+std::size_t MEDMeshMultiLev::getHeapMemorySizeWithoutChildren() const
+{
+ return 0;
+}
+
+std::vector<const BigMemoryObject *> MEDMeshMultiLev::getDirectChildren() const
+{
+ return std::vector<const BigMemoryObject *>();
+}
+
+MEDMeshMultiLev *MEDMeshMultiLev::New(const MEDFileMesh *m, const std::vector<int>& levs)
+{
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::New : null input pointer !");
+ const MEDFileUMesh *um(dynamic_cast<const MEDFileUMesh *>(m));
+ if(um)
+ return MEDUMeshMultiLev::New(um,levs);
+ const MEDFileCMesh *cm(dynamic_cast<const MEDFileCMesh *>(m));
+ if(cm)
+ return MEDCMeshMultiLev::New(cm,levs);
+ const MEDFileCurveLinearMesh *clm(dynamic_cast<const MEDFileCurveLinearMesh *>(m));
+ if(clm)
+ return MEDCurveLinearMeshMultiLev::New(clm,levs);
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::New : unrecognized type of mesh ! Must be in [MEDFileUMesh,MEDFileCMesh,MEDFileCurveLinearMesh] !");
+}
+
+MEDMeshMultiLev *MEDMeshMultiLev::New(const MEDFileMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities)
+{
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::New 2 : null input pointer !");
+ const MEDFileUMesh *um(dynamic_cast<const MEDFileUMesh *>(m));
+ if(um)
+ return MEDUMeshMultiLev::New(um,gts,pfls,nbEntities);
+ const MEDFileCMesh *cm(dynamic_cast<const MEDFileCMesh *>(m));
+ if(cm)
+ return MEDCMeshMultiLev::New(cm,gts,pfls,nbEntities);
+ const MEDFileCurveLinearMesh *clm(dynamic_cast<const MEDFileCurveLinearMesh *>(m));
+ if(clm)
+ return MEDCurveLinearMeshMultiLev::New(clm,gts,pfls,nbEntities);
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::New 2 : unrecognized type of mesh ! Must be in [MEDFileUMesh,MEDFileCMesh,MEDFileCurveLinearMesh] !");
+}
+
+MEDMeshMultiLev *MEDMeshMultiLev::NewOnlyOnNode(const MEDFileMesh *m, const DataArrayInt *pflOnNode)
+{
+ std::vector<int> levs(1,0);
+ MEDCouplingAutoRefCountObjectPtr<MEDMeshMultiLev> ret(MEDMeshMultiLev::New(m,levs));
+ ret->selectPartOfNodes(pflOnNode);
+ return ret.retn();
+}
+
+void MEDMeshMultiLev::setNodeReduction(const DataArrayInt *nr)
+{
+ if(nr)
+ nr->incrRef();
+ _node_reduction=const_cast<DataArrayInt*>(nr);
+}
+
+bool MEDMeshMultiLev::isFastlyTheSameStruct(const MEDFileField1TSStructItem& fst, const MEDFileFieldGlobsReal *globs) const
+{
+ if(fst.getType()==ON_NODES)
+ {
+ if(fst.getNumberOfItems()!=1)
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::isFastlyTheSameStruct : unexpected situation for nodes !");
+ const MEDFileField1TSStructItem2& p(fst[0]);
+ std::string pflName(p.getPflName());
+ const DataArrayInt *nr(_node_reduction);
+ if(pflName.empty() && !nr)
+ return true;
+ if(pflName==nr->getName())
+ return true;
+ return false;
+ }
+ else
+ {
+ std::size_t sz(fst.getNumberOfItems());
+ if(sz!=_geo_types.size())
+ return false;
+ int strt(0);
+ for(std::size_t i=0;i<sz;i++)
+ {
+ const MEDFileField1TSStructItem2& p(fst[i]);
+ if(!p.isFastlyEqual(strt,_geo_types[i],getPflNameOfId(i).c_str()))
+ return false;
+ }
+ return true;
+ }
+}
+
+DataArray *MEDMeshMultiLev::buildDataArray(const MEDFileField1TSStructItem& fst, const MEDFileFieldGlobsReal *globs, const DataArray *vals) const
+{
+ MEDCouplingAutoRefCountObjectPtr<DataArray> ret(const_cast<DataArray *>(vals)); ret->incrRef();
+ if(isFastlyTheSameStruct(fst,globs))
+ return ret.retn();
+ else
+ return constructDataArray(fst,globs,vals);
+}
+
+std::string MEDMeshMultiLev::getPflNameOfId(int id) const
+{
+ std::size_t sz(_pfls.size());
+ if(id<0 || id>=(int)sz)
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::getPflNameOfId : invalid input id !");
+ const DataArrayInt *pfl(_pfls[id]);
+ if(!pfl)
+ return std::string("");
+ return pfl->getName();
+}
+
+/*!
