-// Copyright (C) 2010-2015 CEA/DEN, EDF R&D
+// Copyright (C) 2010-2016 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 "vtkInformationQuadratureSchemeDefinitionVectorKey.h"
#include "vtkInformationIntegerKey.h"
#include "vtkInformation.h"
+#include "vtkDataArrayTemplate.h"
#include "vtkIdTypeArray.h"
#include "vtkDoubleArray.h"
#include "vtkIntArray.h"
#include "vtkCellData.h"
#include "vtkMutableDirectedGraph.h"
-#include "vtkDataArrayTemplate.h"
using namespace MEDCoupling;
const char MEDFileFieldRepresentationLeavesArrays::NUM_ID_NODE_NAME[]="NumIdNode";
+const char MEDFileFieldRepresentationLeavesArrays::GLOBAL_NODE_ID_NAME[]="GlobalNodeIds";// WARNING DO NOT CHANGE IT BEFORE HAVING CHECKED IN PV SOURCES !
+
const char MEDFileFieldRepresentationTree::ROOT_OF_GRPS_IN_TREE[]="zeGrps";
const char MEDFileFieldRepresentationTree::ROOT_OF_FAM_IDS_IN_TREE[]="zeFamIds";
const char MEDFileFieldRepresentationTree::COMPO_STR_TO_LOCATE_MESH_DA[]="-@?|*_";
-vtkIdTypeArray *ELGACmp::findOrCreate(const MEDCoupling::MEDFileFieldGlobsReal *globs, const std::vector<std::string>& locsReallyUsed, vtkDoubleArray *vtkd, vtkDataSet *ds, bool& isNew) const
+vtkIdTypeArray *ELGACmp::findOrCreate(const MEDCoupling::MEDFileFieldGlobsReal *globs, const std::vector<std::string>& locsReallyUsed, vtkDoubleArray *vtkd, vtkDataSet *ds, bool& isNew, ExportedTinyInfo *internalInfo) const
{
vtkIdTypeArray *try0(isExisting(locsReallyUsed,vtkd));
if(try0)
else
{
isNew=true;
- return createNew(globs,locsReallyUsed,vtkd,ds);
+ return createNew(globs,locsReallyUsed,vtkd,ds,internalInfo);
}
}
return ret;
}
-vtkIdTypeArray *ELGACmp::createNew(const MEDCoupling::MEDFileFieldGlobsReal *globs, const std::vector<std::string>& locsReallyUsed, vtkDoubleArray *vtkd, vtkDataSet *ds) const
+vtkIdTypeArray *ELGACmp::createNew(const MEDCoupling::MEDFileFieldGlobsReal *globs, const std::vector<std::string>& locsReallyUsed, vtkDoubleArray *vtkd, vtkDataSet *ds, ExportedTinyInfo *internalInfo) const
{
const int VTK_DATA_ARRAY_DELETE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_DELETE;
std::vector< std::vector<std::string> > locNames(_loc_names);
vtkQuadratureSchemeDefinition *def(vtkQuadratureSchemeDefinition::New());
const MEDFileFieldLoc& loc(globs->getLocalization((*it).c_str()));
INTERP_KERNEL::NormalizedCellType ct(loc.getGeoType());
+ unsigned char vtkType(MEDMeshMultiLev::PARAMEDMEM_2_VTKTYPE[ct]);
const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(ct));
int nbGaussPt(loc.getNbOfGaussPtPerCell()),nbPtsPerCell((int)cm.getNumberOfNodes()),dimLoc(loc.getDimension());
// WARNING : these 2 lines are a workaround, due to users that write a ref element with dimension not equal to dimension of the geometric element.
