-// Copyright (C) 2007-2014 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2019 CEA/DEN, EDF R&D
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
#include "MEDFileField.hxx"
#include "MEDFileMesh.hxx"
+#include "MEDCouplingFieldDiscretization.hxx"
#include "CellModel.hxx"
-using namespace ParaMEDMEM;
+using namespace MEDCoupling;
const unsigned char MEDMeshMultiLev::PARAMEDMEM_2_VTKTYPE[MEDMeshMultiLev::PARAMEDMEM_2_VTKTYPE_LGTH]=
-{1,3,21,5,9,7,22,34,23,28,255,255,255,255,10,14,13,255,12,255,24,255,16,27,255,26,255,29,255,255,25,42,36,4};
+{1,3,21,5,9,7,22,34,23,28,35,255,255,255,10,14,13,255,12,255,24,255,16,27,255,26,255,29,32,255,25,42,36,4};
const unsigned char MEDMeshMultiLev::HEXA27_PERM_ARRAY[27]={0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,24,22,21,23,20,25,26};
MEDMeshMultiLev *MEDMeshMultiLev::NewOnlyOnNode(const MEDFileMesh *m, const DataArrayInt *pflOnNode)
{
- MEDCouplingAutoRefCountObjectPtr<MEDMeshMultiLev> ret(MEDMeshMultiLev::New(m,m->getNonEmptyLevels()));
+ MCAuto<MEDMeshMultiLev> ret(MEDMeshMultiLev::New(m,m->getNonEmptyLevels()));
ret->selectPartOfNodes(pflOnNode);
return ret.retn();
}
DataArray *MEDMeshMultiLev::buildDataArray(const MEDFileField1TSStructItem& fst, const MEDFileFieldGlobsReal *globs, const DataArray *vals) const
{
- MEDCouplingAutoRefCountObjectPtr<DataArray> ret(const_cast<DataArray *>(vals)); ret->incrRef();
+ MCAuto<DataArray> ret(const_cast<DataArray *>(vals)); ret->incrRef();
if(isFastlyTheSameStruct(fst,globs))
return ret.retn();
else
{ famIds=const_cast<DataArrayInt *>(fids); famIds->incrRef(); isWithoutCopy=_mesh->isObjectInTheProgeny(famIds); return ; }
//bad luck the slowest part
isWithoutCopy=false;
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> > retSafe(sz);
+ std::vector< MCAuto<DataArrayInt> > retSafe(sz);
std::vector< const DataArrayInt *> ret(sz);
int start(0);
for(std::size_t i=0;i<sz;i++)
int lgth(_nb_entities[i]);
if(pfl)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(fids->selectByTupleId2(start,start+lgth,1));
+ MCAuto<DataArrayInt> tmp(fids->selectByTupleIdSafeSlice(start,start+lgth,1));
retSafe[i]=tmp->selectByTupleIdSafe(pfl->begin(),pfl->end());
}
else
{
- retSafe[i]=fids->selectByTupleId2(start,start+lgth,1);
+ retSafe[i]=fids->selectByTupleIdSafeSlice(start,start+lgth,1);
}
ret[i]=retSafe[i];
start+=lgth;
{ numIds=const_cast<DataArrayInt *>(nids); numIds->incrRef(); isWithoutCopy=_mesh->isObjectInTheProgeny(numIds); return ; }
//bad luck the slowest part
isWithoutCopy=false;
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> > retSafe(sz);
+ std::vector< MCAuto<DataArrayInt> > retSafe(sz);
std::vector< const DataArrayInt *> ret(sz);
int start(0);
for(std::size_t i=0;i<sz;i++)
int lgth(_nb_entities[i]);
if(pfl)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(nids->selectByTupleId2(start,start+lgth,1));
+ MCAuto<DataArrayInt> tmp(nids->selectByTupleIdSafeSlice(start,start+lgth,1));
retSafe[i]=tmp->selectByTupleIdSafe(pfl->begin(),pfl->end());
}
else
{
- retSafe[i]=nids->selectByTupleId2(start,start+lgth,1);
+ retSafe[i]=nids->selectByTupleIdSafeSlice(start,start+lgth,1);
}
ret[i]=retSafe[i];
start+=lgth;
}
}
+/*!
+ * This method returns, if any, a new object containing the global node ids **BUT CONTRARY TO OTHER RETRIEVE METHODS** the returned object is always a NON AGGREGATED object. So the returned object if not null
+ * can be used as this safely.
+ */
+DataArrayInt *MEDMeshMultiLev::retrieveGlobalNodeIdsIfAny() const
+{
+ const MEDFileUMesh *umesh(dynamic_cast<const MEDFileUMesh *>(_mesh));
+ if(!umesh)
+ return 0;
+ const PartDefinition *pd(umesh->getPartDefAtLevel(1));
+ if(!pd)
+ return 0;
+ MCAuto<DataArrayInt> tmp(pd->toDAI());
+ const DataArrayInt *tmpCpp(tmp);
+ if(!tmpCpp)
+ return 0;
+ //
+ const DataArrayInt *nr(_node_reduction);
+ if(nr)
+ return tmp->selectByTupleIdSafe(nr->begin(),nr->end());
+ else
+ return tmp->deepCopy();// Yes a deep copy is needed because this method has to return a non aggregated object !