+ * Returns the number of cells having geometric type \a t.
+ * The profiles are **NOT** taken into account here.
+ */
+int MEDMeshMultiLev::getNumberOfCells(INTERP_KERNEL::NormalizedCellType t) const
+{
+ std::size_t sz(_nb_entities.size());
+ for(std::size_t i=0;i<sz;i++)
+ if(_geo_types[i]==t)
+ return _nb_entities[i];
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::getNumberOfCells : not existing geometric type in this !");
+}
+
+int MEDMeshMultiLev::getNumberOfNodes() const
+{
+ return _nb_nodes;
+}
+
+DataArray *MEDMeshMultiLev::constructDataArray(const MEDFileField1TSStructItem& fst, const MEDFileFieldGlobsReal *globs, const DataArray *vals) const
+{
+ if(fst.getType()==ON_NODES)
+ {
+ if(fst.getNumberOfItems()!=1)
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for nodes !");
+ const MEDFileField1TSStructItem2& p(fst[0]);
+ std::string pflName(p.getPflName());
+ const DataArrayInt *nr(_node_reduction);
+ if(pflName.empty() && !nr)
+ return vals->deepCpy();
+ 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());
+ p1->sort(true); p2->sort(true);
+ if(!p1->isEqualWithoutConsideringStr(*p2))
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for nodes 3 !");
+ p1=DataArrayInt::FindPermutationFromFirstToSecond(globs->getProfile(pflName.c_str()),nr);
+ MEDCouplingAutoRefCountObjectPtr<DataArray> ret(vals->deepCpy());
+ ret->renumberInPlace(p1->begin());
+ return ret.retn();
+ }
+ if(!pflName.empty() && !nr)
+ {
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(globs->getProfile(pflName.c_str())->deepCpy());
+ p1->sort(true);
+ if(!p1->isIdentity() || p1->getNumberOfTuples()!=getNumberOfNodes())
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for nodes 4 !");
+ MEDCouplingAutoRefCountObjectPtr<DataArray> ret(vals->deepCpy());
+ ret->renumberInPlace(globs->getProfile(pflName.c_str())->begin());
+ return ret.retn();
+ }
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for nodes 5 !");
+ }
+ else
+ {
+ std::size_t sz(fst.getNumberOfItems());
+ std::set<INTERP_KERNEL::NormalizedCellType> s(_geo_types.begin(),_geo_types.end());
+ 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());
+ int iii(0);
+ int nc(vals->getNumberOfComponents());
+ std::vector<std::string> compInfo(vals->getInfoOnComponents());
+ for(std::vector< INTERP_KERNEL::NormalizedCellType >::const_iterator it=_geo_types.begin();it!=_geo_types.end();it++,iii++)
+ {
+ const DataArrayInt *thisP(_pfls[iii]);
+ std::vector<const MEDFileField1TSStructItem2 *> ps;
+ for(std::size_t i=0;i<sz;i++)
+ {
+ const MEDFileField1TSStructItem2& p(fst[i]);
+ if(p.getGeo()==*it)
+ ps.push_back(&p);
+ }
+ if(ps.empty())
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for cells 1 !");
+ if(ps.size()==1)
+ {
+ 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));
+ if(!thisP && !otherP)
+ {
+ arrSafe[iii]=ret; arr[iii]=ret;
+ continue;
+ }
+ if(thisP && otherP)
+ {
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(otherP->invertArrayN2O2O2N(getNumberOfCells(ps[0]->getGeo())));
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p2(thisP->deepCpy());
+ p2->transformWithIndArr(p1->begin(),p1->end());
+ //p1=p2->getIdsNotEqual(-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;
+ continue;
+ }
+ if(!thisP && otherP)
+ {
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p1(otherP->deepCpy());