std::vector<double> gsCoods2(INTERP_KERNEL::GaussInfo::NormalizeCoordinatesIfNecessary(ct,dimLoc,loc.getGaussCoords()));
std::vector<double> refCoods2(INTERP_KERNEL::GaussInfo::NormalizeCoordinatesIfNecessary(ct,dimLoc,loc.getRefCoords()));
+ if(internalInfo)
+ internalInfo->pushGaussAdditionnalInfo(vtkType,dimLoc,refCoods2,gsCoods2);
double *shape(new double[nbPtsPerCell*nbGaussPt]);
INTERP_KERNEL::GaussInfo calculator(ct,gsCoods2,nbGaussPt,refCoods2,nbPtsPerCell);
calculator.initLocalInfo();
shape[nbPtsPerCell*i+j]=pt0[MEDMeshMultiLev::HEXA27_PERM_ARRAY[j]];
}
}
- unsigned char vtkType(MEDMeshMultiLev::PARAMEDMEM_2_VTKTYPE[ct]);
m[vtkType]=nbGaussPt;
def->Initialize(vtkType,nbPtsPerCell,nbGaussPt,shape,const_cast<double *>(&wgths[0]));
delete [] shape;
_loc_names=locNames;
_elgas=elgas;
_defs.push_back(defs);
+ return elga;
}
void ELGACmp::appendELGAIfAny(vtkDataSet *ds) const
//=
+template<class T>
+class MEDFileVTKTraits
+{
+public:
+ typedef void VtkType;
+ typedef void MCType;
+};
+
+template<>
+class MEDFileVTKTraits<int>
+{
+public:
+ typedef vtkIntArray VtkType;
+ typedef MEDCoupling::DataArrayInt MCType;
+};
+
+template<>
+class MEDFileVTKTraits<double>
+{
+public:
+ typedef vtkDoubleArray VtkType;
+ typedef MEDCoupling::DataArrayDouble MCType;
+};
+
+template<class T>
+void AssignDataPointerToVTK(typename MEDFileVTKTraits<T>::VtkType *vtkTab, typename MEDFileVTKTraits<T>::MCType *mcTab, bool noCpyNumNodes)
+{
+ if(noCpyNumNodes)
+ vtkTab->SetArray(mcTab->getPointer(),mcTab->getNbOfElems(),1,vtkDataArrayTemplate<T>::VTK_DATA_ARRAY_FREE);
+ else
+ { vtkTab->SetArray(mcTab->getPointer(),mcTab->getNbOfElems(),0,vtkDataArrayTemplate<T>::VTK_DATA_ARRAY_FREE); mcTab->accessToMemArray().setSpecificDeallocator(0); }
+}
+
+// here copy is always assumed.
+template<class VTKT, class MCT>
+void AssignDataPointerOther(VTKT *vtkTab, MCT *mcTab, int nbElems)
+{
+ vtkTab->SetVoidArray(reinterpret_cast<unsigned char *>(mcTab->getPointer()),nbElems,0,VTKT::VTK_DATA_ARRAY_FREE);
+ mcTab->accessToMemArray().setSpecificDeallocator(0);
+}
+
+//=
+
MEDFileFieldRepresentationLeavesArrays::MEDFileFieldRepresentationLeavesArrays():_id(-1)
{
}
return ret;
}
-void MEDFileFieldRepresentationLeavesArrays::appendFields(const MEDTimeReq *tr, const MEDCoupling::MEDFileFieldGlobsReal *globs, const MEDCoupling::MEDMeshMultiLev *mml, const MEDCoupling::MEDFileMeshStruct *mst, vtkDataSet *ds) const
+void MEDFileFieldRepresentationLeavesArrays::appendFields(const MEDTimeReq *tr, const MEDCoupling::MEDFileFieldGlobsReal *globs, const MEDCoupling::MEDMeshMultiLev *mml, const MEDCoupling::MEDFileMeshStruct *mst, vtkDataSet *ds, ExportedTinyInfo *internalInfo) const
{
- const int VTK_DATA_ARRAY_FREE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_FREE;
const int VTK_DATA_ARRAY_DELETE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_DELETE;
tr->setNumberOfTS((operator->())->getNumberOfTS());
tr->initIterator();
vtkd->SetNumberOfComponents(vd->getNumberOfComponents());
for(int i=0;i<vd->getNumberOfComponents();i++)
vtkd->SetComponentName(i,vd->getInfoOnComponent(i).c_str());
- if(postProcessedArr!=crudeArr)
- {
