Commit 1d9d93b1 authored by Pierre Kraemer's avatar Pierre Kraemer
Browse files

warnings

parent ddefb9a1
......@@ -88,9 +88,9 @@ bool exportTrian(typename PFP::MAP& map, const typename PFP::TVEC3& position, ch
* @param filename filename of ply file
* @param position the position container
* @return true
*
template <typename PFP>
bool exportPlySLFgeneric(typename PFP::MAP& map, const typename PFP::TVEC3& position, const char* filename, const FunctorSelect& good = allDarts) ;
*/
//template <typename PFP>
//bool exportPlySLFgeneric(typename PFP::MAP& map, const typename PFP::TVEC3& position, const char* filename, const FunctorSelect& good = allDarts) ;
/**
* export the map into a PLYPTMgeneric file (K. Vanhoey generic format).
......@@ -103,9 +103,9 @@ bool exportPlySLFgeneric(typename PFP::MAP& map, const typename PFP::TVEC3& posi
* @param filename filename of ply file
* @param position the position container
* @return true
*
template <typename PFP>
bool exportPlySLFgenericBin(typename PFP::MAP& map, const typename PFP::TVEC3& position, const char* filename, const FunctorSelect& good = allDarts) ;
*/
//template <typename PFP>
//bool exportPlySLFgenericBin(typename PFP::MAP& map, const typename PFP::TVEC3& position, const char* filename, const FunctorSelect& good = allDarts) ;
/**
* export the map into a PLYSLF file (K. Vanhoey generic format).
......
......@@ -665,305 +665,305 @@ bool MeshTablesSurface<PFP>::importPly(const std::string& filename, std::vector<
* ...
* - K remaining attrNames named "remainderNo<k>" where k is an integer from 0 to K-1.
* @return bool : success.
*
template <typename PFP>
bool MeshTablesSurface<PFP>::importPlySLFgeneric(const std::string& filename, std::vector<std::string>& attrNames)
{
// Open file
std::ifstream fp(filename.c_str(), std::ios::in) ;
if (!fp.good())
{
CGoGNerr << "Unable to open file " << filename << CGoGNendl ;
return false ;
}
// Read quantities : #vertices, #faces, #properties, degree of polynomials
std::string tag ;
fp >> tag;
if (tag != std::string("ply")) // verify file type
{
CGoGNerr << filename << " is not a ply file !" << CGoGNout ;
return false ;
}
do // go to #vertices
{
fp >> tag ;
} while (tag != std::string("vertex")) ;
unsigned int nbVertices ;
fp >> nbVertices ; // Read #vertices
bool position = false ;
bool tangent = false ;
bool binormal = false ;
bool normal = false ;
unsigned int nbProps = 0 ; // # properties
unsigned int nbCoefs = 0 ; // # coefficients per polynomial
do // go to #faces and count #properties
{
fp >> tag ;
if (tag == std::string("property"))
++nbProps ;
if (tag == std::string("x") || tag == std::string("y") || tag == std::string("z"))
position = true ;
else if (tag == std::string("FrameT_0") || tag == std::string("FrameT_1") || tag == std::string("FrameT_2"))
tangent = true ;
else if (tag == std::string("FrameB_0") || tag == std::string("FrameB_1") || tag == std::string("FrameB_2"))
binormal = true ;
else if (tag == std::string("FrameN_0") || tag == std::string("FrameN_1") || tag == std::string("FrameN_2"))
normal = true ;
if ((tag.substr(3,5) == std::string("coefs") && tag.substr(8,1) == std::string("_")) || (tag.substr(2,5) == std::string("coefs") && tag.substr(7,1) == std::string("_")))
++nbCoefs ;
} while (tag != std::string("face")) ;
unsigned int nbRemainders = nbProps ; // # remaining properties
nbRemainders -= nbCoefs + 3*(position==true) + 3*(tangent==true) + 3*(binormal==true) + 3*(normal==true) ;
nbCoefs /= 3 ;
fp >> m_nbFaces ; // Read #vertices
do // go to end of header
{
fp >> tag ;
} while (tag != std::string("end_header")) ;
// Define containers
AttributeHandler<typename PFP::VEC3> positions = m_map.template getAttribute<typename PFP::VEC3>(VERTEX, "position") ;
if (!positions.isValid())