+ p1->sort(true);
+ p1->checkAllIdsInRange(0,getNumberOfCells(ps[0]->getGeo()));
+ p1=DataArrayInt::FindPermutationFromFirstToSecond(otherP,p1);
+ ret->rearrange(nbi*nc); ret->renumberInPlace(p1->begin()); ret->rearrange(nc); ret->setInfoOnComponents(compInfo);
+ arrSafe[iii]=ret; arr[iii]=ret;
+ continue;
+ }
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::constructDataArray : unexpected situation for cells 3 !");
+ }
+ else
+ {
+ std::vector< const DataArrayInt * >otherPS(ps.size());
+ std::vector< const DataArray * > arr2(ps.size());
+ std::vector< MEDCouplingAutoRefCountObjectPtr<DataArray> > arr2Safe(ps.size());
+ std::vector< const DataArrayInt * > nbis(ps.size());
+ std::vector< MEDCouplingAutoRefCountObjectPtr<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));
+ 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;
+ if(thisP)
+ p1=DataArrayInt::FindPermutationFromFirstToSecond(otherP,thisP);
+ else
+ p1=otherP->deepCpy();
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> zenbisN(zenbis->renumber(p1->begin()));
+ zenbisN->computeOffsets2();
+ 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));
+ //
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p2(otherPfl->deepCpy());
+ p2->transformWithIndArr(otherPN->begin(),otherPN->end());
+ p2->transformWithIndArr(p1->begin(),p1->end());
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> idsN(p2->buildExplicitArrByRanges(zenbisN));
+ arr3->setPartOfValuesBase3(ret2,idsN->begin(),idsN->end(),0,nc,1);
+ }
+ arrSafe[iii]=arr3; arr[iii]=arr3;
+ continue;
+ }
+ }
+ return DataArray::Aggregate(arr);
+ }
+}
+
+MEDMeshMultiLev::MEDMeshMultiLev()
+{
+}
+
+MEDMeshMultiLev::MEDMeshMultiLev(int nbNodes, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities):_geo_types(gts),_nb_entities(nbEntities),_nb_nodes(nbNodes)
+{
+ std::size_t sz(_geo_types.size());
+ if(sz!=pfls.size() || sz!=nbEntities.size())
+ throw INTERP_KERNEL::Exception("MEDMeshMultiLev::MEDMeshMultiLev : input vector must have the same size !");
+ _pfls.resize(sz);
+ for(std::size_t i=0;i<sz;i++)
+ {
+ if(pfls[i])
+ pfls[i]->incrRef();
+ _pfls[i]=const_cast<DataArrayInt *>(pfls[i]);
+ }
+}
+
+MEDMeshMultiLev::MEDMeshMultiLev(const MEDMeshMultiLev& other):_pfls(other._pfls),_geo_types(other._geo_types),_nb_entities(other._nb_entities),_node_reduction(other._node_reduction),_nb_nodes(other._nb_nodes)
+{
+}
+
+//=
+
+MEDUMeshMultiLev *MEDUMeshMultiLev::New(const MEDFileUMesh *m, const std::vector<int>& levs)
+{
+ return new MEDUMeshMultiLev(m,levs);
+}
+
+MEDUMeshMultiLev::MEDUMeshMultiLev(const MEDFileUMesh *m, const std::vector<int>& levs)
+{
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev constructor : null input pointer !");
+ std::vector<MEDCoupling1GTUMesh *> v;
+ for(std::vector<int>::const_iterator it=levs.begin();it!=levs.end();it++)
+ {
+ std::vector<MEDCoupling1GTUMesh *> vTmp(m->getDirectUndergroundSingleGeoTypeMeshes(*it));
+ v.insert(v.end(),vTmp.begin(),vTmp.end());
+ }
+ std::size_t sz(v.size());
+ _parts.resize(sz);
+ _pfls.resize(sz);
+ _geo_types.resize(sz);
+ for(std::size_t i=0;i<sz;i++)
+ {
+ MEDCoupling1GTUMesh *obj(v[i]);
+ if(obj)
+ obj->incrRef();
+ else
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev constructor : presence of a null pointer !");
+ _parts[i]=obj;
+ _geo_types[i]=obj->getCellModelEnum();
+ }
+}
+