- vtkd->SetArray(vd->getPointer(),vd->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); vd->accessToMemArray().setSpecificDeallocator(0);
- }
- else
- {
- vtkd->SetArray(vd->getPointer(),vd->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- }
+ AssignDataPointerToVTK<double>(vtkd,vd,postProcessedArr==crudeArr);
std::string name(tr->buildName(f1ts->getName()));
vtkd->SetName(name.c_str());
att->AddArray(vtkd);
if(discs[0]==ON_GAUSS_PT)
{
bool tmp;
- _elga_cmp.findOrCreate(globs,f1ts->getLocsReallyUsed(),vtkd,ds,tmp);
+ _elga_cmp.findOrCreate(globs,f1ts->getLocsReallyUsed(),vtkd,ds,tmp,internalInfo);
}
if(discs[0]==ON_GAUSS_NE)
{
vtkQuadratureSchemeDefinition *def(vtkQuadratureSchemeDefinition::New());
double *shape(new double[nbGaussPt*nbGaussPt]);
std::size_t dummy;
- const double *gsCoords(MEDCouplingFieldDiscretizationGaussNE::GetLocsFromGeometricType(ct,dummy));
+ const double *gsCoords(MEDCouplingFieldDiscretizationGaussNE::GetRefCoordsFromGeometricType(ct,dummy));//GetLocsFromGeometricType
const double *refCoords(MEDCouplingFieldDiscretizationGaussNE::GetRefCoordsFromGeometricType(ct,dummy));
const double *weights(MEDCouplingFieldDiscretizationGaussNE::GetWeightArrayFromGeometricType(ct,dummy));
std::vector<double> gsCoords2(gsCoords,gsCoords+nbGaussPt*dim),refCoords2(refCoords,refCoords+nbGaussPt*dim);
vtkd->SetNumberOfComponents(vi->getNumberOfComponents());
for(int i=0;i<vi->getNumberOfComponents();i++)
vtkd->SetComponentName(i,vi->getVarOnComponent(i).c_str());
- if(postProcessedArr!=crudeArr)
- {
- vtkd->SetArray(vi->getPointer(),vi->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); vi->accessToMemArray().setSpecificDeallocator(0);
- }
- else
- {
- vtkd->SetArray(vi->getPointer(),vi->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- }
+ AssignDataPointerToVTK<int>(vtkd,vi,postProcessedArr==crudeArr);
std::string name(tr->buildName(f1ts->getName()));
vtkd->SetName(name.c_str());
att->AddArray(vtkd);
return oss.str();
}
-void MEDFileFieldRepresentationLeaves::appendFields(const MEDTimeReq *tr, const MEDCoupling::MEDFileFieldGlobsReal *globs, const MEDCoupling::MEDMeshMultiLev *mml, const MEDCoupling::MEDFileMeshes *meshes, vtkDataSet *ds) const
+void MEDFileFieldRepresentationLeaves::appendFields(const MEDTimeReq *tr, const MEDCoupling::MEDFileFieldGlobsReal *globs, const MEDCoupling::MEDMeshMultiLev *mml, const MEDCoupling::MEDFileMeshes *meshes, vtkDataSet *ds, ExportedTinyInfo *internalInfo) const
{
if(_arrays.size()<1)
throw INTERP_KERNEL::Exception("MEDFileFieldRepresentationLeaves::appendFields : internal error !");
for(std::vector<MEDFileFieldRepresentationLeavesArrays>::const_iterator it=_arrays.begin();it!=_arrays.end();it++)
if((*it).getStatus())
{
- (*it).appendFields(tr,globs,mml,mst,ds);
+ (*it).appendFields(tr,globs,mml,mst,ds,internalInfo);
(*it).appendELGAIfAny(ds);
}
}
vtkUnstructuredGrid *MEDFileFieldRepresentationLeaves::buildVTKInstanceNoTimeInterpolationUnstructured(MEDUMeshMultiLev *mm) const
{
- const int VTK_DATA_ARRAY_FREE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_FREE;
DataArrayDouble *coordsMC(0);
DataArrayByte *typesMC(0);
