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removed a useless loop in the update cycle of the heap of the edges to be collapesed. Stupid bug pointed out by Enrico (thanks!)

This commit is contained in:
Paolo Cignoni 2013-01-28 15:42:24 +00:00
parent 794f2f27a7
commit 2b9a9f2be2
2 changed files with 82 additions and 89 deletions
vcg/complex/algorithms/local_optimization
tri_edge_collapse.htri_edge_collapse_quadric.h

81
vcg/complex/algorithms/local_optimization/tri_edge_collapse.h
View File

@ -134,61 +134,56 @@ public:
inline void UpdateHeap(HeapType & h_ret, BaseParameterClass *pp)
{
GlobalMark()++; int nn=0;
VertexType *v[2];
v[0]= pos.V(0);v[1]=pos.V(1);
v[1]->IMark() = GlobalMark();
GlobalMark()++;
VertexType *v[2];
v[0]= pos.V(0);v[1]=pos.V(1);
v[1]->IMark() = GlobalMark();
// First loop around the remaining vertex to unmark visited flags
// First loop around the remaining vertex to unmark visited flags
vcg::face::VFIterator<FaceType> vfi(v[1]);
while (!vfi.End()){
vfi.V1()->ClearV();
vfi.V2()->ClearV();
++vfi;
}
while (!vfi.End()){
vfi.V1()->ClearV();
vfi.V2()->ClearV();
++vfi;
}
// Second Loop: add all the outgoing edges around v[1]
// for each face add the two edges outgoing from v[1] and not visited.
vfi = face::VFIterator<FaceType>(v[1]);
while (!vfi.End())
{
assert(!vfi.F()->IsD());
for (int j=0;j<3;j++)
{
if( !(vfi.V1()->IsV()) && (vfi.V1()->IsRW()))
{
vfi.V1()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair( vfi.V(),vfi.V1() ),GlobalMark(),pp)));
assert(!vfi.F()->IsD());
if( !(vfi.V1()->IsV()) && (vfi.V1()->IsRW()))
{
vfi.V1()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair( vfi.V(),vfi.V1() ),GlobalMark(),pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(! this->IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair( vfi.V1(),vfi.V()),GlobalMark(),pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(! this->IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair( vfi.V1(),vfi.V()),GlobalMark(),pp)));
std::push_heap(h_ret.begin(),h_ret.end());
}
}
if( !(vfi.V2()->IsV()) && (vfi.V2()->IsRW()))
{
vfi.V2()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.F()->V(vfi.I()),vfi.F()->V2(vfi.I())),GlobalMark(),pp)));
}
if( !(vfi.V2()->IsV()) && (vfi.V2()->IsRW()))
{
vfi.V2()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.F()->V(vfi.I()),vfi.F()->V2(vfi.I())),GlobalMark(),pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(! this->IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair (vfi.F()->V1(vfi.I()),vfi.F()->V(vfi.I())),GlobalMark(),pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(! this->IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair (vfi.F()->V1(vfi.I()),vfi.F()->V(vfi.I())),GlobalMark(),pp)));
std::push_heap(h_ret.begin(),h_ret.end());
}
}
// if(vfi.V1()->IsRW() && vfi.V2()->IsRW() )
// {
// h_ret.push_back(HeapElem(new MYTYPE(EdgeType(vfi.V1(),vfi.V2()),this->GlobalMark())));
// std::push_heap(h_ret.begin(),h_ret.end());
// if(IsSymmetric()){
// h_ret.push_back(HeapElem(new MYTYPE(EdgeType(vfi.V2(),vfi.V1()), this->GlobalMark())));
// std::push_heap(h_ret.begin(),h_ret.end());
// }
// }
}
++vfi;nn++;
}
// printf("ADDED %d\n",nn);
}
// if(vfi.V1()->IsRW() && vfi.V2()->IsRW() )
// {
// h_ret.push_back(HeapElem(new MYTYPE(EdgeType(vfi.V1(),vfi.V2()),this->GlobalMark())));
// std::push_heap(h_ret.begin(),h_ret.end());
// if(IsSymmetric()){
// h_ret.push_back(HeapElem(new MYTYPE(EdgeType(vfi.V2(),vfi.V1()), this->GlobalMark())));
// std::push_heap(h_ret.begin(),h_ret.end());
// }
// }
++vfi;
} // end while
}
ModifierType IsOfType(){ return TriEdgeCollapseOp;}