+MEDUMeshMultiLev *MEDUMeshMultiLev::New(const MEDFileUMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities)
+{
+ return new MEDUMeshMultiLev(m,gts,pfls,nbEntities);
+}
+
+MEDUMeshMultiLev::MEDUMeshMultiLev(const MEDFileUMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities):MEDMeshMultiLev(m->getNumberOfNodes(),gts,pfls,nbEntities)
+{
+ std::size_t sz(gts.size());
+ _parts.resize(sz);
+ for(std::size_t i=0;i<sz;i++)
+ {
+ MEDCoupling1GTUMesh *elt(m->getDirectUndergroundSingleGeoTypeMesh(gts[i]));
+ if(elt)
+ elt->incrRef();
+ _parts[i]=elt;
+ }
+}
+
+void MEDUMeshMultiLev::selectPartOfNodes(const DataArrayInt *pflNodes)
+{
+ if(!pflNodes || !pflNodes->isAllocated())
+ return ;
+ std::size_t sz(_parts.size());
+ std::vector< MEDCouplingAutoRefCountObjectPtr<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]);
+ 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()));
+ int tmp=-1;
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> o2n(m2->getNodeIdsInUse(tmp));
+ a[i]=o2n->invertArrayO2N2N2O(tmp); aa[i]=a[i];
+ if(pfl)
+ _pfls[i]=pfl->selectByTupleIdSafe(cellIds->begin(),cellIds->end());
+ else
+ _pfls[i]=cellIdsSafe;
+ }
+ _node_reduction=DataArrayInt::Aggregate(aa);
+ _node_reduction->sort(true);
+ _node_reduction=_node_reduction->buildUnique();
+}
+
+MEDMeshMultiLev *MEDUMeshMultiLev::prepare() const
+{
+ return new MEDUMeshMultiLev(*this);
+}
+
+MEDUMeshMultiLev::MEDUMeshMultiLev(const MEDUMeshMultiLev& other):MEDMeshMultiLev(other),_parts(other._parts)
+{
+}
+
+MEDUMeshMultiLev::MEDUMeshMultiLev(const MEDStructuredMeshMultiLev& other, const MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh>& part):MEDMeshMultiLev(other)
+{
+ _parts.resize(1);
+ _parts[0]=part;
+ _geo_types.resize(1); _geo_types[0]=part->getCellModelEnum();
+ _nb_entities.resize(1); _nb_entities[0]=part->getNumberOfCells();
+ _pfls.resize(1); _pfls[0]=0;
+}
+
+void MEDUMeshMultiLev::buildVTUArrays(DataArrayDouble *& coords, DataArrayByte *&types, DataArrayInt *&cellLocations, DataArrayInt *& cells, DataArrayInt *&faceLocations, DataArrayInt *&faces) const
+{
+ if(_parts.empty())
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : empty array !");
+ if(!(const MEDCoupling1GTUMesh *)_parts[0])
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : first part is null !");
+ const DataArrayDouble *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();
+ 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++)
+ {
+ const MEDCoupling1GTUMesh *cur(*it);
+ if(!cur)
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : a part is null !");
+ //
+ const DataArrayInt *pfl(_pfls[iii]);
+ MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> cur2;
+ if(!pfl)
+ { cur2=const_cast<MEDCoupling1GTUMesh *>(cur); cur2->incrRef(); }
+ else
+ { cur2=dynamic_cast<MEDCoupling1GTUMesh *>(cur->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end())); cur=cur2; }
+ //
+ int curNbCells(cur->getNumberOfCells());
+ szBCE+=curNbCells;
+ if((*it)->getCellModelEnum()!=INTERP_KERNEL::NORM_POLYHED)
+ szD+=cur->getNodalConnectivity()->getNumberOfTuples()+curNbCells;
+ else
+ {
+ isPolyh=true;
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> tmp(cur->computeEffectiveNbOfNodesPerCell());
+ szD+=tmp->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);
+ 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++)