DataArrayInt *cellLocationsMC(0),*cellsMC(0),*faceLocationsMC(0),*facesMC(0);
int nbOfCells(typesSafe->getNbOfElems());
vtkUnstructuredGrid *ret(vtkUnstructuredGrid::New());
vtkUnsignedCharArray *cellTypes(vtkUnsignedCharArray::New());
- cellTypes->SetArray(reinterpret_cast<unsigned char *>(typesSafe->getPointer()),nbOfCells,0,VTK_DATA_ARRAY_FREE); typesSafe->accessToMemArray().setSpecificDeallocator(0);
+ AssignDataPointerOther<vtkUnsignedCharArray,DataArrayByte>(cellTypes,typesSafe,nbOfCells);
vtkIdTypeArray *cellLocations(vtkIdTypeArray::New());
- cellLocations->SetVoidArray(cellLocationsSafe->getPointer(),nbOfCells,0,VTK_DATA_ARRAY_FREE); cellLocationsSafe->accessToMemArray().setSpecificDeallocator(0);
+ AssignDataPointerOther<vtkIdTypeArray,DataArrayInt>(cellLocations,cellLocationsSafe,nbOfCells);
vtkCellArray *cells(vtkCellArray::New());
vtkIdTypeArray *cells2(vtkIdTypeArray::New());
- cells2->SetVoidArray(cellsSafe->getPointer(),cellsSafe->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); cellsSafe->accessToMemArray().setSpecificDeallocator(0);
+ AssignDataPointerOther<vtkIdTypeArray,DataArrayInt>(cells2,cellsSafe,cellsSafe->getNbOfElems());
cells->SetCells(nbOfCells,cells2);
cells2->Delete();
if(faceLocationsMC!=0 && facesMC!=0)
{
vtkIdTypeArray *faces(vtkIdTypeArray::New());
- faces->SetVoidArray(facesSafe->getPointer(),facesSafe->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); facesSafe->accessToMemArray().setSpecificDeallocator(0);
+ AssignDataPointerOther<vtkIdTypeArray,DataArrayInt>(faces,facesSafe,facesSafe->getNbOfElems());
vtkIdTypeArray *faceLocations(vtkIdTypeArray::New());
- faceLocations->SetVoidArray(faceLocationsSafe->getPointer(),faceLocationsSafe->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); faceLocationsSafe->accessToMemArray().setSpecificDeallocator(0);
+ AssignDataPointerOther<vtkIdTypeArray,DataArrayInt>(faceLocations,faceLocationsSafe,faceLocationsSafe->getNbOfElems());
ret->SetCells(cellTypes,cellLocations,cells,faceLocations,faces);
faceLocations->Delete();
faces->Delete();
vtkPoints *pts(vtkPoints::New());
vtkDoubleArray *pts2(vtkDoubleArray::New());
pts2->SetNumberOfComponents(3);
- if(!statusOfCoords)
- {
- pts2->SetArray(coordsSafe->getPointer(),coordsSafe->getNbOfElems(),0,VTK_DATA_ARRAY_FREE);
- coordsSafe->accessToMemArray().setSpecificDeallocator(0);
- }
- else
- pts2->SetArray(coordsSafe->getPointer(),coordsSafe->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
+ AssignDataPointerToVTK<double>(pts2,coordsSafe,statusOfCoords);
pts->SetData(pts2);
pts2->Delete();
ret->SetPoints(pts);
vtkRectilinearGrid *MEDFileFieldRepresentationLeaves::buildVTKInstanceNoTimeInterpolationCartesian(MEDCoupling::MEDCMeshMultiLev *mm) const
{
- const int VTK_DATA_ARRAY_FREE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_FREE;
bool isInternal;
std::vector< DataArrayDouble * > arrs(mm->buildVTUArrays(isInternal));
vtkDoubleArray *vtkTmp(0);
ret->SetDimensions(sizePerAxe[0],sizePerAxe[1],sizePerAxe[2]);
vtkTmp=vtkDoubleArray::New();
vtkTmp->SetNumberOfComponents(1);
- if(isInternal)
