Added subSet function.

2004-04-29 12:37:00 +00:00 · 2004-04-29 12:37:00 +00:00 · f5976ee86f
parent f6c416728a
commit f5976ee86f
1 changed files with 76 additions and 0 deletions
--- a/vcg/complex/tetramesh/update/allocate.h
+++ b/vcg/complex/tetramesh/update/allocate.h
@ -178,6 +178,82 @@ if(last!=0) siz=distance(m.vert.begin(),last);
 	return last;
 }
 template <class MESH_TYPE >
 struct InsertedVT{
 	InsertedVT(	MESH_TYPE::VertexType *_v,
 				MESH_TYPE::TetraType *_t,	
 				int _z):v(_v),t(_t),z(_z){}
 	MESH_TYPE::VertexType *v;
 	MESH_TYPE::TetraType *t;
 	int z;	
 	const bool operator <(const InsertedVT & o){
 		return (v<o.v);
 		}
 	const bool operator ==(const InsertedVT & o){
 		return (v==o.v);
 		}
 	const bool operator !=(const InsertedVT & o){
 		return (v!=o.v);
 		}
 	};
 /** Crate a copy of the mesh with tetrahedron that are into the templated container
@param ST_CONT (Template Parameter) Specifies the type of the container of tetrahedron.
@param subSet Container of tetrahedron.
@param m destination mesh.
 */
 template <class STL_CONT >
 void SubSetT(STL_CONT & subSet, TetraMeshType & m)
 {	
 	vector< InsertedVT< TetraMeshType > > newVertices;
 	STL_CONT :: iterator pfi;
 	newVertices.clear();
 	for(pfi = subSet.begin(); pfi != subSet.end(); ++pfi) 
 		m.tetra.push_back((*pfi));
 	TetraIterator fi;
 	for(fi = m.tetra.begin(); fi != m.tetra.end(); ++fi)
 	{
 		newVertices.push_back(InsertedVT< TetraMeshType >( (*fi).V(0),&(*fi),0));
 		newVertices.push_back(InsertedVT< TetraMeshType >( (*fi).V(1),&(*fi),1));
 		newVertices.push_back(InsertedVT< TetraMeshType >( (*fi).V(2),&(*fi),2));
 		newVertices.push_back(InsertedVT< TetraMeshType >( (*fi).V(3),&(*fi),3));
 	}
 	sort(newVertices.begin(),newVertices.end());
 	vector< InsertedVT< TetraMeshType > >::iterator curr,next;
 	int pos = 0;
 	curr = next = newVertices.begin();
 	while( next != newVertices.end())
 	{
 		if((*curr)!=(*next))
 			pos++;
 		(*next).t->V( (*next).z) = (VertexType *)pos;
 		curr = next;
 		next++;
 	}
 	vector<InsertedVT< TetraMeshType > >::iterator newE = unique(newVertices.begin(),newVertices.end());
 	for(curr = newVertices.begin();curr!= newE;++curr)
 		m.vert.push_back(*((*curr).v));
 	for(fi = m.tetra.begin(); fi != m.tetra.end(); ++fi)
 	{
 		(*fi).V(0) = &(m.vert[(int)(*fi).V(0)]);
 		(*fi).V(1) = &(m.vert[(int)(*fi).V(1)]);
 		(*fi).V(2) = &(m.vert[(int)(*fi).V(2)]);
 		(*fi).V(3) = &(m.vert[(int)(*fi).V(3)]);
 	}
 	m.vn = m.vert.size();
 	m.tn = m.tetra.size();
 }
 }; // end class