+ {
+ const MEDCoupling1GTUMesh *cur(*it);
+ //
+ const DataArrayInt *pfl(_pfls[iii]);
+ MEDCouplingAutoRefCountObjectPtr<MEDCoupling1GTUMesh> cur2;
+ if(!pfl)
+ { cur2=const_cast<MEDCoupling1GTUMesh *>(cur); cur2->incrRef(); }
+ else
+ { cur2=dynamic_cast<MEDCoupling1GTUMesh *>(cur->buildPartOfMySelfKeepCoords(pfl->begin(),pfl->end())); cur=cur2; }
+ //
+ int curNbCells(cur->getNumberOfCells());
+ int gt((int)cur->getCellModelEnum());
+ if(gt<0 || gt>=PARAMEDMEM_2_VTKTYPE_LGTH)
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : invalid geometric type !");
+ unsigned char gtvtk(PARAMEDMEM_2_VTKTYPE[gt]);
+ if(gtvtk==255)
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : no VTK type for the requested INTERP_KERNEL geometric type !");
+ std::fill(bPtr,bPtr+curNbCells,gtvtk); bPtr+=curNbCells;
+ const MEDCoupling1SGTUMesh *scur(dynamic_cast<const MEDCoupling1SGTUMesh *>(cur));
+ const MEDCoupling1DGTUMesh *dcur(dynamic_cast<const MEDCoupling1DGTUMesh *>(cur));
+ const int *connPtr(cur->getNodalConnectivity()->begin());
+ if(!scur && !dcur)
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::getVTUArrays : internal error !");
+ if(scur)
+ {
+ int nnpc(scur->getNumberOfNodesPerCell());
+ for(int i=0;i<curNbCells;i++,connPtr+=nnpc)
+ {
+ *dPtr++=nnpc;
+ dPtr=std::copy(connPtr,connPtr+nnpc,dPtr);
+ *cPtr=k+nnpc; k=*cPtr++;
+ }
+ if(isPolyh)
+ { std::fill(ePtr,ePtr+curNbCells,-1); ePtr+=curNbCells; }
+ }
+ else
+ {
+ const int *connIPtr(dcur->getNodalConnectivityIndex()->begin());
+ if(cur->getCellModelEnum()!=INTERP_KERNEL::NORM_POLYHED)
+ {
+ for(int i=0;i<curNbCells;i++,connIPtr++)
+ {
+ *dPtr++=connIPtr[1]-connIPtr[0];
+ dPtr=std::copy(connPtr+connIPtr[0],connPtr+connIPtr[1],dPtr);
+ *cPtr=k+connIPtr[1]-connIPtr[0]; k=*cPtr++;
+ }
+ }
+ else
+ {
+ for(int i=0;i<curNbCells;i++,connIPtr++)
+ {
+ std::set<int> s(connPtr+connIPtr[0],connPtr+connIPtr[1]); s.erase(-1);
+ *dPtr++=(int)s.size();
+ dPtr=std::copy(s.begin(),s.end(),dPtr);
+ *cPtr=k+(int)s.size(); k=*cPtr++;
+ }
+ }
+ if(isPolyh)
+ {
+ connIPtr=dcur->getNodalConnectivityIndex()->begin();
+ if(cur->getCellModelEnum()!=INTERP_KERNEL::NORM_POLYHED)
+ { std::fill(ePtr,ePtr+curNbCells,-1); ePtr+=curNbCells; }
+ else
+ {
+ int kk(0);
+ for(int i=0;i<curNbCells;i++,connIPtr++)
+ {
+ int nbFace(std::count(connPtr+connIPtr[0],connPtr+connIPtr[1],-1)+1);
+ *fPtr++=nbFace;
+ const int *work(connPtr+connIPtr[0]);
+ for(int j=0;j<nbFace;j++)
+ {
+ const int *work2=std::find(work,connPtr+connIPtr[1],-1);
+ *fPtr++=std::distance(work,work2);
+ fPtr=std::copy(work,work2,fPtr);
+ work=work2+1;
+ }
+ *ePtr++=kk; kk+=connIPtr[1]-connIPtr[0]+2;
+ }
+ }
+ }
+ }
+ }
+ if(!isPolyh)
+ reorderNodesIfNecessary(a,d,0);
+ else
+ reorderNodesIfNecessary(a,d,f);
+ coords=a.retn(); types=b.retn(); cellLocations=c.retn(); cells=d.retn();
+ if(!isPolyh)
+ { faceLocations=0; faces=0; }
+ else
+ { faceLocations=e.retn(); faces=f.retn(); }
+}
+
+void MEDUMeshMultiLev::reorderNodesIfNecessary(MEDCouplingAutoRefCountObjectPtr<DataArrayDouble>& coords, DataArrayInt *nodalConnVTK, DataArrayInt *polyhedNodalConnVTK) const
+{
+ const DataArrayInt *nr(_node_reduction);
+ if(!nr)
+ return ;
+ int sz(coords->getNumberOfTuples());
+ std::vector<bool> b(sz,false);
+ const int *work(nodalConnVTK->begin()),*endW(nodalConnVTK->end());
+ while(work!=endW)
+ {
+ int nb(*work++);