90
vcg/complex/algorithms/local_optimization/tri_edge_collapse_quadric.h
View File

@ -453,63 +453,61 @@ public:
inline void UpdateHeap(HeapType & h_ret,BaseParameterClass *_pp)
{
QParameter *pp=(QParameter *)_pp;
this->GlobalMark()++;
VertexType *v[2];
v[0]= this->pos.V(0);
v[1]= this->pos.V(1);
v[1]->IMark() = this->GlobalMark();
this->GlobalMark()++;
VertexType *v[2];
v[0]= this->pos.V(0);
v[1]= this->pos.V(1);
v[1]->IMark() = this->GlobalMark();
// First loop around the remaining vertex to unmark visited flags
vcg::face::VFIterator<FaceType> vfi(v[1]);
while (!vfi.End()){
vfi.V1()->ClearV();
vfi.V2()->ClearV();
++vfi;
}
// First loop around the remaining vertex to unmark visited flags
vcg::face::VFIterator<FaceType> vfi(v[1]);
while (!vfi.End()){
vfi.V1()->ClearV();
vfi.V2()->ClearV();
++vfi;
}
// Second Loop
vfi = face::VFIterator<FaceType>(v[1]);
while (!vfi.End())
// Second Loop
vfi = face::VFIterator<FaceType>(v[1]);
while (!vfi.End())
{
assert(!vfi.F()->IsD());
for (int j=0;j<3;j++)
{
if( !(vfi.V1()->IsV()) && vfi.V1()->IsRW())
{
vfi.V1()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V0(),vfi.V1()), this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(!IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V1(),vfi.V0()), this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
}
assert(!vfi.F()->IsD());
if( !(vfi.V1()->IsV()) && vfi.V1()->IsRW())
{
vfi.V1()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V0(),vfi.V1()), this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(!IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V1(),vfi.V0()), this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
}
if( !(vfi.V2()->IsV()) && vfi.V2()->IsRW())
{
vfi.V2()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V0(),vfi.V2()),this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(!IsSymmetric(pp)){
h_ret.push_back( HeapElem(new MYTYPE(VertexPair(vfi.V2(),vfi.V0()), this->GlobalMark(),_pp) ) );
std::push_heap(h_ret.begin(),h_ret.end());
}
}
if( !(vfi.V2()->IsV()) && vfi.V2()->IsRW())
{
vfi.V2()->SetV();
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V0(),vfi.V2()),this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(!IsSymmetric(pp)){
h_ret.push_back( HeapElem(new MYTYPE(VertexPair(vfi.V2(),vfi.V0()), this->GlobalMark(),_pp) ) );
std::push_heap(h_ret.begin(),h_ret.end());
}
if(pp->SafeHeapUpdate && vfi.V1()->IsRW() && vfi.V2()->IsRW() )
{
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V1(),vfi.V2()),this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(!IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V2(),vfi.V1()), this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
}
}
if(pp->SafeHeapUpdate && vfi.V1()->IsRW() && vfi.V2()->IsRW() )
{
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V1(),vfi.V2()),this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
if(!IsSymmetric(pp)){
h_ret.push_back(HeapElem(new MYTYPE(VertexPair(vfi.V2(),vfi.V1()), this->GlobalMark(),_pp)));
std::push_heap(h_ret.begin(),h_ret.end());
}
}
}
++vfi;
}
}
static void InitQuadric(TriMeshType &m,BaseParameterClass *_pp)
static void InitQuadric(TriMeshType &m,BaseParameterClass *_pp)
{
QParameter *pp=(QParameter *)_pp;
typename TriMeshType::FaceIterator pf;