+}
+
std::vector< INTERP_KERNEL::NormalizedCellType > MEDMeshMultiLev::getGeoTypes() const
{
return _geo_types;
std::string pflName(p.getPflName());
const DataArrayInt *nr(_node_reduction);
if(pflName.empty() && !nr)
- return vals->deepCpy();
+ return vals->deepCopy();
if(pflName.empty() && nr)
throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for nodes 2 !");
if(!pflName.empty() && nr)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(globs->getProfile(pflName.c_str())->deepCpy());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p2(nr->deepCpy());
+ MCAuto<DataArrayInt> p1(globs->getProfile(pflName.c_str())->deepCopy());
+ MCAuto<DataArrayInt> p2(nr->deepCopy());
p1->sort(true); p2->sort(true);
if(!p1->isEqualWithoutConsideringStr(*p2))
throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : it appears that a profile on nodes does not cover the cells correctly !");
p1=DataArrayInt::FindPermutationFromFirstToSecond(globs->getProfile(pflName.c_str()),nr);
- MEDCouplingAutoRefCountObjectPtr<DataArray> ret(vals->deepCpy());
+ MCAuto<DataArray> ret(vals->deepCopy());
ret->renumberInPlace(p1->begin());
return ret.retn();
}
if(!pflName.empty() && !nr)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(globs->getProfile(pflName.c_str())->deepCpy());
+ MCAuto<DataArrayInt> p1(globs->getProfile(pflName.c_str())->deepCopy());
p1->sort(true);
- if(!p1->isIdentity() || p1->getNumberOfTuples()!=getNumberOfNodes())
+ if(!p1->isIota(getNumberOfNodes()))
throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for nodes 4 !");
- MEDCouplingAutoRefCountObjectPtr<DataArray> ret(vals->deepCpy());
+ MCAuto<DataArray> ret(vals->deepCopy());
ret->renumberInPlace(globs->getProfile(pflName.c_str())->begin());
return ret.retn();
}
if(s.size()!=_geo_types.size())
throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for cells 2 !");
std::vector< const DataArray *> arr(s.size());
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArray> > arrSafe(s.size());
+ std::vector< MCAuto<DataArray> > arrSafe(s.size());
int iii(0);
int nc(vals->getNumberOfComponents());
std::vector<std::string> compInfo(vals->getInfoOnComponents());
int nbi(ps[0]->getNbOfIntegrationPts(globs));
const DataArrayInt *otherP(ps[0]->getPfl(globs));
const std::pair<int,int>& strtStop(ps[0]->getStartStop());
- MEDCouplingAutoRefCountObjectPtr<DataArray> ret(vals->selectByTupleId2(strtStop.first,strtStop.second,1));
+ MCAuto<DataArray> ret(vals->selectByTupleIdSafeSlice(strtStop.first,strtStop.second,1));
if(!thisP && !otherP)
{
arrSafe[iii]=ret; arr[iii]=ret;
}
if(thisP && otherP)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(otherP->invertArrayN2O2O2N(getNumberOfCells(ps[0]->getGeo())));
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p2(thisP->deepCpy());
+ MCAuto<DataArrayInt> p1(otherP->invertArrayN2O2O2N(getNumberOfCells(ps[0]->getGeo())));
+ MCAuto<DataArrayInt> p2(thisP->deepCopy());
p2->transformWithIndArr(p1->begin(),p1->end());
- //p1=p2->getIdsNotEqual(-1);
+ //p1=p2->findIdsNotEqual(-1);
//p1=p2->selectByTupleIdSafe(p1->begin(),p1->end());
ret->rearrange(nbi*nc); ret=ret->selectByTupleIdSafe(p2->begin(),p2->end()); ret->rearrange(nc); ret->setInfoOnComponents(compInfo);
arrSafe[iii]=ret; arr[iii]=ret;
}
if(!thisP && otherP)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(otherP->deepCpy());
+ MCAuto<DataArrayInt> p1(otherP->deepCopy());
p1->sort(true);
p1->checkAllIdsInRange(0,getNumberOfCells(ps[0]->getGeo()));
p1=DataArrayInt::FindPermutationFromFirstToSecond(otherP,p1);
{
std::vector< const DataArrayInt * >otherPS(ps.size());
std::vector< const DataArray * > arr2(ps.size());
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArray> > arr2Safe(ps.size());
+ std::vector< MCAuto<DataArray> > arr2Safe(ps.size());
std::vector< const DataArrayInt * > nbis(ps.size());
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> > nbisSafe(ps.size());
+ std::vector< MCAuto<DataArrayInt> > nbisSafe(ps.size());
int jj(0);
for(std::vector<const MEDFileField1TSStructItem2 *>::const_iterator it2=ps.begin();it2!=ps.end();it2++,jj++)
{
int nbi((*it2)->getNbOfIntegrationPts(globs));
const DataArrayInt *otherPfl((*it2)->getPfl(globs));
const std::pair<int,int>& strtStop((*it2)->getStartStop());
- MEDCouplingAutoRefCountObjectPtr<DataArray> ret2(vals->selectByTupleId2(strtStop.first,strtStop.second,1));
+ MCAuto<DataArray> ret2(vals->selectByTupleIdSafeSlice(strtStop.first,strtStop.second,1));
if(!otherPfl)
throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for cells 4 !");