positions = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "position") ;
attrNames.push_back(positions.name()) ;
AttributeHandler<typename PFP::VEC3> *frame = new AttributeHandler<typename PFP::VEC3>[3] ;
frame[0] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameT") ; // Tangent
frame[1] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameB") ; // Bitangent
frame[2] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameN") ; // Normal
attrNames.push_back(frame[0].name()) ;
attrNames.push_back(frame[1].name()) ;
attrNames.push_back(frame[2].name()) ;
AttributeHandler<typename PFP::VEC3> *SLFcoefs = new AttributeHandler<typename PFP::VEC3>[nbCoefs] ;
for (unsigned int i = 0 ; i < nbCoefs ; ++i)
{
std::stringstream name ;
name << "SLFcoefs" << i ;
SLFcoefs[i] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, name.str()) ;
attrNames.push_back(SLFcoefs[i].name()) ;
}
AttributeHandler<typename PFP::REAL> *remainders = new AttributeHandler<typename PFP::REAL>[nbRemainders] ;
for (unsigned int i = 0 ; i < nbRemainders ; ++i)
{
std::stringstream name ;
name << "remainderNo" << i ;
remainders[i] = m_map.template addAttribute<typename PFP::REAL>(VERTEX, name.str()) ;
attrNames.push_back(remainders[i].name()) ;
}
// Read vertices
std::vector<unsigned int> verticesID ;
verticesID.reserve(nbVertices) ;
float* properties = new float[nbProps] ;
AttributeContainer& container = m_map.getAttributeContainer(VERTEX) ;
for (unsigned int i = 0 ; i < nbVertices ; ++i) // Read and store properties for current vertex
{
unsigned int id = container.insertLine() ;
verticesID.push_back(id) ;
for (unsigned int j = 0 ; j < nbProps ; ++j) // get all properties
fp >> properties[j] ;
positions[id] = VEC3(properties[0],properties[1],properties[2]) ; // position
for (unsigned int k = 0 ; k < 3 ; ++k) // frame
for (unsigned int l = 0 ; l < 3 ; ++l)
frame[k][id][l] = properties[3+(3*k+l)] ;
for (unsigned int k = 0 ; k < 3 ; ++k) // coefficients
for (unsigned int l = 0 ; l < nbCoefs ; ++l)
SLFcoefs[l][id][k] = properties[12+(nbCoefs*k+l)] ;
unsigned int cur = 12+3*nbCoefs ;
for (unsigned int k = 0 ; k < nbRemainders ; ++k) // remaining data
remainders[k][id] = properties[cur + k] ;
}
m_nbVertices = verticesID.size() ;
delete[] properties ;
// Read faces index
m_nbEdges.reserve(m_nbFaces) ;
m_emb.reserve(3 * m_nbFaces) ;
for (unsigned int i = 0 ; i < m_nbFaces ; ++i)
{
// read the indices of vertices for current face
unsigned int nbEdgesForFace ;
fp >> nbEdgesForFace ;
m_nbEdges.push_back(nbEdgesForFace);
unsigned int vertexID ;
for (unsigned int j=0 ; j < nbEdgesForFace ; ++j)
{
fp >> vertexID ;
m_emb.push_back(verticesID[vertexID]);
}
}
// Close file
fp.close() ;
return true ;
}
template <typename PFP>
bool MeshTablesSurface<PFP>::importPlySLFgenericBin(const std::string& filename, std::vector<std::string>& attrNames)
{
// Open file
std::ifstream fp(filename.c_str(), std::ios::in | std::ios::binary) ;
if (!fp.good())
{
CGoGNerr << "Unable to open file " << filename << CGoGNendl ;
return false ;
}
// Read quantities : #vertices, #faces, #properties, degree of polynomials
std::string tag ;
fp >> tag;
if (tag != std::string("ply")) // verify file type
{
CGoGNerr << filename << " is not a ply file !" << CGoGNout ;
return false ;
}
do // go to #vertices
{
fp >> tag ;
} while (tag != std::string("vertex")) ;
unsigned int nbVertices ;
fp >> nbVertices ; // Read #vertices
bool position = false ;
bool tangent = false ;
bool binormal = false ;
bool normal = false ;
unsigned int nbProps = 0 ; // # properties
unsigned int nbCoefs = 0 ; // # coefficients per polynomial
do // go to #faces and count #properties
{
fp >> tag ;
if (tag == std::string("property"))
++nbProps ;
if (tag == std::string("x") || tag == std::string("y") || tag == std::string("z"))
position = true ;
