_EXTRAPOLATION_H
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#define NORMAL_EXTRAPOLATION_H
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#include <vcg/space/index/kdtree/kdtree.h>
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#include <vcg/space/fitting3.h>
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#include <vcg/complex/algorithms/smooth.h>
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namespace vcg {
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namespace tri {
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///
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/** \addtogroup trimesh */
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/*@{*/
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/// Class of static functions to smooth and fair meshes and their attributes.
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template <typename MeshType>
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class PointCloudNormal {
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public:
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typedef typename MeshType::VertexType VertexType;
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typedef typename MeshType::VertexType::CoordType CoordType;
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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::ScalarType ScalarType;
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class WArc
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{
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public:
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WArc(VertexPointer _s,VertexPointer _t):src(_s),trg(_t),w(fabs(_s->cN()*_t->cN())){}
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VertexPointer src;
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VertexPointer trg;
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float w;
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bool operator< (const WArc &a) const {return w<a.w;}
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};
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static void ComputeUndirectedNormal(MeshType &m, int nn, float maxDist, KdTree<float> &tree,vcg::CallBackPos * cb=0)
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{
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tree.setMaxNofNeighbors(nn);
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int cnt=0;
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int step=m.vn/100;
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for (VertexIterator vi=m.vert.begin();vi!=m.vert.end();++vi)
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{
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tree.doQueryK(vi->cP());
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if(cb && (++cnt%step)==0) cb(cnt/step,"Fitting planes");
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int neighbours = tree.getNofFoundNeighbors();
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std::vector<CoordType> ptVec;
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for (int i = 0; i < neighbours; i++)
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{
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int neightId = tree.getNeighborId(i);
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if(Distance(vi->cP(),m.vert[neightId].cP())<maxDist)
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ptVec.push_back(m.vert[neightId].cP());
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}
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Plane3f plane;
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FitPlaneToPointSet(ptVec,plane);
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vi->N()=plane.Direction();
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}
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}
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static void AddNeighboursToHeap( MeshType &m, VertexPointer vp, KdTree<float> &tree, std::vector<WArc> &heap)
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{
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tree.doQueryK(vp->cP());
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int neighbours = tree.getNofFoundNeighbors();
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for (int i = 0; i < neighbours; i++)
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{
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int neightId = tree.getNeighborId(i);
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if (neightId < m.vn && (&m.vert[neightId] != vp))
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{
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if(!m.vert[neightId].IsV())
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{
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heap.push_back(WArc(vp,&(m.vert[neightId])));
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if(heap.back().w < 0.3f) heap.pop_back();
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}
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}
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}
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std::push_heap(heap.begin(),heap.end());
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}
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/*! \brief parameters for the normal generation
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*/
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struct Param
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{
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Param():
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fittingAdjNum(10),
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smoothingIterNum(0),
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coherentAdjNum(8),
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viewPoint(0,0,0),
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useViewPoint(false)
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{}
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int fittingAdjNum; /// number of adjacent nodes used for computing the fitting plane
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int smoothingIterNum; /// number of itaration of a simple normal smoothing (use the same number of ajdacent of fittingAdjNjm)
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int coherentAdjNum; /// number of nodes used in the coherency pass
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Point3f viewPoint; /// position of a viewpoint used to disambiguate direction
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bool useViewPoint; /// if the position of the viewpoint has to be used.
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};
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static void Compute(MeshType &m, Param p, vcg::CallBackPos * cb)
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{
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tri::Allocator<MeshType>::CompactVertexVector(m);
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if(cb) cb(1,"Building KdTree...");
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VertexConstDataWrapper<MeshType> DW(m);
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KdTree<float> tree(DW);
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ComputeUndirectedNormal(m, p.fittingAdjNum, std::numeric_limits<ScalarType>::max(), tree,cb);
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tri::Smooth<MeshType>::VertexNormalPointCloud(m,p.fittingAdjNum,p.smoothingIterNum,&tree);
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if(p.coherentAdjNum==0) return;
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tree.setMaxNofNeighbors(p.coherentAdjNum+1);
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tri::UpdateFlags<MeshType>::VertexClearV(m);
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std::vector<WArc> heap;
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VertexIterator vi=m.vert.begin();
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while(true)
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{
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// search an unvisited vertex
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while(vi!=m.vert.end() && vi->IsV())
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++vi;
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if(vi==m.vert.end()) return;
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if ( p.useViewPoint &&
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( vi->N().dot(p.viewPoint- vi->P())<0.0f) )
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vi->N()=-(*vi).N();
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vi->SetV();
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AddNeighboursToHeap(m,&*vi,tree,heap);
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while(!heap.empty())
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{
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std::pop_heap(heap.begin(),heap.end());
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WArc a = heap.back();
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heap.pop_back();
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if(!a.trg->IsV())
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{
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a.trg->SetV();
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if(a.src->cN()*a.trg->cN()<0) a.trg->N()=-a.trg->N();
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AddNeighboursToHeap(m,a.trg,tree,heap);
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}
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}
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}
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return;
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}
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};
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}//end namespace vcg
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}//end namespace vcg
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#endif // NORMAL_EXTRAPOLATION_H
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