+ for(int i=0;i<nb && work!=endW;i++,work++)
+ {
+ if(*work>=0 && *work<sz)
+ b[*work]=true;
+ else
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::reorderNodesIfNecessary : internal error !");
+ }
+ }
+ if(polyhedNodalConnVTK)
+ {
+ work=polyhedNodalConnVTK->begin(); endW=polyhedNodalConnVTK->end();
+ while(work!=endW)
+ {
+ int nb(*work++);
+ for(int i=0;i<nb && work!=endW;i++)
+ {
+ int nb2(*work++);
+ for(int j=0;j<nb2 && work!=endW;j++,work++)
+ {
+ if(*work>=0 && *work<sz)
+ b[*work]=true;
+ else
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::reorderNodesIfNecessary : internal error #2 !");
+ }
+ }
+ }
+ }
+ int szExp(std::count(b.begin(),b.end(),true));
+ if(szExp!=nr->getNumberOfTuples())
+ throw INTERP_KERNEL::Exception("MEDUMeshMultiLev::reorderNodesIfNecessary : internal error #3 !");
+ // Go renumbering !
+ MEDCouplingAutoRefCountObjectPtr<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));
+ const int *permPtr(perm->begin());
+ int *work2(nodalConnVTK->getPointer()),*endW2(nodalConnVTK->getPointer()+nodalConnVTK->getNumberOfTuples());
+ while(work2!=endW2)
+ {
+ int nb(*work2++);
+ for(int i=0;i<nb && work2!=endW2;i++,work2++)
+ *work2=permPtr[o2nPtrc[*work2]];
+ }
+ if(polyhedNodalConnVTK)
+ {
+ work2=polyhedNodalConnVTK->getPointer(); endW2=polyhedNodalConnVTK->getPointer()+polyhedNodalConnVTK->getNumberOfTuples();
+ while(work2!=endW2)
+ {
+ int nb(*work2++);
+ for(int i=0;i<nb && work2!=endW2;i++)
+ {
+ int nb2(*work2++);
+ for(int j=0;j<nb2 && work2!=endW2;j++,work2++)
+ *work2=permPtr[o2nPtrc[*work2]];
+ }
+ }
+ }
+ coords=(coords->selectByTupleIdSafe(nr->begin(),nr->end()));
+}
+
+//=
+
+MEDStructuredMeshMultiLev::MEDStructuredMeshMultiLev()
+{
+}
+
+MEDStructuredMeshMultiLev::MEDStructuredMeshMultiLev(int nbOfNodes, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities):MEDMeshMultiLev(nbOfNodes,gts,pfls,nbEntities)
+{
+}
+
+void MEDStructuredMeshMultiLev::selectPartOfNodes(const DataArrayInt *pflNodes)
+{
+ 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())));
+ m->setNodalConnectivity(conn);
+ const DataArrayInt *pfl(_pfls[0]);
+ if(pfl)
+ {
+ m=dynamic_cast<MEDCoupling1SGTUMesh *>(m->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()));
+ int tmp=-1;
+ _node_reduction=m2->getNodeIdsInUse(tmp);
+ if(pfl)
+ _pfls[0]=pfl->selectByTupleIdSafe(cellIds->begin(),cellIds->end());
+ else
+ _pfls[0]=cellIdsSafe;
+}
+
+MEDStructuredMeshMultiLev::MEDStructuredMeshMultiLev(const MEDStructuredMeshMultiLev& other):MEDMeshMultiLev(other)
+{
+}
+
+//=
+
+MEDCMeshMultiLev *MEDCMeshMultiLev::New(const MEDFileCMesh *m, const std::vector<int>& levs)
+{
+ return new MEDCMeshMultiLev(m,levs);
+}
+
+MEDCMeshMultiLev *MEDCMeshMultiLev::New(const MEDFileCMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities)
+{
+ return new MEDCMeshMultiLev(m,gts,pfls,nbEntities);
+}
+
+MEDCMeshMultiLev::MEDCMeshMultiLev(const MEDFileCMesh *m, const std::vector<int>& levs)
+{
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor : null input pointer !");
+ if(levs.size()!=1 || levs[0]!=0)
+ throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor : levels supported is 0 only !");
+ int mdim(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(m->getMeshDimension()));
+ _coords.resize(mdim);
+ for(int i=0;i<mdim;i++)
+ {