else if (tag == std::string("FrameT_0") || tag == std::string("FrameT_1") || tag == std::string("FrameT_2"))
tangent = true ;
else if (tag == std::string("FrameB_0") || tag == std::string("FrameB_1") || tag == std::string("FrameB_2"))
binormal = true ;
else if (tag == std::string("FrameN_0") || tag == std::string("FrameN_1") || tag == std::string("FrameN_2"))
normal = true ;
if ((tag.substr(3,5) == std::string("coefs") && tag.substr(8,1) == std::string("_")) || (tag.substr(2,5) == std::string("coefs") && tag.substr(7,1) == std::string("_")))
++nbCoefs ;
} while (tag != std::string("face")) ;
unsigned int nbRemainders = nbProps ; // # remaining properties
nbRemainders -= nbCoefs + 3*(position==true) + 3*(tangent==true) + 3*(binormal==true) + 3*(normal==true) ;
nbCoefs /= 3 ;
fp >> m_nbFaces ; // Read #vertices
do // go to end of header
{
fp >> tag ;
} while (tag != std::string("end_header")) ;
char* endline = new char[1] ;
fp.read(endline, sizeof(char)) ;
if (*endline == '\r') // for windows
fp.read(endline, sizeof(char)) ;
assert(*endline == '\n') ;
delete endline ;
// Define containers
AttributeHandler<typename PFP::VEC3> positions = m_map.template getAttribute<typename PFP::VEC3>(VERTEX, "position") ;
if (!positions.isValid())
positions = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "position") ;
attrNames.push_back(positions.name()) ;
AttributeHandler<typename PFP::VEC3> *frame = new AttributeHandler<typename PFP::VEC3>[3] ;
frame[0] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameT") ; // Tangent
frame[1] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameB") ; // Bitangent
frame[2] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameN") ; // Normal
attrNames.push_back(frame[0].name()) ;
attrNames.push_back(frame[1].name()) ;
attrNames.push_back(frame[2].name()) ;
AttributeHandler<typename PFP::VEC3> *SLFcoefs = new AttributeHandler<typename PFP::VEC3>[nbCoefs] ;
for (unsigned int i = 0 ; i < nbCoefs ; ++i)
{
std::stringstream name ;
name << "SLFcoefs" << i ;
SLFcoefs[i] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, name.str()) ;
attrNames.push_back(SLFcoefs[i].name()) ;
}
AttributeHandler<typename PFP::REAL> *remainders = new AttributeHandler<typename PFP::REAL>[nbRemainders] ;
for (unsigned int i = 0 ; i < nbRemainders ; ++i)
{
std::stringstream name ;
name << "remainderNo" << i ;
remainders[i] = m_map.template addAttribute<typename PFP::REAL>(VERTEX, name.str()) ;
attrNames.push_back(remainders[i].name()) ;
}
// Read vertices
std::vector<unsigned int> verticesID ;
verticesID.reserve(nbVertices) ;
float* properties = new float[nbProps] ;
AttributeContainer& container = m_map.getAttributeContainer(VERTEX) ;
for (unsigned int i = 0 ; i < nbVertices ; ++i) // Read and store properties for current vertex
{
unsigned int id = container.insertLine() ;
verticesID.push_back(id) ;
// for (unsigned int j = 0 ; j < nbProps ; ++j) // get all properties
fp.read((char*)properties,nbProps * sizeof(float)) ;
positions[id] = VEC3(properties[0],properties[1],properties[2]) ; // position
for (unsigned int k = 0 ; k < 3 ; ++k) // frame
for (unsigned int l = 0 ; l < 3 ; ++l)
frame[k][id][l] = (typename PFP::REAL)(properties[3+(3*k+l)]) ;
for (unsigned int k = 0 ; k < 3 ; ++k) // coefficients
for (unsigned int l = 0 ; l < nbCoefs ; ++l)
SLFcoefs[l][id][k] = (typename PFP::REAL)(properties[12+(nbCoefs*k+l)]) ;
unsigned int cur = 12+3*nbCoefs ;
for (unsigned int k = 0 ; k < nbRemainders ; ++k) // remaining data
remainders[k][id] = (typename PFP::REAL)(properties[cur + k]) ;
}
m_nbVertices = verticesID.size() ;
delete[] properties ;
// Read faces index
m_nbEdges.reserve(m_nbFaces) ;
m_emb.reserve(3 * m_nbFaces) ;
for (unsigned int i = 0 ; i < m_nbFaces ; ++i)
{
// read the indices of vertices for current face