- vtkTmp->SetArray(arrs[0]->getPointer(),arrs[0]->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTmp->SetArray(arrs[0]->getPointer(),arrs[0]->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); arrs[0]->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<double>(vtkTmp,arrs[0],isInternal);
ret->SetXCoordinates(vtkTmp);
vtkTmp->Delete();
arrs[0]->decrRef();
{
vtkTmp=vtkDoubleArray::New();
vtkTmp->SetNumberOfComponents(1);
- if(isInternal)
- vtkTmp->SetArray(arrs[1]->getPointer(),arrs[1]->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTmp->SetArray(arrs[1]->getPointer(),arrs[1]->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); arrs[1]->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<double>(vtkTmp,arrs[1],isInternal);
ret->SetYCoordinates(vtkTmp);
vtkTmp->Delete();
arrs[1]->decrRef();
{
vtkTmp=vtkDoubleArray::New();
vtkTmp->SetNumberOfComponents(1);
- if(isInternal)
- vtkTmp->SetArray(arrs[2]->getPointer(),arrs[2]->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTmp->SetArray(arrs[2]->getPointer(),arrs[2]->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); arrs[2]->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<double>(vtkTmp,arrs[2],isInternal);
ret->SetZCoordinates(vtkTmp);
vtkTmp->Delete();
arrs[2]->decrRef();
vtkStructuredGrid *MEDFileFieldRepresentationLeaves::buildVTKInstanceNoTimeInterpolationCurveLinear(MEDCoupling::MEDCurveLinearMeshMultiLev *mm) const
{
- const int VTK_DATA_ARRAY_FREE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_FREE;
int meshStr[3]={1,1,1};
DataArrayDouble *coords(0);
std::vector<int> nodeStrct;
vtkDoubleArray *da(vtkDoubleArray::New());
da->SetNumberOfComponents(3);
if(coords->getNumberOfComponents()==3)
- {
- if(isInternal)
- da->SetArray(coords->getPointer(),coords->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);//VTK has not the ownership of double * because MEDLoader main struct has it !
- else
- { da->SetArray(coords->getPointer(),coords->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); coords->accessToMemArray().setSpecificDeallocator(0); }
- }
+ AssignDataPointerToVTK<double>(da,coords,isInternal);//if isIntenal==True VTK has not the ownership of double * because MEDLoader main struct has it !
else
{
MCAuto<DataArrayDouble> coords2(coords->changeNbOfComponents(3,0.));
- da->SetArray(coords2->getPointer(),coords2->getNbOfElems(),0,VTK_DATA_ARRAY_FREE);//let VTK deal with double *
- coords2->accessToMemArray().setSpecificDeallocator(0);
+ AssignDataPointerToVTK<double>(da,coords2,false);//let VTK deal with double *
}
coords->decrRef();
vtkPoints *points=vtkPoints::New();
return ret;
}
-vtkDataSet *MEDFileFieldRepresentationLeaves::buildVTKInstanceNoTimeInterpolation(const MEDTimeReq *tr, const MEDFileFieldGlobsReal *globs, const MEDCoupling::MEDFileMeshes *meshes) const
+vtkDataSet *MEDFileFieldRepresentationLeaves::buildVTKInstanceNoTimeInterpolation(const MEDTimeReq *tr, const MEDFileFieldGlobsReal *globs, const MEDCoupling::MEDFileMeshes *meshes, ExportedTinyInfo *internalInfo) const
{
- const int VTK_DATA_ARRAY_FREE=vtkDataArrayTemplate<double>::VTK_DATA_ARRAY_FREE;
vtkDataSet *ret(0);
//_fsp->isDataSetSupportEqualToThePreviousOne(i,globs);
