attributeMultiVector.hpp 13.3 KB
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/*******************************************************************************
* CGoGN: Combinatorial and Geometric modeling with Generic N-dimensional Maps  *
* version 0.1                                                                  *
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* Copyright (C) 2009-2012, IGG Team, LSIIT, University of Strasbourg           *
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*                                                                              *
* This library is free software; you can redistribute it and/or modify it      *
* under the terms of the GNU Lesser General Public License as published by the *
* Free Software Foundation; either version 2.1 of the License, or (at your     *
* option) any later version.                                                   *
*                                                                              *
* This library 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 Lesser General Public License  *
* for more details.                                                            *
*                                                                              *
* You should have received a copy of the GNU Lesser General Public License     *
* along with this library; if not, write to the Free Software Foundation,      *
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301 USA.           *
*                                                                              *
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* Web site: http://cgogn.unistra.fr/                                           *
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* Contact information: cgogn@unistra.fr                                        *
*                                                                              *
*******************************************************************************/
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namespace CGoGN
{

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inline AttributeMultiVectorGen::AttributeMultiVectorGen(const std::string& strName, const std::string& strType):
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	m_attrName(strName), m_typeName(strType), m_toProcess(true)
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{}

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inline AttributeMultiVectorGen::AttributeMultiVectorGen():
	m_toProcess(true)
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{}

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inline AttributeMultiVectorGen::~AttributeMultiVectorGen()
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{}

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/**************************************
 *             ACCESSORS              *
 **************************************/

inline unsigned int AttributeMultiVectorGen::getOrbit() const
{
	return m_orbit;
}

inline void AttributeMultiVectorGen::setOrbit(unsigned int i)
{
	m_orbit = i ;
}

inline unsigned int AttributeMultiVectorGen::getIndex() const
{
	return m_index;
}

inline void AttributeMultiVectorGen::setIndex(unsigned int i)
{
	m_index = i ;
}

inline const std::string& AttributeMultiVectorGen::getName()
{
	return m_attrName;
}

inline void AttributeMultiVectorGen::setName(const std::string& n)
{
	m_attrName = n ;
}

inline const std::string& AttributeMultiVectorGen::getTypeName()
{
	return m_typeName;
}

inline void AttributeMultiVectorGen::setTypeName(const std::string& n)
{
	m_typeName = n ;
}

inline unsigned int AttributeMultiVectorGen::getBlockSize()
{
	return _BLOCKSIZE_ ;
}

/**************************************
 *       ARITHMETIC OPERATIONS        *
 **************************************/

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inline void AttributeMultiVectorGen::toggleProcess()
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{
	m_toProcess = true;
}

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inline void AttributeMultiVectorGen::toggleNoProcess()
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{
	m_toProcess = false;
}

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inline bool AttributeMultiVectorGen::toProcess()
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{
	return m_toProcess;
}


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/***************************************************************************************************/
/***************************************************************************************************/
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template <typename T>
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AttributeMultiVector<T>::AttributeMultiVector(const std::string& strName, const std::string& strType):
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	AttributeMultiVectorGen(strName, strType)
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{
	m_tableData.reserve(1024);
}

template <typename T>
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AttributeMultiVector<T>::AttributeMultiVector()
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{
	m_tableData.reserve(1024);
}

template <typename T>
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AttributeMultiVector<T>::~AttributeMultiVector()
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{
	for (typename std::vector< T* >::iterator it = m_tableData.begin(); it != m_tableData.end(); ++it)
		delete[] (*it);
}

template <typename T>
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inline AttributeMultiVectorGen* AttributeMultiVector<T>::new_obj()
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{
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	AttributeMultiVectorGen* ptr = new AttributeMultiVector<T>;
	ptr->setTypeName(m_typeName);
	return ptr;
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}