unsigned int nbEdgesForFace ;
fp.read((char*)&(nbEdgesForFace), sizeof(unsigned int)) ;
m_nbEdges.push_back(nbEdgesForFace);
unsigned int vertexID ;
for (unsigned int j=0 ; j < nbEdgesForFace ; ++j)
{
fp.read((char*)&vertexID, sizeof(unsigned int)) ;
m_emb.push_back(verticesID[vertexID]);
}
}
// Close file
fp.close() ;
return true ;
}
*/
//template <typename PFP>
//bool MeshTablesSurface<PFP>::importPlySLFgeneric(const std::string& filename, std::vector<std::string>& attrNames)
//{
// // Open file
// std::ifstream fp(filename.c_str(), std::ios::in) ;
// if (!fp.good())
// {
// CGoGNerr << "Unable to open file " << filename << CGoGNendl ;
// return false ;
// }
//
// // Read quantities : #vertices, #faces, #properties, degree of polynomials
// std::string tag ;
//
// fp >> tag;
// if (tag != std::string("ply")) // verify file type
// {
// CGoGNerr << filename << " is not a ply file !" << CGoGNout ;
// return false ;
// }
//
// do // go to #vertices
// {
// fp >> tag ;
// } while (tag != std::string("vertex")) ;
// unsigned int nbVertices ;
// fp >> nbVertices ; // Read #vertices
//
// bool position = false ;
// bool tangent = false ;
// bool binormal = false ;
// bool normal = false ;
// unsigned int nbProps = 0 ; // # properties
// unsigned int nbCoefs = 0 ; // # coefficients per polynomial
// do // go to #faces and count #properties
// {
// fp >> tag ;
// if (tag == std::string("property"))
// ++nbProps ;
//
// if (tag == std::string("x") || tag == std::string("y") || tag == std::string("z"))
// position = true ;
// else if (tag == std::string("FrameT_0") || tag == std::string("FrameT_1") || tag == std::string("FrameT_2"))
// tangent = true ;
// else if (tag == std::string("FrameB_0") || tag == std::string("FrameB_1") || tag == std::string("FrameB_2"))
// binormal = true ;
// else if (tag == std::string("FrameN_0") || tag == std::string("FrameN_1") || tag == std::string("FrameN_2"))
// normal = true ;
// if ((tag.substr(3,5) == std::string("coefs") && tag.substr(8,1) == std::string("_")) || (tag.substr(2,5) == std::string("coefs") && tag.substr(7,1) == std::string("_")))
// ++nbCoefs ;
// } while (tag != std::string("face")) ;
// unsigned int nbRemainders = nbProps ; // # remaining properties
// nbRemainders -= nbCoefs + 3*(position==true) + 3*(tangent==true) + 3*(binormal==true) + 3*(normal==true) ;
// nbCoefs /= 3 ;
//
// fp >> m_nbFaces ; // Read #vertices
//
// do // go to end of header
// {
// fp >> tag ;
// } while (tag != std::string("end_header")) ;
//
// // Define containers
// AttributeHandler<typename PFP::VEC3> positions = m_map.template getAttribute<typename PFP::VEC3>(VERTEX, "position") ;
// if (!positions.isValid())
// positions = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "position") ;
// attrNames.push_back(positions.name()) ;
//
// AttributeHandler<typename PFP::VEC3> *frame = new AttributeHandler<typename PFP::VEC3>[3] ;
// frame[0] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameT") ; // Tangent
// frame[1] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameB") ; // Bitangent
// frame[2] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameN") ; // Normal
// attrNames.push_back(frame[0].name()) ;
// attrNames.push_back(frame[1].name()) ;
// attrNames.push_back(frame[2].name()) ;
//
// AttributeHandler<typename PFP::VEC3> *SLFcoefs = new AttributeHandler<typename PFP::VEC3>[nbCoefs] ;
// for (unsigned int i = 0 ; i < nbCoefs ; ++i)
// {
// std::stringstream name ;
// name << "SLFcoefs" << i ;
// SLFcoefs[i] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, name.str()) ;
// attrNames.push_back(SLFcoefs[i].name()) ;
// }
//
// AttributeHandler<typename PFP::REAL> *remainders = new AttributeHandler<typename PFP::REAL>[nbRemainders] ;