arr2[jj]=ret2; arr2Safe[jj]=ret2; otherPS[jj]=otherPfl;
nbisSafe[jj]=DataArrayInt::New(); nbisSafe[jj]->alloc(otherPfl->getNumberOfTuples(),1); nbisSafe[jj]->fillWithValue(nbi);
nbis[jj]=nbisSafe[jj];
}
- MEDCouplingAutoRefCountObjectPtr<DataArray> arr3(DataArray::Aggregate(arr2));
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> otherP(DataArrayInt::Aggregate(otherPS));
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> zenbis(DataArrayInt::Aggregate(nbis));
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> otherPN(otherP->invertArrayN2O2O2N(getNumberOfCells(*it)));
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1;
+ MCAuto<DataArray> arr3(DataArray::Aggregate(arr2));
+ MCAuto<DataArrayInt> otherP(DataArrayInt::Aggregate(otherPS));
+ MCAuto<DataArrayInt> zenbis(DataArrayInt::Aggregate(nbis));
+ MCAuto<DataArrayInt> otherPN(otherP->invertArrayN2O2O2N(getNumberOfCells(*it)));
+ MCAuto<DataArrayInt> p1;
if(thisP)
p1=DataArrayInt::FindPermutationFromFirstToSecond(otherP,thisP);
else
- p1=otherP->deepCpy();
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> zenbisN(zenbis->renumber(p1->begin()));
- zenbisN->computeOffsets2();
+ p1=otherP->deepCopy();
+ MCAuto<DataArrayInt> zenbisN(zenbis->renumber(p1->begin()));
+ zenbisN->computeOffsetsFull();
jj=0;
for(std::vector<const MEDFileField1TSStructItem2 *>::const_iterator it2=ps.begin();it2!=ps.end();it2++,jj++)
{
//int nbi((*it2)->getNbOfIntegrationPts(globs));
const DataArrayInt *otherPfl((*it2)->getPfl(globs));
const std::pair<int,int>& strtStop((*it2)->getStartStop());
- MEDCouplingAutoRefCountObjectPtr<DataArray> ret2(vals->selectByTupleId2(strtStop.first,strtStop.second,1));
+ MCAuto<DataArray> ret2(vals->selectByTupleIdSafeSlice(strtStop.first,strtStop.second,1));
//
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p2(otherPfl->deepCpy());
+ MCAuto<DataArrayInt> p2(otherPfl->deepCopy());
p2->transformWithIndArr(otherPN->begin(),otherPN->end());
p2->transformWithIndArr(p1->begin(),p1->end());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> idsN(p2->buildExplicitArrByRanges(zenbisN));
+ MCAuto<DataArrayInt> idsN(p2->buildExplicitArrByRanges(zenbisN));
arr3->setPartOfValuesBase3(ret2,idsN->begin(),idsN->end(),0,nc,1);
}
arrSafe[iii]=arr3; arr[iii]=arr3;
const DataArrayInt *cf(_cell_fam_ids),*cn(_cell_num_ids),*nf(_node_fam_ids),*nn(_node_num_ids);
if(cf)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp;
+ MCAuto<DataArrayInt> tmp;
std::vector<const DataArrayInt *> a(2);
a[0]=cf;
if(nf)
}
if(cn)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp;
+ MCAuto<DataArrayInt> tmp;
std::vector<const DataArrayInt *> a(2);
a[0]=cn;
if(nn)
return ;
}
//
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> > famIdsSafe(sz);
+ std::vector< MCAuto<DataArrayInt> > famIdsSafe(sz);
std::vector<const DataArrayInt *> famIds(sz);
bool f(true);
for(std::size_t i=0;i<sz;i++)
}
if(f)
_cell_fam_ids=DataArrayInt::Aggregate(famIds);
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> > numIdsSafe(sz);
+ std::vector< MCAuto<DataArrayInt> > numIdsSafe(sz);
std::vector<const DataArrayInt *> numIds(sz);
bool n(true);
for(std::size_t i=0;i<sz;i++)
if(!pflNodes || !pflNodes->isAllocated())
return ;
std::size_t sz(_parts.size());
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayInt> > a(sz);
+ std::vector< MCAuto<DataArrayInt> > a(sz);
std::vector< const DataArrayInt *> aa(sz);
for(std::size_t i=0;i<sz;i++)
{
const DataArrayInt *pfl(_pfls[i]);
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> m(_parts[i]);
+ MCAuto<MEDCoupling1GTUMesh> m(_parts[i]);
if(pfl)
m=dynamic_cast<MEDCoupling1GTUMesh *>(_parts[i]->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end()));
DataArrayInt *cellIds=0;
m->fillCellIdsToKeepFromNodeIds(pflNodes->begin(),pflNodes->end(),true,cellIds);
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> cellIdsSafe(cellIds);
- MEDCouplingAutoRefCountObjectPtr<MEDCouplingPointSet> m2(m->buildPartOfMySelfKeepCoords(cellIds->begin(),cellIds->end()));
+ MCAuto<DataArrayInt> cellIdsSafe(cellIds);
+ MCAuto<MEDCouplingPointSet> m2(m->buildPartOfMySelfKeepCoords(cellIds->begin(),cellIds->end()));
int tmp=-1;
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> o2n(m2->getNodeIdsInUse(tmp));
+ MCAuto<DataArrayInt> o2n(m2->getNodeIdsInUse(tmp));
a[i]=o2n->invertArrayO2N2N2O(tmp); aa[i]=a[i];
if(pfl)
_pfls[i]=pfl->selectByTupleIdSafe(cellIds->begin(),cellIds->end());
if(!aa.empty())
_node_reduction=DataArrayInt::Aggregate(aa);//general case
else
- _node_reduction=pflNodes->deepCpy();//case where no cells in read mesh.