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/**************************************
 *       MULTI VECTOR MANAGEMENT      *
 **************************************/

template <typename T>
inline void AttributeMultiVector<T>::addBlock()
{
	T* ptr = new T[_BLOCKSIZE_];
	m_tableData.push_back(ptr);
	// init
//	T* endPtr = ptr + _BLOCKSIZE_;
//	while (ptr != endPtr)
//		*ptr++ = T(0);
}

template <typename T>
void AttributeMultiVector<T>::setNbBlocks(unsigned int nbb)
{
	if (nbb >= m_tableData.size())
	{
		for (unsigned int i= m_tableData.size(); i <nbb; ++i)
			addBlock();
	}
	else
	{
		for (unsigned int i = nbb; i < m_tableData.size(); ++i)
			delete[] m_tableData[i];
		m_tableData.resize(nbb);
	}
}

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template <typename T>
unsigned int AttributeMultiVector<T>::getNbBlocks() const
{
	return m_tableData.size();
}

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template <typename T>
void AttributeMultiVector<T>::addBlocksBefore(unsigned int nbb)
{
	std::vector<T*> tempo;
	tempo.reserve(1024);

	for (unsigned int i = 0; i < nbb; ++i)
		addBlock();

	for (typename std::vector<T*>::iterator it = m_tableData.begin(); it != m_tableData.end(); ++it)
		tempo.push_back(*it);

	m_tableData.swap(tempo);
}

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template <typename T>
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bool AttributeMultiVector<T>::copy(const AttributeMultiVectorGen* atmvg)
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{
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	const AttributeMultiVector<T>* atmv = dynamic_cast<const AttributeMultiVector<T>*>(atmvg);
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	if (atmv == NULL)
	{
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		CGoGNerr << "trying to copy attributes of different type" << CGoGNendl;
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		return false;
	}
	if (atmv->m_typeName != m_typeName)
	{
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		CGoGNerr << "trying to swap attributes with different type names" << CGoGNendl;
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		return false;
	}

	for (unsigned int i = 0; i < atmv->m_tableData.size(); ++i)
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		std::memcpy(m_tableData[i], atmv->m_tableData[i], _BLOCKSIZE_ * sizeof(T));

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	return true;
}

template <typename T>
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bool AttributeMultiVector<T>::swap(AttributeMultiVectorGen* atmvg)
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{
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	AttributeMultiVector<T>* atmv = dynamic_cast<AttributeMultiVector<T>*>(atmvg);
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	if (atmv == NULL)
	{
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		CGoGNerr << "trying to swap attributes of different type" << CGoGNendl;
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		return false;
	}
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	if (atmv->m_typeName != m_typeName)
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	{
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		CGoGNerr << "trying to swap attributes with different type names" << CGoGNendl;
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		return false;
	}

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	m_tableData.swap(atmv->m_tableData) ;
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	return true;
}

template <typename T>
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bool AttributeMultiVector<T>::merge(const AttributeMultiVectorGen& att)
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{
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	const AttributeMultiVector<T>* attrib = dynamic_cast< const AttributeMultiVector<T>* >(&att);
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	if (attrib==NULL)
	{
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		CGoGNerr << "trying to merge attributes of different type" << CGoGNendl;
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		return false;
	}
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	if (attrib->m_typeName != m_typeName)
	{
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		CGoGNerr << "trying to merge attributes with different type names" << CGoGNendl;
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		return false;
	}

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	for (typename std::vector<T*>::const_iterator it = attrib->m_tableData.begin(); it != attrib->m_tableData.end(); ++it)
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		m_tableData.push_back(*it);

	return true;
}

template <typename T>
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inline void AttributeMultiVector<T>::clear()
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{
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	for (typename std::vector< T* >::iterator it = m_tableData.begin(); it != m_tableData.end(); ++it)
		delete[] (*it);
	m_tableData.clear();
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}
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/**************************************
 *             DATA ACCESS            *
 **************************************/
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template <typename T>
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inline T& AttributeMultiVector<T>::operator[](unsigned int i)
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{
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	return m_tableData[i / _BLOCKSIZE_][i % _BLOCKSIZE_];
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}