// for (unsigned int i = 0 ; i < nbRemainders ; ++i)
// {
// std::stringstream name ;
// name << "remainderNo" << i ;
// remainders[i] = m_map.template addAttribute<typename PFP::REAL>(VERTEX, name.str()) ;
// attrNames.push_back(remainders[i].name()) ;
// }
//
// // Read vertices
// std::vector<unsigned int> verticesID ;
// verticesID.reserve(nbVertices) ;
//
// float* properties = new float[nbProps] ;
// AttributeContainer& container = m_map.getAttributeContainer(VERTEX) ;
// for (unsigned int i = 0 ; i < nbVertices ; ++i) // Read and store properties for current vertex
// {
// unsigned int id = container.insertLine() ;
// verticesID.push_back(id) ;
//
// for (unsigned int j = 0 ; j < nbProps ; ++j) // get all properties
// fp >> properties[j] ;
//
// positions[id] = VEC3(properties[0],properties[1],properties[2]) ; // position
// for (unsigned int k = 0 ; k < 3 ; ++k) // frame
// for (unsigned int l = 0 ; l < 3 ; ++l)
// frame[k][id][l] = properties[3+(3*k+l)] ;
// for (unsigned int k = 0 ; k < 3 ; ++k) // coefficients
// for (unsigned int l = 0 ; l < nbCoefs ; ++l)
// SLFcoefs[l][id][k] = properties[12+(nbCoefs*k+l)] ;
// unsigned int cur = 12+3*nbCoefs ;
// for (unsigned int k = 0 ; k < nbRemainders ; ++k) // remaining data
// remainders[k][id] = properties[cur + k] ;
// }
// m_nbVertices = verticesID.size() ;
// delete[] properties ;
//
// // Read faces index
// m_nbEdges.reserve(m_nbFaces) ;
// m_emb.reserve(3 * m_nbFaces) ;
// for (unsigned int i = 0 ; i < m_nbFaces ; ++i)
// {
// // read the indices of vertices for current face
// unsigned int nbEdgesForFace ;
// fp >> nbEdgesForFace ;
// m_nbEdges.push_back(nbEdgesForFace);
//
// unsigned int vertexID ;
// for (unsigned int j=0 ; j < nbEdgesForFace ; ++j)
// {
// fp >> vertexID ;
// m_emb.push_back(verticesID[vertexID]);
// }
// }
//
// // Close file
// fp.close() ;
//
// return true ;
//}
//template <typename PFP>
//bool MeshTablesSurface<PFP>::importPlySLFgenericBin(const std::string& filename, std::vector<std::string>& attrNames)
//{
// // Open file
// std::ifstream fp(filename.c_str(), std::ios::in | std::ios::binary) ;
// if (!fp.good())
// {
// CGoGNerr << "Unable to open file " << filename << CGoGNendl ;
// return false ;
// }
//
// // Read quantities : #vertices, #faces, #properties, degree of polynomials
// std::string tag ;
//
// fp >> tag;
// if (tag != std::string("ply")) // verify file type
// {
// CGoGNerr << filename << " is not a ply file !" << CGoGNout ;
// return false ;
// }
//
// do // go to #vertices
// {
// fp >> tag ;
// } while (tag != std::string("vertex")) ;
// unsigned int nbVertices ;
// fp >> nbVertices ; // Read #vertices
//
// bool position = false ;
// bool tangent = false ;
// bool binormal = false ;
// bool normal = false ;
// unsigned int nbProps = 0 ; // # properties
// unsigned int nbCoefs = 0 ; // # coefficients per polynomial
// do // go to #faces and count #properties
// {
// fp >> tag ;
// if (tag == std::string("property"))
// ++nbProps ;
//
// if (tag == std::string("x") || tag == std::string("y") || tag == std::string("z"))
// position = true ;
// else if (tag == std::string("FrameT_0") || tag == std::string("FrameT_1") || tag == std::string("FrameT_2"))
// tangent = true ;
// else if (tag == std::string("FrameB_0") || tag == std::string("FrameB_1") || tag == std::string("FrameB_2"))
// binormal = true ;
// else if (tag == std::string("FrameN_0") || tag == std::string("FrameN_1") || tag == std::string("FrameN_2"))
// normal = true ;
// if ((tag.substr(3,5) == std::string("coefs") && tag.substr(8,1) == std::string("_")) || (tag.substr(2,5) == std::string("coefs") && tag.substr(7,1) == std::string("_")))
// ++nbCoefs ;
// } while (tag != std::string("face")) ;
// unsigned int nbRemainders = nbProps ; // # remaining properties