MCAuto<MEDMeshMultiLev> mml(_fsp->buildFromScratchDataSetSupport(0,globs));//0=timestep Id. Make the hypothesis that support does not change
ret->ShallowCopy(_cached_ds);
}
//
- appendFields(tr,globs,mml,meshes,ret);
+ appendFields(tr,globs,mml,meshes,ret,internalInfo);
// The arrays links to mesh
DataArrayInt *famCells(0),*numCells(0);
bool noCpyFamCells(false),noCpyNumCells(false);
vtkIntArray *vtkTab(vtkIntArray::New());
vtkTab->SetNumberOfComponents(1);
vtkTab->SetName(MEDFileFieldRepresentationLeavesArrays::FAMILY_ID_CELL_NAME);
- if(noCpyFamCells)
- vtkTab->SetArray(famCells->getPointer(),famCells->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTab->SetArray(famCells->getPointer(),famCells->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); famCells->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<int>(vtkTab,famCells,noCpyFamCells);
ret->GetCellData()->AddArray(vtkTab);
vtkTab->Delete();
famCells->decrRef();
vtkIntArray *vtkTab(vtkIntArray::New());
vtkTab->SetNumberOfComponents(1);
vtkTab->SetName(MEDFileFieldRepresentationLeavesArrays::NUM_ID_CELL_NAME);
- if(noCpyNumCells)
- vtkTab->SetArray(numCells->getPointer(),numCells->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTab->SetArray(numCells->getPointer(),numCells->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); numCells->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<int>(vtkTab,numCells,noCpyNumCells);
ret->GetCellData()->AddArray(vtkTab);
vtkTab->Delete();
numCells->decrRef();
vtkIntArray *vtkTab(vtkIntArray::New());
vtkTab->SetNumberOfComponents(1);
vtkTab->SetName(MEDFileFieldRepresentationLeavesArrays::FAMILY_ID_NODE_NAME);
- if(noCpyFamNodes)
- vtkTab->SetArray(famNodes->getPointer(),famNodes->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTab->SetArray(famNodes->getPointer(),famNodes->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); famNodes->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<int>(vtkTab,famNodes,noCpyFamNodes);
ret->GetPointData()->AddArray(vtkTab);
vtkTab->Delete();
famNodes->decrRef();
vtkIntArray *vtkTab(vtkIntArray::New());
vtkTab->SetNumberOfComponents(1);
vtkTab->SetName(MEDFileFieldRepresentationLeavesArrays::NUM_ID_NODE_NAME);
- if(noCpyNumNodes)
- vtkTab->SetArray(numNodes->getPointer(),numNodes->getNbOfElems(),1,VTK_DATA_ARRAY_FREE);
- else
- { vtkTab->SetArray(numNodes->getPointer(),numNodes->getNbOfElems(),0,VTK_DATA_ARRAY_FREE); numNodes->accessToMemArray().setSpecificDeallocator(0); }
+ AssignDataPointerToVTK<int>(vtkTab,numNodes,noCpyNumNodes);
ret->GetPointData()->AddArray(vtkTab);
vtkTab->Delete();
numNodes->decrRef();
}
+ // Global Node Ids if any ! (In // mode)
+ DataArrayInt *gni(ptMML2->retrieveGlobalNodeIdsIfAny());
+ if(gni)
+ {
+ vtkIntArray *vtkTab(vtkIntArray::New());
+ vtkTab->SetNumberOfComponents(1);
+ vtkTab->SetName(MEDFileFieldRepresentationLeavesArrays::GLOBAL_NODE_ID_NAME);
+ AssignDataPointerToVTK<int>(vtkTab,gni,false);
+ ret->GetPointData()->AddArray(vtkTab);
+ vtkTab->Delete();
+ gni->decrRef();
+ }
return ret;
}
}
}
}
-
+
std::string MEDFileFieldRepresentationTree::getActiveMeshName() const
{
int dummy0(0),dummy1(0),dummy2(0);
/*!