+ DataArrayDouble *elt(const_cast<DataArrayDouble *>(m->getMesh()->getCoordsAt(i)));
+ if(!elt)
+ throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : presence of null pointer for an vector of double along an axis !");
+ _coords[i]=elt;
+ }
+}
+
+MEDCMeshMultiLev::MEDCMeshMultiLev(const MEDFileCMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities):MEDStructuredMeshMultiLev(m->getNumberOfNodes(),gts,pfls,nbEntities)
+{
+ 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 !");
+ int mdim(m->getMeshDimension());
+ INTERP_KERNEL::NormalizedCellType gt(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(mdim));
+ if(gt!=gts[0])
+ throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : the unique geo type is invalid regarding meshdim !");
+ _coords.resize(mdim);
+ for(int i=0;i<mdim;i++)
+ {
+ DataArrayDouble *elt(const_cast<DataArrayDouble *>(m->getMesh()->getCoordsAt(i)));
+ if(!elt)
+ throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : presence of null pointer for an vector of double along an axis !");
+ _coords[i]=elt; _coords[i]->incrRef();
+ }
+}
+
+MEDCMeshMultiLev::MEDCMeshMultiLev(const MEDCMeshMultiLev& other):MEDStructuredMeshMultiLev(other),_coords(other._coords)
+{
+}
+
+std::vector<int> MEDCMeshMultiLev::getNodeGridStructure() const
+{
+ std::vector<int> ret(_coords.size());
+ for(std::size_t i=0;i<_coords.size();i++)
+ ret[i]=_coords[i]->getNumberOfTuples();
+ return ret;
+}
+
+MEDMeshMultiLev *MEDCMeshMultiLev::prepare() const
+{
+ const DataArrayInt *pfl(_pfls[0]),*nr(_node_reduction);
+ MEDCouplingAutoRefCountObjectPtr<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;
+ if(MEDCouplingStructuredMesh::IsPartStructured(pfl->begin(),pfl->end(),cgs,cellParts))
+ {
+ MEDCouplingAutoRefCountObjectPtr<MEDCMeshMultiLev> ret(new MEDCMeshMultiLev(*this));
+ if(nr)
+ { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ ret->_nb_entities[0]=pfl->getNumberOfTuples();
+ ret->_pfls[0]=0;
+ std::vector< MEDCouplingAutoRefCountObjectPtr<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);
+ ret->_coords=coords;
+ return ret.retn();
+ }
+ else
+ {
+ MEDCouplingAutoRefCountObjectPtr<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));
+ if(nr)
+ { m3->zipCoords(); nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ return ret.retn();
+ }
+ }
+ else
+ {
+ MEDCouplingAutoRefCountObjectPtr<MEDCMeshMultiLev> ret(new MEDCMeshMultiLev(*this));
+ if(nr)
+ { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ return ret.retn();
+ }
+}
+
+std::vector< DataArrayDouble * > MEDCMeshMultiLev::buildVTUArrays() const
+{
+ std::size_t sz(_coords.size());
+ std::vector< DataArrayDouble * > ret(sz);
+ for(std::size_t i=0;i<sz;i++)
+ {
+ ret[i]=const_cast<DataArrayDouble *>((const DataArrayDouble *)_coords[i]);
+ ret[i]->incrRef();
+ }
+ return ret;
+}
+
+//=
+
+MEDCurveLinearMeshMultiLev *MEDCurveLinearMeshMultiLev::New(const MEDFileCurveLinearMesh *m, const std::vector<int>& levs)
+{
+ return new MEDCurveLinearMeshMultiLev(m,levs);
+}
+
+MEDCurveLinearMeshMultiLev *MEDCurveLinearMeshMultiLev::New(const MEDFileCurveLinearMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities)
+{
+ return new MEDCurveLinearMeshMultiLev(m,gts,pfls,nbEntities);
+}
+
+MEDCurveLinearMeshMultiLev::MEDCurveLinearMeshMultiLev(const MEDFileCurveLinearMesh *m, const std::vector<int>& levs)
+{
+ if(!m)