// nbRemainders -= nbCoefs + 3*(position==true) + 3*(tangent==true) + 3*(binormal==true) + 3*(normal==true) ;
// nbCoefs /= 3 ;
//
// fp >> m_nbFaces ; // Read #vertices
//
// do // go to end of header
// {
// fp >> tag ;
// } while (tag != std::string("end_header")) ;
//
// char* endline = new char[1] ;
// fp.read(endline, sizeof(char)) ;
// if (*endline == '\r') // for windows
// fp.read(endline, sizeof(char)) ;
// assert(*endline == '\n') ;
// delete endline ;
//
// // Define containers
// AttributeHandler<typename PFP::VEC3> positions = m_map.template getAttribute<typename PFP::VEC3>(VERTEX, "position") ;
// if (!positions.isValid())
// positions = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "position") ;
// attrNames.push_back(positions.name()) ;
//
// AttributeHandler<typename PFP::VEC3> *frame = new AttributeHandler<typename PFP::VEC3>[3] ;
// frame[0] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameT") ; // Tangent
// frame[1] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameB") ; // Bitangent
// frame[2] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, "frameN") ; // Normal
// attrNames.push_back(frame[0].name()) ;
// attrNames.push_back(frame[1].name()) ;
// attrNames.push_back(frame[2].name()) ;
//
// AttributeHandler<typename PFP::VEC3> *SLFcoefs = new AttributeHandler<typename PFP::VEC3>[nbCoefs] ;
// for (unsigned int i = 0 ; i < nbCoefs ; ++i)
// {
// std::stringstream name ;
// name << "SLFcoefs" << i ;
// SLFcoefs[i] = m_map.template addAttribute<typename PFP::VEC3>(VERTEX, name.str()) ;
// attrNames.push_back(SLFcoefs[i].name()) ;
// }
//
// AttributeHandler<typename PFP::REAL> *remainders = new AttributeHandler<typename PFP::REAL>[nbRemainders] ;
// for (unsigned int i = 0 ; i < nbRemainders ; ++i)
// {
// std::stringstream name ;
// name << "remainderNo" << i ;
// remainders[i] = m_map.template addAttribute<typename PFP::REAL>(VERTEX, name.str()) ;
// attrNames.push_back(remainders[i].name()) ;
// }
//
// // Read vertices
// std::vector<unsigned int> verticesID ;
// verticesID.reserve(nbVertices) ;
//
// float* properties = new float[nbProps] ;
// AttributeContainer& container = m_map.getAttributeContainer(VERTEX) ;
// for (unsigned int i = 0 ; i < nbVertices ; ++i) // Read and store properties for current vertex
// {
// unsigned int id = container.insertLine() ;
// verticesID.push_back(id) ;
//
// // for (unsigned int j = 0 ; j < nbProps ; ++j) // get all properties
// fp.read((char*)properties,nbProps * sizeof(float)) ;
//
// positions[id] = VEC3(properties[0],properties[1],properties[2]) ; // position
// for (unsigned int k = 0 ; k < 3 ; ++k) // frame
// for (unsigned int l = 0 ; l < 3 ; ++l)
// frame[k][id][l] = (typename PFP::REAL)(properties[3+(3*k+l)]) ;
// for (unsigned int k = 0 ; k < 3 ; ++k) // coefficients
// for (unsigned int l = 0 ; l < nbCoefs ; ++l)
// SLFcoefs[l][id][k] = (typename PFP::REAL)(properties[12+(nbCoefs*k+l)]) ;
// unsigned int cur = 12+3*nbCoefs ;
// for (unsigned int k = 0 ; k < nbRemainders ; ++k) // remaining data
// remainders[k][id] = (typename PFP::REAL)(properties[cur + k]) ;
// }
// m_nbVertices = verticesID.size() ;
// delete[] properties ;
//
// // Read faces index
// m_nbEdges.reserve(m_nbFaces) ;
// m_emb.reserve(3 * m_nbFaces) ;
// for (unsigned int i = 0 ; i < m_nbFaces ; ++i)
// {
// // read the indices of vertices for current face
// unsigned int nbEdgesForFace ;
// fp.read((char*)&(nbEdgesForFace), sizeof(unsigned int)) ;
// m_nbEdges.push_back(nbEdgesForFace);
//
// unsigned int vertexID ;
// for (unsigned int j=0 ; j < nbEdgesForFace ; ++j)
// {
// fp.read((char*)&vertexID, sizeof(unsigned int)) ;
// m_emb.push_back(verticesID[vertexID]);
// }
// }
//
// // Close file
// fp.close() ;
//
// return true ;