*
*/
-
-void MEDFileFieldRepresentationTree::loadInMemory(MEDFileFields *fields, MEDFileMeshes *meshes)
+void MEDFileFieldRepresentationTree::loadInMemory(MEDCoupling::MEDFileFields *fields, MEDCoupling::MEDFileMeshes *meshes)
{
- if(!((MEDCoupling::MEDFileFields *)fields))
+ _fields=fields; _ms=meshes;
+ if(_fields.isNotNull())
+ _fields->incrRef();
+ if(_ms.isNotNull())
+ _ms->incrRef();
+ //
+ if(_fields.isNull())
{
- fields=BuildFieldFromMeshes(meshes);
+ _fields=BuildFieldFromMeshes(_ms);
}
else
{
- AppendFieldFromMeshes(meshes,fields);
+ AppendFieldFromMeshes(_ms,_fields);
}
- meshes->cartesianizeMe();
- fields->removeFieldsWithoutAnyTimeStep();
- std::vector<std::string> meshNames(meshes->getMeshesNames());
+ _ms->cartesianizeMe();
+ _fields->removeFieldsWithoutAnyTimeStep();
+ std::vector<std::string> meshNames(_ms->getMeshesNames());
std::vector< MCAuto<MEDFileFields> > fields_per_mesh(meshNames.size());
for(std::size_t i=0;i<meshNames.size();i++)
{
- fields_per_mesh[i]=fields->partOfThisLyingOnSpecifiedMeshName(meshNames[i].c_str());
+ fields_per_mesh[i]=_fields->partOfThisLyingOnSpecifiedMeshName(meshNames[i].c_str());
}
std::vector< MCAuto<MEDFileAnyTypeFieldMultiTS > > allFMTSLeavesToDisplaySafe;
std::size_t k(0);
for(std::size_t k=0;k<splitByMeshName[j].size();k++)
sbmn[k]=splitByMeshName[j][k];
//getMeshWithName does not return a newly allocated object ! It is a true get* method !
- std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > commonSupSplit(MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport(sbmn,meshes->getMeshWithName(meshNamesLoc[j].c_str()),fsp));
+ std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > commonSupSplit(MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport(sbmn,_ms->getMeshWithName(meshNamesLoc[j].c_str()),fsp));
std::vector< std::vector< MCAuto<MEDFileAnyTypeFieldMultiTS> > > commonSupSplitSafe(commonSupSplit.size());
this->_data_structure[i][j].resize(commonSupSplit.size());
for(std::size_t k=0;k<commonSupSplit.size();k++)
this->computeFullNameInLeaves();
}
-
void MEDFileFieldRepresentationTree::loadMainStructureOfFile(const char *fileName, bool isMEDOrSauv, int iPart, int nbOfParts)
{
+ MCAuto<MEDFileMeshes> ms;
+ MCAuto<MEDFileFields> fields;
if(isMEDOrSauv)
{
if((iPart==-1 && nbOfParts==-1) || (iPart==0 && nbOfParts==1))
{
- _ms=MEDFileMeshes::New(fileName);
- _fields=MEDFileFields::New(fileName,false);//false is important to not read the values
+ MCAuto<MEDFileMeshSupports> msups(MEDFileMeshSupports::New(fileName));
+ MCAuto<MEDFileStructureElements> mse(MEDFileStructureElements::New(fileName,msups));
+ ms=MEDFileMeshes::New(fileName);
+ fields=MEDFileFields::NewWithDynGT(fileName,mse,false);//false is important to not read the values
+ if(ms->presenceOfStructureElements())
+ {// pre traitement
+ fields->loadArrays();
+ fields->blowUpSE(ms,mse);