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor : null input pointer !");
+ if(levs.size()!=1 || levs[0]!=0)
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor : levels supported is 0 only !");
+ DataArrayDouble *coords(const_cast<DataArrayDouble *>(m->getMesh()->getCoords()));
+ if(!coords)
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : no coords set !");
+ coords->incrRef();
+ _coords=coords;
+ _structure=m->getMesh()->getNodeGridStructure();
+}
+
+MEDCurveLinearMeshMultiLev::MEDCurveLinearMeshMultiLev(const MEDFileCurveLinearMesh *m, const std::vector<INTERP_KERNEL::NormalizedCellType>& gts, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& nbEntities):MEDStructuredMeshMultiLev(m->getNumberOfNodes(),gts,pfls,nbEntities)
+{
+ 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 !");
+ int mdim(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(m->getMeshDimension()));
+ if(mdim!=gts[0])
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : the unique geo type is invalid regarding meshdim !");
+ DataArrayDouble *coords(const_cast<DataArrayDouble *>(m->getMesh()->getCoords()));
+ if(!coords)
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : no coords set !");
+ coords->incrRef();
+ _coords=coords;
+ _structure=m->getMesh()->getNodeGridStructure();
+}
+
+MEDCurveLinearMeshMultiLev::MEDCurveLinearMeshMultiLev(const MEDCurveLinearMeshMultiLev& other):MEDStructuredMeshMultiLev(other),_coords(other._coords),_structure(other._structure)
+{
+}
+
+std::vector<int> MEDCurveLinearMeshMultiLev::getNodeGridStructure() const
+{
+ return _structure;
+}
+
+MEDMeshMultiLev *MEDCurveLinearMeshMultiLev::prepare() const
+{
+ const DataArrayInt *pfl(_pfls[0]),*nr(_node_reduction);
+ MEDCouplingAutoRefCountObjectPtr<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;
+ if(MEDCouplingStructuredMesh::IsPartStructured(pfl->begin(),pfl->end(),cgs,cellParts))
+ {
+ nodeParts=cellParts;
+ std::vector<int> st(ngs.size());
+ for(std::size_t i=0;i<ngs.size();i++)
+ {
+ nodeParts[i].second++;
+ st[i]=nodeParts[i].second-nodeParts[i].first;
+ }
+ MEDCouplingAutoRefCountObjectPtr<DataArrayInt> p(MEDCouplingStructuredMesh::BuildExplicitIdsFrom(ngs,nodeParts));
+ MEDCouplingAutoRefCountObjectPtr<MEDCurveLinearMeshMultiLev> ret(new MEDCurveLinearMeshMultiLev(*this));
+ if(nr)
+ { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ ret->_nb_entities[0]=pfl->getNumberOfTuples();
+ ret->_pfls[0]=0;
+ ret->_coords=_coords->selectByTupleIdSafe(p->begin(),p->end());
+ ret->_structure=st;
+ return ret.retn();
+ }
+ else
+ {
+ MEDCouplingAutoRefCountObjectPtr<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));
+ if(nr)
+ { m3->zipCoords(); nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ return ret.retn();
+ }
+ }
+ else
+ {
+ MEDCouplingAutoRefCountObjectPtr<MEDCurveLinearMeshMultiLev> ret(new MEDCurveLinearMeshMultiLev(*this));
+ if(nr)
+ { nnr=nr->deepCpy(); nnr->sort(true); ret->setNodeReduction(nnr); }
+ return ret.retn();
+ }
+}
+
+void MEDCurveLinearMeshMultiLev::buildVTUArrays(DataArrayDouble *&coords, std::vector<int>& nodeStrct) const
+{
+ nodeStrct=_structure;
+ const DataArrayDouble *coo(_coords);
+ if(!coo)
+ throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev::buildVTUArrays : null pointer on coordinates !");
+ coords=const_cast<DataArrayDouble *>(coo); coords->incrRef();
+}
+
+//=
+