template <typename T>
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inline const T& AttributeMultiVector<T>::operator[](unsigned int i) const
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{
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	return m_tableData[i / _BLOCKSIZE_][i % _BLOCKSIZE_];
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}

template <typename T>
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unsigned int AttributeMultiVector<T>::getBlocksPointers(std::vector<void*>& addr, unsigned int& byteBlockSize)
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{
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	byteBlockSize = _BLOCKSIZE_ * sizeof(T);

	addr.reserve(m_tableData.size());
	addr.clear();

	for (typename std::vector<T*>::iterator it = m_tableData.begin(); it != m_tableData.end(); ++it)
		addr.push_back(*it);

	return addr.size();
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}

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/**************************************
 *          LINES MANAGEMENT          *
 **************************************/

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template <typename T>
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void AttributeMultiVector<T>::initElt(unsigned int id)
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{
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	m_tableData[id / _BLOCKSIZE_][id % _BLOCKSIZE_] = T(0);
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}

template <typename T>
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void AttributeMultiVector<T>::copyElt(unsigned int dst, unsigned int src)
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{
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	m_tableData[dst / _BLOCKSIZE_][dst % _BLOCKSIZE_] = m_tableData[src / _BLOCKSIZE_][src % _BLOCKSIZE_];
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}

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template <typename T>
void AttributeMultiVector<T>::swapElt(unsigned int id1, unsigned int id2)
{
	T data = m_tableData[id1 / _BLOCKSIZE_][id1 % _BLOCKSIZE_] ;
	m_tableData[id1 / _BLOCKSIZE_][id1 % _BLOCKSIZE_] = m_tableData[id2 / _BLOCKSIZE_][id2 % _BLOCKSIZE_] ;
	m_tableData[id2 / _BLOCKSIZE_][id2 % _BLOCKSIZE_] = data ;
}

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template <typename T>
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void AttributeMultiVector<T>::overwrite(unsigned int src_b, unsigned int src_id, unsigned int dst_b, unsigned int dst_id)
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{
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	m_tableData[dst_b][dst_id] = m_tableData[src_b][src_id];
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}

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/**************************************
 *       ARITHMETIC OPERATIONS        *
 **************************************/

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template <typename T>
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void AttributeMultiVector<T>::affect(unsigned int i, unsigned int j)
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{
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	if (m_toProcess)
		m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_] = m_tableData[j/_BLOCKSIZE_][j%_BLOCKSIZE_];
}
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template <typename T>
void AttributeMultiVector<T>::add(unsigned int i, unsigned int j)
{
	if (m_toProcess)
		m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_] += m_tableData[j/_BLOCKSIZE_][j%_BLOCKSIZE_];
}
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template <typename T>
void AttributeMultiVector<T>::sub(unsigned int i, unsigned int j)
{
	if (m_toProcess)
		m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_] -= m_tableData[j/_BLOCKSIZE_][j%_BLOCKSIZE_];
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}

template <typename T>
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void AttributeMultiVector<T>::mult(unsigned int i, double alpha)
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{
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	if (m_toProcess)
		m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_] *= alpha;
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}

template <typename T>
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void AttributeMultiVector<T>::div(unsigned int i, double alpha)
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{
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	if (m_toProcess)
		m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_] /= alpha;
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}

template <typename T>
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void AttributeMultiVector<T>::lerp(unsigned res, unsigned int i, unsigned int j, double alpha)
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{
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	if (m_toProcess)
	{
		T v1 = m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_];
		T v2 = m_tableData[j/_BLOCKSIZE_][j%_BLOCKSIZE_];
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		v1 *= alpha;
		v2 *= 1.0 - alpha;
		v1 += v2;
		m_tableData[res/_BLOCKSIZE_][res%_BLOCKSIZE_] = v1;
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		CGoGNout << "LERP " << m_tableData[i/_BLOCKSIZE_][i%_BLOCKSIZE_] << " & " << m_tableData[j/_BLOCKSIZE_][j%_BLOCKSIZE_];
		CGoGNout << " = " << m_tableData[res/_BLOCKSIZE_][res%_BLOCKSIZE_] << CGoGNendl;
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	}
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}