+ _node_reduction=pflNodes->deepCopy();//case where no cells in read mesh.
_node_reduction->sort(true);
_node_reduction=_node_reduction->buildUnique();
if(_node_reduction->getNumberOfTuples()==pflNodes->getNumberOfTuples())
if(_node_reduction->getNumberOfTuples()>pflNodes->getNumberOfTuples())
throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::selectPartOfNodes : internal error in MEDCoupling during cell select from a list of nodes !");
// Here the cells available in _parts is not enough to cover all the nodes in pflNodes. So adding vertices cells in _parts...
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> pflNodes2(pflNodes->deepCpy());
+ MCAuto<DataArrayInt> pflNodes2(pflNodes->deepCopy());
pflNodes2->sort(true);
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> diff(pflNodes2->buildSubstractionOptimized(_node_reduction));
+ MCAuto<DataArrayInt> diff(pflNodes2->buildSubstractionOptimized(_node_reduction));
appendVertices(diff,pflNodes2);
}
{
}
-MEDUMeshMultiLev::MEDUMeshMultiLev(const MEDStructuredMeshMultiLev& other, const MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh>& part):MEDMeshMultiLev(other)
+MEDUMeshMultiLev::MEDUMeshMultiLev(const MEDStructuredMeshMultiLev& other, const MCAuto<MEDCoupling1GTUMesh>& part):MEDMeshMultiLev(other)
{
_parts.resize(1);
_parts[0]=part;
tmp=_parts[0]->getCoords();
if(!tmp)
throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : the coordinates are null !");
- MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> a(const_cast<DataArrayDouble *>(tmp)); tmp->incrRef();
+ MCAuto<DataArrayDouble> a(const_cast<DataArrayDouble *>(tmp)); tmp->incrRef();
int szBCE(0),szD(0),szF(0);
bool isPolyh(false);
int iii(0);
- for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_parts.begin();it!=_parts.end();it++,iii++)
+ for(std::vector< MCAuto<MEDCoupling1GTUMesh> >::const_iterator it=_parts.begin();it!=_parts.end();it++,iii++)
{
const MEDCoupling1GTUMesh *cur(*it);
if(!cur)
throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : a part is null !");
//
const DataArrayInt *pfl(_pfls[iii]);
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> cur2;
+ MCAuto<MEDCoupling1GTUMesh> cur2;
if(!pfl)
{ cur2=const_cast<MEDCoupling1GTUMesh *>(cur); cur2->incrRef(); }
else
else
{
isPolyh=true;
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp2(cur->computeEffectiveNbOfNodesPerCell());
+ MCAuto<DataArrayInt> tmp2(cur->computeEffectiveNbOfNodesPerCell());
szD+=tmp2->accumulate(0)+curNbCells;
szF+=2*curNbCells+cur->getNodalConnectivity()->getNumberOfTuples();
}
}
- MEDCouplingAutoRefCountObjectPtr<DataArrayByte> b(DataArrayByte::New()); b->alloc(szBCE,1); char *bPtr(b->getPointer());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> c(DataArrayInt::New()); c->alloc(szBCE,1); int *cPtr(c->getPointer());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d(DataArrayInt::New()); d->alloc(szD,1); int *dPtr(d->getPointer());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> e(DataArrayInt::New()),f(DataArrayInt::New()); int *ePtr(0),*fPtr(0);
+ MCAuto<DataArrayByte> b(DataArrayByte::New()); b->alloc(szBCE,1); char *bPtr(b->getPointer());
+ MCAuto<DataArrayInt> c(DataArrayInt::New()); c->alloc(szBCE,1); int *cPtr(c->getPointer());
+ MCAuto<DataArrayInt> d(DataArrayInt::New()); d->alloc(szD,1); int *dPtr(d->getPointer());
+ MCAuto<DataArrayInt> e(DataArrayInt::New()),f(DataArrayInt::New()); int *ePtr(0),*fPtr(0);
if(isPolyh)
{ e->alloc(szBCE,1); ePtr=e->getPointer(); f->alloc(szF,1); fPtr=f->getPointer(); }
int k(0);
iii=0;
- for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> >::const_iterator it=_parts.begin();it!=_parts.end();it++,iii++)
+ for(std::vector< MCAuto<MEDCoupling1GTUMesh> >::const_iterator it=_parts.begin();it!=_parts.end();it++,iii++)
{
const MEDCoupling1GTUMesh *cur(*it);
//
const DataArrayInt *pfl(_pfls[iii]);
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> cur2;
+ MCAuto<MEDCoupling1GTUMesh> cur2;
if(!pfl)
{ cur2=const_cast<MEDCoupling1GTUMesh *>(cur); cur2->incrRef(); }
else
return _mesh->isObjectInTheProgeny(coords);
}
-void MEDUMeshMultiLev::reorderNodesIfNecessary(MEDCouplingAutoRefCountObjectPtr<DataArrayDouble>& coords, DataArrayInt *nodalConnVTK, DataArrayInt *polyhedNodalConnVTK) const
+void MEDUMeshMultiLev::reorderNodesIfNecessary(MCAuto<DataArrayDouble>& coords, DataArrayInt *nodalConnVTK, DataArrayInt *polyhedNodalConnVTK) const
{
const DataArrayInt *nr(_node_reduction);
if(!nr)
if(szExp!=nr->getNumberOfTuples())
throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::reorderNodesIfNecessary : internal error #3 !");
// Go renumbering !
