vcglib/vcg/complex/tetramesh/allocate.h

/****************************************************************************
* VCGLib                                                            o o     *
* Visual and Computer Graphics Library                            o     o   *
*                                                                _   O  _   *
* Copyright(C) 2004                                                \/)\/    *
* Visual Computing Lab                                            /\/|      *
* ISTI - Italian National Research Council                           |      *
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* (at your option) any later version.                                       *
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* This program is distributed in the hope that it will be useful,           *
* but WITHOUT ANY WARRANTY; without even the implied warranty of            *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the             *
* GNU General Public License (http://www.gnu.org/licenses/gpl.txt)          *
* for more details.                                                         *
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/****************************************************************************
  History

$Log: not supported by cvs2svn $
Revision 1.4  2004/06/01 17:12:46  ganovelli
addVertices corrected (two copies instead of specializing te call)
and put static (also addTetra) * g++  compliant *

Revision 1.3  2004/05/31 16:01:56  pietroni
added function addtetra

Revision 1.2  2004/05/14 15:14:34  turini
Added  $Log: not supported by cvs2svn $
Added  Revision 1.4  2004/06/01 17:12:46  ganovelli
Added  addVertices corrected (two copies instead of specializing te call)
Added  and put static (also addTetra) * g++  compliant *
Added
Added  Revision 1.3  2004/05/31 16:01:56  pietroni
Added  added function addtetra
Added  for CVS History Log

Revision 1.1  2004/19/04 13:05  pietroni
Initial commit


****************************************************************************/
#ifndef __VCG_TETRA_ALLOCATE
#define __VCG_TETRA_ALLOCATE
#include <vector>
using namespace std;
namespace vcg {
namespace tetra {
/** \addtogroup tetramesh */
/*@{*/

 /**  Class Allocate.
 This is class for Allocate new vertices or tetrahedron on the mesh.
		@param TM_TYPE (Template Parameter) Specifies the type of the tetrahedral mesh.
 */

template  < class TM_TYPE >
class Allocator
{

public:

	/// The tetramesh type
	typedef TM_TYPE TetraMeshType;

	
	/// The vertex type 
	typedef typename TM_TYPE::VertexType VertexType;
	
	/// The tetrahedron type 
	typedef typename TM_TYPE::TetraType TetraType;

	/// The type of vertex iterator
	typedef typename TM_TYPE::VertexIterator VertexIterator;

	/// The type of tetra iterator
	typedef typename TM_TYPE::TetraIterator TetraIterator;

	/// The type of constant vertex iterator
	typedef typename TM_TYPE::const_VertexIterator const_VertexIterator;

	/// The type of constant face iterator
	typedef typename TM_TYPE::const_TetraIterator const_TetraIterator;


public:
 
  /** Function to add n vertices to the mesh. The second parameter hold a vector of 
pointers to pointer to elements of the mesh that should be updated after a 
possible vector realloc. 
@param n Il numero di vertici che si vuole aggiungere alla mesh.
@param local_var Vettore di variabili locali che rappresentano puntatori a vertici. 
restituisce l'iteratore al primo elemento aggiunto.
*/

static VertexIterator AddVertices(TetraMeshType &m,int n, vector<VertexType **> &local_var)
{
	VertexIterator oldbegin, newbegin;
	oldbegin = m.vert.begin();
  VertexIterator last=m.vert.end();
	if(m.vert.empty()) last=(VertexIterator)0;  // if the vector is empty we cannot find the last valid element
	else --last;
	unsigned int siz=0;
#ifdef __STL_CONFIG_H	
if(last!=(VertexIterator)0) distance(m.vert.begin(),last,siz);
#else
if(last!=(VertexIterator)0) siz=distance(m.vert.begin(),last);
#endif
	for(unsigned int i=0; i<n; ++i)
	{
		m.vert.push_back(VertexType());
		m.vert.back().ClearFlags();
	}
	m.vn+=n;
	newbegin = m.vert.begin();
	if(newbegin != oldbegin)
		{
			TetraIterator f;
			for (f=m.tetra.begin(); f!=m.tetra.end(); ++f)
				if(!(*f).IsD())
				for(unsigned int k=0; k<4; ++k)
					(*f).V(k)= (*f).V(k)-&*oldbegin+&*newbegin;
			for(unsigned int j=0; j<local_var.size(); ++j)
				if((*local_var[j]) !=0 ) *local_var[j] = *local_var[j]-&*oldbegin+&*newbegin;

			// deve restituire l'iteratore alla prima faccia aggiunta;
			// e poiche' lo spazio e' cambiato si ricalcola last da zero  
			if(last!=(VertexIterator)0) 
			{ 
				last = m.vert.begin(); 
				advance(last,siz+1);
			}
			else last=m.vert.begin(); 
		}
	else 
	{ 
		// se non e'cambiato lo spazio (vector abbastanza grande o lista)
		if(last==(VertexIterator)0) last = m.vert.begin(); // se il vettore era vuoto si restituisce begin
		           else advance(last,1); // altrimenti il primo dopo quello che era in precedenza l'ultimo valido.
	}
	return last;
}

 /** Function to add n vertices to the mesh. 
@param n Il numero di vertici che si vuole aggiungere alla mesh.
*/
static VertexIterator AddVertices(TetraMeshType &m,int n)
{
	vector<VertexType **> empty_var;
	return AddVertices(m,n,empty_var);
}	

struct InsertedVT{
	InsertedVT(VertexType *_v,
				TetraType *_t,	
				int _z):v(_v),t(_t),z(_z){}

	VertexType *v;
	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);
		}
	};


  /** Function to add n tetrafedron to the mesh.
@param n number of vertices we want to add.
*/
static TetraIterator AddTetra(TetraMeshType &m,int n)
{
	unsigned int sz = m.tetra.size();
	m.tetra.resize(sz+n);
	
	TetraIterator ti =m.tetra.begin();
	advance(ti,sz);
	
	m.tn+=n;
  return ti;
}

/** 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 >
static void SubSetT(STL_CONT & subSet, TetraMeshType & m)
{	
	vector< InsertedVT > newVertices;
	typename 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( (*fi).V(0),&(*fi),0));
		newVertices.push_back(InsertedVT( (*fi).V(1),&(*fi),1));
		newVertices.push_back(InsertedVT( (*fi).V(2),&(*fi),2));
		newVertices.push_back(InsertedVT( (*fi).V(3),&(*fi),3));
	}

	sort(newVertices.begin(),newVertices.end());

	typename std::vector< InsertedVT >::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++;
	}

	typename std::vector<InsertedVT >::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


/*@}*/
}	// End namespace
}	// End namespace


#endif