/**************************************
 *            SAVE & LOAD             *
 **************************************/

template <typename T>
std::string AttributeMultiVector<T>::output(unsigned int i)
{
	std::stringstream ss;
	ss << m_tableData[i / _BLOCKSIZE_][i % _BLOCKSIZE_];
	return ss.str();
}

template <typename T>
void AttributeMultiVector<T>::input(unsigned int i,const std::string& st)
{
	std::stringstream ss(st);
	ss >> m_tableData[i / _BLOCKSIZE_][i % _BLOCKSIZE_];
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}

template <typename T>
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void AttributeMultiVector<T>::saveBin(CGoGNostream& fs, unsigned int id)
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{
	unsigned int nbs[3];
	nbs[0] = id;
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	int len1 = m_attrName.size()+1;
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	int len2 = m_typeName.size()+1;
	nbs[1] = len1;
	nbs[2] = len2;
	fs.write(reinterpret_cast<const char*>(nbs),3*sizeof(unsigned int));
	// store names
	char buffer[256];
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	const char* s1 = m_attrName.c_str();
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	memcpy(buffer,s1,len1);
	const char* s2 = m_typeName.c_str();
	memcpy(buffer+len1,s2,len2);
	fs.write(reinterpret_cast<const char*>(buffer),(len1+len2)*sizeof(char));

	nbs[0] = m_tableData.size();
	nbs[1] = nbs[0] * _BLOCKSIZE_* sizeof(T);
	fs.write(reinterpret_cast<const char*>(nbs),2*sizeof(unsigned int));

	// store data blocks
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	for(unsigned int i=0; i<nbs[0]; ++i)
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	{
		fs.write(reinterpret_cast<const char*>(m_tableData[i]),_BLOCKSIZE_*sizeof(T));
	}
}

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inline unsigned int AttributeMultiVectorGen::loadBinInfos(CGoGNistream& fs, std::string& name, std::string& type)
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{
	unsigned int nbs[3];
	fs.read(reinterpret_cast<char*>(nbs), 3*sizeof(unsigned int));

	unsigned int id = nbs[0];
	unsigned int len1 = nbs[1];
	unsigned int len2 = nbs[2];

	char buffer[256];
	fs.read(buffer, (len1+len2)*sizeof(char));

	name = std::string(buffer);
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	type = std::string(buffer + len1);
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	return id;
}

template <typename T>
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bool AttributeMultiVector<T>::loadBin(CGoGNistream& fs)
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{
	unsigned int nbs[2];
	fs.read(reinterpret_cast<char*>(nbs), 2*sizeof(unsigned int));

	unsigned int nb = nbs[0];

	// load data blocks
	m_tableData.resize(nb);
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	for(unsigned int i = 0; i < nb; ++i)
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	{
		T* ptr = new T[_BLOCKSIZE_];
		fs.read(reinterpret_cast<char*>(ptr),_BLOCKSIZE_*sizeof(T));
		m_tableData[i] = ptr;
	}

	return true;
}

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inline bool AttributeMultiVectorGen::skipLoadBin(CGoGNistream& fs)
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{
	unsigned int nbs[2];
	fs.read(reinterpret_cast<char*>(nbs), 2*sizeof(unsigned int));

	// get number of byte to skip
	unsigned int nbb = nbs[1];

	// check if nbb ok
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	if (nbb % _BLOCKSIZE_ != 0)
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	{
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		CGoGNerr << "Error skipping wrong number of byte in attributes reading"<< CGoGNendl;
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		return false;
	}

	// skip data (no seek because of pb with gzstream)
	char* ptr = new char[_BLOCKSIZE_];
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	while (nbb != 0)
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	{
		nbb -= _BLOCKSIZE_;
		fs.read(reinterpret_cast<char*>(ptr),_BLOCKSIZE_);
	}
	delete[] ptr;

	return true;
}

} // namespace CGoGN