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> o2n(DataArrayInt::New()); o2n->alloc(sz,1);
+ MCAuto<DataArrayInt> o2n(DataArrayInt::New()); o2n->alloc(sz,1);
int *o2nPtr(o2n->getPointer());
int newId(0);
for(int i=0;i<sz;i++,o2nPtr++)
if(b[i]) *o2nPtr=newId++; else *o2nPtr=-1;
const int *o2nPtrc(o2n->begin());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> n2o(o2n->invertArrayO2N2N2O(nr->getNumberOfTuples()));
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> perm(DataArrayInt::FindPermutationFromFirstToSecond(n2o,nr));
+ MCAuto<DataArrayInt> n2o(o2n->invertArrayO2N2N2O(nr->getNumberOfTuples()));
+ MCAuto<DataArrayInt> perm(DataArrayInt::FindPermutationFromFirstToSecond(n2o,nr));
const int *permPtr(perm->begin());
int *work2(nodalConnVTK->getPointer()),*endW2(nodalConnVTK->getPointer()+nodalConnVTK->getNumberOfTuples());
while(work2!=endW2)
{
int nbOfCells(verticesToAdd->getNumberOfTuples());//it is not a bug cells are NORM_POINT1
MEDMeshMultiLev::appendVertices(verticesToAdd,nr);
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1SGTUMesh> elt(MEDCoupling1SGTUMesh::New("",INTERP_KERNEL::NORM_POINT1));
+ MCAuto<MEDCoupling1SGTUMesh> elt(MEDCoupling1SGTUMesh::New("",INTERP_KERNEL::NORM_POINT1));
elt->allocateCells(nbOfCells);
for(int i=0;i<nbOfCells;i++)
{
if(_parts.empty())
throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::appendVertices : parts are empty !");
elt->setCoords(_parts[0]->getCoords());
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> elt2((MEDCoupling1SGTUMesh *)elt); elt2->incrRef();
+ MCAuto<MEDCoupling1GTUMesh> elt2((MEDCoupling1SGTUMesh *)elt); elt2->incrRef();
_parts.push_back(elt2);
}
const DataArrayInt *pfl(0),*nr(_node_reduction);
if(!_pfls.empty())
pfl=_pfls[0];
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> facesIfPresent2(facesIfPresent); facesIfPresent->incrRef();
+ MCAuto<MEDCoupling1GTUMesh> facesIfPresent2(facesIfPresent); facesIfPresent->incrRef();
moveFaceToCell();
- MEDCouplingAutoRefCountObjectPtr<MEDUMeshMultiLev> ret2(new MEDUMeshMultiLev(*this,facesIfPresent2));
+ MCAuto<MEDUMeshMultiLev> ret2(new MEDUMeshMultiLev(*this,facesIfPresent2));
if(pfl)
ret2->setCellReduction(pfl);
if(nr)
if(!pflNodes || !pflNodes->isAllocated())
return ;
std::vector<int> ngs(getNodeGridStructure());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> conn(MEDCouplingStructuredMesh::Build1GTNodalConnectivity(&ngs[0],&ngs[0]+ngs.size()));
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1SGTUMesh> m(MEDCoupling1SGTUMesh::New("",MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(ngs.size())));
+ MCAuto<DataArrayInt> conn(MEDCouplingStructuredMesh::Build1GTNodalConnectivity(&ngs[0],&ngs[0]+ngs.size()));
+ MCAuto<MEDCoupling1SGTUMesh> m(MEDCoupling1SGTUMesh::New("",MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(ngs.size())));
m->setNodalConnectivity(conn);
const DataArrayInt *pfl(_pfls[0]);
if(pfl)
}
DataArrayInt *cellIds=0;
m->fillCellIdsToKeepFromNodeIds(pflNodes->begin(),pflNodes->end(),true,cellIds);
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> cellIdsSafe(cellIds);
- MEDCouplingAutoRefCountObjectPtr<MEDCouplingPointSet> m2(m->buildPartOfMySelfKeepCoords(cellIds->begin(),cellIds->end()));
+ MCAuto<DataArrayInt> cellIdsSafe(cellIds);
+ MCAuto<MEDCouplingPointSet> m2(m->buildPartOfMySelfKeepCoords(cellIds->begin(),cellIds->end()));
int tmp=-1;
_node_reduction=m2->getNodeIdsInUse(tmp);
if(pfl)
if(!m)
throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : null input pointer !");
if(gts.size()!=1 || pfls.size()!=1)
- throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : lengthes of gts and pfls must be equal to one !");
+ throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : lengths of gts and pfls must be equal to one !");
int mdim(m->getMeshDimension());
INTERP_KERNEL::NormalizedCellType gt(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(mdim));
if(gt==gts[0])
const DataArrayInt *pfl(0),*nr(_node_reduction);
if(!_pfls.empty())
pfl=_pfls[0];
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> nnr;
+ MCAuto<DataArrayInt> nnr;
std::vector<int> cgs,ngs(getNodeGridStructure());
cgs.resize(ngs.size());
std::transform(ngs.begin(),ngs.end(),cgs.begin(),std::bind2nd(std::plus<int>(),-1));
if(pfl)
{
std::vector< std::pair<int,int> > cellParts;
- MEDCouplingAutoRefCountObjectPtr<MEDMeshMultiLev> ret2;
+ MCAuto<MEDMeshMultiLev> ret2;
if(MEDCouplingStructuredMesh::IsPartStructured(pfl->begin(),pfl->end(),cgs,cellParts))
{
- MEDCouplingAutoRefCountObjectPtr<MEDCMeshMultiLev> ret(new MEDCMeshMultiLev(*this));
+ MCAuto<MEDCMeshMultiLev> ret(new MEDCMeshMultiLev(*this));
ret->_is_internal=false;
if(nr)
- { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ { nnr=nr->deepCopy(); nnr->sort(true); ret->setNodeReduction(nnr); }
ret->_nb_entities[0]=pfl->getNumberOfTuples();
ret->_pfls[0]=0;
- std::vector< MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> > coords(_coords.size());
+ std::vector< MCAuto<DataArrayDouble> > coords(_coords.size());
for(std::size_t i=0;i<_coords.size();i++)
- coords[i]=_coords[i]->selectByTupleId2(cellParts[i].first,cellParts[i].second+1,1);
+ coords[i]=_coords[i]->selectByTupleIdSafeSlice(cellParts[i].first,cellParts[i].second+1,1);
ret->_coords=coords;
ret2=(MEDCMeshMultiLev *)ret; ret2->incrRef();
}
else
{
- MEDCouplingAutoRefCountObjectPtr<MEDCouplingCMesh> m(MEDCouplingCMesh::New());
+ MCAuto<MEDCouplingCMesh> m(MEDCouplingCMesh::New());
for(std::size_t i=0;i<ngs.size();i++)
m->setCoordsAt(i,_coords[i]);
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1SGTUMesh> m2(m->build1SGTUnstructured());
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> m3=dynamic_cast<MEDCoupling1GTUMesh *>(m2->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end()));
- MEDCouplingAutoRefCountObjectPtr<MEDUMeshMultiLev> ret(new MEDUMeshMultiLev(*this,m3));
+ MCAuto<MEDCoupling1SGTUMesh> m2(m->build1SGTUnstructured());
+ MCAuto<MEDCoupling1GTUMesh> m3=dynamic_cast<MEDCoupling1GTUMesh *>(m2->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end()));
+ MCAuto<MEDUMeshMultiLev> ret(new MEDUMeshMultiLev(*this,m3));
if(nr)
- { m3->zipCoords(); nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ { m3->zipCoords(); nnr=nr->deepCopy(); nnr->sort(true); ret->setNodeReduction(nnr); }
ret2=(MEDUMeshMultiLev *)ret; ret2->incrRef();
}
const DataArrayInt *famIds(_cell_fam_ids),*numIds(_cell_num_ids);
if(famIds)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(famIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
+ MCAuto<DataArrayInt> tmp(famIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
ret2->setFamilyIdsOnCells(tmp);
}
if(numIds)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(numIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
+ MCAuto<DataArrayInt> tmp(numIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
ret2->setNumberIdsOnCells(tmp);
}
return ret2.retn();
}
else
{
- MEDCouplingAutoRefCountObjectPtr<MEDCMeshMultiLev> ret(new MEDCMeshMultiLev(*this));
+ MCAuto<MEDCMeshMultiLev> ret(new MEDCMeshMultiLev(*this));
if(nr)
- { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ { nnr=nr->deepCopy(); nnr->sort(true); ret->setNodeReduction(nnr); }
return ret.retn();
}
}
/*!
- * \a param [out] isInternal if true the returned pointers are those in main data structure. If false those pointers have been built espacially for that method.
+ * \a param [out] isInternal if true the returned pointers are those in main data structure. If false those pointers have been built especially for that method.
*/
std::vector< DataArrayDouble * > MEDCMeshMultiLev::buildVTUArrays(bool& isInternal) const
{
if(!m)
throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : null input pointer !");
if(gts.size()!=1 || pfls.size()!=1)
- throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : lengthes of gts and pfls must be equal to one !");
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : lengths of gts and pfls must be equal to one !");
INTERP_KERNEL::NormalizedCellType gt(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(m->getMeshDimension()));
if(gt==gts[0])
{
const DataArrayInt *pfl(0),*nr(_node_reduction);
if(!_pfls.empty())
pfl=_pfls[0];
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> nnr;
+ MCAuto<DataArrayInt> nnr;
std::vector<int> cgs,ngs(getNodeGridStructure());
cgs.resize(ngs.size());
std::transform(ngs.begin(),ngs.end(),cgs.begin(),std::bind2nd(std::plus<int>(),-1));
if(pfl)
{
std::vector< std::pair<int,int> > cellParts,nodeParts;
- MEDCouplingAutoRefCountObjectPtr<MEDMeshMultiLev> ret2;
+ MCAuto<MEDMeshMultiLev> ret2;
if(MEDCouplingStructuredMesh::IsPartStructured(pfl->begin(),pfl->end(),cgs,cellParts))
{
nodeParts=cellParts;
nodeParts[i].second++;
st[i]=nodeParts[i].second-nodeParts[i].first;
}
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p(MEDCouplingStructuredMesh::BuildExplicitIdsFrom(ngs,nodeParts));
- MEDCouplingAutoRefCountObjectPtr<MEDCurveLinearMeshMultiLev> ret(new MEDCurveLinearMeshMultiLev(*this));
+ MCAuto<DataArrayInt> p(MEDCouplingStructuredMesh::BuildExplicitIdsFrom(ngs,nodeParts));
+ MCAuto<MEDCurveLinearMeshMultiLev> ret(new MEDCurveLinearMeshMultiLev(*this));
ret->_is_internal=false;
if(nr)
- { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ { nnr=nr->deepCopy(); nnr->sort(true); ret->setNodeReduction(nnr); }
ret->_nb_entities[0]=pfl->getNumberOfTuples();
ret->_pfls[0]=0;