+ }
+ int nbMeshes(ms->getNumberOfMeshes());
+ for(int i=0;i<nbMeshes;i++)
+ {
+ MEDCoupling::MEDFileMesh *tmp(ms->getMeshAtPos(i));
+ MEDCoupling::MEDFileUMesh *tmp2(dynamic_cast<MEDCoupling::MEDFileUMesh *>(tmp));
+ if(tmp2)
+ tmp2->forceComputationOfParts();
+ }
}
else
{
#ifdef MEDREADER_USE_MPI
- _ms=ParaMEDFileMeshes::New(iPart,nbOfParts,fileName);
- int nbMeshes(_ms->getNumberOfMeshes());
+ ms=ParaMEDFileMeshes::New(iPart,nbOfParts,fileName);
+ int nbMeshes(ms->getNumberOfMeshes());
for(int i=0;i<nbMeshes;i++)
{
- MEDCoupling::MEDFileMesh *tmp(_ms->getMeshAtPos(i));
+ MEDCoupling::MEDFileMesh *tmp(ms->getMeshAtPos(i));
MEDCoupling::MEDFileUMesh *tmp2(dynamic_cast<MEDCoupling::MEDFileUMesh *>(tmp));
if(tmp2)
MCAuto<DataArrayInt> tmp3(tmp2->zipCoords());
}
- _fields=MEDFileFields::LoadPartOf(fileName,false,_ms);//false is important to not read the values
+ fields=MEDFileFields::LoadPartOf(fileName,false,ms);//false is important to not read the values
#else
std::ostringstream oss; oss << "MEDFileFieldRepresentationTree::loadMainStructureOfFile : request for iPart/nbOfParts=" << iPart << "/" << nbOfParts << " whereas Plugin not compiled with MPI !";
throw INTERP_KERNEL::Exception(oss.str().c_str());
{
MCAuto<MEDCoupling::SauvReader> sr(MEDCoupling::SauvReader::New(fileName));
MCAuto<MEDCoupling::MEDFileData> mfd(sr->loadInMEDFileDS());
- _ms=mfd->getMeshes(); _ms->incrRef();
- int nbMeshes(_ms->getNumberOfMeshes());
+ ms=mfd->getMeshes(); ms->incrRef();
+ int nbMeshes(ms->getNumberOfMeshes());
for(int i=0;i<nbMeshes;i++)
{
- MEDCoupling::MEDFileMesh *tmp(_ms->getMeshAtPos(i));
+ MEDCoupling::MEDFileMesh *tmp(ms->getMeshAtPos(i));
MEDCoupling::MEDFileUMesh *tmp2(dynamic_cast<MEDCoupling::MEDFileUMesh *>(tmp));
if(tmp2)
tmp2->forceComputationOfParts();
}
- _fields=mfd->getFields();
- if((MEDCoupling::MEDFileFields *)_fields)
- _fields->incrRef();
+ fields=mfd->getFields();
+ if(fields.isNotNull())
+ fields->incrRef();
}
- //
- loadInMemory(_fields,_ms);
+ loadInMemory(fields,ms);
}
void MEDFileFieldRepresentationTree::removeEmptyLeaves()
return leaf.getTimeSteps(tk);
}
-vtkDataSet *MEDFileFieldRepresentationTree::buildVTKInstance(bool isStdOrMode, double timeReq, std::string& meshName, const TimeKeeper& tk) const
+vtkDataSet *MEDFileFieldRepresentationTree::buildVTKInstance(bool isStdOrMode, double timeReq, std::string& meshName, const TimeKeeper& tk, ExportedTinyInfo *internalInfo) const
{
int lev0,lev1,lev2;
const MEDFileFieldRepresentationLeaves& leaf(getTheSingleActivated(lev0,lev1,lev2));
tr=new MEDStdTimeReq((int)zeTimeId);
else
tr=new MEDModeTimeReq(tk.getTheVectOfBool(),tk.getPostProcessedTime());
- vtkDataSet *ret(leaf.buildVTKInstanceNoTimeInterpolation(tr,_fields,_ms));
+ vtkDataSet *ret(leaf.buildVTKInstanceNoTimeInterpolation(tr,_fields,_ms,internalInfo));
delete tr;
return ret;
}