ret->_coords=_coords->selectByTupleIdSafe(p->begin(),p->end());
}
else
{
- MEDCouplingAutoRefCountObjectPtr<MEDCouplingCurveLinearMesh> m(MEDCouplingCurveLinearMesh::New());
+ MCAuto<MEDCouplingCurveLinearMesh> m(MEDCouplingCurveLinearMesh::New());
m->setCoords(_coords); m->setNodeGridStructure(&_structure[0],&_structure[0]+_structure.size());
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1SGTUMesh> m2(m->build1SGTUnstructured());
- MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> m3=dynamic_cast<MEDCoupling1GTUMesh *>(m2->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end()));
- MEDCouplingAutoRefCountObjectPtr<MEDUMeshMultiLev> ret(new MEDUMeshMultiLev(*this,m3));
+ MCAuto<MEDCoupling1SGTUMesh> m2(m->build1SGTUnstructured());
+ MCAuto<MEDCoupling1GTUMesh> m3=dynamic_cast<MEDCoupling1GTUMesh *>(m2->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end()));
+ MCAuto<MEDUMeshMultiLev> ret(new MEDUMeshMultiLev(*this,m3));
if(nr)
- { m3->zipCoords(); nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ { m3->zipCoords(); nnr=nr->deepCopy(); nnr->sort(true); ret->setNodeReduction(nnr); }
ret2=(MEDUMeshMultiLev *)ret; ret2->incrRef();
}
const DataArrayInt *famIds(_cell_fam_ids),*numIds(_cell_num_ids);
if(famIds)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(famIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
+ MCAuto<DataArrayInt> tmp(famIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
ret2->setFamilyIdsOnCells(tmp);
}
if(numIds)
{
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(numIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
+ MCAuto<DataArrayInt> tmp(numIds->selectByTupleIdSafe(pfl->begin(),pfl->end()));
ret2->setNumberIdsOnCells(tmp);
}
return ret2.retn();
}
else
{
- MEDCouplingAutoRefCountObjectPtr<MEDCurveLinearMeshMultiLev> ret(new MEDCurveLinearMeshMultiLev(*this));
+ MCAuto<MEDCurveLinearMeshMultiLev> ret(new MEDCurveLinearMeshMultiLev(*this));
if(nr)
- { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ { nnr=nr->deepCopy(); nnr->sort(true); ret->setNodeReduction(nnr); }
return ret.retn();
}
}
}
/*!
- * \param [in] nbOfEntity - number of entity that can be either cells or nodes. Not other possiblity.
+ * \param [in] nbOfEntity - number of entity that can be either cells or nodes. Not other possibility.
* \param [in] nip - number of integration points. 1 for ON_CELLS and NO_NODES
*/
void MEDFileField1TSStructItem2::checkInRange(int nbOfEntity, int nip, const MEDFileFieldGlobsReal *globs)
if(_pfl->getName().empty())
{
if(nbOfEntity!=(_start_end.second-_start_end.first)/nip)
- throw INTERP_KERNEL::Exception("MEDFileField1TSStructItem2::checkInRange : Mismatch between number of entities and size of node field !");
+ throw INTERP_KERNEL::Exception("MEDFileField1TSStructItem2::checkInRange : Mismatch between number of entities and size of field !");
return ;
}
else
throw INTERP_KERNEL::Exception("MEDFileField1TSStructItem2::BuildAggregationOf : invalid situation ! Several same geo type chunk must all lie on profiles !");
arrs[i]=globs->getProfile(obj->_pfl->getName().c_str());
}
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> arr(DataArrayInt::Aggregate(arrs));
+ MCAuto<DataArrayInt> arr(DataArrayInt::Aggregate(arrs));
arr->sort();
int oldNbTuples(arr->getNumberOfTuples());
arr=arr->buildUnique();
if(oldNbTuples!=arr->getNumberOfTuples())
throw INTERP_KERNEL::Exception("MEDFileField1TSStructItem2::BuildAggregationOf : some entities are present several times !");
- if(arr->isIdentity() && oldNbTuples==nbEntityRef)
+ if(arr->isIota(nbEntityRef))
{
std::pair<int,int> p(0,nbEntityRef);
std::string a,b;
}
else
{
- arr->setName(arrs[0]->getName());
+ arr->setName(NEWLY_CREATED_PFL_NAME);
std::pair<int,int> p(0,oldNbTuples);
std::string a,b;
MEDFileField1TSStructItem2 ret(gt,p,a,b);
int theFirstLevFull;
bool ret0=isFullyOnOneLev(meshSt,theFirstLevFull);
const MEDFileField1TSStructItem2& otherNodeIt(other._items[0]);
+ int nbOfNodes(meshSt->getNumberOfNodes());
if(otherNodeIt.getPflName().empty())
{//on all nodes
if(!ret0)
return false;
- return theFirstLevFull==0;
+ std::vector<bool> nodesFetched(nbOfNodes,false);
+ meshSt->getTheMesh()->whichAreNodesFetched(*this,globs,nodesFetched);
+ if(std::find(nodesFetched.begin(),nodesFetched.end(),false)==nodesFetched.end())
+ return theFirstLevFull==0;
+ else
+ return false;
}
else
{
const DataArrayInt *pfl=globs->getProfile(otherNodeIt.getPflName().c_str());
- MEDCouplingAutoRefCountObjectPtr<DataArrayInt> cpyPfl(pfl->deepCpy());
+ MCAuto<DataArrayInt> cpyPfl(pfl->deepCopy());
cpyPfl->sort();
- int nbOfNodes(meshSt->getNumberOfNodes());
- if(cpyPfl->isIdentity() && cpyPfl->getNumberOfTuples()==nbOfNodes)
+ if(cpyPfl->isIota(nbOfNodes))
{//on all nodes also !
if(!ret0)
return false;
}
}
MEDFileField1TSStructItem ret(atype,anItems);
- ret.checkWithMeshStruct(meshSt,ref);
+ try
+ {
+ ret.checkWithMeshStruct(meshSt,ref);
+ }
+ catch(INTERP_KERNEL::Exception& e)
+ {
+ std::ostringstream oss; oss << e.what() << " (" << MEDCouplingFieldDiscretization::GetTypeOfFieldRepr(ret.getType()) << ")";
+ throw INTERP_KERNEL::Exception(oss.str().c_str());
+ }
return ret;
}
int pos0(-1),pos1(-1);
if(presenceOfCellDiscr(pos0))
{
- MEDCouplingAutoRefCountObjectPtr<MEDMeshMultiLev> ret(_already_checked[pos0].buildFromScratchDataSetSupportOnCells(mst,globs));
+ MCAuto<MEDMeshMultiLev> ret(_already_checked[pos0].buildFromScratchDataSetSupportOnCells(mst,globs));
if(presenceOfPartialNodeDiscr(pos1))
ret->setNodeReduction(_already_checked[pos1][0].getPfl(globs));
return ret.retn();
/*!
* Returns true if presence in \a this of discretization ON_CELLS, ON_GAUSS_PT, ON_GAUSS_NE.
- * If true is returned the pos of the easiest is returned. The easiest is the first element in \a this having the less splitted subparts.
+ * If true is returned the pos of the easiest is returned. The easiest is the first element in \a this having the less split subparts.
*/
bool MEDFileField1TSStruct::presenceOfCellDiscr(int& pos) const
{
_f1ts_cmps.resize(nbPts);
for(int i=0;i<nbPts;i++)
{
- MEDCouplingAutoRefCountObjectPtr<MEDFileAnyTypeField1TS> elt=ref->getTimeStepAtPos(i);
- _f1ts_cmps[i]=MEDFileField1TSStruct::New(elt,_mesh_comp);
- _f1ts_cmps[i]->checkWithMeshStruct(_mesh_comp,elt);
+ MCAuto<MEDFileAnyTypeField1TS> elt=ref->getTimeStepAtPos(i);
+ try
+ {
+ _f1ts_cmps[i]=MEDFileField1TSStruct::New(elt,_mesh_comp);
+ _f1ts_cmps[i]->checkWithMeshStruct(_mesh_comp,elt);
+ }
+ catch(INTERP_KERNEL::Exception& e)
+ {
+ std::ostringstream oss; oss << "Problem in field with name \"" << ref->getName() << "\"" << std::endl;
+ oss << "More Details : " << e.what();
+ throw INTERP_KERNEL::Exception(oss.str().c_str());
+ }
}
}
std::size_t MEDFileFastCellSupportComparator::getHeapMemorySizeWithoutChildren() const
{
- std::size_t ret(_f1ts_cmps.capacity()*sizeof(MEDCouplingAutoRefCountObjectPtr<MEDFileField1TSStruct>));
+ std::size_t ret(_f1ts_cmps.capacity()*sizeof(MCAuto<MEDFileField1TSStruct>));
return ret;
}
const MEDFileMeshStruct *mst(_mesh_comp);
if(mst)
ret.push_back(mst);
- for(std::vector< MEDCouplingAutoRefCountObjectPtr<MEDFileField1TSStruct> >::const_iterator it=_f1ts_cmps.begin();it!=_f1ts_cmps.end();it++)
+ for(std::vector< MCAuto<MEDFileField1TSStruct> >::const_iterator it=_f1ts_cmps.begin();it!=_f1ts_cmps.end();it++)
ret.push_back((const MEDFileField1TSStruct *)*it);
return ret;
}
}
for(int i=0;i<nbPts;i++)
{
- MEDCouplingAutoRefCountObjectPtr<MEDFileAnyTypeField1TS> elt=other->getTimeStepAtPos(i);
+ MCAuto<MEDFileAnyTypeField1TS> elt=other->getTimeStepAtPos(i);
if(!_f1ts_cmps[i]->isEqualConsideringThePast(elt,_mesh_comp))
if(!_f1ts_cmps[i]->isSupportSameAs(elt,_mesh_comp))
return false;
}
for(int i=0;i<nbPts;i++)
{
- MEDCouplingAutoRefCountObjectPtr<MEDFileAnyTypeField1TS> elt=other->getTimeStepAtPos(i);
+ MCAuto<MEDFileAnyTypeField1TS> elt=other->getTimeStepAtPos(i);
if(!_f1ts_cmps[i]->isCompatibleWithNodesDiscr(elt,_mesh_comp))
return false;
}